Abstract
A device for securing an ablation tool may have a backbone and a securing portion including a body and a cover, the body slides along the backbone to a lower position and then the cover affixedly receives a head member of the ablation tool. In another version, a leg portion is removably attachable to the securing portion and an upper portion projects out of the opening in the body portion from above and removably attaches to the leg portion that fits into the opening from below. In another version, a rotatable securing portion has a first portion pivotably connected to the leg portion, a second portion affixedly receive the head member when the securing portion rotates closed and a third portion affixedly attaches to the leg portion when the securing portion rotates closed. If the head member does not fit with the cover, a one-piece or two-piece adaptor is used.
Claims
1. A needle head holder device for securing an ablation tool, the device comprising: a leg portion; a rotatable securing portion having a first portion pivotably connected to a proximal end of the leg portion and having a second portion configured to affixedly receive a head member of the ablation tool when the securing portion rotates closed; a third portion of the securing portion configured to affixedly attach to the proximal end of the leg portion through an opening in the first portion when the securing portion rotates closed.
2. A needle head holder device for securing an ablation tool, the device comprising: a leg portion; a rotatable securing portion having a body portion pivotably connected to a proximal end of the leg portion and having a cover configured to affixedly receive a head member of the ablation tool when the securing portion rotates closed; a cap portion configured to affixedly attach to the proximal end of the leg portion through an opening in the body portion when the securing portion rotates closed, when the securing portion rotates closed the cover simultaneously affixedly receives the head member so that there is essentially no relative movement between the device and the ablation tool.
3. The device of claim 2, wherein a distal portion of the leg portion is attached to a removable anchoring portion for alignment and securing of a proximal portion of the ablation needle shaft of the ablation tool.
4. The device of claim 2, wherein the cover has a grooved inner surface that matches an outer surface of the head member.
5. The device of claim 2, wherein the leg portion further comprises a protrusion at the proximal portion of the leg portion, the protrusion configured to restrict the rotating of securing portion.
6. The device of claim 2, wherein the cover affixedly receives the head member by means of an adaptor configured to fit between an inside wall of the cover and an outside surface of the head member.
7. The device of claim 6, wherein the adaptor comprises two pieces, each of the two pieces surrounds substantially 180 degrees of the head member.
8. The device of claim 6, wherein the adaptor comprises a first piece that surrounds the head member from one side and a second piece that locks the first piece on a second side.
9. The device of claim 2, wherein the cap portion has a ratchet mechanism for locking the securing portion to the leg portion.
10. The device of claim 2, wherein the rotatable securing portion further comprises a locking pawl that is configured to engaged with a ratchet teeth of the cap portion to prevents unintentional movement of the securing portion.
11. The device of claim 10, wherein the rotatable securing portion further comprises a release lever configured to release the locking pawl from the ratchet teeth, to enable movement of the securing portion relatively to the ablation tool.
12. An adaptor configured to fit securely between a needle head member of an ablation tool and a cover of a securing portion of a needle head holder, the adaptor comprising one of the following: (A) (i) a first piece configured to surround about half of the needle head member, the first piece having an inner wall surface that matches a contour of an outer wall surface of the needle head member, the first piece also having an outer wall surface that matches a contour of an inner wall surface of a part of the securing member; and (ii) a second piece configured to affixedly lock to the first piece, wherein the first piece and the second piece, after being placed so as to surround the needle head member together, are configured to snap-fit together; or (B) a unitary piece configured to surround the needle head member on at least three sides, the unitary piece having an inner wall surface that matches a contour of an outer wall surface of the needle head member and an outer wall surface that matches a contour of an inner wall surface of a part of the securing member.
13. The adaptor of claim 12, wherein the second piece is configured to surround about half of the needle head member, the second piece having an inner wall surface that matches a contour of an outer wall surface of the needle head member, the second piece also having an outer wall surface that matches a contour of an inner wall surface of a part of the securing member.
14. The adaptor of claim 12, wherein the first piece and the second piece each have both a substantially horizontal groove and a substantially vertical groove.
15. The adaptor of claim 12, wherein each of the first piece and the second piece are configured to surround the needle head member through substantially 180 rotational degrees,
16. The adaptor of claim 12, wherein the second piece is configured to lock the first piece in place and block the needle head member on a side of the needle head member not surrounded by the first piece.
17. The adaptor of claim 12, wherein the second piece lacks a surface that conforms to an inner wall surface of the part of the securing member.
18. The adaptor of claim 12, wherein the adaptor comprises the unitary piece configured to surround the needle head member on at least three sides, the unitary piece having an inner wall surface that matches a contour of an outer wall surface of the needle head member and an outer wall surface that matches a contour of an inner wall surface of a part of the securing member.
19. The adaptor of claim 18, wherein the unitary piece has both a substantially horizontal groove and a substantially vertical groove.
20. The adaptor of claim 18, wherein the unitary piece has an open side configured to allow the needle head member to be placed into and removed from the unitary piece.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0083] Some exemplary implementations of the methods and systems of the present disclosure are described with reference to the accompanying drawings. In the drawings, like reference numbers indicate identical or substantially similar elements.
[0084] FIG. 1 shows a schematic diagram of a needle, needle head and needle head holder.
[0085] FIG. 2 shows a schematic diagram of a needle, needle head and needle head holder coupled to an end effector of an automated medical device.
[0086] FIG. 3A shows an exemplary needle head holder coupled to four different needle types.
[0087] FIG. 3B shows an exemplary need head holder coupled to a second type of needle.
[0088] FIG. 3C shows an exemplary need head holder coupled to a third type of needle.
[0089] FIG. 3D shows an exemplary need head holder coupled to a fourth type of needle.
[0090] FIGS. 4A-4C show an exemplary needle head holder in its open state prior to coupling a needle thereto (FIG. 4A), in its open state after coupling a needle thereto (FIG. 4B), and in its closed state after securing the coupled needle thereto (FIG. 4C).
[0091] FIGS. 5A-5B show another exemplary needle head holder in its open state prior to coupling a needle thereto (FIG. 5A) and in its closed state after coupling and securing a needle thereto (FIG. 5B).
[0092] FIG. 5C shows a longitudinal cross-sectional view of the needle head holder and coupled needle of FIG. 5B.
[0093] FIG. 5D shows a perspective view of a needle head holder having a semi-flexible fastener therein.
[0094] FIG. 6 shows a perspective view of an exemplary needle head holder having an adjustable cover portion, and an insertion module.
[0095] FIG. 7 shows an exploded view of the needle head holder of FIG. 6.
[0096] FIG. 8A shows a longitudinal cross-sectional view of the needle head holder of FIG. 6.
[0097] FIG. 8B shows a transverse cross-sectional view of the needle head holder of FIG. 6.
[0098] FIG. 9A shows the needle head holder of FIG. 6 in an open state, prior to coupling the needle to the needle head holder.
[0099] FIG. 9B shows the needle head holder of FIG. 6 in an open state, after inserting the needle into its position and prior to closing the needle head holder.
[0100] FIG. 9C shows the needle head holder of FIG. 6 in a closed state, with the needle secured therein.
[0101] FIG. 9D shows the needle head holder of FIG. 6 being opened by the user.
[0102] FIG. 9E shows the needle head holder of FIG. 6 in an open state and the user removing the core of the needle.
[0103] FIG. 10 shows a perspective upper view of an exemplary needle head holder with a cover portion having a slit for receiving electrical wiring of a medical instrument.
[0104] FIGS. 11A-11B show perspective views of another exemplary needle head holder having an adjustable cover portion.
[0105] FIG. 12 shows an exploded view of the needle head holder of FIG. 11A.
[0106] FIG. 13A shows the needle head holder of FIG. 11A in an open state, prior to coupling the needle to the needle head holder.
[0107] FIG. 13B shows the needle head holder of FIG. 11A in a closed state, with the needle secured therein.
[0108] FIG. 13C shows the needle head holder of FIG. 11A being decoupled from the needle head.
