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FRUSTOCONICAL HAIR PUNCH

20230355267 · 2023-11-09

    Inventors

    Cpc classification

    International classification

    Abstract

    A punch is adapted to remove hair follicles. The punch includes a generally tubular body formed about a generally central axis and extending from a generally tubular body proximal end to a generally tubular body distal end. A generally frustoconical portion further includes a generally frustoconical portion proximal end and a generally frustoconical portion distal end. The generally frustoconical portion is formed about the generally central axis. The generally frustoconical portion distal end is joined to the generally tubular body proximal end. A cutting edge is connected to the generally frustoconical portion. Inserting the cutting edge into skin creates a wound to remove the hair follicles

    Claims

    1. A punch, for removing hair follicles; the punch comprising: a generally tubular body formed about a generally central axis and extending from a generally tubular body proximal end to a generally tubular body distal cutting end; a generally frustoconical portion, terminating in a distal cutting end, connected to the generally frustoconical proximal portion with or without a straight walled cylindrical transition zone of variable length ranging from 0-3 mm; wherein, the cutting ends outer perimeter is defined by a sharp cutting tip which extends and points away from the central axis in angles ranging from 30 degrees to 95 degrees to direct the cutting forces substantially away from hair follicle; wherein the cutting end creates a wound to remove hair follicles; wherein the general frustoconical portion further comprises a generally frustoconical proximal end having a frustoconical proximal end radius from the generally central axis and a generally frustoconical distal end having a frustoconical distal end radius from the generally central axis; wherein a frustoconical axis ratio between the frustoconical distal end radius and the frustoconical proximal end radius is between about 1:3 and about 1:1.10.

    2. The punch of claim 1 wherein, the external wall of the cutting end relative to the punch’s general central axis on a lateral profile is straight.

    3. The punch of claim 1 wherein, the external wall of the cutting end relative to the punch’s general central axis on a lateral profile is curved in a concave manner to terminate in a cutting tip that extends and points outward.

    4. The punch of claim 3 wherein, second frustoconical end continues in circular concave course that terminates at a cutting edge that points outwards and downwards relative to the central axis.

    5. The punch of claim 3 wherein, second frustoconical end continues in circular concave course that terminates at a cutting edge that points outwards and at 90 degrees relative to the central axis.

    6. The punch of claim 3 wherein, second frustoconical end continues in circular concave course that terminates at a cutting edge that points outwards and proximally at between 95-120 degrees relative to the central axis.

    7. The punch of claim 3 wherein the cutting end relative to the punch’s general central axis on a lateral profile that is viewed from the punch center to the cutting tip that terminates in a flat plane at 90.

    8. The punch of claim 3 wherein the cutting end relative to the punch’s general central axis on a lateral profile that is viewed from the punch center to the cutting tip that is slanted in an angle that ranges from 85 degrees to 20 degrees in a manner that increases the sharpness of the cutting end with decreasing angulation.

    9. The punch of claim 3 wherein the cutting end surface viewed from its distal inferior face viewed from the punch’s center to the outer margins where the cutting tip is located is textured to aid in pulling grafts upwards into the punch lumen to prevent incidents of buried grafts associated with blunt and flat punches.

    10. The punch of claim 9 where the texturing assist in driving the punch forward to overcome the resistance to the punch distal progression into the tissue posed by the furstoconical gradient.

    11. The punch of claim 9 wherein the texturing includes lines of discontinuities approximately 12.5 micrometers deep.

    12. The punch of claim 9 wherein the texturing includes lines of discontinuities are generally concentric about the generally central axis.

    13. The punch of claim 9 wherein the texturing includes generally lines of discontinuities that are approximately 0.15 mm apart.

    14. The punch of claim 3, wherein the cutting edge is configured to gather more tissue around the follicles as it scores around it creating bulkier grafts.

    15. The punch of claim 3, wherein a distal end region of the punch has an exterior textured region that does not extend through a thickness of the generally cylindrical body.

    16. The punch of claim 14 where the textured region extends from the cutting tip proximally to a distance that ranges from 0.5 to 5 mm.

    17. The punch of claim 14 wherein the texturing helps to generate a corkscrew effect which drives the punch forward to help overcome resistance to forward movement of the punch caused by the expanding frustoconical gradient.

    18. The punch of claim 14, wherein with the punch rotating in a 10-60 degrees to the skin surface and the punch tip engaging the skin with an initial cut, the texturing upon engaging the skin helps guides the punch tip forward in a screw like manner towards the follicle using the hair shaft as guide to safely score around the follicle while minimizing graft damage.

    19. The punch of claim 14, wherein the exterior textured region is composed of lines of discontinuities approximately 12.5 micrometers deep.

    20. The punch of claim 14, wherein the lines of discontinuities are generally concentric about the generally central axis.

    Description

    BRIEF DESCRIPTION OF THE FIGURES

    [0051] The detailed description of some embodiments of the invention is made below with reference to the accompanying figures, wherein like numerals represent corresponding parts of the figures.

    [0052] The detailed description of some embodiments of the invention is made below with reference to the accompanying figures, wherein like numerals represent corresponding parts of the figures.

    [0053] FIG. 1 exemplarily illustrates a profile view of the frustoconical hair punch

    [0054] FIG. 2 exemplarily illustrates a profile view of the frustoconical hair punch

    [0055] FIG. 3 exemplarily illustrates the cross-sectional view of the frustoconical hair punch as shown in the parting line in FIG. 2.

