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Publication numberUS3834392 A
Publication typeGrant
Publication dateSep 10, 1974
Filing dateFeb 1, 1973
Priority dateFeb 1, 1973
Publication numberUS 3834392 A, US 3834392A, US-A-3834392, US3834392 A, US3834392A
InventorsKnepshield W, Lampman R
Original AssigneeKli Inc
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Laparoscopy system
US 3834392 A
Abstract
A laparoscopy system for female sterilization whereby a single unit contains the power source to provide illumination, oscillatory electrical power and CO2 for a laparoscopy. CO2 gas, under pressure, is first passed into the body through a needle into the peritoneal cavity. The fallopian tubes are identified and then the laparoscope, which contains a telescope connected to a source of illumination, is inserted into the body cavity. A flexible forceps is, thereafter, inserted through the laparoscope into the body cavity. The forceps is manipulated to successively close the passage through each fallopian tube, either by means of sending electrical oscillations through the forceps to simultaneously cut, seal and cauterize each tube in turn, or by means of a specific clamp which clamps the passage shut.
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United States Patent [191 Lampman et al.

[5 LAPAROSCOPY SYSTEM [75] Inventors: Russell A. Lampman, Yardley;

William R. Knepshield, Malvern, both of Pa.

[73] Assignee: KLI, Inc., Ivyland, Pa.

[22] Filed: Feb. 1, 1973 [2]] Appl. No.: 328,513

[52] US. Cl. 128/303.13, 128/4 [51] Int. Cl A61b 17/36 [58] Field of Search..... 128/303.13, 303.14, 303.15,

[56] References Cited UNITED STATES PATENTS 2,382,109 8/1945 Sheiffele 128/4 2,828,748 4/1958 August 128/303.14 3,299,883 l/1967 Rubens 128/4 OTHER PUBLICATIONS Fiber Optic Laparoscope-American Cystoscope Makers, Inc., D-l83, Feb. 1972.

The Lancet Vol. 11 of 1959, No. 7104, pages Fur-rues FLOW VOLUME PPESSUPE FILI- FLOW SELECT INSUFFL. 4 719 EL EC rtoconaucn 710A! 28 Flue": er-um rep n in 34 ILLUMINITOR 36 4 1 R L 3 4 A 50 3 o 1 46 i smna renunnnr MIML) ca,

[451 Sept. 10, 1974 Primary ExaminerLucie l-l. Laudenslager Attorney, Agent, or Firm-Arthur A. Jacobs ABSTRACT A laparoscopy system for female sterilization whereby a single unit contains the power source to provide illumination, oscillatory electrical power and CO for a laparoscopy. CO gas, under pressure, is first passed into the body through a needle into the peritoneal cavity. The fallopian tubes are identified and then the lap- V aroscope, which contains a telescope connected to a source of illumination, is inserted into the body cavity. A flexible forceps is, thereafter, inserted through the laparoscope into the body cavity. The forceps is manipulated to successively close the passage through each fallopian tube, either by means of sending electrical oscillations through the forceps to simultaneously cut, seal and cauterize each tube in turn, or by means of a specific clamp which clamps the passage 5 shut.

4 Claims, 3 Drawi ng Figures smousm PATENTEU saw an 2 3 884 392 LAPAROSCOPY SYSTEM This invention relates to a laparoscopy system for female sterilization, and it particularly relates to a system of this type which is embodied in a single unitary assembly.

A laparoscopy system is used for female sterilization by minor surgical means wherein the fallopian tubes are separated, cut and sealed.

Heretofore, in laparoscopy, it was necessary for the operator to use a variety of different surgical instruments as well as separate heat sealing means or clamps in order to complete the process. The assembling of the various instruments and their separate use was not only time-consuming, but their proper use depended largely on the skill and experience of the operator. It was also often necessary to use a variety of make-shift instruments and apparatus which were never designed for this specific task so that much time and effort were wasted and much skill was needed to obtain the exact correlation of steps and the exact results desired.

