WO2001021131A2 - Systems and methods for drug dispensing - Google Patents
Systems and methods for drug dispensing Download PDFInfo
- Publication number
- WO2001021131A2 WO2001021131A2 PCT/US2000/026170 US0026170W WO0121131A2 WO 2001021131 A2 WO2001021131 A2 WO 2001021131A2 US 0026170 W US0026170 W US 0026170W WO 0121131 A2 WO0121131 A2 WO 0121131A2
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- WIPO (PCT)
- Prior art keywords
- dispenser
- dispensing
- medical product
- drag
- prescription
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Classifications
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F5/00—Coin-actuated mechanisms; Interlocks
- G07F5/18—Coin-actuated mechanisms; Interlocks specially adapted for controlling several coin-freed apparatus from one place
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F17/00—Coin-freed apparatus for hiring articles; Coin-freed facilities or services
- G07F17/0092—Coin-freed apparatus for hiring articles; Coin-freed facilities or services for assembling and dispensing of pharmaceutical articles
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F7/00—Mechanisms actuated by objects other than coins to free or to actuate vending, hiring, coin or paper currency dispensing or refunding apparatus
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F9/00—Details other than those peculiar to special kinds or types of apparatus
- G07F9/001—Interfacing with vending machines using mobile or wearable devices
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F9/00—Details other than those peculiar to special kinds or types of apparatus
- G07F9/002—Vending machines being part of a centrally controlled network of vending machines
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H10/00—ICT specially adapted for the handling or processing of patient-related medical or healthcare data
- G16H10/60—ICT specially adapted for the handling or processing of patient-related medical or healthcare data for patient-specific data, e.g. for electronic patient records
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H20/00—ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance
- G16H20/10—ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance relating to drugs or medications, e.g. for ensuring correct administration to patients
- G16H20/13—ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance relating to drugs or medications, e.g. for ensuring correct administration to patients delivered from dispensers
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/63—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for local operation
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/67—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for remote operation
Definitions
- Automated pharmaceutical delivery systems have been in use for over thirty years. The initial purpose of such systems was to reduce the high rates of medication errors associated with manual distribution. In modern times, automated systems present more sophisticated advantages. These include: further reduction of errors, lower costs associated with pharmaceutical distribution, reduction of personnel, inventory control, substance control, automated documentation, and relieving professional pharmacists of many tasks.
- the current state of the art of automated pharmaceutical delivery systems, otherwise known as medication management devices generally fall under three categories: automated devices in the central pharmacy area; automated devices in the patient care unit; and point-of-care information systems.
- centrally-located devices The primary goal of centrally-located devices is to replace or improve the current manual process for filling unit dose carts. These devices offer the advantage of a single, centralized inventory and a lower overall inventory. Disadvantages of such devices include their large size, high cost, and reliance on efficient delivery systems.
- Patient care unit-based devices replace the traditional manual unit dose cart filling and delivery system and provide increased control over floor stock. Advantages of such systems include their smaller size and lower cost relative to centrally-located devices, immediate access to medications, and automated documentation of medication administration. Disadvantages include application to unit dose levels only, increased costs due to the maintenance of multiple inventories in multiple units, additional time required to restock multiple devices, and larger inventory.
- Point-of-care systems are designed to enable immediate exchange of patient data at the bedside. Such systems allow for rapid access to patient information, fast documentation, integration of hospital information systems, and immediate verification of drug administration.
- Primary disadvantages of point-of-care systems include high cost associated with placing hardware in each room, networking the system, and security issues associated with personal data access.
- the present invention relates to a method for remote dispensing of pharmaceuticals or other medical products using a distributed, interoperable, packet- switched network such as the Internet and to a system that combines computer hardware and software, including a computer network, a telecommunications capability, and a medical products dispensing cabinet to form a complete drug dispensing system.
- the medical products may include, but are not limited to, packaged or non-packaged pharmaceuticals or individual pills, caplets, tablets, liquids, or suspensions. This enables drug prescription dispensing in volume by a physician, pharmacist, or other licensed practitioner directly to the patient at a clinic, group practice, or other location outside a pharmacy or a hospital.
- the system provides a convenient, safe, automated, and low cost drug delivery system for the patient.
- a preferred embodiment of the present invention is directed to an apparatus and method for automated dispensing of packaged and non-packaged pharmaceuticals.
- the remote control dispenser system of the invention includes a centralized computer network in conjunction with product release at a remote location.
- the centralized network communicates with the remote distribution point using standard Internet Protocols (IP) or higher level application protocols such as Hypertext Transport Protocol (HTTP).
- IP Internet Protocol
- HTTP Hypertext Transport Protocol
- a web browser can be employed as a tool to provide for the controlled remote dispensing of packaged and non-packaged pharmaceuticals.
- a customized web server can be employed as a tool to provide for the controlled remote dispensing of packaged and non-packaged pharmaceuticals.
- the systems and methods of the present invention provide for the efficient remote dispensing of medical products using widely available communications network technology while preserving the confidentiality of patient information and the safety of users based on restricted access to controlled substances.
- a preferred system and method for remote dispensing of a medical product such as, for example, a prescription pharmaceutical includes an authorization node, a dispensing node to distribute the authorized medical product, a controlling node that interfaces with the authorization node and the dispensing node and a transmission medium between the nodes.
- the authorization node can include a controller and appropriate software used by a pharmacist or a licensed physician.
- the dispensing node can include a housing having a plurality of bins which store encoded packages of medical products and a dispenser controller.
- the controlling node which may be collocated with the authorization node, includes a customized web server to control the flow of information between the authorization and dispensing node.
- a preferred embodiment of the present invention relates to systems and methods of dispensing samples of drugs or other medical products. Samples are often given to patients by physicians at clinics, offices, or hospitals. These samples are provided free of charge to physicians or institutions for distribution to patients. At present, there are no systematic procedures for controlling the distribution of samples and there are increasing requirements by regulatory and accrediting institutions to provide such controls.
- Samples are usually packaged as unit doses in small foil and/or plastic containers with labels intended to identify a particular brand name or manufacturer so that the patient will then associate the particular medication with a particular source.
- labels intended to identify a particular brand name or manufacturer so that the patient will then associate the particular medication with a particular source.
- packaging for different samples from different sources tend to be varied in size and shape.
- a system for containing and monitoring distribution in accordance with the present invention includes a number of trays or drawers in which the samples are stored, a control system that opens and closes the system to provide access to the user and secures the system to restrict unauthorized access.
- a user identification system can be included that serves to identify those gaining access to the dispensing system.
- This system can include a computer containing a catalog of medications dispensed using the system as well as patient data, or alternatively, accessing such information using a communication network as described herein.
- Another preferred embodiment of the present invention provides a system for dispensing non-prescription medications or other medical products that do not require a licensed physician or pharmacist to be involved in the transaction.
- a system can include a secure storage housing that dispenses individual packages based on credit card, debit card, cash, or other smart card transactions.
- the system can utilize features of the communications network, code reader, and dispensing systems described herein to provide for the distribution of "over the counter" medical products.
- Figure 1 A is a diagram of a preferred embodiment of an automated drug dispensing system in accordance with the present invention.
- Figure IB is a perspective illustration of a rack of columns in accordance with the present invention.
- Figure 1C is a perspective illustration of drawers of helix dispensers.
- Figure ID is a perspective illustration of a system including helix and column dispensers in accordance with the present invention.
- FIG. 2 is a flow diagram representing the processes performed by the pharmacy technician at a Remote Control Dispenser (RCD) in a remote dispense location and a registered pharmacist, R.Ph., at a remote control location in accordance with the present invention.
- RCD Remote Control Dispenser
- Figure 3 is a schematic block diagram illustrating the drug dispensing system in accordance with the present invention.
- Figure 4A is a schematic block diagram illustrating a drug dispensing system having a host system in one city and a remote drug dispensing system in different cities in accordance with the present invention.
- Figures 4B - 4C are schematic block diagrams illustrating the transfer of information between the host system and the dispensing system in accordance with the present invention.
- Figures 5A-5C are schematic block diagrams illustrating the sequence of the transfer of information between a host system and a remote drug dispensing system, using the Internet, in accordance with the present invention.
- Figures 6A and 6B are flowcharts illustrating the process to dispense medications in accordance with the present invention.
- Figure 7 is a schematic block diagram illustrating a drug dispensing system having an integrated touchscreen computer and print module in accordance with the present invention.
- Figures 8A and 8B are schematic block diagrams illustrating a remote control dispensing system which uses a server to control drug dispensing in accordance with the present invention.
- Figure 9A is a schematic block diagram illustrating a preferred embodiment of the remote control dispensing system which uses an internal data socket network configuration in accordance with the present invention.
- Figures 9B and 9C are flow charts illustrating the process to dispense medications using the preferred embodiment of the present invention illustrated in Figure 9A.
- Figure 10A is a schematic block diagram of a preferred embodiment of the remote control dispensing system using the internet and host pharmacy system network configuration.
- Figures 10B-10D are flow charts illustrating the process to dispense medications using the preferred embodiment of the present invention illustrated in Figure 10 A.
- Figure 11 A is a schematic block diagram of a preferred embodiment of the remote control dispensing system using the internet network configuration.
- Figures 1 IB- 1 ID are flowcharts illustrating the process to dispense medications using the preferred embodiment of the present invention illustrated in Figure 11 A.
- Figures 12A and 12B are schematic block diagrams illustrating the use of a telephone network in a drug dispensing system in accordance with the present invention.
- Figure 13A is a schematic block diagram of a preferred embodiment of the remote control dispensing system using a telephone network direct dial configuration.
- Figures 13B and 13C are flow charts illustrating the process to dispense medications using the preferred embodiments of the present invention illustrated in Figure 13 A.
- Figures 14A and 14B are schematic block diagrams illustrating the use of a pager service in a drug dispensing system in accordance with the present invention.
- Figures 15A and 15B are schematic block diagrams illustrating the use of a satellite system to transfer information in a remote control drug dispensing system in accordance with the present invention.
- Figures 16A-16E illustrate views of the display screen that a user interfaces with during a dispense process to dispense a drug sample in accordance with a preferred embodiment of the present invention.
- Figures 17A-17C illustrate views of the display screen that a user interfaces with during a maintenance process including loading medications in accordance with a preferred embodiment of the present invention which includes dispensing of drug samples.
- Figures 18A-18D illustrate views of the display screen that a user interfaces with during a maintenance process including an inventory process in accordance with a preferred embodiment of the present invention which includes dispensing of drug samples.
- Figures 19A-19C illustrate views of the display screen that a user interfaces with including a prescriber process in accordance with a preferred embodiment of the present invention which includes dispensing of drug samples.
- Figures 20A and 20B illustrate views of the display screen that a user interfaces with during a transaction process in accordance with a preferred embodiment of the present invention which includes dispensing of drug samples.
- Figure 21 illustrates views of the display screen that a user interfaces with during a history loading process in accordance with a preferred embodiment of the present invention which includes dispensing of drug samples.
- Figure 22 illustrates views of the display screen that a user interfaces with during a report process in accordance with a preferred embodiment of the present invention which includes dispensing of drug samples.
- Figures 23 A and 23B illustrate views of the drug sample dispenser in accordance with the present invention.
- Figures 24A and 24B illustrate views of a computer chassis located within the dispenser illustrated in Figures 23 A and 23B.
- Figure 25 illustrates a view of a computer mounted on the chassis located within the dispenser illustrated in Figures 23A and 23B.
- Figures 26A and 26B illustrate views of a motion control system located within the dispenser illustrated in Figures 23A and 23B.
- Figures 27A-27D illustrate views of an embodiment of a bin located within the dispenser illustrated in Figures 23 A and 23B.
- Figure 28 illustrates a view of an introductory display screen that a user interfaces with to dispense a non-prescription drug in accordance with a preferred embodiment of the present invention.
- Figure 29 illustrates a view of a display screen showing in particular a drug category selection screen that a user interfaces with to dispense a non-prescription drug in accordance with a prefe ⁇ ed embodiment of the present invention.
- Figure 30 illustrates a view of a display screen showing in particular a drug availability screen that a user interfaces with to dispense a non-prescription drug in accordance with a prefe ⁇ ed embodiment of the present invention.
- Figure 31 illustrates a view of a display screen showing in particular a drug list screen that a user interfaces with to dispense a non-prescription drug in accordance with a prefe ⁇ ed embodiment of the present invention.
- Figure 32 illustrates a view of a display screen showing in particular a user identification screen that a user interfaces with to dispense a non-prescription drug in accordance with a prefe ⁇ ed embodiment of the present invention.
- Figure 33 illustrates a view of a display screen showing in particular a ready- to-dispense screen that a user interfaces with to dispense a non-prescription drug in accordance with a prefe ⁇ ed embodiment of the present invention.
- Figure 34 illustrates a view of a display screen showing in particular an ending screen that a user interfaces with to dispense a non-prescription drug in accordance with a prefe ⁇ ed embodiment of the present invention.
- Figure 35 illustrates a detailed view of the prefe ⁇ ed embodiment of the non- prescription drug dispenser in accordance with the present invention.
- Figure 36 illustrates a view of an embodiment of the helix trays of the non- prescription drug dispenser in accordance with the present invention.
- Figure 37 illustrates a view of the details of an embodiment of a door installed in a prefe ⁇ ed embodiment of the non-prescription drug dispenser in accordance with the present invention.
- the present invention relates to systems and methods for the remote dispensing of packaged and non-packaged medical products including the methods for controlling a drug dispensing system described in U.S. Patent Application No. 09/058,524 filed April 10, 1998, which is a continuation of PCT/US96/16758, filed October 18, 1996, which is a continuation-in-part of U.S. Patent Application No. 08/642,484 filed on May 3, 1996, now U.S. Patent No. 5,797,515 which issued August 25, 1998, which is a continuation-in-part of U.S. Patent Application No. 08/544,623 filed on October 18, 1995, now U.S. Patent No. 5,713,485 which issued February 3, 1998, the entire contents of the above patents and applications being inco ⁇ orated herein by reference.