[0109] FIG. 14A shows a view from the side and rear of a needle head holder and a needle head with a securing portion in an upper position, in accordance with one embodiment;
[0110] FIG. 14B shows a view from the side and front of a needle head holder and a needle head with the securing portion in an upper position, in accordance with one embodiment;
[0111] FIG. 14C shows a view from the side and rear of a needle head holder and a needle head with the securing portion in a lower position securing the needle head member, in accordance with one embodiment;
[0112] FIG. 14D shows a needle head holder joined with an ablation tool in a secured position, and an insertion module secured in a drape adaptor, in accordance with one embodiment;
[0113] FIG. 15A shows a view from the side and rear of a needle head holder and a needle head with a securing portion and leg portion detached from one another, in accordance with one embodiment;
[0114] FIG. 15B shows a view from the side and front of a needle head holder and a needle head with the securing portion and leg portion detached from one another, in accordance with one embodiment;
[0115] FIG. 15C shows a view from the side and rear of a needle head holder and a needle head with the securing portion and leg portion joined together to secure the needle head holder, in accordance with one embodiment;
[0116] FIG. 15D shows a needle head holder joined with an ablation tool in a secured position, and an insertion module secured in a drape adaptor, in accordance with one embodiment;
[0117] FIG. 16A shows a view from the side and rear of a needle head holder and a needle head with a securing portion in an open position, in accordance with one embodiment;
[0118] FIG. 16B shows a view from the side and front of a needle head holder and a needle head with the securing portion in an open position, in accordance with one embodiment;
[0119] FIG. 16C shows a view from the side and rear of a needle head holder and a needle head with the securing portion in a closed position to secure the needle head holder, in accordance with one embodiment;
[0120] FIG. 16D shows a needle head holder joined with an ablation tool in a secured position, and an insertion module secured in a drape adaptor, in accordance with one embodiment;
[0121] FIG. 17A shows a view from the side and bottom of a body portion and an open cover of a securing portion of a needle head holder, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0122] FIG. 17B shows a cross sectional view of a body portion and an open cover of a securing portion of a needle head holder, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0123] FIG. 17C shows a view from the side and top of a body portion and an open cover of a securing portion of a needle head holder, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0124] FIG. 17D shows an upright cap portion of a needle head holder, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0125] FIG. 17E shows a cap portion of a needle head holder from a side, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0126] FIG. 17F shows a cap portion of a needle head holder from another side, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0127] FIG. 17G shows an exploded view of a cap portion and a securing portion of a needle head holder, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0128] FIG. 18A shows a side view of a leg portion of a needle head holder, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0129] FIG. 18B shows a cross-sectional view of a leg portion of a needle head holder, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0130] FIG. 18C shows a perspective view of a leg portion of a needle head holder, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0131] FIG. 18D shows a top view of a removably detachable base (anchoring portion) of the leg portion, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0132] FIG. 18E shows a perspective view of the removably detachable base of the leg portion, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0133] FIG. 19A shows an exploded view of a needle head holder, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0134] FIG. 19B shows an exploded view showing a needle head holder in a particular state of assembly, in accordance with the needle head holder embodiment shown in FIGS. 16A-D;
[0135] FIG. 20 shows a two-piece adaptor in several states of assembly with the needle holder and needle head, in accordance with one embodiment;
[0136] FIG. 21 shows another exemplary of a two-piece adaptor in several states of assembly with the needle holder and needle head, in accordance with one embodiment;
[0137] FIG. 22A shows a one-piece adaptor in several states of assembly with the needle holder and needle head, in accordance with one embodiment; and
[0138] FIG. 22B shows a needle head holder, a one-piece adaptor and a needle head in several states of assembly, in accordance with the needle head holder embodiment shown in FIGS. 16A-D.
DETAILED DESCRIPTION OF THE EMBODIMENTS
[0139] FIG. 1 shows a schematic diagram of a needle 100 with its needle head 105 and a needle head holder (“NHH”) 10. The coupling between the NHH 10 and the needle head 105 may be through a top, bottom and/or side opening (not shown) in the NHH 10. The needle head holder 10 may be configured for gripping by a user, e.g., a physician, performing a manual medical procedure, such as a biopsy, or it may be configured for gripping by an automated device (not shown in FIG. 1) performing the medical procedure.
[0140] FIG. 2 shows a schematic diagram of a needle 200 with its needle head 205, and a needle head holder 20 coupled to an end effector 252 of an automated medical device 25. The automated device 25 may be a robotic arm coupled to a dedicated cart or to the patient's bed, for example, or it may be a body-mounted robotic device, such as the device disclosed in the abovementioned International Patent Application No. PCT/IL2017/050584. The needle being coupled to the end effector 252 via the NHH 20 and not directly to the end effector 252 enables use of the same end effector, and thus the same medical device, with a variety of needle types.
[0141] In some implementations, the NHH 20 may a component of (or coupled to) an insertion module (not shown in FIG. 2), which in turn is coupled to the end effector 252. In such implementations, the insertion module may be coupled to the end effector by means of other component/s of the NHH 20, such that the NHH 20 is not directly coupled to the end effector 252. The insertion module and the end effector may each include at least part of the insertion mechanism, as disclosed, for example, in the abovementioned U.S. patent application Ser. No. 15/531,435.
[0142] In some implementations, the NHH 20 may be disposable and the end effector 252 reusable, such that the medical device with its end effector 252 can be used repeatedly with new needle head holders and with new needles.
[0143] FIGS. 3A-3D show an exemplary needle head holder 30 coupled to four different needle types, having four different needle heads 305a, 305b, 305c, 305d, which differ from each other in shape and size. It is to be understood that the NHH implementations described throughout this disclosure are not limited to those shown in FIGS. 3A-3D, and they may be used with any other needle type, including needles having electrical cables coupled to their needle heads, such as ablation needles, needles having optic fibers traversing therethrough, needles which induce ultrasonic vibrations, etc.
[0144] Reference is now made to FIGS. 4A-5D, which show exemplary implementations of a needle head holders which are configured such that they cover only a portion of the needle head, such that access to the needle head is maintained after it is coupled to the needle head holder. Such access may be required, for example, in biopsies, where the physician may first insert a hollow introducer with its solid core into the patient's body, and once the introducer reaches the target of the biopsy, the physician removes the core and inserts a biopsy needle to the target through the introducer.
[0145] FIG. 4A shows a perspective view of an exemplary needle head holder 40 in its open state. The NHH 40 may be comprised of at least two portions, a receiving portion 410, to which the needle head (not shown in FIG. 4A) is inserted, and a securing portion 420, which is moved by the user once the needle head is in its proper position within the receiving portion 410, to close the NHH 40 and secure the needle head therein. It can be appreciated that, alternatively, portion 420 may be the receiving portion and portion 410 may be the securing portion. The needle head holder 40 may include a hinge 430, which allows the securing portion 420 to pivot from an open state to a closed state, and vice versa. The needle head holder 40 may further include a locking mechanism to secure the coupling between the securing portion 420 and the receiving portion 410 and maintain the NHH 40 in a closed state. The locking mechanism may include, for example, a latch 425 attached to the securing portion 420 and a notch 415 located in the receiving portion 410, such that upon closing the needle head holder 40, the latch 425 is caught by the notch 415, either automatically or manually by the user, and the needle head holder 40 remains closed until the latch 425 is released from the notch 415 by the user. It can be appreciated that the latch may otherwise be part of the receiving portion 410 and the notch part of the securing portion 420. In some implementations, the receiving and securing portions 410, 420 may include depressions 412, 422, respectively, which house the needle head. The depressions 412, 422 may correspond to the size and shape of a specific needle head or they may be configured to receive a variety of needle heads of different shapes and sizes, as will be described in detail with regard to FIGS. 5A-5D.
[0146] The NHH 40 may include a channel for receiving and enclosing at least the proximal portion of the needle therein. The channel may be located in either one of the receiving portion 410 or the securing portion 420, or it may be formed by the coupling of two corresponding grooves 414 and 424 in the receiving and securing portions 410 and 420, respectively, upon transitioning the NHH to the closed state, as shown in FIGS. 4A-4C. In some implementations, the channel may be sized to receive needles having a specific gauge. In other implementations, in which the NHH 40 is configured to receive a variety of needle heads of different shapes and sizes, the channel may be sized according to the largest needle gauge which can be used with the NHH 40.
[0147] As previously mentioned, the NHH 40 may be part of (or coupled to) an insertion module (not shown in FIG. 4A), which in turn is coupled to an end effector (not shown in FIG. 4A) of an automated insertion device. The insertion module may include at least part of the insertion mechanism. In some implementations, the insertion mechanism may include a flexible support guide, such as a pair of flexible strips (shown hereinbelow in FIG. 6) connected along at least a portion of their length and having a central channel therebetween, which receives the needle, the strips being adapted to peel away from the needle as it is being inserted into the patient's body, as disclosed, in the abovementioned U.S. patent application Ser. No. 15/531,435. In such implementations, the strips may be coupled at their proximal end to the NHH 40, together with the needle head, such that pulling strips towards the patient's body results in advancement of the needle towards the patient's body. The coupling of the strips to the NHH 40 may be via pins 426 located in the securing portion 410 and corresponding notches 416 in the receiving portion 420, as will be described in detail with regard to FIG. 7 below. It can be appreciated that the pins 426 may otherwise be located in the receiving portion 410 and the corresponding notches 416 in the securing portion 420.
[0148] FIG. 4B shows the needle head holder 40 of FIG. 4A after insertion of a needle 400, 405 into the receiving portion 410, prior to closing of the NHH 40. The needle head 405 is positioned within the dedicated depression 412 in the receiving portion 410, and the needle 400 is positioned in the groove 414 of the receiving portion 410, which together with the groove 424 of the securing portion 420, will form the channel housing the needle 400, upon closing the NEM 40.