    [0056] FIG. 4 exemplarily illustrates an embodiment of the frustoconical hair punch.

    [0057] FIG. 5 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0058] FIG. 6 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0059] FIG. 7 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0060] FIG. 8 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0061] FIG. 9 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0062] FIG. 10 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0063] FIG. 11 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0064] FIG. 12 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0065] FIG. 13a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch with an internally textured portion.

    [0066] FIG. 13b exemplarily illustrates an embodiment of the cutting end region with an internally textured portion of FIG. 13A as seen from beneath looking upward.

    [0067] FIG. 14 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0068] FIG. 14a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0069] FIG. 14b exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0070] FIG. 15 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0071] FIG. 15a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0072] FIG. 15b exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0073] FIG. 16 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0074] FIG. 17 exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0075] FIG. 17ai exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0076] FIG. 17aii exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0077] FIG. 17bi exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0078] FIG. 17bii exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0079] FIG. 17ci exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0080] FIG. 17cii exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0081] FIG. 17di exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0082] FIG. 17dii exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0083] FIG. 18 exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0084] FIG. 18a exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0085] FIG. 18b exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0086] FIG. 18c exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0087] FIG. 18d exemplarily illustrates sharpening or beveling embodiments of the frustoconical hair punch.

    [0088] FIG. 19 exemplarily illustrates means for texturing embodiments of the frustoconical hair punch.

    [0089] FIG. 19ai exemplarily illustrates means for texturing embodiments of the frustoconical hair punch.

    [0090] FIG. 19aii exemplarily illustrates means for texturing embodiments of the frustoconical hair punch.

    [0091] FIG. 19bi exemplarily illustrates means for texturing embodiments of the frustoconical hair punch.

    [0092] FIG. 19bii exemplarily illustrates means for texturing embodiments of the frustoconical hair punch.

    [0093] FIG. 19biii exemplarily illustrates means for texturing embodiments of the frustoconical hair punch.

    [0094] FIG. 20a exemplarily illustrates the use of the frustoconical hair punch.

    [0095] FIG. 20b exemplarily illustrates the use of the frustoconical hair punch.

    [0096] FIG. 20c exemplarily illustrates the use of the frustoconical hair punch.

    [0097] FIG. 21a exemplarily illustrates the use of the frustoconical hair punch.

    [0098] FIG. 21b exemplarily illustrates the use of the frustoconical hair punch.

    [0099] FIG. 21c exemplarily illustrates the use of the frustoconical hair punch.

    [0100] FIG. 22a exemplarily illustrates the use of the frustoconical hair punch.

    [0101] FIG. 22b exemplarily illustrates the use of the frustoconical hair punch.

    [0102] FIG. 22c exemplarily illustrates the use of the frustoconical hair punch.

    [0103] FIG. 23a exemplarily illustrates the use of the frustoconical hair punch.

    [0104] FIG. 23b exemplarily illustrates the use of the frustoconical hair punch.

    [0105] FIG. 23c exemplarily illustrates the use of the frustoconical hair punch.

    [0106] FIG. 24aexemplarily illustrates the use of the frustoconical hair punch.

    [0107] FIG. 24b exemplarily illustrates the use of the frustoconical hair punch.

    [0108] FIG. 24c exemplarily illustrates the use of the frustoconical hair punch.

    [0109] FIG. 25a exemplarily illustrates the use of the frustoconical hair punch.

    [0110] FIG. 25b exemplarily illustrates the use of the frustoconical hair punch.

    [0111] FIG. 25c exemplarily illustrates the use of the frustoconical hair punch.

    [0112] FIG. 26a exemplarily illustrates the use of the frustoconical hair punch.

    [0113] FIG. 26b exemplarily illustrates the use of the frustoconical hair punch.

    [0114] FIG. 26c exemplarily illustrates the use of the frustoconical hair punch.

    [0115] FIGS. 21a-c exemplarily illustrates the use of the frustoconical hair punch.

    [0116] FIGS. 22a-c exemplarily illustrates the use of the frustoconical hair punch.

    [0117] FIGS. 23a-c exemplarily illustrates resultant effects of the frustoconical hair punch.

    [0118] FIGS. 24a-c exemplarily illustrates resultant effects of the frustoconical hair punch

    [0119] FIGS. 25a-c exemplarily illustrates resultant effects of the frustoconical hair punch.

    [0120] FIG. 26 exemplarily illustrates the use of the frustoconical hair punch.

    [0121] FIG. 26a exemplarily illustrates the use of the frustoconical hair punch.

    [0122] FIG. 26b exemplarily illustrates the use of the frustoconical hair punch.

    [0123] FIG. 26c exemplarily illustrates the use of the frustoconical hair punch.

    [0124] FIG. 27 exemplarily illustrates the use of the frustoconical hair punch.

    [0125] FIG. 27a exemplarily illustrates the use of the frustoconical hair punch.

    [0126] FIG. 27b exemplarily illustrates the use of the frustoconical hair punch.

    [0127] FIG. 27c exemplarily illustrates the use of the frustoconical hair punch.

    [0128] FIG. 28a exemplarily illustrates the use of the frustoconical hair punch.

    [0129] FIG. 28b exemplarily illustrates the use of the frustoconical hair punch.

    [0130] FIG. 29a exemplarily illustrates a pronged for non-rotary embodiment for the frustoconical hair punch.

    [0131] FIG. 29b exemplarily illustrates a pronged for non-rotary embodiment for the frustoconical hair punch.