- the present invention provides safe pharmaceutical prescription dispensing directly by physicians, pharmacists, and other trained or licensed practitioners operating in small to medium size locations in a cost-effective manner.
- the dispensing locations can be remote from the location of a licensed practitioner such as, for example, a pharmacist.
- Prepackaged pharmaceuticals are stocked at nearby municipal service centers and distributed to the health care locations as needed.
- the inventory is continually and automatically monitored by a host computer at the location, and/or off-site on a central server. Inventory is ordered on a just-in-time basis by the computer. In this manner, prepackaged multiple-dose pharmaceuticals are available to practitioners at the health-care facility for immediate filling of patient prescriptions.
- the present invention offers significant advantages to physician group practices.
- the system improves customer service and enhances the image of the group practice.
- Drug theft is prevented by securing the pharmaceuticals in a closed system on hand and inventory is kept low.
- the system meets state pharmacy, safety, and regulatory compliance laws, whereas many manual dispensing systems do not.
- a pharmaceutical distributor can handle all inventory planning, financing, maintenance, and ordering with minimal interaction with group practitioners. Disruptive telephone calls to the physician from pharmacists are minimized. Further, physicians can gain immediate access to a patient's pharmacy records cu ⁇ ently unavailable to him.
- Managed care providers for example, Health Maintenance Organizations and Pharmacy Benefits Managers also realize significant advantages from the present invention.
- the invention increases the likelihood that a patient will receive the required treatment, because the pharmacy is available at the doctor's office. Labor costs for in-house pharmacies are reduced, allowing staff reductions or reassignments. In-house drug dispensing can be extended to physician-staffed satellite clinics and other locations not suitable economically for conventional pharmacies.
- the system enables automated patient compliance enhancing programs, drug utilization analysis, and the use of other emerging pharmacy management opportunities to reduce costs and improve patient compliance and wellness. Drug costs are reduced by formulary control, thereby encouraging generic substitution of name brand drugs. Inventory is tracked automatically by the drug distributor headquarters, thus preserving professional time for patient care.
- FIG. 1A is a diagram of an automated drug dispensing system in accordance with the present invention.
- the primary components of the system include a remote control dispenser (RCD) cabinet 20, a host computer 46, a modem 52, a document printer 56, and a label printer 54.
- the cabinet 20 includes a rack 24 comprising a plurality of bins, preferably in the shape of columns 34.
- Packages 32 such as drug bottles, containing pharmaceuticals of various types are distributed among the columns 34, each column 34 containing a separate type of pharmaceutical, or multiple columns 34 containing the same pharmaceutical to help prevent stock outs on more frequently dispensed pharmaceuticals.
- a plurality of racks, for example, four racks 24 are enclosed in the cabinet 20 chamber, two in the main cabinet 20 and two on the doors 22. The doors are secured by locks 28.
- a licensed user for example, a doctor, pharmacist, nurse, or other medical practitioner qualified to fill patient prescriptions, operates the system at the host computer 46, using a keyboard 50 and mouse 66 for input and receiving visual feedback at a monitor 48.
- a touch screen can be used for input.
- a user Using the keyboard 50, a user enters a command to request dispensing of a particular packaged pharmaceutical variety 32 for a particular patient.
- the computer 46 transmits the request via an interface 70 to a controller 42 located on the RCD cabinet 20.
- the controller 42 inte ⁇ rets the command sent from the computer 46 and enables a dispensing actuator 68 in the appropriate column 34.
- the lowest package 32 in the appropriate column 34 is released from the column 34 and ejected onto a ramp 30.
- the released package 74 slides down the ramp 30 into an opening 26, where the released package 74 is made available to the dispensing party for transfer to the patient.
- a bar code reader 40 located near the dispensing opening 26, reads a code 98 on the dispensed package 74 and transmits the bar code information to the computer 46, which informs the user whether the code 98 on the dispensed package 74 matches that which was requested by the user.
- the bar code 98 can be disposed on the side, top, and/or bottom of the package 32.
- a semiconductor chip can be embedded in the dispensed package which, when passed through an RF field, charges a capacitor. When the capacitor reaches an appropriate level, a weak RF signal is emitted. The signal can include approximately a 12 digit number.
- the semiconductor chip can also be used to uniquely identify a dispensed item.
- sensors 36 located on each column 34 monitor the dispensing process and notify the controller 42 of any package jams.
- the sensors 36 also monitor inventory of the columns 34 and notify the computer 46 through controller 42 that a particular column is empty or near empty.
- the prescription can be dispensed directly to the patient.
- a card reader 38 mounted directly on or near the cabinet, is adapted to receive a card 39 from a patient.
- the card is programmed with patient information that is stored in an electronic memory on the card by a licensed practitioner.
- the patient inserts the card 39 in the card reader 38 and receives his medication automatically from the cabinet.
- the medication bottle 32 may be filled with a single dose of medication for a particular patient, or can include weekly or monthly doses. This embodiment is especially useful in large institutions, such as prisons, where many individuals require medication on a regular basis.
- the computer Upon validating the bar-code 98 or the unique electronic signature of the dispensed package 74, the computer generates a label 58 containing prescription information at a label printer 54 to be placed on the package, and generates a document 60 at a document printer 56 containing additional instructions for the patient or practitioner.
- a modem 52 enables periodic or continuous communication between the host computer 46 and other computers in the network so that a complete inventory and status of each remote control dispenser cabinet is available at all times.
- Several remote control dispenser cabinets 20 can be integrated into a single installation operated by a single computer 46. The cabinets 20 can each be individually connected to the host computer 46, or may be daisy-chained, with only one cabinet 20 in the chain connected to the host 46.
- the RCD controller 42 receives commands from and transmits status information to the host computer 46 via the controller interface 70.
- a request command sent from the host computer 46 identifies the pharmaceutical package 32 to be dispensed.
- the RCD controller 42 activates the appropriate dispenser 68, thereby releasing a single package of the variety requested.
- a parallel or serial I/O interface 62 at the host computer 46 provides a sufficient communication channel. The simplest interface is a unidirectional channel from the host computer 46 to the controller 42.
- a full duplex implementation allows the controller 42 to transfer status information back to the host 46. Status information may include e ⁇ ors such as package jams, empty columns, or other cabinet status. Availability of such information prevents inconsistencies in the database and provides the operator with recovery procedures. This would require adequate sensors 36 to be mounted in appropriate positions on the RCD cabinet 20.
- the bar-code reader 40 or an electronic digital signal reader can be mounted directly on the unit or can comprise a hand-held unit 41. It verifies proper loading of the RCD cabinet 20 and proper dispensing of each pharmaceutical package 32. Before a column 34 is loaded with packages 32, the column bar code label 76 is compared with the bar code label 98 of each package 32 inserted into the column 34. Each time a package 74 is dispensed from the cabinet 20, the package bar code label 98 is scanned by the bar code reader 40 to verify that the co ⁇ ect pharmaceutical has been dispensed.
- the bar code reader 40 is interfaced to the host computer 46 through a standard keyboard wedge 64. The wedge 64 makes the bar code reader 40 input via the bar code interface 72 appears to be coming from the keyboard 50.
- Such an interface is a simple and reliable interface to the pharmacy software operating on the computer 46.
- the bar code reader 40 must be highly reliable and provide a high first read rate. Label printing on the pharmaceutical packages 32 must be of high quality to accommodate this.
- the electronic digital signal reader interfaces with a communications port (comm port), a network interface card (NIC), or is in direct communication with the computer bus. During loading, the bottles are loaded into each column up to a certain height. The highest bottle in the column is positioned adjacent a bar coded column label 75 running along each column. Thus, the number of bottles in each column can be recorded at loading and tracked during use.
- the host computer 46 runs the pharmacy software, provides a user interface, and supports the RCD controller 42, bar code reader 40, printer, electronic digital signal reader, and modem 52.
- the keyboard 50 and mouse 66 receive input from the user and the monitor 48 provides visual feedback.
- the document printer 56 prints documentation 60 such as detailed instructions and a label printer 54 prints package labels 58, for example, prescription information 59 for adherence to the dispensed package 74.
- a single printer can be used to provide both the patient label and patient education material.
- the prescription label 58 may also include a printed picture of the pharmaceutical 57 contained on the bottle to provide additional safety.
- the modem 52 provides a communication link between the municipal service center (MSC) 106 and the remote control dispenser 108.
- MSC municipal service center
- the modem link also serves as a medium to issue restock orders, update pharmacy software running on the host computer 46, and provide remote diagnostics.
- the modem can be compatible with standard telephone lines and can be capable of transferring data at sufficient rates.
- the pharmacy software operating on the host computer 46 is a standard commercial software package which provides standard administrative and accounting capabilities.
- the pharmacy software also supports the unique features of the remote control dispenser system. These include: data communication with the RCD controller 42 via parallel or serial I/O interface 62; network interface card (NIC); data communication with the bar code reader 40 via keyboard wedge 64; data communication with the municipal service center via modem 52; printing of labels 58 with the label printer 54 and printing of documentation 60 with the document printer 56.
- NIC network interface card
- the cabinet 20 and rack 24 are preferably fabricated from aluminum, stainless steel, or plastic to be fully compatible with a clinical setting.
- the rack 34 can be modified to provide for a diversity of packages including various box and bottle sizes, unit-of-use packaging, liquids, syringes, and various non-prescription products, for example, medical supplies.
- system can be utilized as a free-standing system, as a local network integrated with physician office computers, or as a centralized network in conjunction with product release at a remote location.
- FIG. IB is a perspective illustration of a rack 110 of columns 112.
- Each column 112 includes a co ⁇ esponding roller assembly 114, which is individually addressable by the controller to dispense a bottle 116 as shown.
- a pusher 118 pushes the dispensed bottle forward into an off-center tilt tray 121 and returns to its original position.
- the tilt tray 121 rotates in the direction shown by arrow 123 for removal of the dispensed bottle by the operator.
- Either a return spring or gravity returns the tilt tray 121 to its closed position. Note that the tilt tray 121 when opened by the operator prevents entry of the operator's hand or other objects into the rack area 110 to avoid pilferage.
- each rack 110 of columns slides out in the direction shown by a ⁇ ow 124.
- Each rack preferably includes a key lock at the top with a keying mechanism which retains the key until the rack is returned to its position, preventing loss of the key. After the columns are filled, the rack is returned to its normal position and the key is removed.
- FIG. 1C is a perspective illustration of an alternative embodiment of the present invention.
- drawers 120 of helix dispensers 122 are contained in a cabinet 124.
- the helix dispensers 122 when activated, rotate in a single direction. As the helix 122 rotates, any pharmaceutical packages disposed on the helix are pushed forward toward the front of the cabinet 124. One full rotation of the helix 122 will cause the outermost package to be released, causing the package to fall into the bin 126. After the package drops into the bin 126, an operator slides open the bin 126 and removes the package. While the bin is open, a door blocks the opening between the bin 126 and the dispensing area to prevent pilferage.
- the helix-dispensing unit described above is particularly suitable for packages of various non-standard sizes, for example boxes, bags, and kits. Larger- sized helixes 122 maybe used for smaller packages. The helixes 122 are each individually driven by a stepper motor located in the rear of each tray. door blocks the opening between the bin 126 and the dispensing area to prevent pilferage. The helix-dispensing unit described above is particularly suitable for packages of various non-standard sizes, for example boxes, bags, and kits. Larger- sized helixes 122 may be used for smaller packages. The helixes 122 are each individually driven by a stepper motor located in the rear of each tray.
- Figure ID is a remote control dispenser embodiment well-suited for use in a doctor's office or in a small clinic.
- the top unit 130 includes a column dispenser as shown in Figure IB.
- the bottom unit 132 includes a helix dispenser as shown in Figure lC. This combination of dispensers covers a range of package styles for controlled substances, tool kits, and bandages for a typical clinic.
- Figure 2 is a flow diagram representing the processes performed by the pharmacy technician at an RCD and a registered pharmacist at the RPH workstation in accordance with the present invention.
- a patient presents a prescription to a technician at an RCD unit 270.
- the technician determines whether the drug is stocked in the RCD unit 271. If the pharmaceutical is not stocked, then the technician decides whether to electronically transfer via facsimile, email, or otherwise, the prescription to an affiliate 272. If the prescription is transfe ⁇ ed to the affiliated pharmacy, 273, the patient may travel to that pharmacy to receive the pharmaceutical. Otherwise, the prescription is returned to the patient 274 to be filled at another RCD unit or by another pharmacist of the patient's choosing.
- the drug is stocked at the RCD unit, then patient data is retrieved 275, the drug is selected 276, the prescription signa is selected 277 and additional scripts may be entered 278. Following this, the identification number of the prescriber is entered 279 and all data is transmitted to the RPH workstation 280.
- the pharmacist verifies the prescription 281 and performs a drug utilization review 282. If issues arise during the review, the pharmacist is immediately made aware of the conflict and given an opportunity to review and, if appropriate, override 283 the contra-indications 284. If the pharmacist decides at this point to discontinue the dispensing 285, the process is aborted 294.
- claim adjudication is performed 286.
- a patient's insurance information is automatically verified to determine whether the insurer will pay for the prescription, and if so, if any co- payment is required from the patient. If a negative response is received 287, drug dispensing is aborted 291. Otherwise, the drug is dispensed and verified with a bar code reader 288. If an improper drug was dispensed, the technician is notified to abort the process as a system failure has occu ⁇ ed 292. Upon system failure electronic notification is performed.