[0149] FIG. 4C shows the needle head holder 40 in its closed state, with the needle head 405 and the proximal end of the needle 400 securely positioned therein. The latch 425 is coupled to the notch 415, to prevent the NEM 40 from unintentionally opening. The needle head holder 40 will remain closed until the user releases the latch 425 from the notch 415 and pivots the securing portion 420 away from the receiving portion 410.
[0150] FIG. 5A shows another exemplary needle head holder 50, in its open state. The NEM 50 may be comprised of two portions, a receiving portion 510 and a securing portion 520. It may further include a hinge 530, which allows the securing portion 520 to pivot from an open state to a closed state and vice versa, and a pin locking mechanism to maintain the needle head holder 50 in a closed state. The receiving portion 510 and securing portion 520 may have interlocking parts 518 and 528a, 528b respectively, which have internal channels 5182, 5282 for receiving a locking pin 540 therein. When the NEM 50 is in the closed state, as shown in FIG. 5B, the internal channels 5182, 5282 align such that they form together a single channel which can receive substantially the entire length of the locking pin 540. Insertion of the locking pin 540 into the combined channel maintains the NEM 50 closed. It can be appreciated that although in FIG. 5A the receiving portion 510 has one interlocking part 518 and the securing portion 520 has two interlocking parts 528a and 528b, such that upon coupling the two portions 510, 520, the interlocking part 518 is positioned between interlocking parts 528a, 528b, this is merely an exemplary configuration, and other configurations, such as the receiving portion 510 having two interlocking parts and the securing portion 520 having one interlocking part to be positioned between the two interlocking parts of the receiving portion, or each portion having only one interlocking part, are within the scope of the present disclosure.
[0151] The needle head holder 50 may further include a tightening component 550, which secures the grip of the NEM 50 on the needle head (not shown in FIG. 5A). The tightening component 550 may be in the form of a rod 552 with a knob 554, the rod 552 passing through a wall of the NHH 50, for example the wall of the securing portion 520, such that pressing and/or rotating of the knob 554 results in the rod 552 pressing the needle head against the opposite inner wall of the NHH 50. The rod 552 and knob 554 may be a single component or they may be separate components coupled together. In some implementations, to prevent unintentional activation of the tightening component, whether for tightening or for loosening the NHH's grip on the needle head, the knob 554 must be first pressed against the rod 552 to couple them together and thus enable the tightening/loosening function, such as rotation of the rod 552 in case the rod is threaded. In some implementations, the NHH 50 may further include an inner layer of a moldable material 560, such as low-resilience polyurethane foam (or—“viscoelastic” polyurethane foam, memory foam), which can conform to the shape of the object being pressed against it. Thus, upon positioning the needle head in its place within the NHH 50, the needle head is pressed against the moldable layer, which assumes the shape of the needle head, such that there is no relative movement between the needle head and the NHH 50. The moldable layer 560 may be attached to the receiving portion 510, to the securing portion 520, or to both the receiving and the securing portions 510, 520.
[0152] FIG. 5B shows the needle head holder 50 of FIG. 5A in its closed state, with the needle head 505 and the proximal end of the needle 500 positioned therein. The interlocking parts 518, 528a, 528b are interlocked and the pin 540 has been pushed downward through the inner channels of the interlocking parts, such that the NHH 50 is securely locked and will remain locked until the user pulls the pin 540 upwards and out of at least interlocking parts 528b and 518.
[0153] FIG. 5C shows a longitudinal cross-sectional view of the NHH 50 in a closed state, after the knob 554 has been rotated/pressed such that the rod 552 holds at least a portion of the needle head 505 against the moldable layer 560 of the receiving portion 510. As a result, the moldable layer 560 assumes the shape of the needle head 505, or a portion thereof, and prevents undesired movement of the needle head 505. In some implementations, closing of the NHH 50 is sufficient for pressing the needle head 505 against the moldable layer 560 such that there is substantially no relative movement between the needle head 505 and the NHH 50. In such implementations, there is no need for an additional tightening component.
[0154] FIG. 5D shows a perspective view of the NM 50, which instead of memory foam includes a fastener 570 to grip the needle head. The fastener 570 may be semi-flexible and it may have a semi-annular shape, such that it can be pushed open by at least a portion of the needle head as it is being inserted into the NM 50 and grip the needle head, or a portion thereof. The fastener 570 may otherwise be in the form of one or more spring elements (not shown), which may be attached to the inner wall of either the receiving portion 510 or the securing portion 520. If the spring elements are attached to the receiving portion 510, then they are compressed by the needle head as its it being inserted into the NHH 50. If the spring elements are attached to the securing portion 520, then they are compressed against the needle head as the securing portion is being moved by the user to the closed position. The spring elements are then maintained in a compressed state, pushing the needle head against the securing (or the receiving) portion as long as the two portions of the NM 50 are coupled together. Thus, different needle heads can be captured and held in place by the same needle head holder. It can be appreciated that spring element/s may also be used in conjunction with moldable material, such that they are coupled to the inner wall of the securing portion, for example, while the moldable material is provided on the inner wall of the receiving portion, and when the NM is in its closed state, the spring element/s maintain the needle head pressed against the moldable material.
[0155] Reference is now made to FIGS. 6-13C, which show exemplary implementations of needle head holders which secure the needle head by supporting its bottom (distal) end and closing on its proximal end, such that they can be moved away from the proximal end of the needle head to allow access to the needle head after it is coupled to the needle head holder.
[0156] As previously mentioned, the needle head holder may be part of (or coupled to) an insertion module, which in turn is coupled to an end effector of a device for inserting a medical tool into a subject's body.
[0157] FIG. 6 Shows a perspective view of a needle head holder 60 which is part of an insertion module 6. The NHH 60 may be an integral part of the insertion module 6, or it may be a separate unit coupled to the insertion module 6. As also previously mentioned, the insertion module 6 may include at least part of the insertion mechanism 65. In some implementations, the insertion mechanism 65 may include a pair of flexible strips 652 connected along at least a portion of their length and having a central channel 6522 therebetween, to receive and enclose the needle therein. The insertion mechanism 65 may further include a pair of rollers (not shown) disposed on either side of the pair of flexible strips, and interacting therewith, such that counter-rotation of the pair of rollers causes the pair of flexible strips 652 to move between the pair of rollers. The engagement of the rollers with the strips 652 may be by means of perforations 6524 running along at least a portion of the length of the strips 652 and corresponding protrusions on the rollers. Coupling of both the strips 652 and the needle head 605 to the NHH 60 causes the needle to advance toward and into the body of the patient together with the strips 652 as they are being pulled toward the patient's body. The strips are adapted to peel away from the needle as it is being inserted into the patient's body, all as disclosed in the abovementioned U.S. patent application Ser. No. 15/531,435.
[0158] The needle head holder 60 may comprise a receiving portion 610, which supports the distal end of the needle head 605 and anchors the proximal ends of the strips 652 thereto, and a securing portion 620, which is displaced by the user once the needle head 605 is in its proper position, until it establishes contact with the proximal end of the needle head 605 and secures it within the NHH 60. The receiving portion 610 and the securing portion 620 may be two separate pieces provided pre-assembled or configured for assembly by the user.
[0159] FIG. 7 shows an exploded view of the needle head holder 60 with the needle 600 and needle head 605, and with the strips 652 of the insertion mechanism. The receiving portion of the NHH 60 may include a body portion 612 and an anchoring portion 614, which are coupled together to anchor the proximal end of the strips 652 to the NHH 60. The coupling of the body and anchoring portions 612, 614 may be established, for example, using a snap-fit mechanism. The anchoring portion 614 may include one or more anchoring pins 6142, which are passed through one or more holes 6526 in the proximal end of at least one of the strips 652 and then mate with corresponding sockets 6122 in the base 6125 of the body portion 612, with the strips 652 being anchored therebetween. It can be appreciated that the anchoring pins 6142 may alternatively be part of the body portion 612 and the sockets 6122 part of the anchoring portion 614. It can further be appreciated that the strips 652 may be coupled to the NEM 60 using any other suitable means.
[0160] The body and anchoring portions 612, 614 may include a channel for enclosing the proximal end of the needle 600 therein. The channel may be located in one of the body or anchoring portions 612, 614, or it may be formed by corresponding grooves 6124, 6144 in the body and anchoring portions 612, 614, respectively, upon coupling of the two portions. In some implementations, the channel may be sized (e.g., its radius) to receive needles having a specific gauge. In other implementations, the NEM 60 is configured to receive a variety of needle types and the channel may be sized according to the largest needle gauge which can be used with the NEM 60. In some implementations, the proximal portion of the channel may have a conical shape in order to ease the insertion of the needle 600 into the central channel 6522 of the strips 652 through the receiving portion's channel. The proximal portion of the strips' central channel 6522 may also have a conical shape.