It is one object of the present invention to overcome the aforesaid disadvantages by providing a unitary laparoscopy assembly wherein all the elements are correlated and coactive with each other for the specific purpose required and wherein the proper metering and indicating devices co-act with each other to obtain a rapid, highly coordinated and effective result with a minimum of skill and experience.

Another object of the present invention is to provide an assembly of the aforesaid type that is relatively simple and inexpensive in construction and which requires a minimum of maintenance.

Another object of the present invention is to provide an assembly of the aforesaid type which is compact and relatively portable.

Other objects and many of the attendant advantages of this invention will be readily appreciated as the same becomes better understood by reference to the following description when read in conjunction with the accompanying drawings wherein:

FIG. 1 is a view, partly in elevation and partly in perspective of the various components constituting a laparoscopy device embodying the present invention.

FIG. 2 is an enlarged end view taken on line 22 of FIG. 1, in the present invention.

FIG. 3 is a schematic view of the electronic circuit utilized in the present invention.

Referring now in greater detail to the various figures of the drawings wherein similar reference characters refer to similar parts, there is shown a housing having a pair of fluidic indicators, 12 and 14, each of which consists of a small spring-pressed piston. These indicators are of the type manufactured by the Micro Switch Company, Freeport, 11]., a division of Honeywell. These indicators are operatively connected between an internal tank and the patient output. The indicator 12 shows red when the pressure is below a predetermined level and the indicator 14 shows red when there is no flow of CO gas.

Below the indicators 12 and 14 is a lamp 16 which indicates the CO input, being adapted to glow when the pressure in the supply (external tank) is below a predetermined level.

Below the lamp 16 are two dials, the dial 1 8 indicating the CO volume in the internal tank, and the dial indicating the CO pressure-in the. body cavity of the patient being treated.

Below the dials 18 and 20 are three mechanical switch means indicated at 22, 24 and 26 respectively. The switch 22 is a push-button device which mechanically activates a fill valve for the CO flowing from the primary (external) supply to the internal tank when it is pushed in; the toggle switch 24 mechanically activates or deactivates an on-off valve to allow flow of CO from the internal tank to the patient; the toggle switch 26 is a high-low pressure selector which selects flow from either a high or low pressure second stage regulator of standard construction.

The electrocoagulation activator system comprises a push-button, on-off electrical switch 28 to activate or deactivate the electronic network, a push-button, on-of electrical switch 30 for the illuminator system, and a glow lamp 32 to indicate activation of the electrocoagulation means, this lamp being adapted to glow when the foot-pedal, hereinafter described, is depressed. The push-buttons 28 and 30 also contain glow lamps which will be hereinafter described.

Below the aforementioned switches is a selector switch 34 which is used to regulate the high frequency oscillator to set the range of electrocoagulation, and a fitting or adaptor 36 which is provided for the purpose of providing illumination to the telescope through a fiberoptic cable hereinafter described. Behind the fitting 36 is contained a projection bulb, hereinafter described, which is electrically connected to the pushbutton 30 which turns it on and off.

A groundplate 38 is adapted to be strapped to the patient by a rubber band or the like, indicated at 39, and this groundplate is connected at 40 to the electronic network. A cable-type forceps 42 is provided with a jack 44 that is connected by a cable to a connector 46 connected into the oscillator circuit of the electronic network. A footpedal 48 is connected by a cable to the plug 50 connected to the oscillator circuit. A CO outlet 52 is connected to a valve 54 which has an outlet 56 that is selectively connected to either the housing 58 of a Verees needle 60 or a trocar sleeve 62. The sleeve 62 is adapted to hold a trocar 64 which is insertable through the sleeve and held in place by a spring-pressed plunger 66. The sleeve 62 is also provided with an inlet tube 68 which is adapted to receive the outlet 56 of the valve housing 54.