- Distribution headquarters or a regional dispensing location or agent can be notified by the RCD system of an inco ⁇ ect dispense is shown.
- Electronic notification can take the form of a fax, email, file transfer, pager notification, or any other electronic transfer protocol. If verification is positive, a label is printed and affixed to the bottle 290. The technician then must scan an additional bar code that is created at the time of the printing. This bar code is located on the patient label now affixed to the dispensed item. If verification of this last bar code is positive, the prescription is dispensed to the patient by the technician 293.
- the drug dispensing system 310 of the present invention includes computers attached to a computer network system, for example, the Internet 320.
- a computer network system for example, the Internet 320.
- Three of the systems are RCD workstations 322 which control the RCD hardware or dispensers 324.
- a computer system, represented by the laptop graphic, is the "Controlling Pharmacist" computer 326.
- Another computer 328 is a server running typical website type software.
- the operating system of the workstations 322 is preferably a Windows based system, for example, Windows NT systems with access to the Internet via a modem or via a connection to a Local Area Network (LAN), which has access to the Internet.
- Each workstation 322 uses a browser (for example, Microsoft Internet Explorer) to interact with the server 328. The interaction entails getting patient information entered, drug information, etc. Instead of a local executable, the Internet and a browser are used.
- the server 328 sends permission to each workstation 322 via the browser. The permission protocol is discussed in further details hereinafter.
- the server 328 runs Microsoft NT, Microsoft Internet Information Server (ES) 4.0, ColdFusionTM and is connected to the Internet 320 via a static Internet Protocol (IP) address.
- IP Internet Protocol
- a static or dynamic IP or a unique domain name can be used.
- the server 328 contains and maintains all the information necessary to dispense a drug. It effectively functions as a "mainframe.”
- the server 328 passes to the client browser the necessary codes to cause the RCD 324 to dispense the drug requested.
- the pharmacy controller 326 is shown as a laptop to indicate pictorially that there is no attached hardware RCD's, etc. This system also requires access to the Internet 320 via a modem or LAN, and uses a browser to interact with the server 328 and the workstations 322.
- the drug dispensing method of the present invention is predicated on the fact that most everybody has access to the Internet 320.
- IP address which uniquely identifies a user.
- Access to the Internet can be through an existing connection LAN, or using a Microsoft utility for example, dial-up networking.
- the workstation 322 using a bookmark, or Internet Explorer Favorites, or entering the domain name or IP address, connects to the server 328.
- the server 328 for example, WebDirectRx.com has a password gate to control access and to establish which databases the workstation 322 has access to. This reduces any confusion regarding the inventory and dispense queues of networks, for example, in Utah, and Florida.
- the workstation 322 gets access from its user ID and password, plus a cookie that uniquely identifies the installation, to the co ⁇ ect databases. Examples are the inventory database, patient database, transaction database, and the dispense queue database.
- the workstation 322 types into WebDirectRx.com the demographics of a new patient, or selects an existing patient. Another prefe ⁇ ed embodiment has a host pharmacy or hospital network share access to patient records within its own nodes, or dispense sites.
- the workstation 322 selects and enters the Rx information.
- Rx Information is the data needed to process a drug Rx. It includes at least an account number, Rx#, Rx date, patient name, prescriber name, SIG, dosage, and insurance information. This information is placed into a queue database that is accessible for read only by the workstation 322.
- the Rx information is then available to a pharmacy controller account, who has READ/WRITE access to the queue.
- the pharmacy controller 326 uses a browser, and has gone through a password gate. The queue available to the pharmacy controller 326 is based upon the user ID entered to keep the different dispensing networks from sharing or intercepting data not pertinent unto itself.
- the pharmacy controller 326 reviews the Rx information in the queue, processes the information through a D g Utilization Review (DUR) Process, and performs adjudication as needed. Once these services are completed the pharmacy controller 326 places into a dispense queue the Rx information for the sending workstation 322.
- the sending workstation 322 in turn, sees it has an item in its queue, and dispenses that item using one of the methods to dispense a dmg from hardware using the network as will be discussed later.
- the actual signal sent to the RCD 324 is triggered by the pharmacy controller 326, assuming the RCD is in a ready state to receive such a signal.
- Some states require the signal to be controlled by the pharmacy controller 326, versus the caregiver in front of the dispenser.
- the pharmacy controller can control quite a large network of workstations 322.
- FIGS 4A-4C schematically illustrates a host pharmacy system in city 1 connected to a remote dispensing system 340 in city 2 and city 3.
- the dispensing systems 340 are connected to a host interface controller 342 which acts as a gateway and passes control to the host pharmacy workstation 344.
- the information required to process a medication prescription for example, patient information, patient allergies, disease, and medication profile, is sent by the dispense interface central processing unit (CPU) 340 to the host interface CPU 342.
- the information is processed by the host pharmacy server 346 then is sent to a pharmacy label printer 348 which in turn prints out a pharmacy label for the requested medication.
- the pharmacist at the host pharmacy workstation 344 is sent the physician's prescription or a copy thereof.
- the physicians prescription can be in a variety of forms for example, a physician's called in instmctions, an electronic version, a scanned in version from a scanner co-located with the remote dispensing RCD system 324.
- the pharmacist inte ⁇ rets the physician's prescription instmctions against the label printed out by the printer 348. If acceptable, the pharmacist redirects the label to the host interface CPU 342 which now effectively acts as a network printer.
- the host interface CPU 342 parses the output based on a set of instmctions and extracts out the prescription information, for example, the patients name, the name of the dmg, SIGNA etc.
- the host interface CPU 342 then sends a signal, or dispense information, to the dispense interface CPU 340 in either city 2 or city 3 via the Internet 320.
- the dispense interface CPU 340 dispenses the appropriate medication from the RCD 324.
- the dispense interface reconstructs the information and presents it for dispensing from the RCD 324 by the co-located caregiver.
- the dispensed dmg's bar code is scanned along with the printed label and provided to an end user.
- FIGs 5 A-5C schematically illustrate the sequence followed to transfer information between a host pharmacy system in one city and remote dispensing systems in a different city.
- a connection is first established between the host pharmacy system and a remote dispensing system using a remote access engine 350.
- Each location publishes the dynamically assigned IP address to an Internet website 352.
- the dispense system in city 3 queries the Internet website 352 for the dynamically assigned IP address of the host pharmacy system.
- the dispense system then begins remote control 354 of the host pharmacy system to create a medication prescription.
- FIGs 6A and 6B are flow charts illustrating the process to dispense medications using a remote controlled dispense system.
- the prescriber for example, a physician creates a prescription on paper or via electronic means per step 360.
- the prescription is then given to the patient or electronically delivered to a technician who is co-located at a dispense interface CPU 340 per step 362. If the prescription was given to a patient, the patient carries the Rx to a dispense interface CPU 340 location per step 364.
- the prescription is presented to the technician in step 366.
- the technician then faxes, or forwards the electronically generated prescription to a host pharmacy location per step 368.
- the technician uses the Internet 320 to connect to the host interface CPU 342 per step 370.
- the host interface CPU 342 also connects to the Internet 320 per step 372.
- the technician enters patient demographics and prescription information in a host pharmacy software over a link per step 374.
- a dmg utilization review (DUR) process is then conducted by the pharmacist per step 376. This is followed by an adjudication process per step 378 if required.
- a prescription (Rx) label is printed in the host pharmacy software on the pharmacy label printer 348 per step 380.
- the host pharmacy then inte ⁇ rets the faxed or electronically generated prescription with the output from the pharmacy label printer per step 382.
- the host pharmacy then sends the prescription information to the host interface CPU 342 per step 384.
- the host interface CPU 342 sends the prescription information to the dispense interface CPU 340 via the Internet 320 per step 386.
- the prescription is then placed into a queue for the technician who is co-located with the dispense interface CPU 340 per step 388.
- the technician selects the prescription to be dispensed per step 390.
- the technician enters their unique user ID per step 392.
- Upon being queried for a password, per step 394, the technician enters a valid password. If the password is accepted the item is dispensed from the RCD 324 per step 396.
- the item's barcode is read to check if the co ⁇ ect item has been dispensed per step 398. If the barcode is accurate, as decided per step 400, a label containing the monograph and patient material is printed per step 402. The patient label bar code is then read for accuracy per step 404.
- a counsel request is made to the patient per step 406. If a counsel is required per step 408, then a telepharmacy connection is made between the dispense location 340 and the host pharmacy location per step 410. Once the patient is counseled per step 412 the dispensing procedure is completed. If , however, it is decided in step 408 that a counsel is not required then the procedure for dispensing the medication is completed then.
- Figure 7 illustrates a particular embodiment of a remote control dispenser
- Figures 8 A and 8B illustrate a particular embodiment of the remote control dispense system which relies on a web server such as an Internet server 430 as illustrated in Figure 8A, or a customized web server 432 as illustrated in Figure 8B.
- a browser 434 is used to control the dispensing of the medication or package from the RCD 324.
- the Internet server 430 and the web server 432 effectively function as the host interface CPU 342.
- the dmg dispensing method in accordance with the present invention includes at least one of the following different methods to dispense a dmg from hardware such as the RCD 324 using a computer network such as the Internet.
- a first method includes having the web browser which causes a local executable to launch which communicates with the communications port (COMM PORT) of a workstation 340 and thereby the electronics in the RCD 324. This activates automatically in an unattended fashion, effectively like a batch file running.
- the web browser which causes a local executable to launch which communicates with the communications port (COMM PORT) of a workstation 340 and thereby the electronics in the RCD 324. This activates automatically in an unattended fashion, effectively like a batch file running.
- a second method to dispense a dmg from the RCD 324 using the Internet includes direct communications between the browser and the COMM PORT.
- An ADD-ON element is built for the browser that is downloaded each time a dispense signal is to occur, or only once (the first time) and it is called when needed.
- a third method to dispense a dmg from the RCD 324 hardware using the Internet is via a customized software application such as, for example, a JAVA APPLET downloaded as part of the permission to dispense.
- the applet activates the COMM PORT and causes the dispense cycle.
- Another method to dispense a dmg is to have a local executable which is
- http hypertext transfer protocol
- ftp file transfer protocol
- Another method to dispense a dmg includes PCAnywhere. Both systems are connected to the Internet, one mns pcAnywhere HOST, the other pcAnywhere REMOTE.
- the remote via the Internet 320, controls a local executable - the dispense software - just by entering the host IP address, or searches a sub-net for any connected system mnning HOST.
- the dispense protocol remains the same as described herein before.
- the software the technician interacts with can exist on an attached and co-located external computer configuration, or as an integrated computer using TouchScreen components built directly into the RCD.
- an existing host pharmacy software system 470 with a co-located interface application server 476, and a remotely installed dispense location interact to provide pharmaceutical dispensing across a wide geographic region.
- This prefe ⁇ ed embodiment uses the Internet 482 to communicate Rx dispense information.
- the host pharmacy software system 470 via the interface application server 476, sends Rx dispense information onto the dispense location workstation 486.
- the local user for example, a technician, is presented with a queue of processed prescriptions received from the host pharmacy software system 470.
- the dispense location workstation 486 contains local executable program(s) that manage the connection to the internet 482, internet data socket communications, data acceptance, inventory management, and visually prepares the Rx information received from the interface application server 476 in an easy to read queue for the local caregiver, typically a technician.
- the dispense location workstation 486 communicates with the co-located Remote Control Dispenser(RCD) 490 to dispense packaged pharmaceuticals, a printer 472, such as a laser jet or color jet printer to provide patient and record keeping materials, as well as, a barcode scanner for doing quality checks during a dispense.
- RCD Remote Control Dispenser
- the dispense location needs access to a telephone system to get a "dial tone", or a LAN based Internet connection, in order to receive and send communications.
- the host pharmacy software 470 is maintained or mn at the pharmacy control location.
- these are small networks of pharmacy workstations where a retail or hospital pharmacy team interacts with insurers computers to create the order that leads to the filling of a dmg to be handed to the patient.
- the interface application server 476 is a computer that is co-located with the host pharmacy software system 470. It is used to collect information (the Rx data) for a dispense from the host pharmacy system and then forwards that information to the dispense location workstation 486 via the Internet 482.
- a typical workflow of the embodiment illustrated in Figure 9A includes the following sequence of steps.
- An Rx is generated by a Physician or caregiver using a paperless method such as a PDA or Touchscreen or by usual methods using pen and paper, fax and scanners in step 504.
- the Rx information typically contains the patient name, prescriber name and Dmg Enforcement Agency identifiers, instmctions for the administration of the dmg, dmg name, and quantity to be given to the patient.
- the Rx is transmitted to different locations per step 506, for example, if the Rx is transmitted to a pharmacy control location via fax or an electronic means, the authorized dispenser, typically a pharmacist, inte ⁇ rets the transmitted information. Alternatively, if the Rx is transmitted to a dispense location electronically or physically delivered, a user, typically a technician can take authorized action.
- the Rx is manipulated into the host pharmacy software system per step 518 either by an authorized dispenser inte ⁇ reting the Rx information transmitted directly to his/her location and then manually or through an electronic interface transfers the Rx information into the host pharmacy software, or the technician has an option to transmit the information to the authorized dispenser, pharmacist, for the pharmacist to manipulate as described hereinbefore or to remotely connect to the host pharmacy software via a variety of interfaces to transfer the Rx information into the host pharmacy software system either manually or via an electronic interface.
- the connection interfaces can be, but are not limited to, Symantec pcAnywhere directly, Symantec pcAnywhere via the Internet, or by a co-located WAN connection provided with the host pharmacy software.
- the processes can be a Dmg Utilization Review; which entails scanning the dmg to be dispensed against the patient profile contained within the host pharmacy software system to determine if any pharmaceutical contra-indications for dispensing exist.