[0161] The anchoring portion 614 may further include one or more guides 6146 which the user places on the base 6125 of the body portion 612 and then slides them along the base 6125 until the anchoring pins 6142 are properly snapped into the sockets 6122. The guides 6146 assist in aligning the body and anchoring portions 612, 614, and establishing the snap fit connection between the two portions.
[0162] The coupling between the securing portion 620 and the body portion 612 of the receiving portion may be such that the two portions can be coupled and decoupled by the user, or it may be such that the two portions remain coupled at all times and cannot be disconnected from each other, however they can be moved and/or rotated relative to each other, while remaining coupled. The relative movement between the securing portion 620 and the body portion 612 may be enabled via a linear ratchet mechanism, such that movement of the securing portion 620 down the receiving portion 610, i.e., toward the needle head 605, is substantially unrestricted, and movement of the securing portion 620 in the opposite direction, i.e., upward and away from the needle head 605, is restricted and requires a releasing action to be enabled. Since, in some implementations, securing both the strips 652 and the needle head 605 to the NHH 60 is essential for successful insertion of the needle into the subject's body, as it operatively couples the needle to the strips 652, then if the grip of the needle head 605 is released, activation of the insertion mechanism may de facto disable the NHH 60. In such a case, activation of the insertion mechanism may result in displacement of only the strips 652 and the NHH 60 toward the subject's body, while the needle remains in its place.
[0163] In some implementations, the body portion 612 may include ratchet teeth 6126 having a slope in the forward (downward) direction, and the securing portion 620 may include a locking pawl (not shown in FIG. 7), which engages with the ratchet teeth 6126 and thus prevents unintentional movement of the securing portion 620 upward and away from the needle head 605. Release of the locking pawl from the ratchet teeth 6126, to enable upward movement of the securing portion 620, may be achieved by means of a release lever 6202. The release lever 6202 may be integral with the locking pawl or it may be a separate component coupled to the locking pawl.
[0164] The movement of the securing portion 620 along the body portion 612 may be solely linear or the body portion 612 may include an angular section, tilted or curved, at its proximal end 6128, such that when in the open state, the securing portion 620 is tilted and does not prevent or get in the way of inserting the needle into the NHH 60 and/or removing the needle's core from the NHH 60, for example. The body portion 612 may include one or more grooves 6127 to guide the movement of the securing portion 620 along the curved path, as will be described in detail hereinbelow with regard to FIG. 9A.
[0165] Moving the securing portion 620 along the body portion 612 enables adjustment of the height of the NHH 60, such that the NHH 60 can be used with a variety of needle types and other insertable medical tools, having needle heads of various lengths.
[0166] The body portion 612 may include a handle 6129 having a slit 6131 through which the release lever 6202 is passed. Gripping the handle 6129 may facilitate the user when pressing the release lever 6202 so as to release the locking pawl from the ratchet teeth 6126 and move the securing portion 620 upward and away from the needle head 605.
[0167] The securing portion 620 may include a cover element 6204 which maintains contact with the proximal end of the needle head 605 upon moving the securing portion 620 toward the needle head 605, such that the needle head 605 is effectively clamped between the base 6125 of the body portion 612 and the cover element 6204 of the securing portion 620. In some implementations, the cover 6204 may be shaped such that the needle head 605 is maintained concentric with the strips' central channel 6522 independently of the needle head's shape and size. For example, the cover 604 may be shaped as a pyramid having a longitudinal axis which is aligned with the longitudinal axis of the channel 6522, and a rectangle transverse cross-section, which is largest at its base and smallest at its top portion, such that the contact between the cover 6204 and the needle head 605 is realized via a plurality (in this case, four) of tangent points (or lines), and the inner shape of the cover 6204 need not necessarily correspond to the shape of one specific needle head shape. Such a pyramid shape, together with the capability to adjust the height of the securing portion 620 relative to the body portion 612, as will be described in detail hereinbelow, enables using the NHH 60 with a variety of different medical instruments. It can be appreciated, however, that the cover 6204 is not limited to a pyramid shape, and it may have any other shape having similar advantages, e.g., a dome shape, a cone shape.
[0168] In some implementations, the cover 6204 may further include one or more grooves 6208 for receiving corresponding protrusion/s in certain needle head types, such as for providing indication as to the orientation of the needle. For example, the location of a protrusion on the head of a beveled needle may correspond to the location of the tip of the bevel. Thus, in case the orientation of the needle is of significance to the procedure, or may influence it in any way, the position of the groove 6208 on the cover 6204 is such that needle head can only be placed in the NHH 60 in the desired orientation. The cover element 6204 may further include ridges/ribs 6205 for structural reinforcement.
[0169] FIG. 8A shows a longitudinal cross-sectional view of the needle head holder 60 with the strips 652 attached and the needle 600, 605 inserted thereto. As previously mentioned, the receiving portion 610 of the needle head holder 60 may have a channel for inserting the needle 600 into the central channel 6522 of the strips 652 therethrough. The channel may be formed via the coupling of corresponding grooves in the body and anchoring portions (only groove 6124 of the body portion 612 is shown in FIG. 8A). Further, the proximal portion of the grooves 6124, and thus the proximal portion of the channel, may have a conical shape, to ease the insertion of the needle 600 into the central channel 6522 of the strips 652 through the receiving portion's channel.
[0170] Also shown in FIG. 8A is the cover element 6204 and its interface with the proximal end of the needle head 605. The user moves the securing portion 620 relative to the body portion 612, until the cover 6204 contacts the needle head 605, such that the needle head 605 is then clamped between the base 6125 of the body portion 612 and the cover element 6204 of the securing portion 620. In some implementations, the cover 6204 may be shaped, for example, as an adjustable dome (not shown). In the implementation shown in FIG. 8A the cover 6204 is shaped as a pyramid, which enables using the NHH 60 with various needle types having needle heads of various shapes and sizes, since the contact between the cover 6204 and the proximal end of the needle head 605 is established via a plurality of tangent points (or lines) 6055a, 6055b, the location of which may vary according to the shape and size of the needle head in use.
[0171] FIG. 8B shows a transverse cross-sectional view of the needle head holder 60 with the strips 652a, 652b attached and the needle 600, 605 inserted thereto. As previously mentioned, the coupling of the body and anchoring portions 612, 614 of the receiving portion 610 may be established via a snap-fit mechanism. The anchoring portion 614 may include anchoring pin/s 6142 that are passed through hole/s 6526 in at least one of the strips 652a, 652b, and then mate with corresponding socket/s 6122 in the body portion 612, with the strips 652a, 652b being anchored therebetween.
[0172] In some cases, once the needle is inserted into the target inside the patient's body, the physician/clinician may prefer to leave only the needle in place and disconnect it from the insertion device, since the insertion device may obstruct his/her view or actions. In case the insertion device is body-mounted, the physician/clinician may wish to remove it from the patient's body altogether, while leaving the needle itself inside the patient's body. In such cases, the NHH may be configured such that the user can disconnect it from the insertion device, and the user can then remove the insertion device from the patient's body, while the NHH remains coupled to the needle head. Alternatively, the NHH may be configured such that it can be decoupled from the needle, so that the needle has no components attached to it for the remainder of the medical procedure. The NHH may be decoupled from the needle after it has been disconnected from the insertion device, or, in some implementations, the NHH may be separable into at least two parts, such that decoupling the NHH from the needle and removal of the insertion device can be executed in a single action, as described hereinafter.
[0173] Decoupling the NHH 60 from the needle may be achieved by disconnecting the body and anchoring portions 612, 614 from one another. In some implementations, the body portion 612 and/or the anchoring portion 614 may include a release member (not shown) to assist in the decoupling of the two portions. In other implementations, the body portion 612 and/or the anchoring portion 614 may be manufactured from a semi-flexible material, such that mutual pressing on the sides of the two portions enables pulling them apart. In further implementations, in which the NHH 60 is part of an insertion module, as shown in FIG. 6 hereinabove, the insertion module may be modular, such that the entire insertion module can be separated along its longitudinal axis, as described in the abovementioned U.S. patent application Ser. No. 15/531,435. In such implementations, the disconnecting of the different parts of the insertion module may commence at the insertion mechanism housing, which also holds the two strips after they peel away from the needle and from each other. The housing may have a release member, which the user activates in order to separate the housing, and the insertion mechanism therein, into two separate parts. The user then pulls the two parts away from each other, thus detaching the two strips from each other in the section between the insertion mechanism and the NHH 60, in which they are still attached to each other and enclose the needle in their central channel. The user then continues to pull the two parts away from each other, until the body portion 612 and the anchoring portion 614 disconnect from one another, thus completing the disconnection of the two parts of the insertion module from each other and from the needle 600, which remains in its position within the patient's body. Since the needle 600 is enclosed within the channel formed between the strips 652a, 652b, but it is not connected to the strips, or to any other component of the insertion module, disconnection of the two parts of the insertion module from one another does not apply on the needle 600 any major forces which may cause it to move from its position. In some implementations, one part of the insertion module remains coupled to the insertion device's end effector, such that disconnection of the two parts of the insertion module from one another de facto disconnects the insertion device from the needle, with no need for another disconnection action. In case of a body mounted insertion device, disconnection of the two parts of the insertion module from one another allows removal of the insertion device from the subject's body, with no need for another disconnection action.
