The invention relates to a system and method for fixation and stabilization of tissue. In particular, the invention relates to minimally invasive bone fracture fixation and stabilization.
It is well-known in the medical arts that applying pressure to tissue helps during the healing process. Incised or torn soft tissue, for example, may be approximated with bandages, sutures, or staples. Proper and more rapid healing of broken or fractured bones likewise may be facilitated by applying constant pressure to the bone. For instance, physicians may insert pins, screws, or bolts in the area of the fracture in order to apply pressure to the fracture.
However, inserting screws through or around fractures can be complex and time-consuming. For example, the process of inserting a screw typically involves multiple steps conducted from multiple incisions or openings that provide access to the treated bone or tissue, including the steps of drilling holes, measuring the relevant distances to determine the appropriate screw selection, tapping the hole to establish threads, and screwing the screw into the hole.
In addition to the length and complexity of the process, bone screws also may lose their grip and strip out of the bone. In addition, currently available lag screws also typically provide only one side of cortex fixation and are generally not suited for percutaneous surgery. Moreover, when placing the screws in the bone, the physician may not accurately set the screw into the distal hole or may miss the distal hole completely, thereby resulting in the screw stripping the threads or breaking the bone.
Many devices and instruments have been disclosed to fasten soft and hard tissue for enhanced healing or tissue reconstruction. Examples of such devices include bone plates, bone wraps, external bone supports, and the like.
For example, U.S. Pat. No. 5,921,986, the contents of which are incorporated herein by reference, discloses a bone suture and associated methods for implantation and fracture fixation. The '986 Patent describes fasteners and anchors used in conjunction with an elongate fixation element, such as a suture. In some cases, it may be advantageous to use more rigid fixation elements.
Accordingly, a need exists for a tissue fixation instrument which can provide flexible or rigid fixation of tissue while accessing the tissue from a small skin portal.
The present invention relates to a tissue fixation system. The system comprises an elongate fastening member and a fastener moveable with respect to the elongate fastening member from a first orientation to a second orientation, the fastener having a body with a tissue contacting surface that includes a groove configured and dimensioned to receive a portion of the elongate member in the first orientation. The system can also include a second fastener or other means for maintaining tension in the elongate fastening member.
A biasing means can be provided to maintain the fastener in the first orientation. The biasing means can be an adhesive between the groove and the portion of the elongate fastening member received in the groove. The biasing means could also be a frangible connection between the groove and the portion of the elongate fastening member received in the groove.
The fastener body can have a free surface opposite the tissue contacting surface, with the free surface including a channel configured and dimensioned to receive a portion of the elongate member in the first orientation. The fastener body can also include a through bore extending from the tissue contacting surface through the free surface.
In one embodiment, the fastener body includes leading and trailing ends. The leading end can be tapered or otherwise shaped to facilitate insertion. The groove terminates at the through bore and extends toward one of the leading and trailing ends and the channel terminates at the through bore and extends toward the other of the leading and trailing ends. In an exemplary embodiment, the groove extends toward the leading end and the channel extends toward the trailing end.
The free surface of the fastener body can be provided with a well surrounding the through bore. The well can be configured and dimensioned to receive at least a portion of the stop. A distal end of the elongate fastening member can include a stop larger than the through bore.
The present invention also relates to a medical instrument or device for securing the fastener with respect to the elongate fastening member. The medical device tensions the elongate fastening member and crimps either the fastener or a bushing. Another aspect of the invention relates to methods of tissue fixation using the disclosed tissue fixation systems.
A more complete understanding of the present invention, and the attendant advantages and features thereof, will be more readily understood by reference to the following detailed description when considered in conjunction with the accompanying drawings wherein:
The present invention provides a tissue fixation system for dynamic and rigid fixation of tissue. The system can be utilized for the fixation and stabilization of body tissue, including soft tissue to soft tissue, soft tissue to bone, and bone to bone. The surgical system can additionally be used to affix implants and grafts to body tissue. The system can access and treat fractured, incised or torn tissue, or the like, from one access area (i.e., from only one opening to the tissue to be fastened) instead of requiring two or more openings. That is, the system is a linear fixation system that can be used with a single, small incision or portal in the skin or other soft tissue to gain access to the fractured bone. The fixation system may be an all-in-one system, packaged as a system kit, for creating a passage in tissue, positioning fasteners, and tensioning an elongate fastening member, like a suture, thread, cable, wire, rod, or pin. The individual components of the system can either be reusable or single use components.