- An example of a DUR can be a dmg-to-dmg interaction test, or a patient drug allergy test.
- a second typical process is an Adjudication process whereby the host pharmacy Software system communicates with a pharmacy benefit management computer to determine the patients' insurance coverage and payment amounts, if any.
- the Rx information, having been processed by the host pharmacy software system can generally then be determined to be a valid Rx; which can be processed by the pharmacist.
- the pharmacist then triggers patient dmg labeling to be produced by the host pharmacy software system and takes a large bottle of medications from the shelf and counts and places into a smaller bottle, typically called a vial, the number of tablets, caplets, or milliliter's called for by the physician.
- the pharmacist then applies labeling and hands the dmg to the patient.
- the pharmacist or authorized dispenser triggers a patient dmg label to be produced by the host pharmacy software system, however, instead of the label being processed by a co- located printer (laser jet or dot matrix) the output is directed to the interface application server.
- the interface application server accepts the Rx information as a printer stream per step 520, or through a direct electronic interface to the host pharmacy software system network constmcts.
- an application such as, for example, Parse Engine, parses the output received by the host pharmacy software system into discreet data elements. Once the parsing is completed, the data is then encrypted and is uniquely identified for transmission to the dispense location workstation via the Internet.
- the information is received by the dispense location workstation, decrypted and is placed into a work in process queue that is accessed by local executable programs run by the technician per step 508.
- the technician at the dispense location selects the Rx-Drug-Patient to be dispensed from a list of one or more possible to be displayed per step 510.
- the selections are shown as mouse selectable lines. Each line represents a different RX- Dmg-Patient to be processed by the technician.
- the technician at the dispense location is queried if this is in fact the RX-Drug-Patient per step 524. If the answer to the query is no, the technician is returned to the entire queue list as described above per step 512.
- the local executable program resident on the dispense location workstation examines a local inventory file that contains data specific to the dmg requested to be dispensed per step 526.
- the dmg contains a profile which includes but is not limited to cu ⁇ ent stock level, suggested restock levels, and coordinate position within a single or plurality of RCD's.
- the RCD receives a technician coordinate type communication from the locally resident executable.
- the X,Y coordinate represents a location within a single or plurality of RCD's where the requested pharmaceutical is stored for dispensing.
- the X,Y coordinate is determined by examining an inventory profile of the dmg to be dispensed.
- the RCD Upon receiving the dispense signal from the dispense location workstation the RCD presents a dmg to the technician per step 528. As a result of the dispense occu ⁇ ing, the technician is presented with an additional screen which requires the input of barcode data embedded onto the label of the dispensed dmg.
- a bar code reader co-located at the Dispense Location is used to read the barcode of the item dispensed from the RCD per step 530.
- the technician reads the barcode into the screen to be examined by the resident dispensing software.
- the barcode of the item dispensed is read into the resident dispensing software and is compared with the value of the barcode expected from the dmg inventory profile. If the values match per step 532 what the resident dispensing software is expecting, a patient education monograph, patient labeling, graphic representation of the dmg expected, and picture of dmg expected are generated per step 536 and delivered to the co-located printer.
- the user has three attempts with which to scan or enter the expected values per step 534. If three failed attempts are made, the transaction is terminated with warnings sent to appropriate parties like the authorized dispenser, technician, system operator, and pharmacy consultant via pager and email. Appropriate dmg disposal and storage is maintained via training of the technician and an additional lock storage box within the RCD.
- the technician at the dispense location is presented with one additional barcode on the patient label that is to be affixed to the item dispensed.
- the technician is required to perform one more bar code read by scanning the patient label after it is affixed to the item dispensed per step 538.
- the barcode of the item dispensed is read into the resident dispensing software and is compared with the a value of the barcode expected, the Rx number. If the values do not match what is expected, then the user has three attempts to scan the co ⁇ ect label before an e ⁇ or condition is reported per step 542. If the values do match per step 540, then the dispense is complete and the local technician is returned to the view of the queue show work in process, if any.
- a telephone system audio visual connection 488 a networked audio visual connection
- an internet connected audio visual connection a variety of telepharmacy systems, including, but not limited to, a telephone system audio visual connection 488, a networked audio visual connection, and an internet connected audio visual connection.
- an existing host pharmacy software system 560 with a co-located interface application server 566, and a designed web server 574 work in-conjunction to provide a third location, the dispense location, with prescription information enough to identify and then dispense a pharmaceutical.
- the dispense location uses a web browser, such as, for example, Microsoft Internet Explorer 5.0, instead of a locally installed executable.
- the web browser then interacts with data on a Web Server 574.
- the web server 574 gets its data from the interface application server 566 which is co-located with a customers Pharmacy software system 560.
- the dispense location is where the RCD cabinet 582 is located, along with a personal computer 580, a printer 562 such as a laser jet printer, and a bar code scanner. This site has connectivity through a network or telephone system to the internet 576.
- the pharmacy control location is where the host pharmacy software is maintained or mn.
- these are small networks of pharmacy workstations where a retail or hospital pharmacy team interacts with insurers computers to create the order that leads to the filling of a dmg to be handed to the patient.
- the wholesalers have discovered a method to keep distribution by supplying retail outlets with pharmacy software that automatically places reorders with the wholesalers computers based upon use and an inventory threshold stockout level.
- An example of pharmacy software that can be used, but is not limited to, with the present invention is McKesson HBOC Pharmaserve software.
- the interface application server 566 is a computer that is co-located with the pharmacy software system 560. It is used to collect information such as, for example, the Rx data for a dispense from the host pharmacy system and then forwards that information to the web server 574 in accordance with the present invention.
- the web server 574 mns ColdFusionTM with a Stmctured Query
- the web server stores data sent to it, and displays that data in an easy to understand point and click format.
- the web server 574 is connected to the internet 576 at a static IP address using a Universal Resource Locator (URL) such as, for example, StarNetLite.COM.
- URL Universal Resource Locator
- the web server 574 handles secure transmission of the data as well as the segmentation of data based upon a user login id/profile. Refe ⁇ ing to Figures 10B-10D, a typical workflow, illustrated as a flow chart, includes the following sequence of steps.
- an Rx is generated by a physician or caregiver using a paperless method such as a personal data assistant(PDA), such as, for example, a palm pilot, or TouchScreen or by usual methods using pen and paper, fax and scanners.
- the Rx information typically contains the patient name, prescriber name and Dmg Enforcement Agency identifiers, instmctions for the administration of the dmg, dmg name, and quantity to be given to the patient.
- the Rx can be transmitted to different locations. For example, if the Rx is transmitted to the web server 574 directly, then the image or Rx data is stored to an appropriate table on the web server for retrieval by a user authorized to dispense medications, typically a pharmacist.
- the authorized dispenser typically a pharmacist, inte ⁇ rets the transmitted information. If the Rx is transmitted to a dispense location electronically or is physically delivered, a user, typically a technician can take the authorized action upon the Rx.
- the Rx is manipulated into the host pharmacy software per step 612 using different methods.
- an authorized dispenser reviews the web server 574 captured Rx information in a browser, and then, transfers that Rx information manually or through an electronic interface into the host pharmacy software.
- an authorized dispenser inte ⁇ rets the Rx information transmitted directly to his/her location and then manually or through an electronic interface transfers the Rx information into the host pharmacy software.
- the technician has an option, to either transmit the information to the authorized dispenser, pharmacist, for the pharmacist to manipulate as described hereinbefore, or to remotely connect to the host pharmacy software via a variety of interfaces to transfer the Rx information into the host pharmacy software system either manually or via an electronic interface.
- connection interfaces can be, but are not limited to, Symantec pcAnwhere directly, Symantec pcAnywhere via the Internet, and by a co-located wide area network (WAN) connection provided with the host pharmacy software.
- WAN wide area network
- the processes can be, for example, a Dmg Utilization Review (DUR) which entails scanning the dmg to be dispensed against the patient profile contained within the host pharmacy software system to determine if any pharmaceutical contraindications for dispensing exist.
- DUR Dmg Utilization Review
- DUR can be a dmg-to-dmg Interaction test, or a patient dmg allergy test.
- a second typical process is an Adjudication process whereby the host pharmacy Software system communicates with a pharmacy benefit management computer to determine the patients insurance coverage and payment amounts, if any.
- the Rx information, having been processed by the host pharmacy software system can generally then be determined to be a valid Rx; which can be processed by the pharmacist.
- the pharmacist then triggers patient dmg labeling to be produced by the host pharmacy software system and takes a large bottle of medications from the shelf and counts and places into a smaller bottle, typically called a vial, the number of tablets, caplets, or milliliter's called for by the physician.
- the pharmacist then applies labeling and hands the dmg to the patient.
- the pharmacist or authorized dispenser triggers a patient dmg label to be produced by the host pharmacy software system, however, instead of the label being processed by a co- located printer (for example, a laser jet or dot matrix printer) the output is directed to the interface application server.
- a co- located printer for example, a laser jet or dot matrix printer
- the interface application server accepts the Rx information as a printer stream per step 614, or through a direct electronic interface to the host pharmacy software system network constmcts.
- An application such as, for example, Parse Engine, parses the output received by the host pharmacy software system into discreet data elements per step 616.
- the parse engine having completed parsing the data, then encrypts the data and uniquely identifies the data for transmission to the web server 574 via a network or dial-up Internet connection per step 616.
- the information is received by the web server and placed into a work in process dispense queue/SQL database with flags identifying the dispense information as "belonging" to a particular dispense location per step 624. This is a method designed to permit many simultaneous dispense locations to use the same SQL database.
- the dispense locations then have access to the data in the work in process table presented as an HTML document (web page). Only data designated as belonging to a dispense location is available to a dispense location.
- the technician at the dispense location selects the Rx-Dmg-Patient to be dispensed from a list of one or more possibilities to be displayed per steps 640, 642.
- the selections are shown as HTTP "hyperlinks".
- the technician at the dispense location is shown a dispense detail Page.
- the dispense detail page presents to the technician additional information about the Rx, not practically visible above.
- the technician has a choice of deleting the Rx-Dmg-Patient selection, or the "GO BACK" to earlier step and select another, or to dispense the drug from the co- located Remote Control Dispenser (RCD)582.
- RCD Remote Control Dispenser
- the Rx-Dmg-Patient selection delete causes an early termination event which is communicated to the pharmacist via an email as an option, and is captured to the co ⁇ ect early termination database for review later or in real-time by the pharmacist or authorized dispenser.
- the "GO BACK" step prompts the technician to return to the previous list of available dispenses in the work in process table represented by displaying them as a queue on a web page.
- the selection to dispense the dmg from the co-located RCD continues the process by requesting final dispense authority from the web server.
- Final dispense authority is received from the web server in the form of a single web page, HTML document, that expires quickly so that repeat requests for the same dmg can not be made by reversing the browser using its imbedded back button.
- the web server 574 completes one more check to determine if the dmg requested is still in the local RCD inventory and the location of the dmg within the RCD per step 632.
- Each RCD contains an Identifier, for example, from 0 to 9(10 total) and from 00-27, or 00-59 columns, depending upon the configuration.
- the web server returns the exact position of the dmg desired within a single or plurality of RCD's.
- a button or link The user clicks a button or link and a series of different options can occur.
- a JAVA APPLET communicates with the RCD passing the RCD the data culled from the web server.
- a browser ADD-IN communicates with the RCD passing the RCD the data culled from the web server.
- a local one-time use executable is downloaded that communicates with the RCD passing the RCD data culled from the web server.
- a local executable is launched which passes the needed variables and communicates with the RCD 582 passing the RCD data culled from the web server 574.
- an alpha numeric page is sent to an integrated pager reception unit placed within the RCD, which passes the needed variables and communicates with the RCD passing the RCD data culled from the web server.
- the technician is presented with an additional web page which requires the input of barcode data embedded onto the label of the dispensed dmg.
- a bar code reader co-located at the dispense location is used to read the barcode of the item dispensed from the RCD per step 652.
- the technician reads the barcode into the browser and clicks a test hyperlink, or in some instances the bar code reader can interact with the browser directly and select the test hyperlink directly.
- the barcode of the item dispensed is read into the browser and is compared with the value of the barcode expected. If the values match what the web server 574 is expecting, a patient education monograph, patient labeling, graphic representation of the dmg expected, and picture of dmg expected are generated and delivered to the technicians' browser for subsequent printing to a co-located printer per step 658. However, if the values do not match what the web server is expecting, the user has three attempts with which to scan or enter the expected values per step 674. If three failed attempts are made, the transaction is terminated with warnings sent to appropriate parties like the authorized dispenser, technician, system operator, and pharmacy consultant via pager and email.
- Appropriate dmg disposal and storage is maintained via training of the technician and an additional lock storage box within the RCD.
- the technician at the dispense location is presented with one additional barcode on the patient label that is to be affixed to the item dispenses.
- the technician is required to perform one more bar code read by scanning the patient label after it is affixed to the item dispensed per step 664.
- the barcode of the item dispensed is read into the browser and is compared with the a value of the barcode expected, the Rx number. If the values do not match what is expected, then the user has three attempts to scan the co ⁇ ect label before an e ⁇ or condition is reported per step 672.
- a flow chart of a typical workflow of the refe ⁇ ed embodiment shown in Figure 1 IA includes the following sequence of steps.
- An Rx is generated by a physician using a paperless method such as a personal data assistant(PDA), or by usual methods using pen and paper per step 724.
- PDA personal data assistant
- the Rx is transmitted to a pharmacy control location per step 726 whether by an electronic means for a PDA device, or fax for pen and paper method.
- This device can be a PDA , a laptop, a cell phone with browser ability, or even a typical personal computer. Any device that is compatible with, but not limited to, HTML or XHTML or similar emerging protocol, can be used.