The laparoscope is indicated generally at 70, and comprises a tubular housing 72 having a neck portion 74 and a connector portion 76 which is connected through an optionally provided knurled focusing knob 78 to an eyepiece 80. A tubular inlet 82 extendsoutwardly from the interior of neck portion 74 and is adapted to receive the forceps 42. The inlet 84 is provided with a shut-off valve 85 similar to the valve 54. A tubular extension 84 projects outwardly from the interior of connector portion 76. This extension-8400mprises a bundle of fiberoptic strands and is adapted to be connected to a light-transmitting cable 86 which is also a bundle of fiberoptic strands encased in aflexible sheathing. This cable 86 is connected to the adaptor 36.

The housing 72, as best seen in FIG. 2, contains an elongated tube 88, adapted'to receive a telescope 89 (shown in FIG. 1), and an elongated tube 90 integral and continuous with the inlet-82" and adapted to receive the forceps 42 which is inserted through inlet 82. The

interior of the housing 72 is filled with fiberoptic material 92 around the two tubes 88 and 90. The cable86 is adapted to transmit light from the projection bulb behind the adaptor 36 through the extension 84 into the housing 72 to provide light for the telescope.

In operation, the valve 54 is attached to the housing 58 of the Verees needle 60 and the valve 54 is connected by a flexible tube to the CO supply outlet 52. The supply outlet 52 is connected to an internal tank in the housing by a low pressure hose. The internal tank is filled with CO from an external supply tank (not shown) by means of the push-button switch 22 which mechanically operates a valve in the connection between the external and internal tank after going through a primary stage regulator of standard construction.

The needle 60 is then injected into the peritoneal cavity of the patient and the select switch 26 is set to high, which is about 30 mm. of mercury as set by the factory. The switch 24 is then activated to cause a flow of CO into the patients peritoneal cavity at the area selected by the operator. The needle 60 is adapted to pass through the tissue into the desired cavity where the fallopian tubes should be situated. If the pressure reading is then maintained, at 9-12 mm. Hg pressure, as shown by dial 20, the gas flow is within the correct cavity. If it is not the correct cavity, the gas pressure rapidly increases and flow is slowed. In this case, the needle is then reinjected and the gas flow repeated until the correct cavity is found. The selector valve, operated by the select switch 26, is then set to low (about 10 mm. of mercury) after approximately 2 liters of CO is passed into the peritoneal cavity.

When the pressure reading indicates that the gas is flowing into the correct cavity, the gas flow is halted and the needle is withdrawn. A slight incision is then made with a scalpel just below the umbilicus, and through this incision is inserted the trocar 64 which is telescopically positioned within the sleeve 62. The valve device 54, which has been disassembled from the needle housing 58, is then coupled to the inlet 68 and the CO pressure is maintained at a constant 10 mm. of mercury. The trocar is manipulated to push between the tissue and into the peritoneal cavity.

The trocar is then pulled out and the laparoscope 70 is inserted in its place. With the vlaparoscope in position, the fiberoptic cable 86 is connected between the extension 84 and the adaptor 36 behind which is contained the light source. The ground plate 38 is also attached to the patient at this time.

With the laparoscope in position, the valve 85, which is normally closed to prevent escape of the gas, is opened and the forceps 42 is inserted through the inlet 82 and the tube 90 into the body cavity. The forceps itself then substantially prevents escape of the gas. The pushbutton 30 is pushed in to turn on the lamp behind adaptor 36. At this time the CO is maintained at a constant 10 mm. mercury pressure which equalizes the pressure of the gas in the cavity, so that there is effectively no flow. The operator then peers through the eyepiece 80 and, while doing so, uses the forceps to grip a fallopian tube. With the forceps in the proper position around the fallopian tube, the operator steps on the footpedal 48 which activates the oscillator circuit, the power output of the oscillator having been set by adjustment of the selector switch 34 to a predetermined value. The oscillator sends its pulses through the cable 94, leading from connector 46, through the forceps 42. This results in a simultaneous cutting, sealing and cauterizing of the fallopian tube by electrocoagulation. The same procedure is then repeated with the other fallopian tube.

