|Publication number||US20060293703 A1|
|Application number||US 11/511,171|
|Publication date||Dec 28, 2006|
|Filing date||Aug 28, 2006|
|Priority date||Mar 26, 2003|
|Also published as||US7144406, US20040193203|
|Publication number||11511171, 511171, US 2006/0293703 A1, US 2006/293703 A1, US 20060293703 A1, US 20060293703A1, US 2006293703 A1, US 2006293703A1, US-A1-20060293703, US-A1-2006293703, US2006/0293703A1, US2006/293703A1, US20060293703 A1, US20060293703A1, US2006293703 A1, US2006293703A1|
|Inventors||Jae Pak, William Rassman|
|Original Assignee||Pak Jae P, Rassman William R|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (7), Classifications (6)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This invention relates to apparatus for transplanting hair grafts, and, more particularly to apparatus for implanting hair grafts primarily into a human scalp.
The transplantation of hair grafts into a human scalp is well understood. The present state of the art calls for excising a hair-rich area of the scalp, dissecting the excised scalp segment to obtain individual grafts for implantation, creating an implantation site in a bald area of the scalp and implanting an individual graft into the prepared implantation site. It is also known that a preferred graft for implantation comprises a follicular unit which is the basic microscopic anatomy which contains 1-4 hairs bunched together.
Implantation instruments for use by a surgeon to implant hair grafts are well known. For example, U.S. Pat. No. 6,059,807, issued May 9, 2000 discloses a hair graft implantation instrument which includes a hollow needle which is moved within a sheath between first and second positions at which the needle extends beyond the sheath and at which the needle is retracted within the sheath. In operation, a vacuum is created within the needle when it is advanced to the first position to grasp a graft for implantation. The needle is inserted into a scalp as the vacuum is released. The needle is spring loaded to retract the needle to the second position.
The instrument disclosed in U.S. Pat. No. 6,059,807 is delicate to control requiring adjustment to position the needle tip to capture a graft. Moreover, implantation of a graft is difficult to achieve because of frequent removal of an implanted graft as the needle is withdrawn.
U.S. Pat. No. 6,461,369B1 issued Oct. 8, 2002 also discloses an instrument for hair graft implantation. The instrument disclosed in U.S. Pat. No. 6,461,369Bi comprises a needle with a slot for securing a hair to which a root is attached. The instrument also includes a sliding member which forms a sheath about the needle. The needle is inserted into the scalp and the surgeon depresses the sliding member towards the scalp as the needle is withdrawn, the sliding member operating to retain the graft in place. This instrument also requires a significant amount of training to coordinate the withdrawal of the needle and the manipulation of the sliding member.
The present invention is based on the recognition that a hair graft implanting device has to perform not only to insert a hair graft into the scalp at a particular depth but also to extract the implanting needle in a manner which retains the hair graft in place. Such an extraction preferably occurs quickly in order to have a high success rate. But quick extraction of the needle also increases the risk of dislodging the graft.
In accordance with the principles of this invention, an implantation instrument includes a needle with an internal solid rod positioned along the axis of the needle and, importantly, is secured in a fixed position to the instrument housing. In operation, the needle is moved beyond the end of the rod the hair graft is loaded into the needle and the needle is inserted into a scalp. The needle is then quickly withdrawn via, for example, a spring loaded escapement mechanism. The fixed position rod is located to prevent dislodgment of the graft during the withdrawal of the needle.
Because of the fixed position of the rod and the movement and quick release of the needle, an operator need only insert the needle and activate an escapement trigger. The device requires no coordination of the needle withdrawal and the rod for preventing dislodgement of the graft during that withdrawal.
In one embodiment of this invention, an instrument, conveniently hand operated, serves to both grasp a hair graft from a scalp segment dissected from a human scalp and to implant the graft. The instrument comprises a cylindrical tube which includes first and second sealed chambers stacked in tandem along the central axis of the tube. Each chamber includes a piston which is movable forward and backward along the axis. Each piston is spring biased separately towards a distal end of the respective chamber. Each chamber also has a vacuum port or inlet positioned such that the creation of a vacuum operates to move the associated piston towards the proximal end of the tube, the end which is placed against a source of grafts or against the scalp, first to capture a graft and then to implant the graft.
The proximal end of the tube is open to permit the first piston to be advanced through the open proximal end of the tube into a source of hair grafts. The first piston has a hollow internal section and a section of reduced cross section which forms a sheath around the needle tip and which corresponds to the size of a hair graft. The first piston also includes an opening to permit an applied vacuum to be established also within the section of reduced cross section (sheath) to permit a suction there to allow the sheath to grasp a hair graft.
The tube also includes a rod in a fixed position along the axis of the tube and of a length to stop a hair graft from moving into the first piston further than an optimum position for implantation. The rod extends through each of the first and second pistons.
The second piston also includes an extension of reduced cross section. The extension extends along the axis of the tube into the first chamber and well into the first piston. The extension of the second piston ends in a needle.
The instrument is operated by applying a vacuum regimen first to capture a graft, drawing the graft into the sheath to a position determined by the rod. For this operation, the vacuum is applied to move both pistons to the proximal end of the tube. Next the vacuum for the first piston is turned off leaving the needle exposed beyond the proximal end of the tube. The vacuum for the second piston is still on.