    [0132] FIG. 29c exemplarily illustrates a pronged for non-rotary embodiment for the frustoconical hair punch.

    [0133] FIG. 29d exemplarily illustrates a pronged for non-rotary embodiment for the frustoconical hair punch.

    [0134] FIG. 29e exemplarily illustrates a pronged for non-rotary embodiment for the frustoconical hair punch.

    [0135] FIG. 30 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0136] FIG. 30a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0137] FIG. 30b exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0138] FIG. 30c exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0139] FIG. 31a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0140] FIG. 31b exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0141] FIG. 32a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0142] FIG. 32b exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0143] FIG. 32c exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0144] FIG. 33a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0145] FIG. 33b exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0146] FIG. 33c exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0147] FIG. 34a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0148] FIG. 34b exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0149] FIG. 34c exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0150] FIG. 35 exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0151] FIG. 35a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0152] FIG. 35b exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0153] FIG. 35c exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0154] FIG. 35d exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0155] FIG. 35e exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0156] FIG. 35f exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0157] FIG. 36a exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0158] FIG. 36b exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    [0159] FIG. 36c exemplarily illustrates embodiments of the cutting end region of the frustoconical hair punch.

    DETAILED DESCRIPTION OF CERTAIN EMBODIMENTS

    [0160] A punch 10 is employed to remove hair follicles. The punch 10 includes a generally tubular body 12 formed about a generally central axis 14 and extending from a generally tubular body proximal end 16 to a generally tubular body distal end 18. A generally frustoconical portion 20 further includes a generally frustoconical portion proximal end 22 and a generally frustoconical portion distal end 24. The generally frustoconical portion 20 is formed about the generally central axis 14. The generally frustoconical portion proximal end 22 is joined to the generally tubular body distal end 18. A generally tubular transition portion 26 has a generally tubular transition portion proximal end 28 and a generally tubular transition portion distal end 30. The generally tubular transition portion proximal end 28 is joined to the generally frustoconical portion proximal end 24. The generally tubular transition portion shown in FIG. 1 ranges in length from 0 to 3 mm. As shown in FIG. 2, FIG. 3 a cutting edge 32 is connected to the generally tubular transition portion. Inserting the cutting edge into skin creates a wound to remove the hair follicles. In some embodiments, the cutting edge can be serrated. In some embodiments, a cutting end 132, 232, 332, can be pronged for non-rotary use as shown in FIGS. 29A-C.

    [0161] Turning to a cutting end 432 that is shown in more detail in FIGS. 30, 30A-C, the distal end region 434 of a rotating punch 410 constructed in accordance with the invention is provided with a textured exterior region 436. As the rotating punch 410 is pushed into the tissue, the textured region 436 appears to enhance the suction-like effect that gently sucks the cut tissue towards the punch as it descends into the tissue. It is believed that the texture creates mini vortices that impart a suction effect on the tissue surrounding a fast-rotating punch. In a rotating punch 410, the suction effect of these threaded textures results in a screw like effect that causes the punch to be self-forward-driven as well as exert an upward pulling effect on the tissue it contacts. The direct effect is that when the rotating punch 410 is laid at a very acute angle to the skin, and the cutting tip makes the first cut into the skin in the process, the external texture follows by engaging the skin through its threads and self-propels the punch towards the engulfed follicle. The pulling effect on tissue around the follicle results in a simultaneous cutting of follicular tissue attachments (anchoring system) by a preferably outward and away facing punch cutting tip. Currently, a preferred textured region is composed of thin lines of surface discontinuity approximately 12.5 micrometers deep and spaced approximately 0.15 mm apart. Those skilled in the art will recognize that the “lines” need not necessarily be straight or continuous and may comprise separated surface discontinuities following some pattern or arranged in a relatively random manner. Although the presently preferred textured region is comprised of lines that are concentric about the central axis 14 and extend 360° about the punch, the textured region may instead comprise lines that are helical and/or extend less than 360°. Further, the textured region may be continuous or may be formed in separate spaced-apart circular or helical segments so long as the desired effect is achieved. Moreover, the textured region can instead comprise randomly distributed discontinuities in the surface of the punch. The textured region preferably extends to the cutting edge but can be slightly spaced therefrom if one wishes to do so. External texturing can involve at least one section of the proximal five millimeters of the punch. The internal texturing can extend to the cutting tip or edge or be slightly spaced therefrom if one wishes to do so.

    [0162] Punches constructed in accordance with the invention can also include an internal textured region 438 instead of or in addition to the textured external region described above. The interior textured region appears to help draw the follicle into the chamber; it is believed that, like the external texture region 436, the interior texture creates mini-vortices that impart a suction effect on the tissue follicle. Particularly pertinent to the internal texturing more than the external texturing is its direct upward pulling effect on the follicle engulfed by the punch causing the follicle to ascend into the proximal reaches of the punch lumen.

    [0163] As shown in FIGS. 34A-C, the pulling effect on the follicle results in a simultaneous cutting of follicular tissue attachments (Anchoring systems) by a preferably outward and away facing punch cutting tip. In this scenario, hair follicles that take an angled path in the depths of the skin are relatively unharmed as the hair angle is pulled into the punch lumen ahead of the cutting tip of the punch as it is progressively plunged into the skin towards the root and bulb of the follicle. This property also improves the transection rate when the punch-follicle axes are relatively misaligned since the upward pull forces the graft in to the lumen ahead of the cutting tip similarly. Another effect of the internal texturing in a fast-rotating punch is the generation of a vortex or tornado effect 440 which creates a vortex whose influence includes a zone that is in front and of the punch cutting end, the vortex fans out from the cutting end opening to gather far flung follicles towards and into the narrower opening. The effect is that the punch opening is able to capture multi-haired follicles whose skin zone diameter exceeds the diameter of the punch. Preferably, the punch has both a textured external region 436 and an internal textured region 438.