Although an electrocoagulation process has been described above, it is also possible to substitute a clip means which can'be inserted by a special forceps and manipulated thereby to clamp the fallopian tube, closing the passage therethrough.

The electronic control and actuating network is shown in FIG. 3. The AC input is comprised of power input lines 102 and 104 and a ground line 106. The ground line 106 is tied to the housing to prevent shock hazard. The lines 102 and 104 are placed into and out of the circuit with the primary winding 108 of a transformer 110 by means of a double pole double throw maintained contact illuminated pushbutton switch 112 operated by button 28. A fuse 114 is provided in the power line 102 to prevent undesirable power surges.

The primary 108 coacts with three secondary windings designated 116, 1 l8 and respectively. The secondary 116 is in circuit with a lamp 122 inside button 28 and a lamp 124 inside button 30. A double throw double pole maintained contact illuminated pushbutton switch is operated by button 30, one of the switch blade contacts being shown at 126 and the other at 128. When the button 30 is pushed in, it simultaneously closes both contacts 126 and 128 to cause both the lamp 124 and a projection lamp 130 to glow. The projection lamp 130 is positioned within the unit and provides the illumination for the telescope in the laparoscope at its output connector 36.

The light circuit also includes a pressure-operated switch 132, single pole double throw momentary contact press to test switch 134 and lamp 16. The switch 134 is normally held in engagement with a contact 136 but may be passed into engagement with contact 138 for a purpose to be hereinafter described.

When the button 28 is pushed in to close switch 112, it activates a blower 140 to keep the equipment cool and activates the transformer 110. This also causes the lamp 122 to glow. When the button 30 is pushed in, it closes switch contacts 126 and 128 causing lamps 124 and 130 to glow. Normally, the switch 132 is open and the lamp 16 does not glow. However, when the primary (external) pressure falls below a predetermined minimum value, the switch 132 closes and the lamp l6 glows indicating low primary gas pressure. if it is desired to test the circuit to determine if the lamp 16 is operative, the switch 134 is moved from contact 136 by pressing pushbutton 32 to contact 138, thereby bypassing the switch 132 and causing lamp 16 to glow.

The secondary winding 1 18 is in circuit with a rectitier bridge 142 for changing AC to DC current. The bridge 142 is in circuit with a relay solenoid 146 which is operated by a foot-pedal switch 148. When the footpedal switch 148 is closed, it causes the relay solenoid 146 to energize which, thereupon, acts to close the solenoid switch 150. This energizes the primary winding 152 of a transformer 154 thereby actuating the electrocoagulatory oscillator.

The transformer 154 has two secondary windings 156 and 158. Energization of secondary 156 causes lamp 32 to glow, indicating activationof the electrocoagulator oscillator. Energization of secondary 158 sends current through the high voltage rectifier bridge 160 to actuate the high frequency oscillator partially comprised of pentodes 162 and 164, whose filaments are in circuit with secondary 120 of transformer 110. The resultant high frequency oscillations pass through transformer 166 and through the pre-set range selector switch 34 to the forceps connector 46 and in turn to the forceps 42.

The circuit from transformer 166 is completed through the shield connector 40. The shield 38 is attached to the patient and by means of the shield cable is connected to shield connector 40.

When the operator releases the foot-pedal 48, it opens the switch 148 and this inactivates the oscillator circuit. Generally only a momentary or very short activation time is required.