Referring now to the drawing figures in which like reference designators refer to like elements,
In this regard, the present invention may be used in conjunction with any surgical procedure of the body. The repair, reconstruction, augmentation, and securing of tissue or an implant may be performed in connection with surgery of a joint, bone, muscle, ligament, tendon, cartilage, capsule, organ, skin, nerve, vessel, or other body part. For example, tissue may be repaired, reconstructed, augmented, and secured following intervertebral disc surgery, knee surgery, hip surgery, organ transplant surgery, bariatric surgery, spinal surgery, anterior cruciate ligament (ACL) surgery, tendon-ligament surgery, rotator cuff surgery, capsule repair surgery, fractured bone surgery, pelvic fracture surgery, avulsion fragment surgery, hernia repair surgery, and surgery of an intrasubstance ligament tear, annulus fibrosis, fascia lata, flexor tendons, etc. In one particular application, an anastomosis is performed over a balloon and the methods and devices of the present invention are used to repair the vessel.
Also, tissue may be repaired after an implant has been inserted within the body. Such implant insertion procedures include, but are not limited to, partial or total knee replacement surgery, hip replacement surgery, bone fixation surgery, etc. The implant may be an organ, partial organ grafts, tissue graft material (autogenic, allogenic, xenogenic, or synthetic), collagen, a malleable implant like a sponge, mesh, bag/sac/pouch, collagen, or gelatin, or a rigid implant made of metal, polymer, composite, or ceramic. Other implants include breast implants, biodegradable plates, porcine or bovine patches, metallic fasteners, compliant bearing for medial compartment of the knee, nucleus pulposus prosthetic, stent, tissue graft, tissue scaffold, biodegradable collagen scaffold, and polymeric or other biocompatible scaffold. The scaffold may include fetal cells, stem cells, embryonal cells, enzymes, and proteins.
The present invention further provides flexible and rigid fixation of tissue. Both rigid and flexible fixation of tissue and/or an implant provides compression to enhance the healing process of the tissue. A fractured bone, for example, requires the bone to be realigned and rigidly stabilized over a period time for proper healing. Also, bones may be flexibly secured to provide flexible stabilization between two or more bones. Soft tissue, like muscles, ligaments, tendons, skin, etc., may be flexibly or rigidly fastened for proper healing. Flexible fixation and compression of tissue may function as a temporary strut to allow motion as the tissue heals. Furthermore, joints which include hard and soft tissue may require both rigid and flexible fixation to enhance healing and stabilize the range of motion of the joint. Flexible fixation and compression of tissue near a joint may provide motion in one or more desired planes. The fasteners described herein and incorporated by reference provide for both rigid and flexible fixation.
Although the invention is described primarily on a macroscopic level, it is also envisioned that the present invention can be used for microscopic applications. For example, in the repair of nerve tissue, individual cells or fibers may need to be repaired. Similarly, muscle repair may require tightening of individual muscle fibers.