    [0164] The presently preferred internal textured region 438, preferably comprises surface discontinuities of the same size and spacing as the exterior textured region and is disposed over at least a part of the diverging interior portion of the punch as shown in FIG. 30B. As with the exterior textured region, the interior textured region can comprise concentric lines that extend 360° about the punch, are helical and/or extend less than 360°. Further, the internal textured region can be continuous or formed in separate spaced-apart circular or helical segments or comprise randomly distributed discontinuities in the wall of the follicle-receiving chamber, so long as the desired effect is achieved. Currently, the preferable configuration is on which utilizes concentric interior and exterior lines that extend 360° about the punch. Preferably, the textured region extends to the cutting edge, but can be slightly spaced therefrom if one wishes to do so.

    [0165] The generally tubular body 12 can further comprise a generally tubular body proximal end radius 34 measured from the generally central axis 14 to a generally tubular body inner wall 36 at the generally tubular body proximal end 16. A generally tubular body distal end radius 38 is measured from the generally central axis 14 to a generally tubular body inner wall 36 at the generally tubular body distal end 18. The generally tubular body proximal end radius 34 is approximately equal to the generally tubular body distal end radius 38.

    [0166] The generally frustoconical portion 20 can further comprise a generally frustoconical portion proximal end radius 40 measured from the generally central axis 14 to a generally frustoconical portion inner wall 42 at the generally frustoconical portion proximal end 22. A generally frustoconical portion distal end radius 44 is measured from the generally central axis 14 to a generally frustoconical portion inner wall 42 at the generally frustoconical portion distal end 24. The generally frustoconical portion distal end radius 40 and the generally frustoconical portion proximal end radius 44 can vary in a number of proportions.

    [0167] Additionally, there can be many combinations of the generally frustoconical portion distal end radius 44 and the generally frustoconical portion proximal end radius 40, though these dimensions are always different from one another. The cutting edge 32 further has a cutting edge radius 46 that is measured from the central axis 14 to the proximal end of the cutting edge. The cutting edge 32 can be the same as either of the generally frustoconical portion distal end radius 44 or the generally frustoconical portion proximal end radius 40. In many embodiments, the cutting edge radius is different. In some embodiments, the generally cylindrical body has a longitudinal axis. A slot can be cut through the punch along the longitudinal axis from the generally cylindrical portion to the cutting edge.

    [0168] Turning to FIGS. 8-10, in some embodiments, the cutting end 532, 632, 732 includes a cutting tip 534, 634, 734 on the outer perimeter of the cutting end which 532, 632, 732 flared to point away from the tube’s general central axis 14 in an angle that could ranges from 1-90 degrees, so that the cutting tip 534, 634, 734 can counteract the vectors of the cutting action of the expanding external wall 43 of the punch which tends to exert a cutting force directed toward central axis 14 and the follicle. To minimize the chance of follicle damage from this action, a flared cutting tip which directs the direction of the cutting force away from the central axis 14 (thus the follicle) is preferred. The flared cutting tip directs the cutting force away from the follicle to counteract the direction of the vectors created by the expanding cone as the punch advances into the skin, which is towards the follicle (and thus the central axis 14).

    [0169] The flare of the cutting tip can be created by adding a concavity to the distal 1-3 mm of the external wall 43 of the tube. The concavity can be created by direct flaring of the tube as shown in FIG. 2 or by etching it out of the external wall 43 of the tube to create a second frustoconical portion distal to the first frustoconical portion as shown in FIG. 3. The flare can be curved (as shown in FIG. 3) or it could be angled or stepped.

    [0170] One problem reported by users of punches possessing a flared cutting tip that has a cutting tip directed away from the central axis 14 is that of buried grafts. This is particularly problematic in flared punches that have a cutting end inferior face whose plane is at approximately 90 degrees axis orientation to the central axis 14 especially if the plane is either flat as shown in FIG. 8 or convex as shown in FIG. 11 is that of a high incidence of buried grafts. Buried grafts are not available for use in transplantation and result in complications of inflammation, folliculitis, ingrown hair, cysts and abscesses as shown in FIG. 32c. Buried grafts occur in these scenarios when the outer cutting tip incises the skin for an initial score, but the follicle and its circular skin to ascend into the lumen of the punch, it is pushed down into the skin by the blunt surface presented by the flat or convex surface. This is in part because the diameter of the cut skin defined by the very wide diameter of the cutting tip 536 far exceeds the diameter of the internal diameter of the punch cutting end 538 as shown in FIGS. 32A-C. One method for reducing this is to increase the very wide diameter of the cutting tip 536 by caving out of the internal wall of the distal end of the frustoconical a cylindrical swath that can reduce the tube wall thickness by as much as 50-75% as shown in FIG. 14. The new opening diameter 540 would be significantly wider than the internal diameter of the punch cutting end 538 and the ratio of the new opening diameter 540 to the internal diameter of the punch cutting end 538 ameliorates the possibility of buried grafts significantly. In the setting of the frustoconical design, doing so would quickly expose the follicle cap to a rapidly expanded chamber which would significantly increase the ratio and minimize the incidence of buried grafts. Furthermore, the process of compressing a larger tube to a narrow frustoconical end, thickens the tube wall thickness at the junction between the frustoconical distal end and its connection to the cutting end. This gives more room to carve out and from the internal wall larger opening connecting the frustoconical chamber to the new opening diameter 540.