The invention claimed is:

1. In a laparoscopy system comprising a housing, a gas tank in said housing, conduit means connecting said tank to a source of gas under pressure, penetrating means constructed and arranged to penetrate into a body cavity through the abdominal wall, said penetrating means being in selective gaseous fluid connection with said tank and being constructed and arranged to project said gas into said body cavity, and a piercing means constructed and arranged to pierce the abdominal wall and pass between muscle layers under the skin to form a passage into a body cavity, said piercing means being in selective gaseous fluid connection with said tank, the improvement comprising a laparoscope selectively insertable through said passage into said body cavity, said laparoscope comprising an elongated casing containing a telescope and a forceps guide tube, said telescope and forceps guide tube extending longitudinally of said elongated casing in substantial parallelism with each other, said telescope being in selective operative connection with a source of illumination in said housing, an elongated flexible forceps adapted to grasp a fallopian tube, said forceps being selectively positioned in said forceps guide tube and extending therefrom in a position to grasp said fallopian tube while said telescope is illuminated by connection with said source of illumination, whereby said forceps may be manipulated while said telescope provides an illuminated view to the operator through the same passage into said body cavity, means connected to said forceps for closing the passage of said fallopian tube, said laparoscope having means to substantially prevent escape of gas from said body cavity when said forceps is not positioned in said forceps guide tube, and said forceps being constructed and arranged to substantially prevent escape of said gas from said body cavity when it is positioned in said forceps guide tube.

2. The system of claim 1 wherein said means for closing the passage of the fallopian tube is an oscillatory electrical current, said current being supplied by an electrical oscillation circuit in said housing, a source of electrical energy operatively and selectively connected to said oscillation circuit, said forceps being constructed and arranged to receive and transmit said oscillatory current from said oscillation circuit to said fallopian tube, said forceps being in selective operative connection with said oscillation circuit, and means to selectively actuate said oscillation circuit.

3. The system of claim 2 wherein adjusting means are provided in said oscillation circuit to vary the power output thereof.