- the RPh or technician uses a device, for example, a laptop computer, the RPh or technician enters a URL (web address) such as, for example, WebDirectRx.com or gets this URL from her favorites List on the browser per step 730.
- the RPh then enters her user id and password per step 732.
- This user name and password carries with it a profile. This profile then permits different functionality on the web server 706 available to the person logging in.
- a RPh gets a functionality not available to others; like Rx generation, and the ability to see multiple dispensing queues across the network of dispensers.
- the RPh needs to enter patient demographics, insurance information, allergies, disease states, dmg profile, et al., before beginning to generate an Rx per step 734.
- the RPh then generates the Rx per step 736 by selecting the patient, dmg, prescriber, SIG, tity, refills, ICD-9 (a disease code if known), etc.
- the generated Rx is then mn through a process called DUR (Dmg Utilization Review) per step 746 to examine the drug for contra-indications against the patient profile. For example, allergies, and drug to dmg interactions are examined here.
- the process is executed on the server 706.
- the RPH or technician then approves the results of the DUR per step 748 or cancels the Rx or picks a more appropriate therapy.
- the RPH or technician then mns an Adjudication on the patient to determine if the patient is insured through a pharmacy benefit management company per step 752.
- This process returns a status of, for example, PAID per step 754, REJECTED, etc.
- a copay amount, among other items, is returned with a PAID claim.
- the Rx is then placed into a queue per step 758 which the dispense location can see using its own browser.
- the dispense location caregiver for example, a nurse, doctor, technician, also needs to be logged onto the Internet.
- This user/caregiver logs onto the web server at, for example, WebDirectRx.com with a user id and password per step 760.
- This user id and password ca ⁇ ies with it a user profile per step 764.
- the user profile indicates that this person is a dispenser, and can only view the queue for his/her location per step 766.
- the user/caregiver sees his/her Rx - the one communicated to the RPh earlier and can now act upon that Rx as it has been approved per step 768.
- the user/caregiver then clicks on the item to be dispensed.
- the web server returns a page that the user can click on again to cause the computer to send a dispense signal to an RCD per step 776.
- the signals as described hereinbefore, can be sent using different options, such as, but not limited to, Java Applet, browser add-ins, and launching local executables.
- the RCD then dispenses the item. Whilst doing that, the web server 706 presents to the user a screen whereby the user can barcode scan the dispensed items' barcode per step 780. Upon entry of the barcode a test per step 790 is made to see if the item is a repackaged item or a manufacturers packaged item per step 786. If it is a manufacturers packaged item, then the web browser presents the user with places to enter a lot number and expiration date per step 794. The repackaged item has built into the barcode a lot number and expiry date.
- the web server presents the user/caregiver with a completed patient label, patient education monograph, receipts, and image of pill, tablet, capsule etc., that is then to be directed to a co-located laser jet printer per step 796.
- the patient label which contains a second barcode, is also scanned into a page presented to the user per step 800.
- the transaction details are written to a database on the web server, and the user/caregiver is returned to the queue view from where this process started initially.
- an authorized pharmacist is available for consultation using a variety of telepharmacy systems. Including, but not limited to, a telephone service audio visual connection, a networked audio visual connection, and an Internet connected audio visual connection.
- FIGS 12A and 12B illustrate the use of a telephone network 440 in the dmg dispensing system in accordance with the present invention.
- the telephone network 440 transfers information between the host interface CPU 342 and the RCD 324.
- a wireless phone 442 can be integrated with the RCD.
- the telephone network 440 takes the place of or is used in conjunction with the Internet as a mechanism to transfer information between the host pharmacy system represented by the host interface CPU 342 and the host pharmacy workstation 344 and the remote dispensing system represented by the RCD.
- the wireless phone device acts as the trigger mechanism to dispense pharmaceuticals or medical products out of the RCD.
- the wireless phone device can communicate with an integrated circuit within the RCD transferring the RCD information obtained during a wireless connection.
- FIG. 12B illustrates a dispense interface CPU 340 and a laser printer 444 co-located with the RCD 324.
- the remotely controlled dispense session can be managed entirely without land lines.
- the wireless phone connection can be integrated into the RCD or in the alternative, as an attachment to the dispense CPU.
- the wireless phone connection serves as the connectivity media instead of the internet connection.
- the software the technician interacts with can exist on an attached and co-located external computer configuration, or as an integrated computer using TouchScreen components built directly into the RCD.
- an existing host pharmacy software system 850 with a co-located interface application server 856, and a remotely installed dispense location interact to provide pharmaceutical dispensing across a wide geographic region.
- This prefe ⁇ ed embodiment uses the existing local telephone service available.
- the interface application server 856 and the dispense location workstation 868 connect and exchange Rx information directly with one another.
- the dispense location workstation 868 contains local executable program(s) that manage the call pickup, data acceptance, inventory management, and visually prepares the Rx information received from the interface application server in an easy to read queue for the local caregiver, typically a technician.
- the dispense location workstation 868 communicates with the co-located Remote Control Dispenser (RCD) 872 to dispense pharmaceuticals, a printer 870, for example, a laser jet or color jet printer to provide patient and record keeping materials, as well as, a barcode scanner for doing quality checks during a dispense.
- RCD Remote Control Dispenser
- the dispense location needs access to the telephone service 864 to get a "dial tone" in order to receive and send communications.
- the pharmacy control location is where the host pharmacy software is maintained or mn. Typically these are small networks of pharmacy workstations where a retail or hospital pharmacy team interacts with insurers computers to create the order that leads to the filling of a dmg to be handed to the patient.
- the interface application server 856 is a computer that is co-located with the host pharmacy software system. It is used to collect information (the Rx data) for a dispense from the host pharmacy system and then forwards that information to the dispense location workstation 868 via the telephone service, or the telephone network 864.
- a typical workflow includes the sequence of steps illustrated.
- An Rx is generated by a physician or caregiver using a paperless method such as a PDA or TouchScreen or by usual methods using pen and paper, fax and scanners per step 902.
- the Rx information typically contains the patient name, prescriber name and Dmg Enforcement Agency identifiers, instmctions for the administration of the drug, dmg name, and quantity to be given to the patient.
- the Rx is transmitted to different locations per step 904. Ifthe Rx is transmitted to a pharmacy control location via fax or an electronic means, the authorized dispenser, typically a pharmacist, inte ⁇ rets the transmitted information.
- the Rx is transmitted to a dispense location electronically or physically delivered, a user, typically a technician can take authorized action.
- the Rx is manipulated into the host pharmacy software system per step 914 either by an authorized dispenser who inte ⁇ rets the Rx information transmitted directly to his/her location and then manually or through an electronic interface transfers the Rx information into the host pharmacy software or by the technician who has an option to transmit the information to the authorized dispenser, pharmacist, for the pharmacist to manipulate or to remotely connect to the host pharmacy software via a variety of interfaces to transfer the Rx information into the host pharmacy software system either manually or via an electronic interface.
- connection interfaces can be, but are not limited to, Symantec pcAnywhere directly, Symantec pcAnywhere via the Internet, by a co-located WAN connection provided with the host pharmacy software.
- the Rx information, having been processed by the host pharmacy software system can generally then be determined to be a valid Rx; which can be processed by the pharmacist.
- the pharmacist then triggers patient dmg labeling to be produced by the host pharmacy software system and takes a large bottle of medications from the shelf and counts and places into a smaller bottle, typically called a vial, the number of tablets, caplets, or milliliter's called for by the physician. The pharmacist then applies labeling and hands the dmg to the patient.
- the pharmacist or authorized dispenser triggers a patient drag label to be produced by the host pharmacy software system 850, however, instead of the label being processed by a co-located printer 852(laser jet or dot matrix) the output is directed to the interface application Server 856.
- the interface application server accepts the Rx information as a printer stream per step 916, or through a direct electronic interface to the host pharmacy software system network constructs.
- An application, Parse Engine (PE) parses the output received by the host pharmacy software system into discreet data elements. Once the parsing is completed, the data is encrypted and is uniquely identified for transmission to the dispense location workstation via telephone service per step 918.
- PE Parse Engine
- the information is received by the dispense location workstation decrypted and placed into a work in process queue that is accessed by local executable programs mn by the technician per step 906.
- the technician at the dispense location selects the Rx-Dmg-Patient to be dispensed from a list of one or more possible to be displayed per step 908.
- the selections are shown as mouse selectable lines. Each line represents a different RX- Dmg-Patient to be processed by the technician.
- the technician at the dispense location is queried if this is in fact the RX- Dmg-Patient per step 920.
- the technician is returned to the entire queue list as described above per step 922. If the answer to the query is no, the technician is returned to the entire queue list as described above per step 922. If the answer to the query is in the affirmative, the local executable program resident on the dispense location workstation examines a local inventory file that contains data specific to the dmg requested to be dispensed per step 924.
- the drag contains a profile which includes, but is not limited to, cu ⁇ ent stock level, suggested restock levels, and coordinate position within a single or plurality of RCD's.
- the Remote Controlled Dispenser receives a X,Y coordinate type communication from the locally resident executable.
- the X,Y coordinate represents a location within a single or plurality of RCD's where the requested pharmaceutical is stored for dispensing.
- the X,Y coordinate is determined by examining an inventory profile of the drag to be dispensed.
- the RCD Upon receiving the dispense signal from the dispense location workstation the RCD presents a drag to the technician per step 926.
- the technician is presented with an additional screen which requires the input of barcode data embedded onto the label of the dispensed dmg.
- a bar code reader co-located at the dispense Location is used to read the barcode of the item dispensed from the RCD per step 928.
- the technician reads the barcode into the screen to be examined by the resident dispensing software.
- the barcode of the item dispensed is read into the resident dispensing software and is compared with the value of the barcode expected from the dmg inventory profile. If the values match what resident dispensing software is expecting per step 930, a patient education monograph, patient labeling, graphic representation of the dmg expected, and picture of drag expected are generated and delivered to the co-located printer per step 934. If the values do not match what the resident dispensing software is expecting, the user has three attempts with which to scan or enter the expected values per step 932. If three failed attempts are made, the transaction is terminated with warnings sent to appropriate parties like the authorized dispenser, technician, system operator, and pharmacy consultant via pager and email. Appropriate dmg disposal and storage is maintained via training of the technician and an additional lock storage box within the RCD.
- the technician at the dispense location is presented with one additional barcode on the patient label that is to be affixed to the item dispensed.
- the technician is required to perform one more bar code read by scanning the patient label after it is affixed to the item dispensed per step 936.
- the barcode of the item dispensed is read into the resident dispensing software and is compared with the a value of the barcode expected, the Rx number. If the values do not match what is expected, then the user has three attempts to scan the co ⁇ ect label before an e ⁇ or condition is reported per step 940. If the values do match then the dispense is complete per step 942 and the local technician is returned to the view of the queue showing work in process, if any.
- an authorized Pharmacist is available for consultation using a variety of telepharmacy systems, including, but not limited, to a telephone service audio visual connection, a networked audio visual connection, and an internet connected audio visual connection.
- Figures 14A and 14B illustrate the use of a pager service 450 in combination with the Internet 320 to dispense medication from a remote location.
- the pager service 450 interacts with the Internet 320 to transfer information between the host pharmacy system represented by the host interface CPU 342 and the host pharmacy workstation 344 and the remote dispensing system 324.
- a receive/send pager 452 interfaces with the RCD 324 and transfers information regarding the dispensing of medication.
- a print module 454 can be integrated with the RCD.
- Figure 14B illustrates an embodiment having a dispense interface CPU 340 and a laser printer 444 co-located with the RCD 324.
- a pager service can forward dispense information via an alpha/numeric page.
- a computer such as, for example, but not limited to, an Aqcess Technologies Qbe Personal Computing Tablet, can be integrated with the RCD.
- the computing function can be accomplished using a combination of an external and integrated computer.
- FIGs 15A and 15B illustrate a prefe ⁇ ed embodiment which uses a satellite system 460 to transfer information between a host pharmacy interface CPU 342 and a remote dispensing system or RCD 324.
- the Internet 320 transfers information from host interface CPU 342 to a satellite 460 via a satellite dish 462.
- the satellite in turn using a satellite send or receive module 464 transfers information to the dispense interface CPU 340 at a remote location from the host pharmacy system.
- the dispense interface CPU then directs the dispensing of medication from the RCD 324.
- a touch screen computer 466 and a print module 468 can be integrated with the RCD which eliminates the need for a dispense interface CPU 340.
- the remote dispensing location is sent Rx dispense information via a satellite network, such as, for example, the Iridium paging or telephone network.
- a satellite network such as, for example, the Iridium paging or telephone network.
- the dispensing workflow remains the same, only the connectivity to the RCD 324 changes.
- a method of managing samples is a necessity in the highly regulated and cost control environment that exists in healthcare today.
- the cu ⁇ ent haphazard approach to sampling is both costly and inefficient for all parties concerned and provides little useful information to any party.
- JCAHO is citing healthcare institutions for failure to document and manage pharmaceutical samples.
- Dmg cost control is a critical factor and formulary management, via the sampling process, is an important component in that overall process, especially in outpatient and independent practitioner settings.
- the Joint Commission is citing hospitals and integrated delivery networks
- IDNs for failure to properly manage physician samples.
- Many insurance companies and government programs, such as Medicare/Medicaid require JCAHO accreditation before they will reimburse that institution for medical care of its patients.
- JCAHO requires the institutions to have a policy on dmg samples and requires a control system that tracks the receipt and distribution of each dmg sample. Further, the samples have to be properly labeled for patient use (including any auxiliary cautionary statements and expiration dates).