System 100 includes a distal fastener 106 contacting fracture portion 102, a proximal fastener 108 contacting bone 104, and an elongate fastening member 110 extending through the fracture and coupling distal and proximal fasteners 106, 108. Tension is maintained in elongate fastening member 110 to press fasteners 106, 108 against opposite sides of bone 104 with a desired force. This force presses fracture portion 102 against bone 104 firmly together to promote healing of the fracture. If desired, buttons or other force distributing members could be provided between fasteners 106, 108 and the bone. Although
Fastener 112 is provided with first and second ends 120, 122. As shown in
Fastener body 114 has a free surface 124 opposite tissue contacting surface 116. Free surface 124 is provided with a channel 126 that receives a portion of elongate fastening member 110 when fastener 112 is in a first orientation with respect to elongate fastening member 110. As shown in
Fastener body 114 is shown with first end 120 having a substantially flat profile and second end 122 having a tapered profile. In general, any suitable external configuration can be used for fastener 112. Examples of fasteners may be found in U.S. Pat. Nos. 5,163,960; 5,403,348; 5,464,426; 5,549,630; 5,593,425; 5,713,921; 5,718,717; 5,782,862; 5,814,072; 5,814,073; 5,845,645; 5,921,986; 5,948,002; 6,010,525; 6,045,551; 6,159,234; 6,368,343; 6,447,516; 6,475,230; 6,592,609; 6,635,073; and 6,719,765. Other fastener types are disclosed in U.S. patent application Ser. Nos. 10/102,413; 10/228,855; 10/779,978; 10/780,444; 10/797,685, and 11/358,331. The above cited patents and patent applications are hereby incorporated by reference.
Fastener 112 can be made of any biocompatible material suitable for a given application. For example, the fasteners may be, but are not limited to, degradable, biodegradable, bioerodible, bioabsorbable, mechanically expandable, hydrophilic, bendable, deformable, malleable, riveting, threaded, toggling, barbed, bubbled, laminated, coated, blocking, pneumatic, one-piece, multi-component, solid, hollow, polygon-shaped, pointed, self-introducing, and combinations thereof. Also, the fasteners may include metallic material, polymeric material, ceramic material, composite material, body tissue, synthetic tissue, hydrophilic material, expandable material, compressible material, heat bondable material, and combinations thereof. Examples of body tissue include bone, collagen, cartilage, ligaments, or tissue graft material like xenograft, allograft, and autograft. The fasteners may also be made from a porous matrix or mesh of biocompatible and bioresorbable fibers acting as a scaffold to regenerate tissue.
The fasteners may further be made of or have a coating made of an expandable material. The material could be compressed then allowed to expand. Alternatively, the material could be hydrophilic and expand when it comes in contact with liquid. Examples of such expandable materials are ePTFE and desiccated body tissue.
Moreover, the fasteners described herein and incorporated by reference may include therapeutic substances to promote healing. These substances could include antibiotics, hydroxyapatite, anti-inflammatory agents, steroids, antibiotics, analgesic agents, chemotherapeutic agents, bone morphogenetic protein (BMP), demineralized bone matrix, collagen, growth factors, autogenetic bone marrow, progenitor cells, calcium sulfate, immo suppressants, fibrin, osteoinductive materials, apatite compositions, germicides, fetal cells, stem cells, enzymes, proteins, hormones, cell therapy substances, gene therapy substances, and combinations thereof. These therapeutic substances may be combined with the materials used to make the fasteners to produce a composite fastener. Alternatively, the therapeutic substances may be impregnated or coated on the fastener. Time-released therapeutic substances and drugs may also be incorporated into or coated on the surface of the fastener. The therapeutic substances may also be placed in a bioabsorbable, degradable, or biodegradable polymer layer or layers,
Stop 134 can be made integral with body 132 or separate and then attached. Stop 134 is larger in diameter than through bore 128 in body 114 of fastener 112. Thus, once stop 134 reaches through bore 128, fastener 112 cannot be slid any further along elongate fastening member 130. As shown in
Referring to
The elongate fastening members of the present invention may be made of metallic material, non-metallic material, composite material, ceramic material, polymeric material, co polymeric material, or combinations thereof. The members may be degradable, biodegradable, bioabsorbable, or nonbiodegradable. Examples of suture materials that can be used for the elongate fastening members are polyethylene, polyester, cat gut, silk, nylon, polypropylene, linen, cotton, and copolymers of glycolic and lactic acid. Preferably, the members are flexible or bendable. They may be threadlike, monofilament, multifilament, braided, or interlaced. The members may have a coating of therapeutic substances or drugs. For example, the members may include antibiotics, hydroxyapatite, anti-inflammatory agents, steroids, antibiotics, analgesic agents, chemotherapeutic agents, bone morphogenetic protein, demineralized bone matrix, collagen, growth factors, autogenetic bone marrow, progenitor cells, calcium sulfate, immo suppressants, fibrin, osteoinductive materials, apatite compositions, fetal cells, stem cells, enzymes, proteins, hormones, and germicides.