4. The system of claim 1 wherein said means for closing the passage of the fallopian tube is a clip means.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2382109 *Aug 6, 1943Aug 14, 1945William J CameronDiagnostic and electrosurgical appliance
US2828748 *Mar 16, 1953Apr 1, 1958Birtcher CorpGas blanketed electro-surgical device
US3299883 *Nov 8, 1963Jan 24, 1967Engelhard Hanovia IncGynecologic instrument
Non-Patent Citations
Reference
1 *Fiber Optic Laparoscope American Cystoscope Makers, Inc., D 183, Feb. 1972.
2 *The Lancet Vol. II of 1959, No. 7104, pages 650 651.
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3982542 *Mar 12, 1975Sep 28, 1976Ford John LElectroresectroscope and method of laparoscopic tubal sterilization
US4051855 *Feb 6, 1976Oct 4, 1977Ipco Hospital Supply Corporation, Whaledent International DivisionElectrosurgical unit
US4085743 *Mar 2, 1976Apr 25, 1978In Bae YoonMultiple occlusion ring applicator and method
US4374523 *Aug 15, 1975Feb 22, 1983Yoon In BOcclusion ring applicator
US4524770 *Jan 25, 1983Jun 25, 1985Ahmad OrandiEndoscope injection needle
US4607621 *Oct 7, 1983Aug 26, 1986Welch Allyn Inc.Endoscopic apparatus
US5041110 *Jul 10, 1989Aug 20, 1991Beacon Laboratories, Inc.Cart for mobilizing and interfacing use of an electrosurgical generator and inert gas supply
US5074867 *May 18, 1990Dec 24, 1991Wilk Peter JSurgical instrument assembly and related surgical method
US5217003 *Mar 18, 1991Jun 8, 1993Wilk Peter JAutomated surgical system and apparatus
US5217453 *Apr 8, 1991Jun 8, 1993Wilk Peter JAutomated surgical system and apparatus
US5258026 *Feb 6, 1992Nov 2, 1993Johnson Gerald WEndoscopic augmentation mammoplasty and instruments therefor
US5269789 *Oct 9, 1992Dec 14, 1993Boston Scientific CorporationMultiple ligating band dispenser for ligating instruments
US5271379 *Jul 26, 1991Dec 21, 1993The Regents Of The University Of CaliforniaEndoscopic device actuator and method
US5300081 *Oct 9, 1992Apr 5, 1994United States Surgical CorporationSurgical clip applier having clip advancement control
US5312391 *Jul 29, 1992May 17, 1994Wilk Peter JLaparoscopic instrument assembly
US5330469 *Apr 5, 1991Jul 19, 1994Beacon Laboratories, Inc.Apparatus for supporting an electrosurgical generator and interfacing such with an electrosurgical pencil and an inert gas supply
US5356416 *Oct 19, 1993Oct 18, 1994Boston Scientific CorporationCombined multiple ligating band dispenser and sclerotherapy needle instrument
US5368015 *Jun 7, 1993Nov 29, 1994Wilk; Peter J.Automated surgical system and apparatus
US5382254 *Oct 30, 1992Jan 17, 1995United States Surgical CorporationActuating handle for surgical instruments
US5382255 *Jan 8, 1993Jan 17, 1995United States Surgical CorporationApparatus and method for assembly of surgical instruments
US5383881 *Sep 22, 1993Jan 24, 1995United States Surgical CorporationSafety device for use with endoscopic instrumentation
US5395367 *Nov 18, 1993Mar 7, 1995Wilk; Peter J.Laparoscopic instrument with bendable shaft and removable actuator
US5431638 *Jun 21, 1993Jul 11, 1995United States Surgical CorporationEnergy dissipation device
US5449356 *Oct 18, 1991Sep 12, 1995Birtcher Medical Systems, Inc.Multifunctional probe for minimally invasive surgery
US5500019 *Oct 26, 1993Mar 19, 1996Johnson; Gerald W.Endoscopic augmentation mammoplasty
US5511564 *Feb 1, 1995Apr 30, 1996Valleylab Inc.Laparoscopic stretching instrument and associated method
US5536267 *Aug 12, 1994Jul 16, 1996Zomed InternationalMultiple electrode ablation apparatus
US5643283 *Dec 15, 1994Jul 1, 1997Younker; Marlin E.Surgical pouch
US5669934 *Jun 5, 1995Sep 23, 1997Fusion Medical Technologies, Inc.Methods for joining tissue by applying radiofrequency energy to performed collagen films and sheets
US5697940 *Oct 14, 1994Dec 16, 1997Boston Scientific CorporationMultiple ligating band dispenser
US5749895 *Sep 6, 1994May 12, 1998Fusion Medical Technologies, Inc.Method for bonding or fusion of biological tissue and material