- the pharmacy department has to include dmg samples in its process for responding to dmg recalls and in its monthly inspection routine. This is the reason for tracking lot numbers and expiration dates. Dmgs need to be stored so that unauthorized individuals do not have access to them, such as, for example, by using a locked cabinetry or room.
- JCAHO also requires the institution to keep a dmg sample receiving log that tracks date, dmg name, strength, form, lot number, manufacturer, received amount, expiration date of dmg, and location of storage.
- JCAHO also requires either a dmg dispensing log or a drug sample dispensing database that includes the following information: date dispensed, patient name, dmg name/strength/form, lot number, manufacturer, amount dispensed, directions for use, and physician name.
- the physician/pharmacist has to provide medication counseling per certain legislative regulations. This could be in the form of a dmg monograph with the following information: name of medication, length of therapy, possible side effects of the medication, and expiration date and proper storage of the medication.
- Uncontrolled sampling is driving up costs for physicians, patients and payers of all kinds. Dmg companies need alternatives which give them information, reduce costs and retain access to prescribing physicians.
- dmg control license There are differing regulatory schemes in different jurisdictions that exist for dmg samples and the dispensing thereof.
- the regulatory schemes address issues such as, for example, dmg control license; patient's chart or clinical record to include record of dmgs dispensed; delegating authority to dispense drags; storage of drugs; containers; labels; complimentary starter dose drag; information; inspection of locations; limitation on delegation; and receipt of complimentary starter dose dmgs pharmacist.
- the regulatory boards periodically inspect locations from which prescription drugs are dispensed.
- a prescriber who wishes to dispense prescription drags obtains from a board a drug control license for each location in which the storage and dispensing of prescription drags occur.
- a dmg control license is not necessary if the dispensing occurs in the emergency department, emergency room, ,or trauma center of a hospital or if the dispensing involves only the issuance of complimentary starter dose drags.
- a dispensing prescriber can dispense prescription drags only to his or her own patients.
- a dispensing prescriber has to include in a patient's chart or clinical record a complete record, including prescription drag names, dosages, and quantities, of all prescription drags dispensed directly by the dispensing prescriber or indirectly under his or her delegatory authority. If prescription drags are dispensed under the prescriber' s delegatory authority, the delegatee who dispenses the prescription drags has to initial the patient's chart, clinical record, or log of prescription drags dispensed. In a patient's chart or clinical record, a dispensing prescriber has to distinguish between prescription drags dispensed to the patient and prescription drags prescribed for the patient.
- a dispensing prescriber has to retain information required for not less than, for example, five years after the information is entered in the patient's chart or clinical record.
- Regulations further include that a dispensing prescriber has to store prescription drags under conditions that maintain their stability, integrity, and effectiveness and assure that the prescription drags are free of contamination, deterioration, and adulteration.
- a dispensing prescriber has to store prescription drags in a substantially constmcted, securely lockable cabinet. Access to the cabinet has to be limited to individuals authorized to dispense prescription drags in compliance with the regulatory schemes. Unless otherwise requested by a patient, a dispensing prescriber dispenses a prescription dmg in a safety closure container that complies with the poison prevention packaging act, for example, of 1970, Public Law 91-601, 84 Stat. 1670.
- a dispensing prescriber has to dispense a drag in a container that bears a label containing all of the following information: the name and address of the location from which the prescription drag is dispensed, the patient's name and record number, the date the prescription drag was dispensed, the prescriber' s name, the directions for use, the name and strength of the prescription drag, the quantity dispensed, the expiration date of the prescription drag, or the statement required per regulations.
- a dispensing prescriber who dispenses a complimentary starter dose drag to a patient has to give the patient at least all of the following information, either by dispensing the complimentary starter dose drag to the patient in a container that bears a label containing the information or by giving the patient a written document which may include, but is not limited to, a preprinted insert that comes with the complimentary starter dose drag, that contains the information: the name and strength of the complimentary starter dose drag, directions for the patient's use of the complimentary starter dose drug, and the expiration date of the complimentary starter dose drag.
- a supervising physician may delegate in writing to a pharmacist practicing in a hospital pharmacy with a hospital licensed the receipt of complimentary starter dose drags other than controlled substances.
- both the pharmacist's name and the supervising physician's name has to be used, recorded, or other wise indicated in connection with each receipt.
- a pharmacist may dispense a prescription for complimentary starter dose drags written or transmitted by other means of communication by a prescriber.
- a prefe ⁇ ed embodiment of the present invention includes a way to manage the sampling process and provide solutions to the persistent regulatory compliance issues and escalating pharmaceutical costs.
- the embodiment fully documents the sample process and addresses all the JCAHO standards.
- the prefe ⁇ ed embodiment also plays a significant role in better formulary management via information captured through the sampling process.
- the distribution costs are lowered using the prefe ⁇ ed embodiment of the present invention, enabling better use of the marketing representatives of the pharmaceutical companies.
- Lower wastage of samples due to strict controls over access and usage are realized with the prefe ⁇ ed embodiment.
- continued access to physicians is gained because the institution is able to meet accreditation standards.
- the prefe ⁇ ed embodiment also provides the ability to get national rollout virtually overnight through information dissemination directly to users of sites employing the prefe ⁇ ed embodiment.
- the prefe ⁇ ed sample dispensing is embodied by two components.
- a hardware component comprising uniquely designed cabinetry, and. a touch screen software component.
- the software for example, is written for Microsoft Windows 98 and Microsoft Windows NT, using Visual Basic 6.0 and Visual C++, and mns on a typical Intel/Pentium based personal computer.
- the software may be written for any computer operating systems, for example, JAVA platforms, UNIX system, Windows CE, and IBM OS operating systems.
- the operating requirements, imposed upon the personal computer are minimal, permitting the purchase of less expensive, though proven, computer components.
- Printers such as, for example, a Laser Jet or Color Ink Jet printer which provides a patient specific education monograph and labels with each dispense are used with the computer.
- the laser jet printer can also be used to print reports locally.
- Typical components include, for example, but are not limited to, ASUS motherboards, Intel Pentium TJ CPU's, 3COM 3C90X network interface cards, digital hard drives of between four and six gigabytes capacity, internal or external 3COM US Robotics modems, and MicroTouch touch screens.
- the software is used by a nurse, physician, or medical office staff, depending upon state laws and regulations.
- the functionality of the software breaks down into five main categories, namely, dispensing function, loading function, maintenance, reports, and communications. All information transmitted, whether through the internet or a direct connection, is encrypted.
- An encryption program that is used, but not limited to, is for example, "Blowfish.”
- the key bit exceeds 128-bits for sites located within the United States.
- Any sites located outside of the borders of the United States will use key bit encryption strength approved by the US government, such as for example, 56-bit key lengths. According to some public safety regulations a key of 128-bit meets or exceeds the level deemed necessary to transmit information over the internet or other electronic means.
- All information generated by the users input is captured in a transaction database for transmittal via the internet, or direct modem dial out, to a server. Inventory is maintained pe ⁇ etually with increases to the stocking level managed via the load process, and decreases in inventory managed by the dispense process. Inventory stock levels are also communicated to a server, with special attention to stockout threshold levels to trigger additional communications with clinic managers, chiefs of pharmacy, manufacturers, and any others involved in the sample dispensing value chain.
- the communications function of the samples dispensing software manages the aggregation process.
- the communication module can deliver the days activity of an individual sample dispensing location to the server. This information is accumulated and is available for redistribution using a variety of ways and methods.
- Distribution of each sample dispensing location's information occurs in at least one of two ways, depending upon the available information infrastructure.
- the sample dispensing locations can call, using an 800 number, a server, setup for receipt of up to 24 simultaneous connections.
- This type of server is commonly refe ⁇ ed to as a Remote Access Server (RAS).
- RAS Remote Access Server
- the RAS can be set up with 24 ports or more capable of 56K connections using a T-l data line. Additional simultaneous connections are available in groups of 24, 36, 128, or higher.
- the sample dispensing location can call a local Internet Service Provider access number, and then negotiate a session with the server also connected to the internet.
- an existing hospital network running a protocol such as, for example, TCP/IP is used if that hospital can access the internet.
- the sample dispensing location is connected to the hospital network to transmit daily activity logs through the hospital network, out onto the internet, thence onto the server.
- the data is encrypted, and compressed so as to minimize the bandwidth necessary for each session. This reduction in bandwidth usage is important to many clinics, so that a drain on hospital networking resources is minimized, or as in the case of the information generated by the samples dispensing locations using modems is none.
- Methods of redistribution of samples include, but are not limited to, email, fax, website, and a planned integrated voice response(IVR)system.
- the server aggregates the information into a series of larger databases, while keeping information accessible that is unique to an installation by using a unique key for each individual location. In this manner, access to the information can be attained as an aggregate of a market, or as an individual dispensing location, depending upon the need.
- Microsoft SQL 6.5 acts as the main database repository engine.
- Allaire's ColdFusionTM web site database management and development solution can be used for the server processes. Allaire is a web site development language and solution company with tools for data management over the Internet. Other database management and development solutions can be used. Each customer is offered a unique view of the aggregated data based upon the customers buying level.
- the prefe ⁇ ed embodiment offers a user nearly real time sample dispensing information.
- a process that can be broken up into a series of questions that can be responded to using a telephone keypad is programmed using an IVR.
- a follow-on device can be provided for patients to interact with regard to their prescriptions. Medications used for treating various mental incapacities have a history of side effects ranging from mild to severe. These medications are typically quite expensive. In cases of severe side effects, the patient's entire prescription is destroyed and another new and different prescription is generated. The destroyed medications are a complete loss to the dispensing institution and the patients' insurer. Using samples, and an IVR system, a complete costly prescription is not given to a patient until the patient has completed a duration of free samples to determine if side effects are severe enough to wa ⁇ ant a different therapy approach.
- a patient can query a prea ⁇ anged IVR number to indicate that side effects are, or are not, present in his or her cu ⁇ ently selected therapy regime. If the patient can tolerate the tested samples, then the IVR can trigger the hospital pharmacy, an online pharmacy company like, for example, PlanetRx.com, or redirect the Rx to a mail order facility, a complete therapy cycle based upon the norms of the institution. Where an expensive prescription might have been wasted the patient can test a free sample of the medication before determining if a complete cycle of therapy would be effective without severe side effects.
- a user instead of dialing an IVR system, launches their favorite web browser using an Internet service such as, for example, AmericaOnLine or any other Internet access provider, and complete a series of simple questions about the sample of medicine, before being issued a complete therapy cycle.
- the therapy cycle can be redirected to many different locations, including, again the originating hospital outpatient pharmacy, a mail order house, etc.
- FIGs 16A through 22 illustrate embodiments of screens of the software component of the sample dispensing.
- the screens can be displayed by a monitor of a dmg dispenser.
- the monitor is a touch screen. Therefore, it is possible for a user to interact with the dispenser by using the monitor and the screens shown in Figures 16A through 22 to provide commands to the dispenser 1500.
- the user To use the touchscreen monitor, the user must press the tip of a capacitive item, such as a finger against the screen. Non-capacitive items, such as fingernails or pointed objects, will not work.
- the user can also use a mouse or a keyboard to interact with the commands and options presented on the screens.
- Figures 16A through 16E illustrate a method of dispensing dmg samples from the sample dispenser 1500 and embodiments of screens associated with dispensing samples.
- Figure 16A shows an introduction screen 1400 having a dispense command 1402 and a maintenance command 1404.
- the user can select the dispense command 1406.
- the user can then be presented with a subscriber name screen 1408, as shown in Figure 16B.
- the user can select the first initial of the prescriber' s last name 1410 using letter keys 1412.
- the user can then select the prescriber name 1414 from the screen 1408.
- the user types in the patient name 1416 in a patient name area.
- the user can then proceed 1420 by selecting a next command 1426.
- Figure 16C shows a medication screen 1422 which can follow the subscriber name screen 1408.
- a user can select the first letter of a medication 1424 he wishes to receive using the letter buttons 1412 provided.
- a list of medications can then be listed on the screen 1422.
- the user can select the medication 1428 he requires by touching the portion of the screen co ⁇ esponding to his drag choice.
- the user can select the number of packages he requires 1430 using the package quantity buttons 1432. The number of packages is not equivalent to the number of doses needed for a patient, since one package can have multiple doses of medication.
- the user can then proceed 1434 by selecting the next command 1426.
- Figure 16D shows a SIGS screen 1442 which can follow the medication screen 1422.
- the user can select one of the provided SIGS or use he space at the bottom to create a custom SIG 1436.
- the user can edit both the lot number and expiration date 1438 of the medication.
- the user can then proceed 1440 by selecting a next command 1426.
- the user can then be presented with a dispense summary screen 1442, shown in Figure 16E.
- the user can then review all entries to make sure they are co ⁇ ect 1444.
- the user can also check the printer to ensure that paper is available 1444.
- the user can chose to give the same patient additional medications 1446, restart the process 1448 or select a finish command to print labels and monographs for the patient 1450.
- Figures 17A through 17C illustrate a method of loading medications into a dispenser.
- the user can first be presented with an introduction screen 1400 having a maintenance command 1404, shown in Figure 17 A.
- the user can select the maintenance command 1446 to proceed with the loading of medications.
- the user can then be presented with a menu screen 1448 having a load command 1450, a databases command 1452, a reports command 1454 and a return to introduction screen command 1458.
- the user can select the load command 1458 to proceed.
- the user can then be presented with a user identification screen 1460 where the user can enter his name and his company's name before proceeding. After the data has been entered, the user can select a next command 1462 to continue.
- Figure 17B illustrates a medication screen 1464, which follows the user identification screen 1460.
- the user can select the first letter of the medication to be loaded 1466 from the letter buttons 1412.
- the user can then be presented with a list of drags having names starting with the chosen letter.
- the user can then select the medication to be loaded 1468 from the screen 1464.