[0174] Also shown in FIG. 8B is the release lever 6202, the pressing of which lifts the locking pawl of the securing portion 620 from the ratchet teeth of the body portion 612, thereby allowing the user to move the securing portion 620 away from the needle head 605. The release lever 6202 may be positioned within a slit 6131 in the handle 6129 of the body portion 612, so as to restrict the movement of the release lever 6202.
[0175] FIG. 8B further shows a partial bottom view of the pyramid-shaped cover element 6204 of the securing portion 620. The cover 6204 may include one or more grooves/channels 6208 which can receive corresponding protrusions in certain needle head types.
[0176] FIG. 9A shows the needle head holder 60 in its open state, prior to insertion of the needle into the central channel 6522 of the strips 652 and securing of the needle head to the NHH 60. The relative movement between the securing portion 620 and the receiving portion 610 may be via a ratchet mechanism. The body portion 612 of the receiving portion 610 may include ratchet teeth 6126 and the securing portion 620 may include a locking pawl 6210 having teeth 6212 which can engage with the ratchet teeth 6126. The securing portion 620 may further include a release lever (not shown in FIG. 9A), the pressing of which disengages the locking pawl 6210 from the ratchet teeth 6126, and thus enables controlled upward movement of the securing portion 620 along the body portion 612. The movement of the securing portion 620 along the body portion 612 (upward/downward) may be solely linear or it may include a curved section, at the proximal end of the body portion 612, to ensure that when the NHH 60 is in the open state, the securing portion 620 does not interfere with the insertion of the needle into the NHH 60 or prevent access to the needle head when such access is needed.
[0177] The securing portion 620 may include a pin (or—protrusion) 6214, which allows the pivoting of the securing portion 620 at the proximal end of the body portion 612. In some implementations, the pin 6214 moves along the outer wall of the body portion 612 as the securing portion 620 is being moved linearly along the body portion. When the user wishes to open the NHH 60, he/she moves the securing portion upwards along the body portion 612, until the pin 6214 is received within a dedicated niche 6121 in the outer wall of the body portion 612, which may be formed by curving of the outer wall. The pin 6214 then serves as the rotation axis for the securing portion 620.
[0178] The body portion 612 may further include one or more grooves 6127 and the securing portion 620 may include one or more protrusions/pins 6215 fitted within the groove/s 6127, to guide the movement of the securing portion 620 along the curved path. The coupling between the receiving and the securing portions 610, 620 may be such that the two portions can be disconnected and reconnected by the user, or it may be such that the two portions can be displaced relative to each other but remain connected at all times. In the latter case, in order to prevent the securing portion 620 from disconnecting from the receiving portion 610 when the NHH 60 is in an open state, the body portion 612 of the receiving portion 610 may include a depression/gap 6123 which de facto serves as another ratchet tooth, similar to the ratchet teeth 6126, to capture the teeth 6212 of the locking pawl 6210 of the securing portion 620, in order to prevent its further movement away from the body portion 612.
[0179] FIG. 9B shows the needle head holder 60 in its open state, after the needle has been inserted into the central channel 6522 of the strips 652, and prior to securing of the needle head 605 within the NHH 60 by closing the securing portion 620 thereon. Closing of the securing portion 620 on the needle head 605 may be carried out by pivoting the securing portion 620 about an axis of rotation until its longitudinal axis is aligned with the longitudinal axis of the receiving portion 610. The securing portion 620 is then linearly moved downwardly along the body portion 612 until the cover 6204 contacts the proximal end of the needle head 605 and the needle head 605 is effectively clamped between the base of the body portion 612 and the cover element 6204 of the securing portion 620.
[0180] FIG. 9C shows the needle head holder 60 in its closed state, after securing the needle head 605 within the NHH 60 by closing the securing portion 620 thereon. The securing portion 620 has now been moved downwardly, so that the cover element 6204 contacts the proximal end of the needle head 605, and the needle head 605 is clamped between the base of the body portion 612 and the cover element 6204. The teeth 6212 of the locking pawl 6210 then remain engaged with the ratchet teeth 6126 of the body portion 612, as shown in the encircled window, until released by the user, to prevent unintentional movement of the securing portion 620 upward and away from the needle head 605.
[0181] The contact between the cover element 6204 and the proximal end of the needle head 605 may be such that the inner shape of the cover 6204 matches the outer shape of the needle head 605, or it may be via a plurality of tangent points or lines between the inner portion of the cover 6204 and the needle head 605, to accommodate different needle head shapes and sizes. The locations of the tangent points/lines may vary according to the shape and size of the needle head in use.
[0182] FIG. 9D shows controlled disengagement of the securing portion 620 from the needle head 605 and opening of the NHH 60. In some implementations, the user presses the release lever 6202 to release the locking pawl from the ratchet teeth of the receiving portion. The user then pushes the release lever 6202 upwards, while maintaining it pressed, resulting in the displacement of the entire securing portion 620 upwards and away from the needle head 605. By continuously pushing the pressed release lever 6202 upwardly, the securing portion 620 follows its curved displacement path, as dictated by the one or more grooves formed in the body portion and the one or more protrusions of the securing portion 620, which are fitted within the groove/s, as shown hereinabove in FIG. 9A.
[0183] The securing portion 620 reaches its maximal open state when the teeth of the locking pawl are captured within the depression of the body portion, as shown hereinabove in FIGS. 9A and 9B.
[0184] FIG. 9E shows the needle head holder 60 in its open state and the user removing the core 6055 of an introducer in order to insert a biopsy needle through the introducer, for example.
[0185] In some implementations, in order to avoid the need to open the NHH 60 to remove the core 6055, or access the needle head 605 for any other purpose, the cover 6204 may include a top/upper opening, which provides access to the needle head 605 even when the NHH 60 is closed. For example, the cover 6204 may have an annular shape (not shown). Maintaining the NHH 60 closed until completion of the medical procedure minimizes the risk of undesired needle movements throughout the procedure.
[0186] Alternative implementations of the needle head holder may be adapted to receive and support different types of medical instruments.
[0187] FIG. 10 shows a perspective upper view of an exemplary needle head holder 70 which includes a slit 7207 in the cover 7204 of the securing portion 720, to enable receiving a medical tool having at least one electrical wire 708 attached to it. Such tools may include, for example, introducers having optic fiber/s coupled to their cores (not shown). The optic fiber/s may be used, for example, to measure the deflection of the introducer's tip. Once in position, the core with the optic fiber/s is removed, and a biopsy needle, for example, is inserted through the introducer. In such implementations, the electrical wire 708 may be attached to the core via the upper portion 7053 of the introducer head 705.
[0188] FIG. 11A shows a perspective view of another needle head holder 80 having a cover portion 822. In this implementation, another form of ratchet mechanism—a zip-tie mechanism—is utilized for adjusting the NHH 80 according to the size and/or shape of the needle head in use. The NHH 80 may comprise an anchoring portion 810, which supports the distal end of the needle head 805 and anchors the proximal ends of the strips 852 thereto, and a securing portion 820, which is displaced by the user once the needle head 805 is in its proper position, in order to secure the needle head therein. The anchoring portion 810 may be one-piece or it may comprise two or more units 812 and 814 coupled together, as shown in FIG. 11A. The securing portion 820 may include a cover portion 822 and a locking portion 824. The cover portion 822 may be connected to unit 812 of the anchoring portion 810, and the locking portion 824 may be connected to unit 814 of the anchoring portion. The cover portion 822 may include a tape 8222 with teeth/ridges (not shown) that engage with a pawl (not shown) in a head member 8242 of the locking member 824. The tape 8222 can be pulled by the user in order to tighten the NHH's grip over the needle head. The locking portion 824 may further include a tab 8244, that the user can pull in order to pull apart unit 814 from unit 812, thus decoupling the two units of anchoring portion 810, as shown in FIG. 13C hereinbelow, and allowing removal of the NHH 80 from the needle head 805.
[0189] FIG. 11B shows a needle head holder 90 similar to the needle head holder 80 of FIG. 11A, but which is adapted to receive and secure an ablation catheter handle 905 with its attached wiring 908. Such an NHH 90 may be larger than an NHH 80 which is designed to receive a standard needle and/or introducer, as shown in FIG. 11A, for example, to accommodate the larger size of the handle 905. It can be appreciated that other types of medical tools may also be used with either the NHH 80, NHH 90, or any other similar implementation of the “zip-tie” NHH design.