The use of the tissue fixation system according to the present invention will now be described using fracture fixation as an example. If necessary, the fracture is reduced bringing fracture portion 102 into contact with bone 104 (
As also shown in
As shown in
As illustrated in
Alternatively, the elongated fastening member 130 can be deformed by an energy source, such as thermal energy, to deform elongate fastening member 130 to create an enlarged head sufficient to maintain the tension.
In an exemplary embodiment, a proximal fastener 112b is used to secure distal fastener 112a and elongate fastening member 130. In this embodiment, proximal fastener 112b is identical to distal fastener 112a. If not already pre-loaded, proximal fastener 112b is loaded onto elongate fastening member 130. Proximal fastener 112b is loaded as shown in
Elongate fastening member 130 is tensioned, and proximal fastener 112b is secured to elongate fastening member 130 to thereby approximate the fracture and stabilize bone 104. The tension of elongate fastening member 130 pulls on distal and proximal fasteners 112a, 112b generally toward each other, thereby applying pressure to the fractured bone or tissue. In this regard, a bushing 146 can be used to secure proximal fastener 112b with the desired tension. Single or multiple elongated members 130 can be used to secure the fractured bone or tissue.
Although a number of mechanisms can be used to secure bushing 146, an instrument or medical device particularly useful for this will now be described.
In this regard, the present invention also provides a medical device for securing a fastener against relative movement with respect to a cable. As previously disclosed, a cable and pair of oppositely spaced fasteners can be used to secure a bone fracture. The cable is passed through the bone and fracture; a first fastener secures the cable on a first side (fracture side) of the bone; and a second fastener is positioned about the cable on a second side of the bone, opposite the first fastener. A bushing is positioned onto the cable to secure the second fastener against the second side of the bone. A force is applied to the bushing, compressing the second fastener against the second side of the bone and providing a tension to the cable. The tension in the cable can be measured and controlled, for example, with the use of a sensor and spring element. The spring can apply the force to tension the cable, and the sensor can be used to measure the resulting tension. Alternatively, the sensor can measure the compression of the tissue to determine the tension. The bushing is crimped about the cable, securing the second fastener against the second side of the bone, such that a tension is provided through the cable between the first and second fasteners.
Referring now to
With additional reference to
Referring to
Referring to
Roller bearings 246 are positioned between an outer raised surface 248 of shaft head 242 and inner surface 250 of the inner housing 238. The roller bearings 246 are fitted between shaft head 242 and inner housing 238, to allow rotation of output shaft 240 with respect to inner housing 238.
Outer raised surface 248 of shaft head 242 is provided in a substantially triangular configuration, having, in the embodiment shown, three sets of pairs of oppositely inclined surfaces, as represented by surfaces 247,249. Roller bearings 246 are positioned, one each, between inclined surfaces 247,249 and inner surface 250 of inner housing 238, such that a rotation of shaft head 250 will pinch or compress roller bearings 246 between inclined surfaces 247,249 and inner surface 250. In this manner, shaft head 242 and output shaft 240 become rotationally locked together, and are mutually prevented from rotating with respect to inner housing 238. As such, no external torsional force is required to produce a locking coupling. In either direction of rotation, clockwise or counter clockwise, at least three roller bearings 246 will be pinched, locking shaft head 242 and output shaft 240 from rotational movement.
Inner extensions 254 of cam plate 252 are positioned between inner surface 250 of inner housing 238 and shaft head 242. Inner extensions 254 include raised portions 256 configured to engage notched sections 258 of shaft head 242, locking the cam plate 252 to output shaft 240, such that rotation of cam plate 252 will rotate output shaft 240. In this manner, cam plate 252 is rotationally coupled to output shaft 240.
Inner extensions 254 are further operative to unlock shaft head 242 and output shaft 240. Specifically, when cam plate 252 is rotated, inner extensions 254 dislodge and prevent pinching of roller bearings 246, thus allowing rotation of shaft head 242 and output shaft 240. When rotation of cam plate 252 in discontinued, roller bearings 246 will again be allowed to be pinched, locking shaft head 242 and output shaft 240.