- the user can proceed by selecting a next command 170, which brings him to a medication data screen 1472, shown in Figure 17C.
- the medication data screen 1472 the user can enter the lot number, the expiration date and the quantity of the medication added 1474 to the dispenser.
- the medication data screen 1472 includes a save command 1476 and a quit - no save command 1478. After entering the data and hitting the tab key to move through the screens, the user can check his entries and execute the save command if they are co ⁇ ect or execute a the quit - no save command if they are inco ⁇ ect 1480.
- Figures 18 A through 18D illustrate a method to view or edit inventory within the dispenser.
- the user can first be presented with an introduction screen 1400 having a maintenance command 1404, shown in Figure 18 A.
- the user can select the maintenance command 1446 to proceed with the loading of medications.
- the user can then be presented with a menu screen 1448 having a load command 1450, a databases command 1452, a reports command 1454 and a return to introduction screen command 1458.
- the user can select the databases command 1482 to proceed.
- a database screen 1484 can then be presented to the user as illustrated in Figure 18B.
- the database screen 1484 can include an inventory command 1486, a prescriber command 1487, a transactions command 1488 and a load command 1489.
- a user can select the inventory command 1490 and select a medication 1492 shown on the screen 1484.
- the screen 1484 can present manufacturer and bar code information of the medications, in addition to medication names.
- the user can then manipulate the inventory database 1494 by either editing or deleting the database selection.
- an inventory database editor screen 1495 can appear, as shown in Figure 18C.
- the user can edit items or add new items to the database 1496.
- the user can select the inventory command 1486, select the edit command 1330 and select a medication from the screen 1484. Any medication can be selected since it will immediately be changed.
- the user can then select the clear all fields command 1332, enter data into the blank fields shown on the screen 1495 and select the save command 1334.
- the user can opt to get new GCN number and apply the new GCN number 1498 from the inventory database editor screen 1495.
- a GCN number is assigned to drags that belong in the same class and can be used to create a monograph that the patient receives in the dispense process. If the use chooses to get and apply a new GNC, the user can be presented with a GCN screen 1300, shown in Figure 18D. From this screen, the user can select a new GCN number by picking the actual medication or its closest therapeutic equivalent from the screen 1300. Whichever item is selected will have its GCN number added to the NEW GCN textbox 1306 on the inventory database editor screen 1495. The user can return to the inventory database editor screen 1308 and choose to save the new data or restore the previous data 1310.
- Figures 19A through 19C show a method to view or edit a presrciber within the database of the dispenser.
- the user can first be presented with an introduction screen 1400 having a maintenance command 1404, shown in Figure 19 A.
- the user can select the maintenance command 1446 to proceed with the loading of medications.
- the user can then be presented with a menu screen 1448 having a load command 1450, a databases command 1452, a reports command 1454 and a return to introduction screen command 1458.
- the user can select the databases command 1482 to proceed.
- a database screen 1484 can then be presented to the user as illustrated in Figure 19B.
- the database screen 1484 can include an inventory command 1486, a prescriber command 1487, a transactions command 1488 and a load command 1489.
- a user can select the prescriber command 1310 and select a prescriber 1312 shown on the screen 1484. The user can then remove the selected prescriber from the database or edit the prescriber information to add him to the database 1314. If the user chooses to add a new prescriber, he can be presented with a prescriber database editor screen 1316, shown in Figure 19C. The user can enter a new prescriber name and return to the database screen 1318.
- Figures 20A and 20B illustrate a method to view a transaction made with the dispenser.
- the user can first be presented with an introduction screen 1400 having a maintenance command 1404, shown in Figure 20A.
- the user can select the maintenance command 1446 to proceed with the loading of medications.
- the user can then be presented with a menu screen 1448 having a load command 1450, a databases command 1452, a reports command 1454 and a return to introduction screen command 1458.
- the user can select the databases command 1482 to proceed.
- a database screen 1484 can then be presented to the user as illustrated in Figure 20B.
- the database screen 1484 can include an inventory command 1486, a prescriber command 1487, a transactions command 1488 and a load command 1489.
- a user can select the transaction command 1320.
- the transaction database can be used for viewing pu ⁇ oses only. The user can view the transactions by transaction number or by transaction date, for example.
- Figure 21 illustrates a method viewing the load history of the dispenser.
- the user can first be presented with an introduction screen 1400 having a maintenance command 1404.
- the user can select the maintenance command 1446 to proceed with the loading of medications.
- the user can then be presented with a menu screen 1448 having a load command 1450, a databases command 1452, a reports command 1454 and a return to introduction screen command 1458.
- the user can select the databases command 1482 to proceed.
- a database screen 1484 can then be presented to the user.
- the database screen 1484 can include an inventory command 1486, a prescriber command 1487, a transactions command 1488 and a load command 1489.
- a user can select the load command 1322.
- the database showing the medications loaded can be used for viewing pu ⁇ oses only.
- the database screen 1484 can show various types of load data, including load date, drag potency, and quantity.
- Figure 22 illustrates a method of viewing reports of the database of the dispenser. The user can first be presented with an introduction screen 1400 having a maintenance command 1404. The user can select the maintenance command 1446 to proceed with the viewing of reports.
- FIG. 23 A and 23B show a prefe ⁇ ed embodiment of a sample dispenser
- the dispenser 1500 can have a computer 1560 located within a computer housing 1502, a monitor 1504, a printer 1506 and a control system 1518 located within a control system housing 1546.
- the dispenser 1500 can also have doors 1508 holding a plurality of bins 1510, a camera 1512 and a user identification system 1514.
- Figure 23A shows a door 1508 of the dispenser 1500 in an open position.
- Figure 16B shows a door 1508 of the dispenser 1500 in a closed position.
- Figures 24 A and 24B illustrate an embodiment of the computer housing 1502 in an open and a closed position, respectively.
- the computer housing 1502 can be opened and closed in order to allow restricted access to the computer for rebooting or servicing.
- the computer housing 1502 can have a stationary portion 1562 and a moveable portion 1564.
- the stationary 1562 and moveable 1564 portions can be attached by at least one hinge 1566.
- two hinges 1566 connect the stationary 1562 and moveable 1564 portions of the housing 1502.
- the moveable portion 1564 of the housing 1502 can include side rails 1568 and the stationary portion 1562 of the housing 1502 can have side walls 1570.
- the rails 1568 and walls 1570 can limit the motion of the moveable portion 1564 and the computer 1560 as the moveable portion 1564 is opened by a user.
- the side rails 1568 can engage side walls 1570 of the stationary portion 1562 of the housing 1502, thereby preventing further rotation of the moveable portion 1564 of the housing 1502. Opening the computer housing 1502 can allow user access to the computer 1560.
- Figure 25 shows a computer 1560 mounted on a moveable portion 1564 of a housing 1502.
- the housing 1502 can have pistons 1570 or dampeners mounted between the moveable portion 1564 and the stationary portion 1562.
- the pistons 1570 can be mounted between movable portion brackets 1574 and stationary portion brackets 1576.
- the pistons 1570 can help to control the speed at which the moveable portion 1564 travels when the computer housing 1502 is opened.
- the computer housing 1502 can have a computer 560 which can include a motherboard, a CPU, a network interface card, a hard drive and a modem.
- the computer housing 1502 can include an Asus motherboard, an Intel PentiumTM U CPU, a 3Com 3C90X network interface card, a Western Digital hard drive and a 3Com U.S. Robotics modem.
- the hard drive can have between a 4 and 6 gigabyte capacity, for example.
- the modem can be either an internal or an external modem.
- the monitor 1504, in a prefe ⁇ ed embodiment, is a touch screen such as, for example, a MicroTouch screen which allows users to enter commands into the computer.
- the computer can also include a keyboard to allow commands to be entered into the computer.
- the printer 1506 can be a laser jet or a color ink jet, for example.
- a camera 1512 can be mounted to the dispenser 1500, as shown in Figures
- the camera 1512 can be triggered by some predetermined event to automatically take a picture of the area su ⁇ ounding the dispenser.
- a proximity sensor can be electronically coupled to the camera 1512 and can cause the camera 1512 to snap a picture based upon some external event. For example, if a user were to move within a certain distance of the dispenser 1500, the proximity sensor detects such a motion and causes the camera 1512 to automatically capture an image of an area su ⁇ ounding the dispenser 1500.
- the camera 1512 can be coupled with the user identification system 1514 such that engaging the system 1514 causes the camera 1512 to take a picture. For example, if a user were to attempt to use the identification system 1514, either successfully or unsuccessfully, such an attempt triggers the camera 1512 to snap a photograph.
- the camera 1512 can be connected with the doors 1508 of the dispenser 1500 such that opening the doors 1508 causes the camera 1512 to snap a picture of an area su ⁇ ounding the dispenser 1500.
- the camera 1512 can have a control system which can be a computer.
- the computer which controls the camera 1512 can be separate from the computer which controls the dispenser 1500 or integrated with it.
- the sample dispenser 1500 can also have a user identification system 1514 to protect against unauthorized access.
- the user identification system 1514 can be used as a security device to permit authorized user access to the medications dispensed by the dispenser. In this system 1514, a user would be required to provide some paper form of identification to the system 1514 before the doors 1508 of the dispenser 1500 could be opened.
- the user identification system 1514 can be used in conjunction with a locking mechanism to provide security for the dispenser 1500.
- the user identification system 1514 operates by identifying a finge ⁇ rint of a user. In a prefe ⁇ ed embodiment, the user identification system 1514 operates by identifying a thumb print of a user.
- the user identification system 1514 can have a control system which can be a computer.
- the computer which controls the user identification system 1514 can be separate from the computer which controls the dispenser 1500 or integrated with it. It should be noted that the user identification system can include, but is not limited to, hospital identification cards, credit card, debit card, other identification paperwork, keyword or password access using a keypad.
- the sample dispenser 1500 can also have doors 1508.
- the doors 1508 can house a plurality of bins 1510 which can be used to contain or organize samples within the dispenser 1500. Each door 1508 can be connected to the dispenser by a hinge 1516.
- FIG 26A shows a control system 1518 for the doors 1508.
- the control system 1518 can include a belt 1520 having at least one block 1524 attached therein and having a set of rollers 1522 to control the motion of the belt 1520.
- the blocks 1524 are bolted to the belt 1520.
- the belt 520 is a chain drive.
- the rollers 1522 can be gears.
- the rollers 1522 can be connected to a control system which can control the motion of the rollers 1522, thereby providing automatic opening and closing of the doors 1508.
- the control system can include a computer.
- Each door 1508 can be connected to a first end 1532 of a rod 1530 at a pivot 1528 on the door 1508.
- a second end 1534 of each rod 1530 can be attached to a pivot 1526 on each block 1524.
- the rods 1530 connect the doors 1508 to the motion control system 1518.
- the pivots 1528 on the doors 1508 allow the doors 1508 to rotate about their hinges 1516 without impingement from the rods 1530.
- the pivots 1526 on the blocks 1526 allow the rods 1530 to follow the rotational motion of the doors 1508 without impinging this motion.
- Figure 26A also shows the control system 1518 in various stages of operation.
- the control system 1518 can control the positioning of the doors 1508.
- a first stage 1536 the doors 1508 are in a closed position, with a side door portion 1544 forming a zero degree angle with a centerline 1542.
- the blocks 1524 are located on the belt 1520 near the centerline 1542 of the control system 1518.
- the belt 1520 causes the rods 1530 to create a force on each door 1508 directed toward the centerline 1542, thereby holding the doors 1508 in a closed position.
- the doors 1508 are half-opened, with a side door portion 1544 forming a forty-five degree angle with the centerline 1542.
- each block 1524 is forced to move away from the centerline 1542 of the system 1518 by the belt 1520, in an opening motion, or forced to move toward the centerline 1542 of the system 1518 by the belt 1520, in a closing motion.
- the belt 1520 causes each rod 1530 to create a force against each respective door 1508, directed away from the centerline 1542, thereby forcing the doors 1508 in a partially open position.
- a closing motion the belt 1520 can cause each rod 1530 to create a force on each respective door 1508, directed toward the centerline 1542, thereby forcing the doors 1508 in a partially open position.
- a third stage 1540 the doors are fully opened, with a side door portion 1544 forming a ninety degree angle with a centerline 1542.
- each block 1524 again, has been forced to move away from the centerline 1542 of the system 1518 by the belt 1520.
- the motion of the belt 1520 to this position 1540 further causes each rod 530 to create a force against each respective door 1508, directed away from the centerline 1542, thereby forcing the doors 1508 into a fully open position.
- the motion system 1518 can be operated automatically. Such operations can provide security for the dispenser 1500 and can limit user access to the device 1500.
- the control system 1518 can cause the doors 1508 to expand or contract to an open or closed position, respectively.
- Automatic operation of the control system 1518 can be triggered by some predefined event.
- the doors 1508 can be programmed to be opened by the motion control system 1518 only when the user provides positive identification.
- the doors 1508 can be programmed to automatically close after a set time period has elapsed.
- the doors 1508 can also be caused to close when the user moves away from a proximity sensor located on the dispenser 1500.
- the system 1518 can be controlled by a computer.
- the computer which controls the system 1518 can be separate from the computer which controls the dispenser 1500 or integrated with it.
- the sample dispenser 1500 can also include a bar code reader, or an electronic reader in an alternate embodiment.
- the samples held by the plurality of bins 1510 can include bar codes.
- the inclusion of a bar code reader on the sample dispenser 1500 can allow a user to quickly and accurately create a record of the samples removed from the sample dispenser 1500 and the dates and times of removal, for example.
- FIG 26B illustrates a detailed, overhead view of the control system 1518 shown in Figure 26 A.
- the control system 1518 can have a housing 1550 to which the belt 1520, rollers 1522 and blocks 1524 are mounted.