[0190] FIG. 12 shows an exploded view of the needle head holder 80 of FIG. 11A, with the needle and the strips 852. Coupling between the two units 812, 814 of the anchoring portion 810 may be established, for example, using a snap-fit mechanism. One of the two units, in this case unit 812 which will be referred to hereinafter also as “the male unit”, may include one or more pins 8126 which can be passed through one or more holes 8526 in at least one of the strips 852 and then mate with corresponding one or more sockets 8146 in the second unit, in this case unit 814 which will be referred to hereinafter also as “the female unit”, with the strips 852 being anchored therebetween. It can be appreciated that the pins 8126 may alternatively be part of unit 814 and the sockets 8146 part of unit 812. In some implementations, units 812 and 814 may be provided to the user already coupled together, with the strips anchored therebetween, such that closing of the NHH 80 is done via coupling of the cover portion 822 and the locking portion 824. In such cases, once the needle has been inserted into the strips' central channel 8522, and the needle head 805 is properly positioned on the anchoring portion 810, the user pulls the cover portion 822 over the needle head 805, inserts the tape 8222 into the head member 8242, and pulls the free end of the tape 8222 until the needle head 805 is firmly secured within the NHH 80. In other implementations, the NHH 80 may be provided with the cover and locking portions 822, 824 coupled together, such that closing of the NHH 80 is done by coupling the two units 812 and 814 (as shown, from a decoupling perspective, in FIG. 13C hereinbelow). In such cases, the ratchet engagement between the tape 8222 and the head member 8242 is used only for tightening the NHH's grip on the needle head 805, by pulling the free end of the tape 8222 after closing the NEM 80 over the needle head 805.
[0191] In some implementations, once the tape 8222 is engaged with the head member 8242, the zip-tie mechanism cannot be undone. In other implementations, the mechanism may include a releasing element (not shown), that can be used to release the tape 8222 from the head member 8242, either for loosening the grip of the NEM over the needle head 805 or to remove at least the cover portion 822 from the needle head and allow access to the needle head 805.
[0192] The cover and locking portions 822, 824 may be flexible, at least in part, so as to adjust according to the size and/or shape of the needle head 805 in use.
[0193] In some implementations, the cover portion 822 may include a rigid end 8224 which is inserted into a corresponding slot 8122 in the male unit 812 of the anchoring portion 810. One or more screws 8124 may then be used to tightly hold the rigid end 8224 against the opposite inner wall of the slot 8122 and prevent the disconnection of the cover portion 822 from the male unit 812. Similarly, the locking portion 824 may include a rigid section 8246, located between the head member 8242 and the tab 8244, which is inserted into a corresponding slot 8142 in the female unit 814 of the anchoring portion 810, and one or more screws 8144 may be used to tightly hold the rigid section 8246 against the opposite inner wall of the slot 8142 and prevent the disconnection of the locking portion 824 from the female unit 814. In other implementations, the cover portion 822 and the male unit 812 of the anchoring portion may be manufactured as a single integral unit, and the locking portion 824 and the female unit 814 of the anchoring portion 810 may be manufactured as a single integral unit.
[0194] The male and female units 812, 814 may include a channel for enclosing the needle therein. The channel may be located in one of the two units 812, 814, or it may be formed by corresponding grooves 8128, 8148 in the male and female units 812, 814, respectively, upon coupling of the two units. The channel may be sized to receive needles with a specific gauge or, in case the NEM 80 is configured to receive a variety of needles having needle heads of different shapes and sizes, it may be sized according to the largest needle gauge which can be used with the NEM 80.
[0195] In some implementations, the proximal portion of the channel may have a conical shape in order to ease the insertion of the needle into the central channel 8522 of the strips 852. The proximal portion of the strips' central channel 8522 may also have a conical shape.
[0196] FIG. 13A shows the needle head holder 80 in its open state, prior to insertion of the needle into the central channel 8522 of the strips 852 and securing of the needle head to the NHH 80. Once the user inserts the needle all the way into the strips' central channel 8522, such that the needle head rests on the anchoring portion 810 of the NHH 80, the user couples together the cover and locking portions 822, 824 by pulling the cover portion 822 over the needle head and then inserting the tape 8222 of the cover portion 822 into the head member 8242 of the locking portion 824 and tightening their grip of the needle head by pulling the free end of the tape 8222 emerging from the other side of the head member 8242.
[0197] In other implementations, the NHH 80 may be provided with the cover and locking portions 822, 824 coupled together, such that closing of the NHH 80 is done by coupling the male and female units 812 and 814.
[0198] FIG. 13B shows the needle head holder 80 in its closed state, after insertion of the needle into the central channel 8522 of the strips 852 and securing the needle head 805 to the NHH 80 by closing the securing portion 820 thereon.
[0199] FIG. 13C shows decoupling of the needle head holder 80 from the needle head 805. In some implementations, the user pulls the tab 8244 of the locking portion 824 to disconnect the female unit 814 from the male unit 812. The pin/s of the male unit 812 can then be removed from the hole/s at the proximal end of the strips 852, and the entire NHH 80 can be removed from the needle head 805. In other implementations, the zip-tie mechanism may include a releasing element (not shown) for releasing the tape from the head member and allowing removal of the cover portion 822 from the needle head 805.
[0200] FIG. 14A, FIG. 14B and FIG. 14C show an embodiment of a needle head holder 90 for an ablation tool 900. Needle head holder 90 is configured for securing the ablation tool 900. The ablation tool 900 is an ablation needle 900 that includes a needle head member 910 at a proximal end of the ablation needle 900 and a shaft (not shown).
[0201] Needle head holder 90 includes a backbone 91 and a securing portion 92 for securing a needle head member 910 of the ablation tool 900 by closing a securing portion 92 of the needle head holder on the needle head 910. Securing portion 92 includes a body portion 93 and a cover 94. The body 93 of securing portion 92 is configured to move from an upper position on the backbone 91 to a lower position on the backbone 91, for example by sliding from the position shown in FIG. 14A and FIG. 14B to the position shown in FIG. 14C. The arcuate shape of the top of the backbone 91 is not a requirement.
[0202] The cover 94 is configured, at the lower position of the securing portion 92, to affixedly receive a head member of the ablation tool. Typically, the cover 94 snaps onto the needle head member 910 and holds the needle head 910 tightly. As seen in FIG. 14A, cover 94 may have a groove 94a that matches an outer surface of the needle head member 910. FIG. 14D shows the combination of the needle head holder 90 and the ablation needle 900 with a needle shaft (not shown) extending below it toward an insertion mechanism 960. In some implementations, the insertion mechanism 960 may include a pair of flexible strips 920 connected along at least a portion of their length and having a central channel (not shown) therebetween, to receive and enclose the needle shaft therein. Coupling of the needle head 910 and shaft to the needle head holder 90 causes the ablation tool 900 to advance toward and into a body of a patient as they are being pulled toward the patient's body by the insertion mechanism 960.
[0203] Closing of the securing portion 92 on the needle head member 910 may be carried out by sliding the securing portion 92 along the backbone 91 until a longitudinal axis of the ablation tool 900 is aligned with a longitudinal axis of the pair of flexible strips 920. The securing portion 92 is then linearly moved downwardly along the backbone 91 until the cover 94 contacts the proximal end of the needle head member 910 and the needle head member 910 is effectively clamped between the distal base portion 91a of the backbone 91 and the cover 94 of the securing portion 92 (and a proximal end of the ablation needle shaft is also secured between the distal base portion 91a and the anchoring portion 91c).
[0204] A release lever 95 (shown in FIG. 14A, FIG. 14C) may be used to release the locked connection between the backbone 91 and the body portion 93 of the securing portion 92. In some embodiments, as seen partly in FIG. 14A, backbone 91 may have locking mechanism such as a ratchet mechanism for locking the body portion 93, particularly in a lower position of the securing portion 92. The locked connection may be implemented as shown in FIG. 14A using ratchet teeth 99 although this is not a requirement.
[0205] Securing portion 92 within the locking mechanism is adapted to transition the needle head holder 90 from an open state to a closed state and/or from a closed state to an open state. When cover 94 of securing portion 92 has received the needle head member 910 and the needle head holder 90 is in the closed state, there is essentially no relative movement between the needle head holder 90 and the needle head member 910. The needle head holder 90 and the ablation tool 90 are affixedly united. If they move, for example distally toward the patient then they move together as one.
[0206] Regarding backbone 91, its distal base portion 91a is also fixedly attached to a proximal portion of the ablation needle 900, for example by extending perpendicularly toward the needle 900 from the backbone 91. In some embodiment, distal portion 91a is also fixedly attached to a proximal portion of the ablation needle shaft by an anchoring portion 91c.
[0207] For this embodiment of the needle head holder 90, as well as for the embodiments described below, if an inside of cover 94 does not match the outer shape of needle head member 910, it is necessary in certain embodiments for an adaptor to be situated between the needle head member 910 and the securing portion 92, and in particular the cover 94, which in that case affixedly receives the head member 910 by means of an adaptor configured to fit between an inside wall of the cover and an outside surface of the needle head member 910. The cover is configured to hold and secure the needle head of the ablation tool within the needle head holder.