US5769841 *Jun 13, 1995Jun 23, 1998Electroscope, Inc.Electrosurgical apparatus for laparoscopic and like procedures
US5824015 *Jun 5, 1995Oct 20, 1998Fusion Medical Technologies, Inc.Method for welding biological tissue
US5833696 *Oct 3, 1996Nov 10, 1998United States Surgical CorporationTo body tissue
US5906621 *May 14, 1996May 25, 1999United States Endoscopy Group, Inc.For retrieving severed tissue from within a patient's body
US5913855 *Nov 3, 1997Jun 22, 1999Rita Medical Systems, Inc.Multiple antenna ablation apparatus and method
US5925042 *Nov 3, 1997Jul 20, 1999Rita Medical Systems, Inc.Multiple antenna ablation apparatus and method
US5928229 *Oct 30, 1997Jul 27, 1999Rita Medical Systems, Inc.Tumor ablation apparatus
US5951547 *Nov 3, 1997Sep 14, 1999Rita Medical Systems, Inc.Multiple antenna ablation apparatus and method
US5961526 *Feb 18, 1998Oct 5, 1999Boston Scientific CorporationCoaxial needle and severing snare
US5972002 *Jun 2, 1998Oct 26, 1999Cabot Technology CorporationApparatus and method for surgical ligation
US5980517 *Mar 25, 1998Nov 9, 1999Rita Medical Systems, Inc.Cell necrosis apparatus
US6051003 *Nov 12, 1997Apr 18, 2000Boston Scientific CorporationCombined multiple ligating band dispenser and sclerotherapy needle instrument
US6059780 *Nov 4, 1997May 9, 2000Rita Medical Systems, Inc.Multiple antenna ablation apparatus and method with cooling element
US6071280 *Feb 14, 1997Jun 6, 2000Rita Medical Systems, Inc.Multiple electrode ablation apparatus
US6080150 *Feb 24, 1998Jun 27, 2000Rita Medical Systems, Inc.Cell necrosis apparatus
US6090105 *Nov 17, 1997Jul 18, 2000Rita Medical Systems, Inc.Multiple electrode ablation apparatus and method
US6132425 *Feb 6, 1998Oct 17, 2000Gough; Edward J.Cell necrosis apparatus
US6210416Jul 19, 1999Apr 3, 2001Michael S. H. ChuCoaxial needle and severing snare
US6364840 *Sep 27, 2000Apr 2, 2002Boston Scientific CorporationAcoustic imaging catheter and the like
US6402688 *Oct 28, 1999Jun 11, 2002Asahi Kogaku Kogyo Kabushiki KaishaAir delivery unit for endoscope
US6544287Dec 7, 1999Apr 8, 2003Gerald W. JohnsonSolid filled implants
US6572553Jan 4, 2002Jun 3, 2003Scimed Life Systems, Inc.Medical imaging device
US6585655May 31, 2002Jul 1, 2003Scimed Life Systems, Inc.Medical imaging device
US6724553Oct 22, 2001Apr 20, 2004Samsung Electronics Co., Ltd.Method and apparatus for generating the optimum read timing for read and write offset of a magneto resistive head
US6791780Oct 15, 2001Sep 14, 2004Samsung Electronics Co., Inc.Method and apparatus for providing write current optimization
US6958062Nov 3, 1997Oct 25, 2005Rita Medical Systems, Inc.Multiple antenna ablation apparatus and method
US6982849Sep 13, 2001Jan 3, 2006Samsung Electronics Co., Ltd.Method and apparatus for providing positional information on a disk
US7035031Nov 26, 2001Apr 25, 2006Samsung Electronics Co., Ltd.Installation of heater into hard disk drive to improve reliability and performance at low temperature
US7037271May 27, 2003May 2, 2006Boston Scientific CorporationMedical imaging device
US7158337Oct 7, 2005Jan 2, 2007Samsung Electronics Co., Ltd.Method and apparatus for providing positional information on a disk
US7245963Mar 7, 2002Jul 17, 2007Advisys, Inc.Electrode assembly for constant-current electroporation and use
US7422589Aug 12, 2005Sep 9, 2008Encision, Inc.System and method for performing an electrosurgical procedure
US7465302Aug 12, 2005Dec 16, 2008Encision, Inc.System and method for performing an electrosurgical procedure
US7645278 *Feb 22, 2006Jan 12, 2010Olympus CorporationCoagulating cutter
US7664545Jul 28, 2006Feb 16, 2010Vgx Pharmaceuticals, Inc.Electrode assembly for constant-current electroporation and use
US8007494Apr 26, 2007Aug 30, 2011Encision, Inc.Device and method to prevent surgical burns
US8209006Sep 8, 2003Jun 26, 2012Vgx Pharmaceuticals, Inc.Constant current electroporation device and methods of use