    [0171] Another solution to buried grafts is to slant 561, 563 the cutting edge plane 32 (as shown in FIGS. 8, 9, 15, and 33a-c) or texture it 552 to enable upward pulling of grafts (as shown in FIGS. 16, 13a, 13b, 33b and 33c). All of these individual measures could be used alone or in various combinations without departing from the spirit of the invention. Finally, the expanded internal volume brought about by the frustoconicallity gives enough room to accommodate the large diameter of the skin scored 554 by the large tip diameter of the flared punch 536 (as shown in FIGS. 32a and 33c) preventing impaction in the absence of which torsion injury 558 and crushing of the distal portions 556 of the grafts could occur (as shown in FIGS. 26a, b and c). One factor that could potentially contribute to buried grafts is when the grafts is unable to ascend up the punch because of limited punch lumen capacity.

    [0172] Turning to these dimensions in more detail. The generally tubular body proximal end radius 40 and the generally tubular body distal end radius 38 can range from 0.25 mm to 2.5 mm. The length of the transition portion along the central axis 14 can range from 0.5 mm to 5 mm. The inflection point of changing diameters can start at any point beginning from the cutting tip to anywhere along 5 mm from the cutting tip. Those practiced in the art recognize that these numbers may vary slightly outside these ranges. For instance, if the distal cutting tip is 0.5 mm in diameter and the proximal end 28 diameter is 5 mm, the ratio is 10:1. Although he preferred ration ranges from 3:1 to 1.12:1, the ration can be larger than this as well. Additionally, the ratio can be sustained or exceeded in a version whose diameter in normal plane with the cutting tip is 2.5 mm.

    [0173] The expanding internal cross-sectional area of the generally frustoconical portion 20 creates more room to accommodate the graft tissue gathering in the lumen, reduce friction between tissue and wall thereby reducing transection. Additionally, the expansion in chamber volume increases the suction force exerted on the graft which the fast rotating punch as well as the texturing has initiated. However, a fast rotating or oscillating punch without texturing may generate some suction energy without texturing due to Bernoulli like effect. Turning to the external surface, the expanding diameter exerts a blunt dissection effect on the tissue attachments of the follicle, thus enhancing the separation of the follicle from its attachment to the surrounding tissue. This minimizes the amount of secondary dissection the surgeon has to perform to extract the graft.

    [0174] The distal end 30 of the punch has a cutting tip 534, 634, 734 which may be unsharpened or, preferably, sharpened. The cutting edge may be sharpened from the exterior of the punch 43 or, from its distal cutting edge surface 32 or from inner wall 42 of its lumen. There are many cutting edge shapes that can be used. The following are exemplary:

    [0175] The cutting edge 32 is formed by the interior wall meeting the exterior wall at the distal cutting tip 534, 634, 734, but the internal wall 42 might not meet the external wall 43 but rather terminate a short distance away from it to create a blunt 560 or flat slant (561 or 563), convex 562 or concave 550 plane between the ends of the external wall 43 and the internal wall 42 (as shown in FIGS. 8, 9, 11 and 12). While the distal end of the segment preferably terminates at the cutting edge where the external wall meets the internal wall, as illustrated in FIGS. 35c and 35d, the internal wall may alternatively terminate just proximal of the cutting edge as depicted in FIGS. 35 e and 35 fto create a blunt or flat or convex or concave plane in the gap between where the external and internal walls terminate without departing from the scope of the invention.

    [0176] The external wall 43 surface of the distal end region of the punch may be further provided with generally circumferentially-extending notch having a generally concave shape 566 that generally circumscribes the punch’s cutting edge 32 or the punch’s outer surface 43 (as shown in FIGS. 2 and 6). The concavity preferably extends 1-2 mm proximally from a location closely adjacent the tip of the punch. The generally concave shape serves two purposes. First, its preferred size and shape results in a wound with less everted edges or shapes 572 (as shown in FIG. 22c); as the punch enters the tissue surrounding the targeted follicle, the tissue outward of the cut expands 570 against the concavity as it is passed by the cutting tip 534 (as shown in FIG. 22a). When the punch is subsequently withdrawn, the tissue resumes its consequently less everted shape 572. Second, the concavity on the outer wall 43 of the distal end 30 of the tube results in a sharp cutting tip 534 located on the perimeter of the cutting end whose cutting action is substantially directed away 574 from the central axis 14 of the tube and by consequence away from the follicle 576 engulfed by the cutting end. In so doing the risk of transection damage to the follicle is minimized as shown in FIGS. 22a-c .

    [0177] In some embodiments, the cutting end further comprises a pair of distally-extending, circumferentially disposed, prong-like members carrying distally diverging cutting edges 132, 232, 332 separated by follicle-accommodating slits 250, 252, 254 as shown in FIGS. 29A-E . The prong-like members are arranged to terminate distally in respective leading cutting tips that make the initial penetration into tissue surrounding the follicle, and a distal end region 434 of the follicle punch includes a circumferentially-extending concave groove that circumscribes an outer surface of the follicle punch. The circumferentially-extending notch can extend distally 1-2 mm from tips of the prong-like members.