[0208] As shown in FIG. 20, the adaptor may comprise two pieces, each of the two pieces surrounding substantially 180 degrees of the head member. In some embodiments, each of the two pieces surrounds about 170 degrees of the head member. In some embodiments, each of the two pieces surrounds about 160 degrees of the head member. In some embodiments, each of the two pieces surrounds about 120 to 160 degrees of the head member. In that case, the two pieces may be identical. Alternatively, as shown in FIG. 21, the adaptor may comprise a first piece that surrounds the head member from one side and a second piece that locks the first piece on a second side. In still another version of the adaptor, the adaptor may comprise a single piece, as shown in FIG. 22.
[0209] FIG. 15A, FIG. 15B and FIG. 15C show another embodiment of a needle head holder 100 for an ablation tool 900. In this embodiment as well, needle head holder 100 is configured for securing the ablation tool 900. The ablation tool 900 is an ablation needle 900 that includes a needle head member 910.
[0210] FIG. 15D shows the combination of the needle head holder 100 and the ablation needle 900 with a needle shaft (not shown) extending below it toward an insertion mechanism 960. In some implementations, the insertion mechanism 960 may include a pair of flexible strips 920 connected along at least a portion of their length and having a central channel (not shown) therebetween, to receive and enclose the needle shaft therein. Coupling of the needle head member 910 and needle shaft to the needle head holder 90 causes the ablation tool 900 to advance toward and into a body of a patient as they are being pulled toward the patient's body by the insertion mechanism 960.
[0211] Needle head holder 100 includes a securing portion 102 for securing the needle head member 910 of the ablation tool 900 therewithin, including a body portion 103 having an opening 103a, and a cover 104 configured to affixedly or rigidly receive a needle head member 910 of the ablation tool 900. Typically, the cover 104 snaps onto the needle head member 910 and holds the needle head 910 tightly. This embodiment of needle head holder 100 may utilize the cover 104 that may have a groove that matches an outer surface of needle head member 910. Needle head holder 100 may also include a leg portion 106 that is removable attachable—such as for example by snapping together—to the securing portion 102, as seen in FIG. 15A, FIG. 15B and FIG. 15C.
[0212] Needle head holder 100 also includes an upper portion 105 projecting out of the opening 103a in the body portion 103 of the securing portion 102 from above and configured to removably attach to the leg portion 106 that is configured to fit into the opening 103a from below. When the upper portion 105 of the securing portion 102 attaches to the leg portion 106, for example by snapping onto it, the cover 104 simultaneously affixedly or rigidly receives the needle head member 910 of the ablation needle 900. This has the effect of transitioning the needle head holder 100 from an open state to a closed state in which there is essentially no relative movement between the needle head holder 100 and the needle head member 910. According to some embodiments, this has the effect of transitioning the needle head holder 100 from an open state to a closed state in which there is essentially no relative movement between the needle head holder 100 and the ablation tool 900.
[0213] Closing of the securing portion 102 on the needle head member 910 may be carried out by sliding the securing portion 102 about a longitudinal axis of the leg 106 until its longitudinal axis is aligned with the longitudinal axis of the pair of flexible strips 920 and the of the insertion mechanism 960. The securing portion 102 is then linearly moved downwardly along the leg 106 until the cover 104 contacts the proximal end of the needle head member 910 and the needle head member 910 is effectively clamped between the base of the leg 106 and the cover 104 of the securing portion 102.
[0214] As can be seen from FIG. 15A, needle head holder 100 may have a locking mechanism. For example, upper portion 105 may have a ratchet mechanism or part of a ratchet mechanism for locking the upper portion 105 of body portion 103 to leg portion 106 when body portion 103 snaps into leg portion 106 at a top portion 106b of leg portion 106. The locked connection may be implemented as shown in FIG. 15A using ratchet teeth although this is not a requirement. A release lever 109 (shown in FIG. 15A, FIG. 15C) may be used to release the locked connection between the leg portion 106 and the body portion 103 of the securing portion 102.
[0215] A distal base portion 106a of the leg portion 106 may comprise a distal portion of the needle head member 910, for example by extending perpendicularly from leg portion 106 toward the ablation needle 900, as seen in FIG. 15A, FIG. 15B and FIG. 15C. Distal base portion 106a is also fixedly attached to a proximal portion of the ablation needle shaft by an anchoring portion 106c.
[0216] Another embodiment of a needle head holder 110 is shown in FIG. 16A, FIG. 16B and FIG. 16C. A needle head holder 110 is a device for securing a proximal potion of an ablation tool 900. Needle head holder 110 includes a leg portion 116 and a rotatable securing portion 112. Rotatable securing portion 112 includes a body portion 113 pivotably connected to a top (proximal end) 116b of the leg portion 116. Rotatable securing portion 112 has a cover 114 configured to affixedly or rigidly receive a needle head member 910 of the ablation tool 900 (ablation needle 900) when the securing portion 112 rotates closed. Typically, the cover 104 snaps onto the needle head member 910 and holds the needle head 910 tightly.
[0217] In accordance with one non-limiting general description of the embodiment, as seen in FIGS. 16A-16C, there is a needle head holder 110 for securing an ablation tool 900 having a needle head member 910. Needle head holder 100 may comprise a leg portion 116 and a securing portion 112. The securing portion 112 may comprise a first portion, for example body portion 113, having an opening 113a (shown in FIG. 17b) along a longitudinal axis of the body portion 113 and may comprise a second portion, for example a cover 114. In some embodiments, hereinbelow is configured to be perpendicularly connected to the cover 114, wherein the cover 114 is configured to affixedly receive the needle head member 910 of the ablation tool 900 when the securing portion 112 rotates closed so as to snap in place.
[0218] An additional element which may be considered to be a third portion of the securing portion 112, and which may for example be a pushable portion, may project through the opening in the first portion 113 of securing portion 112. The third portion (cap portion or pushable portion) may be configured to affixedly attach to the proximal end of the leg portion 116 through an opening in the first portion 113 when the securing portion 112 rotates closed. For example, in some implementations, needle head holder 110 may comprise a cap portion 115 or a pushable portion 115 that is configured to aligned into and pass through the opening 113a within the body portion 113 and to pivotably connected to the leg portion 116 at the proximal end 116b of the leg portion 116, so as to enable the securing portion 112 to rotate closed.
[0219] When the cap portion 115 fixedly attaches to the securing portion 112 the cover 114 simultaneously affixedly or rigidly receives the needle head member 910 of the ablation tool 900 so that there is essentially no relative movement between the needle head holder 110 and the needle head member 910. The cap portion 115 may affixedly attach to leg portion 116 by a rotation motion that results in cap portion 115 snapping in a rigid position in relation to leg portion 116. In some implementations, this may occur as a result of two parts of a ratchet mechanism or another mechanism snapping into place, for example a pawl of one part snapping into place between two teeth of another part.
[0220] In some implementations, the cap portion 115 may include ratchet teeth 115a, shown in FIG. 17D and FIG. 17F, having a slope in the forward (downward) direction, and the securing portion 112 may include a locking pawl 119a, as shown in FIGS. 17A and 17C, which engages with the ratchet teeth 115a and thus prevents unintentional movement of the securing portion 112 upward and away from the needle head member 910. Release of the locking pawl 119a from the ratchet teeth 115a, to enable upward movement of the securing portion 112, may be achieved by means of a release lever 119. The release lever 119 may be integral with the locking pawl 119a or it may be a separate component coupled to the locking pawl 119a. The engaging of cap portion 115 within the opening 113a of body portion 113 of the securing portion 112 is shown in FIG. 17G wherein the ratchet teeth 115a are facing the locking pawl 119a.
[0221] The cover 114 of securing portion 112 maintains contact with the proximal end of the needle head member 910 upon moving the securing portion 112 toward the needle head member 910, such that the needle head member 910 is effectively clamped between a base 118a of the leg portion 116 and the cover 114.
[0222] The cover 114 may further have a grooved inner surface 114a, as seen in FIG. 17A and in the cross-sectional view of FIG. 17B, so that the outer surface of the head member 910 matches the contour of the inner surface 114a of the cover 114. But if the head member 910 has a shape that does not match the inner surface 114a of the cover 114, then an adaptor may be placed between cover 114 and ablation tool 900. In that case, there are at least three versions of the shape of the adaptor as will describes hereinbelow.
[0223] The body portion 113 proximal end may include handles 113b and 113c which may extend perpendicularly from a longitudinal axis of the opening 113a. Gripping the handles 113b-113c may facilitate a user when pressing the release lever 119 so as to release the locking pawl 119a from the ratchet teeth 115a and move the securing portion 112 upward and away from the needle head member 910.