Next, the vacuum for the second piston also is turned off, allowing the second piston (and the needle) to withdraw and the rod to act to properly maintain the captured graft in the scalp when the needle is withdrawn. So long as the instrument is abutted against an implantation site when the vacuum for the second piston is turned off, the graft is released as the graft is implanted.
Thus, in accordance with the principles of this invention, the sheath formed at the proximal end of the first piston draws in a hair graft when a vacuum is provided. The graft is guided into the tip of the needle while the needle is still retracted. The sheath then is withdrawn leaving the needle in position to implant the graft. The needle then is retracted about the rod which dislodges the graft leaving it in place when the needle is withdrawn.
In another embodiment a graft is positioned within the needle from a source in a fluid medium.
The implementation for placing a graft within the needle need not be part of a single instrument. Instead, an instrument for implantation may mate with, for example, a vacuum operated graft capture device by insertion of the needle into the device in a sealed position for proper placement of a graft.
Instrument 11, in one embodiment, is seven inches long and three-fourths of an inch in diameter and is normally held between the forefinger and the thumb. The index finger is left free to operate the instrument as will be more fully explained hereinafter.
The instrument is operative to capture a hair graft illustratively from a supply of grafts previously extracted from an excised portion of the scalp of the patent receiving the implantations.
The operation of instrument 11 is described in connection with
With specific reference to
Instrument 11 includes first and second chambers 36 and 37 and ports 38 and 39 respectively for creating vacuums in the chambers. Pistons 30 and 31 occupy chambers 36 and 37 respectively and are biased by springs normally towards the (distal) ends 42 and 43 of the chambers in the absence of vacuums.
Pistons 30 and 31 are operative to be moved towards the proximal end 44 of the instrument when vacuums are provided in the respective chambers as indicated in
Piston 30 is hollow so that a vacuum which is operative to move the piston towards the proximal end of the instrument also creates a vacuum within the piston through aperture 50 shown in
Piston 31 has an elongated portion 58 extending through piston 30 and terminating in a hollow needle configuration designated 60 in
Needle 60 has an aperture 62 which is within the (sealed) interior of Piston 30 as shown in
In operation, the vacuum for piston 30 is released for withdrawing the sheath and leaving the graft in position in needle 60 at the proximal end of rod 34. The advance of device 11 delivers the graft to the scalp of a patent through now exposed needle 60.
The graft is delivered preferably with a quick retraction of the needle so that the graft remains in the scalp when the needle is withdrawn. Further, the needle has to penetrate the scalp only a critical distance of approximately 5-6 mm. That distance is indicated by a line 61 which corresponds to the end 56 of rod 34. The retraction is accomplished by releasing the vacuum in chamber 37. This action allows spring 71 to return piston 31 and it's attached portion 58 (with needle 60) to distal end 43. At this point the tip of needle 60 is behind line 61.
The sequence of
Controller 46 of
The status of the vacuums and the corresponding piston positions are indicated in the FIGS. The process is initiated by providing the vacuums for chambers 36 and 37 as indicated by block 95 of
The second step in the process is to advance the instrument into a position to capture a graft 12 from a source of grafts as shown in
The next step is to turn off the vacuum in chamber 36 as indicated in block 97 of
The next step is to insert needle 60 into the scalp 76 as indicated by block 98 in
Instrument 100 also includes a rod 110 which remains in a fixed position within needle 104 with a proximal end positioned to properly maintain the position of an implanted graft (106) when needle 104 is withdrawn after implantation of a graft into the scalp 112 as shown in
Needle 104 is attached to element 115 (shown in
In the embodiment of
The advancement of the lever results in the lever being biased into a slot as shown in
Common to the various embodiments herein and most importantly is a rod which is in a fixed position within a hollow needle where the needle moves along a common axis with respect to the rod to a first position to implant a graft and to a second (withdrawn) position where the rod acts to retain a graft in place. Also, common to the various embodiments herein is a graft capture implementation where a graft is guided into position within a needle via a sheath, a vacuum being provided within the sheath (and simultaneously within the needle).
What has been described is considered merely illustrative of the invention. Those skilled in the art are clearly capable of producing variations thereof wherein the spirit and scope of the invention as encompassed by the following claims. It is clear, for example, that the presence of the rod herein properly retains an implanted graft in place and even permits slow needle withdrawal without a problem. Also, it is clear that graft capture may be accomplished manually.
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US7621933 *||May 31, 2006||Nov 24, 2009||Restoration Robotics, Inc.||Tool assembly for harvesting and implanting follicular units|
|US7621934 *||May 31, 2006||Nov 24, 2009||Restoration Robotics, Inc||Methods of harvesting and implanting follicular units using a coaxial tool|
|US8066717||Mar 14, 2008||Nov 29, 2011||Restoration Robotics, Inc.||Device and method for harvesting and implanting follicular units|
|US8133247 *||Oct 12, 2009||Mar 13, 2012||Restoration Robotics, Inc.||Tool assembly for harvesting and implanting follicular units|
|US8241314||Aug 14, 2012||Restoration Robotics, Inc.||Anti-popping devices and methods for hair implantation|
|US8562627||Sep 21, 2011||Oct 22, 2013||Restoration Robotics, Inc||Device and method for harvesting and implanting follicular units|
|US20100030234 *||Oct 12, 2009||Feb 4, 2010||Mohan Bodduluri||Tool Assembly for Harvesting and Implanting Follicular Units|
|International Classification||A61B17/34, A61F2/10|
|Cooperative Classification||A61F2/10, A61B17/3468|