    [0178] Alternately, the cutting end can further comprise a pair of distally-extending, circumferentially disposed, prong-like members carrying distally diverging cutting edges 132, 232, 332 separated by follicle-accommodating slits 250, 252, 254 wherein the follicle-accommodating slits 250, 252, 254 each have an inverted V profile as shown in FIGS. 29A, D and E . The inverted V profile can comprise a relatively proximal segment and a distal segment that is more steeply tapered than the distal cutting end region 434. The prongs can be flared to direct the cutting edges 132, 232, 332 away from the central axis 14 by an angle between 1 and 60 degrees as shown in FIGS. 29D-E. Alternately, the prongs can be flared to direct the cutting tips 534, 634, and 734 (as shown in FIGS. 8-10) away from the central axis 14 by an angle of between 1 and 60 degrees.

    [0179] In some embodiments, one or more of the cutting edges 132, 232, 332 can be blunt. Alternately, one or more of the cutting edges 132, 232, 332 can be sharp. Additionally, the two slits can come to an end distally at differential levels that range from 0.25 to 1.5 mm as shown in FIGS. 29 B and C .

    [0180] Alternatively, the punch can be provided with a flared distal end region 434 having a distal end radius 44 diameter that has a diverging inner diameter and diverging outer diameter along the distal end 30. The distal portion can be at least 0.1 mm but no more than 5.0 mmm and preferably about 1.0 mm with the flared end region resulting in a preferred gap of approximately 1.25 mm between opposing tips. Gaps of great or lesser spacing may be utilized as well, depending on the subject’s hair and follicle dimensions without departing from the scope of the invention.

    [0181] In one configuration, the cutting edge 232 can have a general inverted “V” profile 234 having a relatively proximal segment 236 and a relatively distal segment 238 that is more steeply tapered than the proximal segment as shown in FIG. 29. The more steeply tapered interior of the relatively distal segment provides a slit length and width that accommodates the follicle as the punch penetrates the surrounding tissue, in order to spare the follicle from being cut. The less tapered proximal segment of the slit results in adequate spacing of the cutting edges of adjacent prong-like members from the follicle’s root structure so that the cutting yields a viable implant. Although the same taper could be used for both segments, it is preferable not to do so since a generally uniformly steep taper, such as that of the preferred distal segment, would add unnecessary length to the punch to achieve the needed spacing between the prongs, while a generally uniformly shallow taper, such as that of the preferred proximal segment, would fail to provide the slit length needed.

    [0182] As show in FIGS. 30 and 30 A-C, the cutting edge 32 of the punch, which preferably extends from its leading tip to the beginning of the steeply tapered portion of the slit (i.e., the interface of the proximal and distal slit segments), may be smooth 438 or textured 436 to include one or more serrations on the internal 42 or external walls 43. If serrations are included, it is currently preferable that there be one or two serrations, with rounded edges, although the use of sharply angled edges would not depart from the scope of the invention.

    [0183] The external diameter expanding with depth has many benefits such as the skin wound is small diameter 578 and the remaining graft separating dissection occurs by blunt dissection (as shown in FIGS. 27, 27a, 27b, 31a and 27c). This results in a lesser need for sharp dissection which carries a lesser chance of cutting into the follicles and transecting them. Next, the expanding diameter 580 aids in the separation of tissue attachments as the punch progresses in depth. This results in less need for secondary dissection needed to remove the grafts after the punch score. Additionally, because there is increased friction as the punch is advanced into the skin on account of the expanding diameter 580, this serves as a depth control mechanism (as shown in FIG. 31b). The control mechanism can be communicatively coupled to the motor driven driveshaft and programmed with instructions to retard or stop driveshaft speed of the motor-driven driveshaft as the punch penetrates the skin deeper to though the frustoconical segment. The expanding diameter 580 begins from the point where the second frustoconical portion ends. In some embodiments, there is not a second frustoconical portion, rather the cutting portion begins from the point where the first general frustoconical portion terminates 24.

    [0184] Furthermore, increasing diameter caused by the frustoconicality would cause an increase in friction upon the rotating or oscillating punch as it is progressively advanced into the skin resulting in slowing down or even stopping of the rotation. This serves two purposes: Firstly, it diminishes the cutting action of the cutting tip 534 and retards it further progression into the tissue which serves as depth control mechanism (as shown in FIG. 31b). Secondly, it results in a less cutting action directed at the follicles which reduces the chance of cutting into the follicle (as shown in FIG. 31b). Finally in lower torque situations the rotary motion self-converts to a brief oscillatory motion as the motor attempts to gather momentum and resume its rotation. The resulting cutting action and the toggle aids in further separating the distal portion of the follicle from its attachments to adjacent tissues

    [0185] Additionally, the internal diameter expanding 582 with depth provides the following benefits. The internal diameter expanding 582 with progressing depth gives the room for the engulfed graft to expand with less friction between generally tubular body inner wall 36 or general frustoconical portion inner wall 42 and graft resulting in less heat generation and less heat damage to graft (as shown in FIGS. 28A-B). The internal diameter expanding 582 with progressing depth gives the room for the engulfed graft to expand with less friction between generally tubular body inner wall 36 or general frustoconical portion inner wall 42 and graft (as shown in FIGS. 28A-B). Without this action, the graft sticks the rotating tube 558 which results in torsion of the graft eventuating in decapitation or transection of the graft 584 (as shown in FIG. 26A). That is, graft damage. The internal diameter expanding 582 with progressing depth giving room for the engulfed graft to expand with less friction between tube and graft. Without this action, the graft sticks the tube. In order for the punch to go all the way to the bottom of the graft that it engulfs, the graft needs to migrate up the punch lumen to make room. In the absences of this, the punch and graft descend on the bottom portions of the graft as one block, crushing it 556 in the process (as shown in FIGS. 26B-C). The internal diameter expanding 582 with progressing depth giving room for the engulfed graft to expand 582 (shown in FIG. 28b). This enables bulkier grafts 586 to be retrieved. Bulkier grafts 586 (i.e. grafts with more tissue invested around them) survive better once removed (as shown in FIGS. 33B-C).