[0224] As seen in FIG. 17E, FIG. 17F and FIG. 17G, cap portion 115 may also have two distal holes 115c, 115d that match holes 116c, 116d at the proximal end 116b of leg portion 116 for alignment and locking. A pin, such as pin 130, shown in FIG. 19A, may be adapted to fit within holes 115c, 115d, 116c, 116d (as seen in FIG. 17E, FIG. 17F, FIG. 17G and FIGS. 18A-18C), to guide the movement of cap portion 115 and securing portion 112 around the pin 130. Cap portion 115 may further include a push element 115e (FIGS. 17D-17F) at cap portion 115 proximal end. Push element 115e may facilitate the user while using handles 113b and 113c.
[0225] As shown in FIGS. 18A-18E leg portion 116 may further comprise a protrusion 117 at a proximal portion of leg portion 116, which is configured to restrict the bending and/or rotation of securing portion 112 in a direction of the needle head member 910. Leg portion 116 may also comprise a (distal) base portion 118a extending perpendicularly from the leg portion 116 and attachable to a removable anchoring portion 118b for further alignment and securing of a proximal portion of the ablation needle shaft (not shown) and of a proximal end of the pair of flexible strips 920, for example using a male and female connection.
[0226] FIG. 19a is an exploded view showing the cap portion 115, the securing portion 112, the leg portion 116 and the pin 130 for engaging between the cap portion and the leg portion 116 of the needle head holder 110. FIG. 19b is an exploded view showing the cap portion 115 engaged within the securing portion 112, the leg portion 116 and the pin 130 for engaging between the cap portion and the leg portion 116 of the needle head holder 110.
[0227] According to some embodiments, as shown in FIG. 20, adaptor such as adaptor 1200 may comprise two pieces, each of the two pieces surrounding about half or substantially 180 degrees of the head member 910 of the ablation tool 900. For example, the two pieces of the adaptor may be substantially identical. Alternatively, in another embodiment of the adaptor an adaptor 1300 is shown in FIG. 21, the adaptor 1300 may comprise a first piece that surrounds the head member 910 from one side. For example, in one-limiting implementation, the first piece may be similar to one of the pieces in the first version (except for being configured to connect to the second piece differently). In another embodiment of adaptor 1300, the first piece may be configured to surround more than half or substantially more than 180 degrees of the head member 910 of the ablation tool 900. In these embodiments of adaptor 1300, the second piece may be configured to close off or lock the first piece. In a third version of the adaptor, an adaptor 1400 is shown in FIG. 22A-22B, the adaptor 1400 may be a single piece in which the inner wall of the adaptor 1400 is configured to have the same or similar or matching contour as the outer surface of the head member 910 and the outer surface of the adaptor 1400 is configured to have the same or a similar or matching contour as the inner surface 114a of the cover 114.
[0228] In all of the three versions, the adaptor (1200, 1300, 1400) is configured to fit securely between the needle head member 910 and part of the securing portion (92, 102, 112) of the needle head holder (90, 100, 110 respectively), for example a cover of the securing portion of the needle head holder. For example, the adaptor (1200, 1300, 1400) may snap-fit into position and rigidly hold the needle head member 910 in position relative to the needle head holder (90, 100, 110).
[0229] Another embodiment is an adaptor configured to fit securely between a needle head member and a cover of a securing portion of a needle head holder, as seen in FIG. 20. In one version, the adaptor comprises two substantially similar halves that snap together. In a second version the adaptor comprises two dissimilar pieces one of which is configured to surround the needle head member, for example through about 180 rotational degrees or through about 160 to about 200 rotational degrees. In a third version, the adaptor is one piece in which the inner wall of the adaptor is configured to match (for example identically or similarly to) the outer surface of the head member and the outer surface of the adaptor is configured to have the same or a similar or matching contour as the inner surface of the cover. The adaptor may snap-fit into position so as to rigidly hold the needle head member in position relative to the needle head holder.
[0230] Accordingly, as seen in FIG. 20, the first implementation is an adaptor 1200 configured to fit securely between a needle head member 910 of an ablation tool 900 and a cover (94, 104, 114) of a securing portion (92, 102, 112) of a needle head holder (90, 100, 110). The adaptor 1200 may comprise a first piece 1210 configured to surround about half of the needle head member 910, the first piece 1210 having an inner wall surface, for example a grooved inner wall surface 1212, that matches a contour of an outer wall surface 910a of the needle head member 910 or is at least configured to securely hold the outer wall surface 910a of head member 910, the first piece 1210 also having an outer wall surface 1214 that matches a contour of an inner wall surface (94a, 104a, 114a) of a part of the securing member (92, 102, 112).
[0231] Adaptor 1200 may have a second piece 1220 configured to surround about half of the needle head member 910, the second piece having an inner wall surface, for example a grooved inner wall surface 1222, that matches a contour of an outer wall surface 910a of the needle head member 910 or is at least configured to securely hold the outer wall surface 910a of head member 910, the second piece 1220 also having an outer wall surface 1224 that may match a contour of an inner wall surface (94a, 104a, 114a) of a part of the securing member (92, 102, 112). The first piece 1210 and the second piece 1220, after being placed so as to surround the needle head member 910 together, are configured to snap-fit together. When the first piece 1210 and the second piece 1220 are placed together they form an internal groove configured to receive the head member 910 of the ablation tool.
[0232] In some cases, the first piece 1210 and the second piece 1220 each have both a substantially horizontal groove and a substantially vertical groove.
[0233] In some cases, each of the first piece 1210 and the second piece 1220 are configured to surround the needle head member 910 through substantially 180 rotational degrees,
[0234] The second implementation is an adaptor, such as adaptor 1300 configured to fit securely between a needle head member 910 of an ablation tool 900 and a cover (94, 104, 114) of a securing portion (92, 102, 112) of a needle head holder (90, 100, 110), as shown in FIG. 21.
[0235] The adaptor 1300 may include a first piece 1310 configured to surround about half the needle head member 910, the first piece 1310 having an inner wall surface 1312 that either matches a contour of an outer wall surface 910a of the needle head member 910 or is at least configured to securely hold the outer wall surface 910a of head member 910. The first piece 1310 may also have an outer wall surface 1314 that matches a contour of an inner wall surface (94a, 104a, 114a) of a part of the securing member (92, 102, 112).
[0236] Adaptor 1300 may also comprise a second piece 1320 configured to lock the first piece 1310 in place (for example using a locking element 1333) and block the needle head member 910 on a side of the needle head member 910 not surrounded by the first piece 1310.
[0237] In some cases, the first piece 1310 but not the second piece 1320 has both a substantially horizontal groove and a substantially vertical groove.
[0238] In some cases, the second piece 1320 lacks a surface that conforms to an outer surface 910a of the needle head member 910.
[0239] In some cases, the second piece 1320 lacks a surface that conforms to an inner wall surface (94a, 104a, 114a) of a part of the securing member (92, 102, 112). The part may be a cover (94, 104, 114).
[0240] The third implementation is an adaptor such as adaptor 1400 configured to fit securely between a needle head member 910 of an ablation tool and a cover of a securing portion of a needle head holder, as shown in FIG. 22A and the exploded view of FIG. 22B. Adaptor 1400 may comprise a unitary piece 1410 configured to surround the needle head member 910 on at least three sides, the unitary piece 1410 having an inner wall surface 1412 that either matches a contour of an outer wall surface 910a of the needle head member 910 or is at least configured to securely hold the outer wall surface 910a. Unitary piece 1410 may have an outer wall surface 1414 that matches a contour of an inner wall surface (94a, 104a, 114a) of a part (such as a cover (94, 104, 114) of the securing member (92, 102, 112) or is at least configured to hold such inner wall surface (94a, 104a, 114a).
[0241] In some cases, the unitary piece 1410 has both a substantially horizontal groove 1416 and a substantially vertical groove 1418. In some cases, the unitary piece 1410 is sufficiently open—for example it is open on one side—to allow the needle head member 910 to be placed into and removed from the unitary piece 1410. In some embodiments, the unitary piece of adaptor 1400 configured to lock the needle head member 910 in place (for example using a locking element 1433).
[0242] One embodiment is a method 1500 for securing an ablation tool. Method 1500 may comprise a step 1510 of inserting an ablation needle head of the ablation tool into an opening of a needle head holder, until a proximal end of the ablation needle head is supported by a cover of a securing portion of the needle head holder and a distal end of the ablation needle head is supported by a leg portion base of the needle head holder. Method 1500 may also comprise a step 1520 of rotating the securing portion of the needle head holder so that one portion of the securing portion snaps securely onto a proximal end of the leg portion while a second portion of the securing portion snaps into place onto a head member of the ablation tool to transition the needle head holder from an open state to a closed state. In some versions, the moving of the securing portion includes rotating the securing portion to the leg portion.
[0243] It is appreciated by persons skilled in the art that the present invention is not limited by what has been particularly shown and described hereinabove. Rather the scope of the present invention includes both combinations and subcombinations of various features described hereinabove as well as variations and modifications thereto which would occur to a person of skill in the art upon reading the above description and which are not in the prior art.