US8251989Jun 13, 2007Aug 28, 2012Encision, Inc.Combined bipolar and monopolar electrosurgical instrument and method
US8292879Dec 24, 2009Oct 23, 2012Domain Surgical, Inc.Method of treatment with adjustable ferromagnetic coated conductor thermal surgical tool
US8372066Dec 24, 2009Feb 12, 2013Domain Surgical, Inc.Inductively heated multi-mode surgical tool
US8377052Dec 24, 2009Feb 19, 2013Domain Surgical, Inc.Surgical tool with inductively heated regions
US8414569Dec 24, 2009Apr 9, 2013Domain Surgical, Inc.Method of treatment with multi-mode surgical tool
US8419724Dec 24, 2009Apr 16, 2013Domain Surgical, Inc.Adjustable ferromagnetic coated conductor thermal surgical tool
US8425503Jul 26, 2012Apr 23, 2013Domain Surgical, Inc.Adjustable ferromagnetic coated conductor thermal surgical tool
US8430870Dec 24, 2009Apr 30, 2013Domain Surgical, Inc.Inductively heated snare
US8460284Oct 24, 2008Jun 11, 2013Encision, Inc.Multiple parameter fault detection in electrosurgical instrument shields
US8491578Dec 24, 2009Jul 23, 2013Domain Surgical, Inc.Inductively heated multi-mode bipolar surgical tool
US8506561Dec 24, 2009Aug 13, 2013Domain Surgical, Inc.Catheter with inductively heated regions
US8523850Dec 24, 2009Sep 3, 2013Domain Surgical, Inc.Method for heating a surgical implement
US8523851Dec 24, 2009Sep 3, 2013Domain Surgical, Inc.Inductively heated multi-mode ultrasonic surgical tool
US8523852Dec 24, 2009Sep 3, 2013Domain Surgical, Inc.Thermally adjustable surgical tool system
US8617151Dec 6, 2012Dec 31, 2013Domain Surgical, Inc.System and method of controlling power delivery to a surgical instrument
US8734439Mar 4, 2008May 27, 2014Angiodynamics, IncAblation apparatus and method
US8758336Oct 13, 2009Jun 24, 2014Encision, Inc.System and method for monitoring electrosurgical systems
DE2741910A1 *Sep 17, 1977Mar 23, 1978Kli IncChirurgisches abbindeinstrument
DE4091170T *Jul 9, 1990Jan 30, 1992 Title not available
WO1995031139A1 *May 16, 1994Nov 23, 1995Peter J WilkLaparoscopic instrument assembly
Classifications
U.S. Classification606/52, 600/126, 600/104
International ClassificationA61M13/00, A61B17/42, A61B18/12
Cooperative ClassificationA61B18/12, A61B17/42, A61M13/00, A61B18/1206, A61B2018/0066
European ClassificationA61B18/12G, A61B18/12, A61B17/42
Legal Events
DateCodeEventDescription
Jul 17, 1984PSPatent suit(s) filed
Dec 12, 1983ASAssignment
Owner name: WINIASZ, MICHAEL EDWARD, 4009 WASHINGTON AVE., LOR
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:ADVANCED DESIGN INDUSTRIES, INC.;REEL/FRAME:004198/0562
Effective date: 19831202
Dec 12, 1983AS02Assignment of assignor's interest
Owner name: ADVANCED DESIGN INDUSTRIES, INC.
Effective date: 19831202
Owner name: WINIASZ, MICHAEL EDWARD, 4009 WASHINGTON AVE., LOR
Dec 5, 1983AS03Merger
Owner name: COOPER MEDICAL DEVICES CORPORATION A DE CORP.
Owner name: KLI, INC. A PA CORP.
Effective date: 19800625
Dec 5, 1983AS02Assignment of assignor's interest
Owner name: CABOT MEDICAL CORPORATION, 2021 CABOT BLVD., WEST,
Owner name: COOPER LABORATORIES, INC.
Effective date: 19830418
Owner name: COOPER MEDICAL CORPORATION
Dec 5, 1983AS01Change of name
Owner name: COOPER MEDICAL CORPORATION
Owner name: COOPER MEDICAL DEVICES CORPORATION
Effective date: 19820730
Dec 5, 1983ASAssignment
Owner name: CABOT MEDICAL CORPORATION, 2021 CABOT BLVD., WEST,
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNORS:COOPER MEDICAL CORPORATION;COOPER LABORATORIES, INC.;REEL/FRAME:004235/0348
Effective date: 19830418
Owner name: COOPER MEDICAL CORPORATION
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Effective date: 19820730
Owner name: COOPER MEDICAL DEVICES CORPORATION
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Effective date: 19800625
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Owner name: COOPER MEDICAL DEVICES CORPORATION, 100 WEST TENTH
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Effective date: 19830620