    [0186] In some cases, as shown in FIG. 30 and FIGS. 30A-C, the device can be altered with fine adjustments. As there would be increasing resistance as the tool is advanced into the skin because of the expanding size, measures can be taken to reduce the resistance and enhance tissue penetration. Such measures can include but not limited to, first, creation of internal textures 438 (grooves that are in helical, partially or completely circular) that give a screw like effect in a rotating punch. Next, creation of external textures 436 (grooves that are in helical, partially or completely circular) that give a screw like effect in a rotating punch. Longitudinal grooves that aid or guide penetration when a punch is used in a plunging manner rather than a rotary manner. Longitudinal grooves could be of any length or depth. Finally, horizontal grooves that are complete or partially disposed in the frustoconical area that exert a ribbed like effect to enhance forward advancement when punch is advanced in a plunging manner. Any of these grooves or textures could be located in a complete or partial parts of the frustoconical area. Additionally, these grooves, could be located in front of the frustoconical area to have a pulling effect on it to aid its ability to penetrate the tissue despite its increasing width. A suction device could be either in front of, within or behind the frustoconical area.

    [0187] The suction effect could be increased by increasing an internal diameter of the distal end radius 44 of the wall to achieve a Bernoulli effect either in front, within or behind the frustoconical area. mechanical movement of the punch to drive the into the tissue that could be adjusted by a driver that could be rotary, oscillatory, vibratory, ultrasonic, pneumatic etc. Friction between tissue and frustoconical areas could be adjusted by polishing, lubrication, manipulation of electrostatic properties, and temperature control of the generally tubular member. Patterned or unpatterned wall openings of various sizes and shapes could be arranged within the frustoconical area.

    [0188] [B]. The frustoconical shape inherently results in a blunt dissection effect that results in the separation 588 of tissue such as hair follicle within lumen of tube from tissue outside the tube with minimal stress on the tissue within the lumen as would occur in a method that solely relies on the cutting action of the cutting tip 534 that lies ahead of the frustoconical portion (as shown in FIGS. 31a, 31b). This blunt dissection effect can be enhanced by additional features that include but are not limited to:

    [0189] [A]. Texturing of various configurations and grit sizes / coarseness

    [0190] [B]. Cobblestonning of various sizes and configurations

    [0191] [C]. Patterned or unpatterned projections or indentations such as grooving, hexing, ridging, serrating.

    [0192] [D]. Patterned or unpatterned wall openings of various sizes and shapes within the frustoconical portion area

    [0193] [E]. For the frustoconical tube to penetrate the skin / tissue, it would need a cutting tip which could be in distal to or within the frustoconical portion section. It is preferably at the end of the frustoconical portion or within 0-3 millimeters of the end of the frustoconical portion.

    [0194] [F]. The cutting tip could assume any configuration such as curved, stepped, angled, round, smooth, serrated, completely or partially circular, oval, rectangular, triangular, hexagonal, 2 pronged, 3- pronged, 4- pronged) without departing from the spirit of the invention. A cross section of the frustoconical tube can be round, completely or partially circular, oval, rectangular, triangular, hexagonal, or any similar shape without departing from the spirit of the invention. While a substantially smooth concave segment is preferred, the segment can alternatively be stepped 568 or angled 566 without departing from the scope of the invention, and these variations are intended to be included within the term “concave” as used herein. (as shown in FIGS. 6 and 7)

    [0195] [G]. The cutting edge 32 could be advanced in a rotary, oscillatory or simply pushed into the tissue without any rotary or oscillatory motion without departing from the spirit of the invention.

    [0196] [H]. The external wall 43 of the cutting end relative to the punch’s general central axis 14 on a lateral profile can be straight, curved without any rotary or oscillatory motion without departing from the spirit of the invention.

    [0197] [I]. The external wall 43 of the cutting end relative to the punch’s general central axis 14 on a lateral profile (between the cutting tip and the frustoconical portion or within the frustoconical portion) can be concave, convex, straight, curved without departing from the spirit of the invention.

    [0198] [J]. The external wall 43 of the cutting edge 32 relative to the punch’s general central axis 14 on a lateral profile (between the cutting tip and the frustoconical portion 20or within the frustoconical portion 20) can have patterned or unpatterned wall openings of various sizes and shapes within the frustoconical portion area 20 without departing from the spirit of the invention.

    [0199] [K]. The cutting edge 32 relative to the punch’s general central axis 14 on a lateral profile that is viewed from the punch central axis 14 to the cutting tips 534, 634, 734 could terminate in a flat plane at 90 degrees 560 (as shown in FIG. 8) or be slanted 561 in an angle that ranges from 85 degrees to 20 degrees in a manner that increases the sharpness of the cutting end with decreasing angulation FIG. 9.