- the housing 1550 can also hold and secure these components 1520, 1522 and 1524 to the motion control system housing 1546.
- the housing 1550 can have flanged portions 1552 which allow for attachment of the housing 1550 to the control system housing 1546.
- the control system 1518 can also have a shank 1554 attached to the housing 1550.
- Each block 1524 can have a groove formed therein such that the groove in each block 1524 mates with the shank 1554.
- the blocks 1524 can be mounted on the shank 1554 such that the blocks 1524 can slide along the length of the shank 1554.
- the shank 1554 is a raised steel rod.
- FIGS 27 A through 27D illustrate an embodiment of a bin 1608 for a sample dispenser 1500.
- the bins 1608 can be used to store and organize drags within the dispenser 1500.
- the bin 1608 have a housing 1614 with a front end 1610 and a back end 1612.
- the housing 1614 includes a handle 1620, a pushing device 1616 and a continuous torsion spring 1618.
- the handle 1620 is used to aid in removing the bin 1608 from the dispenser 1500.
- the pushing device 1616 is forced to the front end 1610 of the bin 1608 by the continuous torsion spring 1618.
- a user can then load medicines or drag packages into the bin 1608 by moving the pushing device 1616 to the back end 1612 of the bin 1608.
- Such motion provides storage space for the medicine and extend the continuous torsion spring 1618.
- the pushing device 1616 is forced toward the front end 1610 of the bin 1608 by the contracting continuous torsion spring 1618.
- the user can know immediately whether a bin 1608 is empty or full. Incrementing a second drag package to the front end 1610 of the bin 1608 when a first drag package is removed ensures that a package will always be readily available.
- Such a unit can save the user time in guessing whether a bin is entirely empty or contains a package "hidden" in the back of a bin.
- a drag dispenser dispense non- prescription, over-the-counter drags to patients who can positively identify themselves to the drug dispenser system.
- Figures 28 through 34 illustrate embodiments of user interactive touch screens which can be used with such a system. The screens can provide a way for a user to interact with the software at the non-prescription dispenser.
- Figure 28 shows an introduction screen 1560 for a touch screen monitor of a non-prescription drag dispenser.
- the introduction screen 1560 can include a start command 1562, language option command 1564 and a demonstration command 1566.
- the start command 1562 can allow a user to progress through subsequent screens and choose the non-prescription drags they wish to receive.
- the language option command 1564 allow a user the choice of language for subsequent display screens.
- the demonstration command 1566 can provide a demonstration of how the drag dispenser works.
- the introduction screen 1560, and all subsequent screens, can include an end command 1568 which allows a user to exit the screens at any point.
- Figure 29 illustrates a drag category selection screen 1570 having drag category selections 1572 and a reset command 1574.
- the drag category selections 1572 allows a user to select the drag categories from which they would like to receive products.
- the drug categories can include medications for allergies, antacids, cold/flu, creams/lotions, hemo ⁇ hoids, laxatives, pain relievers and vitamins, for example.
- the reset command 1574 allows the user to start over or cancel his selection, if the wrong selection had been made.
- Figure 30 illustrates a drag availability screen 1576 showing the availability of different dugs within a selected category. If a user selected Pain Relievers as a drag category, the screen shown in Figure 30 can provide the user with a list of the types of pain relievers available. For example, under the pain relievers category, a user can choose from aspirin, children's aspirin, acetaminophen, ibuprofen or non- aspirin acetaminophen. The user can choose the drags he wishes to receive, using the drag selection commands 1578. Each drag selection command 1528 can be associated with a particular drug.
- the drag availability screen 1576 can also have a drag list command 1580 which, when activated, can show the user a list of all of the drags he has selected.
- Figure 31 shows a drag list screen 1582 which lists the user's selection of drags 1588.
- the drag list screen 1582 can include drag selection commands 1598 which allow a user to delete certain drag choices from the list. In one embodiment, to delete a drag choice, a user can touch a drag selection commands 1598 co ⁇ esponding to the drag to be removed from the list.
- the drag list screen 1582 also shows a "continue" command 1584 and a "done" command 1586.
- Figure 32 illustrates a user identification screen 1590.
- This screen 1590 instracts the user to identify himself to the drag dispensing system, in order for the drags to be dispensed.
- the user can be instructed to swipe his Veteran's Administration card through a card reader. The information on the user's card can then be compared to information within the system's database to determine the user's eligibility to receive the requested drags.
- the user identification screen 1590 can also include user identification indicator buttons 1592.
- the buttons 1592 can include a positive identification button 1594, which indicates the user's identification as valid, or a negative identification button 1596, which indicates the user's identification as invalid.
- Figure 33 shows a ready-to-dispense screen 1600 which can indicate the drags the user has selected and will be dispensed.
- the ready-to-dispense screen 1600 can also include drag selection commands 1602 which allow a user to delete certain drag choices from the list.
- drag selection commands 1602 which allow a user to delete certain drag choices from the list.
- a user can touch a portion of the touch screen co ⁇ esponding to a drag selection command 1602 which, in turn, co ⁇ esponds to the drag to be removed from the list.
- the ready-to-dispense screen 1600 can also have a drag dispense command 1604. When a user is satisfied with his drag request, he can touch this button to begin the dmg dispensing procedure.
- Figure 34 shows an ending screen 1606.
- the ending screen 1606 can provide instmctions to the user involving picking up drags from the dispenser tray and taking information from the printer.
- the ending screen 34 can also indicate to the user that the request is being processed and delivered.
- FIGS 35 and 36 illustrate an embodiment of an over-the-counter (OTC) medication dispenser 1650.
- the OTC medication dispenser 1650 can have a housing 1684 which includes a door 1652, drag storage trays 1654, a labeling device 1656, electronics 1658, a user identification system 1660, a computer 1666, a security monitoring device 1668, a magnetic card reader 1672 and a pickup location 1674.
- the computer 1666 can include a display 1662 and a printer 1664 having a paper pickup location 1674.
- the display 1662 can be a touch screen display.
- the display screen can display materials such as, for example, advertisement material pertinent to the non-prescription drags or related educational material.
- the door 1652 is shown in an open position to better illustrate the dmg storage trays 1654 of the medication dispenser 1650.
- Both the user identification system 1660 and the magnetic card reader 1672 can be used to either permit or prevent a user's access to the medication dispenser 1650.
- the user identification system 1660 can be a finge ⁇ rint reader and, preferably, is a thumb print reader. However, other user identification systems can be inco ⁇ orated, such as, for example, but not limited to, credit card, debit card, and smart card reader systems.
- the user identification system 1660 can compare the user's finge ⁇ rint data against finge ⁇ rint data contained in a database interfaced with the dispenser 1650.
- the magnetic card reader 1672 can read information from a user's medication dispenser card, such as a Veteran's Administration card, and compare the information to that within a database interfaced with the dispenser
- a dispenser 1650 can include either the user identification system 1660 or the magnetic card reader 1672, or both, depending upon the level of security required by the customer. For example, a dispenser 1650 located in a doctor's office can require a different level of security than a dispenser 1650 located in a methadon clinic. For customer's requiring a high level of security, the dispenser 1650 can include both the user identification system 1660 and the magnetic card reader 1672.
- the electronics 1658 can include a camera, speakers or a microphone.
- the speakers or microphone can allow for user interaction with the computer 1666 with the presence of a voice recognition system.
- the camera can be connected to the security monitoring device 1668.
- the security monitoring device 1668 can detect tampering of the dispenser 1650.
- the security monitoring device 1668 can be an infrared detector.
- the security monitoring device 1668 can be a vibration recorder. If the dispenser 1650 was tampered, the security monitoring device could cause the camera to create a photographic record of the area su ⁇ ounding the dispenser 1650, for example.
- the photographic record could be a digital image which could then be transfe ⁇ ed to a monitoring station, by way of modem technology, for example.
- the drag storage trays 1654 can include a dispensing device.
- the dispensing device can include helix coils 1680.
- the helix coils 1680 are motor driven and allow the dispensing of medications to a user.
- the helix coil 1680 co ⁇ esponding to the chosen medication can be forced to rotate, thereby causing the medication to move toward the door 1652 of the dispenser 1650 and into a collection tray 1676 located on the door 1652.
- the drag storage trays 1654 can also include dividers 1682.
- the dividers 1682 can be adjustable within the trays 1654 such that the trays 1654 can accommodate medication packages of varying sizes or shapes.
- the rotation of the helix coils 1680 can be controlled by some control system, such as a computer for example.
- the door 1652 can be used to secure the drag storage trays 1654 and the medications within the housing 1684 of the OTC medication dispenser 1650.
- the door 1652 can include lifting mechanisms 1678, which are shown without the door 1652 in Figure 37.
- the door 1652 can also include a collection tray 1676, a pushing device 1686 and a pushing device control 1688.
- the lifting mechanisms 1678 are S-rail lifting screws.
- the S-rail lifting screws can be threaded through the collection tray 1676 and can rotate about a central axis, either in a clockwise or a counterclockwise direction, thereby causing the collection tray 1686 to translate in an upward or downward direction.
- the S-rail lift screws can also be Teflon coated to provide for smooth translation of the collection tray 1676.
- the collection tray 1676 can be used to collect medicine packages from the drug storage trays 1654 and deliver the packages to the labeling device 1656. By allowing for the collection tray 1676 to translate upwards and downwards, the tray 1676 can collect medicine packages from drag storage trays 1654 located along the entire height of the dispenser 1650.
- Positioning the collection tray 1676 at a particular drag storage tray 1654 from which a package is being dispensed prevents the medicine in the package from being damaged by an impact after being dispensed.
- the positioning at the collection tray 1676 can be controlled by a control system, such as a computer, for example.
- the collection tray 1676 can include a pushing device 1686 which can be used to move medical samples from the collection tray 1676 into the labeling device 1656.
- the pushing device 1686 can include a pushing device controller 1688 which controls the positioning of the pushing device 1686.
- the pushing device controller 1688 is an S-rail screw.
- a conveyor can be used as the pushing device controller 1688.
- the pushing device controller 1688 can be driven by a control system, such as a computer, for example.
- the collection tray 1676 can be forced to move, in either an upward or downward direction, to the drag storage trays 1654 which contain the requested medication.
- the helix coils 1680 can then be forced to rotate in the drag storage trays 1654 so as to advance the selected medication into the collection tray 1676.
- the collection tray 1676 can then be caused to move upwards or downwards to the labeling device 1656.
- the pushing device 1686 of the collection tray 1676 can then be caused to push the medication from the collection tray 1676 into the labeling device 1656.
- the drag can be identified by a bar code reader which can read the medication's bar code.
- the labeling device 1656 can also apply a label to the medication.
- the labeling device 1656 can then transfer the medication to the pickup location 1674.
- the labeling device 1656 can transfer the medication to the pickup location 1674 by a conveyance mechanism, such as an S- rail or a conveyor.
- the pickup location 1674 can have a cover which can be automated. When the medications arrive at the pickup location 1674, as requested by the user, the cover can open. Once the user removes the requested medications, the cover can automatically close and secure itself to the pickup location 1674.
- components of the dispensing system - physical and program code - can be physically split and operated from different locations, connected together by a computer network. Further, components of the system can be divided and owned and operated by multiple entities, connected by a computer network if applicable.
- a computer usable medium can include a readable memory device, such as a hard drive device, a CD-ROM, a DVD-ROM, or a computer diskette, having computer readable program code segments stored thereon.
- the computer readable medium can also include a communications or transmission medium, such as a bus or a communications link, either optical, wired, or wireless, having program code segments carried thereon as digital or analog data signals.
Abstract
Description
Claims
Priority Applications (8)
Application Number | Priority Date | Filing Date | Title |
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JP2001524558A JP5078210B2 (en) | 1999-09-22 | 2000-09-22 | System and method for drug distribution |
AU76099/00A AU7609900A (en) | 1999-09-22 | 2000-09-22 | Systems and methods for drug dispensing |
EP00965373A EP1261308A2 (en) | 1999-09-22 | 2000-09-22 | Systems and methods for drug dispensing |
CA2383290A CA2383290C (en) | 1999-09-22 | 2000-09-22 | Systems and methods for drug dispensing |
US10/105,059 US6735497B2 (en) | 1999-09-22 | 2002-03-22 | Systems and methods for dispensing medical products |
US10/272,516 US7006893B2 (en) | 1999-09-22 | 2002-10-16 | Systems for dispensing medical products |
PCT/US2003/032668 WO2004036479A2 (en) | 1999-12-03 | 2003-10-16 | Systems and methods for dispensing medical products |
US10/842,622 US20040210341A1 (en) | 1999-09-22 | 2004-05-10 | Systems and methods for dispensing medical products |
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Also Published As
Publication number | Publication date |
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JP2015084231A (en) | 2015-04-30 |
US6564121B1 (en) | 2003-05-13 |
JP5078210B2 (en) | 2012-11-21 |
US6735497B2 (en) | 2004-05-11 |
US20020173875A1 (en) | 2002-11-21 |
US20030125837A1 (en) | 2003-07-03 |
JP5663378B2 (en) | 2015-02-04 |
CA2814259A1 (en) | 2001-03-29 |
CA2383290A1 (en) | 2001-03-29 |
WO2001021131A3 (en) | 2002-09-26 |
EP1261308A2 (en) | 2002-12-04 |
CA2383290C (en) | 2013-07-09 |
AU7609900A (en) | 2001-04-24 |
JP6046596B2 (en) | 2016-12-21 |
JP2014087656A (en) | 2014-05-15 |
CA2814259C (en) | 2017-10-17 |
US20040210341A1 (en) | 2004-10-21 |
JP2011172948A (en) | 2011-09-08 |
JP2003528652A (en) | 2003-09-30 |
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