    [0200] [L]. The cutting edge 32 relative to the punch’s general central axis 14 on a lateral profile that is viewed from the punch center axis 14 to the cutting tip could terminate in an elevated flat plane 563 at between 95 degrees and 145 degrees FIG. 10.

    [0201] [M]. The cutting edge plane 32 relative to the punch’s general central axis 14 on a lateral profile can terminate in an outwardly pointing sharp cutting edge 563.(as shown in FIG. 10)

    [0202] The cutting edge surface 32 viewed from its distal inferior face viewed from the punch’s center axis 14 to the outer margins where the cutting tip is located, can be concave 550 or convex 562. (as shown in FIGS. 11 & 12 respectively).

    [0203] The cutting end surface 32 viewed from its distal inferior face viewed from the punch’s center axis 14 to the outer margins where the cutting tip is located, can be concave 550 or convex 562 in a plane that is at 90 degrees measured between the central axis 14 and the cutting tip. (as shown in FIGS. 11 & 12 respectively).

    [0204] The cutting edge surface 32 viewed from its distal inferior face viewed from the punch’s center axis 14 to the outer margins where the cutting tip is located, can be concave 550 or convex 562 in a inwardly pointing plane that is at between 85 and 20 degrees 561 . (as shown in FIGS. 11, 12 and 9 respectively)

    [0205] The cutting edge surface 32 viewed from its distal inferior face viewed from the punch’s center axis 14 to the outer margins where the cutting tip is located, can be concave 550 or convex 562 in an outwardly pointing plane that is at between 95 and 145 degrees 563. FIGS. 11, 12 and 10 respectively)

    [0206] The interface between where the largely vertical of proximally diverging internal wall the frustoconical chamber 42 and where it begins to diverge distally towards the laterally located cutting edge 32 located on the external wall 43 can be a smooth convex 564(as shown in FIG. 5), or smooth concave 566 (as shown in FIG. 6) or a smooth ridged wall or alternatively assume a stepped profile 568(as shown in FIG. 7), without departing from the spirit of the invention.

    [0207] The cutting edge surface 32 viewed from its distal inferior face viewed from the punch’s center axis 14 to the outer margins 532, 632, 732 where the cutting tips 534, 634, 734 located can be smooth (as shown in FIGS. 8-12), or textured. (as shown in FIGS. 13A-B) If textured, the preferred texture would be a continuation of the internal texturing described above, this is to enjoy the graft pulling vortex effect 440 already described in these sections.

    [0208] The frustoconical punch can be couples to a hand piece through which liquid fluid is channeled from its proximal end through its lumen to egress at its cutting edge 32. This brings several advantages. First; The fluid serves to lubricate the internal wall lining 590 of the punch which reduces impaction and the problem of torsion transection (as shown in FIG. 26a) and crushing injury 556 to distal follicle parts (as shown in FIGS. 26 b & c). Secondly; The fluid forms a hydroplane on the skin around the follicle which reduces the drag on the punch tip as it cuts into the skin. This reduces punch tip wear rate as well as forms an airtight seal between the punch and skin to enhance the advantages of graft suction effect of internal texturing as well as Bernoulli effect from frustoconical volume expansion 582 of the punch lumen. (as shown in FIG. 28b) Thirdly, the fluid is deposited in the space 588 created around the follicles when the punch scores around it. (as shown in FIG. 31b) The fluid envelops the freed graft and serves to sustain it in the time between the score and the transfer of the graft to a storage solution. The graft is otherwise susceptible to the deleterious effects of desiccation in that time interval. Finally; by manipulating pressure of fluid egress, grafts and debris cut in the punch lumen can be ejected by pulse fluid ejection. Conventionally, the operator must stop procedure and manually remove graft using forceps (as shown in FIG. 27b) or worse, sacrifice it by pushing it further into the proximal ends 28 of the punch lumen.

    [0209] As used in this application, the term “a” or “an” means “at least one” or “one or more.”

    [0210] As used in this application, the term “about” or “approximately” refers to a range of values within plus or minus 10% of the specified number.

    [0211] As used in this application, the term “substantially” or “generally” means that the actual value is within about 10% of the actual desired value, particularly within about 5% of the actual desired value and especially within about 1% of the actual desired value of any variable, element or limit set forth herein.

    [0212] All references throughout this application, for example patent documents including issued or granted patents or equivalents, patent application publications, and non-patent literature documents or other source material, are hereby incorporated by reference herein in their entireties, as though individually incorporated by reference, to the extent each reference is at least partially not inconsistent with the disclosure in the present application (for example, a reference that is partially inconsistent is incorporated by reference except for the partially inconsistent portion of the reference).

    [0213] A portion of the disclosure of this patent document contains material which is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure, as it appears in the Patent and Trademark Office patent file or records, but otherwise reserves all copyright rights whatsoever.

    [0214] Any element in a claim that does not explicitly state “means for” performing a specified function, or “step for” performing a specified function, is not to be interpreted as a “means” or “step” clause as specified in 35 U.S.C. §112, ¶ 6. In particular, any use of “step of” in the claims is not intended to invoke the provision of 35 U.S.C. §112, ¶ 6.

    [0215] Persons of ordinary skill in the art may appreciate that numerous design configurations may be possible to enjoy the functional benefits of the inventive systems. Thus, given the wide variety of configurations and arrangements of embodiments of the present invention the scope of the invention is reflected by the breadth of the claims below rather than narrowed by the embodiments described above.