Cam plate 252 further includes radial flange 260 disposed about an outer circumference. Retaining ring 262 is positioned over cam plate 252, engaging flange 260 and affixed to tensioner housing 226. In this manner, cam plate 252, output shaft 240, roller bearings 246, and inner housing 238 are secured within recess 231 of tensioner housing 226 by retaining ring 262. Engagement of flange 260 and retaining ring 262 secures cam plate 252 in position, yet allows for rotation of cam plate 252 with respect to tensioner housing 226.
Referring to
Referring also to
The combined locking collar 278 and upper collar portion 284 of cam plate 252 extend through the bottom of winding knob 270, extending through biasing member 274 and engaging alignment holes 282 of compression plate 276. An adjustment bolt 288 is positioned through compression plate 276, threadably engaging threaded hole 289 (not visible) in cam plate 252, securing rotation assembly 236 to locking assembly 234.
Connection of rotation assembly 236 to locking assembly 234 includes an automatic torque control. Referring to
Winding knob 270 is urged into engagement with cam plate 252 by biasing member 274. Force applied by biasing member 274 can be controlled by rotating adjustment bolt 288. Tightening of adjustment bolt 288 urges compression plate 276 onto biasing member 274, increasing force applied between them. Loosening of adjustment bolt 288 raises compression plate 276 away from biasing member 274, decreasing applied force.
In use, biasing member 274 applies force to winding knob 270, forcing winding knob 270 into engagement with cam plate 252. Applied force is translated to a desired tension in cable 132. Torsional force is applied to winding knob 270 during rotation of winding knob 270, wrapping cable 132 about rotatable shaft 220, increasing tension in cable 132. At tensions less than a desired tension, applied force is sufficient to maintain engagement between winding knob 270 and cam plate 252.
However, at tensions greater then a desired tension, applied force is insufficient to maintain engagement between winding knob 270 and cam plate 252. As such, as an increased torque is applied to winding knob 270, winding knob 270 and cam plate 252 will lose engagement, wherein notched sections 296 of winding knob 270 will skip over raised radial sections 292 of cam plate 252. In this manner, tension greater then a desired tension cannot be applied to cable 132. Furthermore, locking assembly 234 prevents reversing, or backing off of cam plate 252, thus maintaining tension in cable 132.
Referring to
Cover plate 297 can include tension indicating markings to indicate desired tension to be applied to cable 132. Thumb cap 300 is rotated to a desired tension, as indicated by the markings, enabling a user to select a desired tension based on cable strength, or may be used to prevent over tensioning or snapping of cable 132.
Referring to
In use, tensioning mechanism 204 is used to tension cable 132. As discussed above, cable 132 can include single or multiple filaments. Cable 132 is inserted through medical device 200 along central longitudinal axis A-A, through collet 310, collet holder 208, and cable tensioner 216, positioning bushing in bushing aperture 324 and extending cable through cable aperture 222. To tension cable, winding knob 270 is rotated until a desired tension is achieved. Desired tension can be selected by setting thumb cap 300 to the desired tension marking.
Referring again to
With reference to
First edge 348 engagement of outer tube ferrule 332 moves outer tube ferrule 332 and outer tube 330 along collet holder 208 from a first tube position P1 to a second tube position P2. As trigger 334 is released, tube bias member 344 biases outer tube ferrule 332 and outer tube 33 from second tube position P2 to first tube position P1. Simultaneously, trigger 334 is moved to first trigger position TR1.
Referring to
In use, trigger 334 is actuated from first trigger position TR1 to second trigger position TR2. Actuation of trigger 334 slides outer tube 330 along collet holder 208 firm first tube position P1 to second tube position P2, moving collet closer 338 along force application end portions 320 and 322 of first and second collet arms 314 and 316. Inner tapered surfaces 350 of collet closer 330 apply compressive forces to first and second force application end portions 320 and 320, closing gap 318 and reducing bushing aperture 324 therebetween. Trigger 334 is released, allowing tube bias member 344 to bias outer tube 330 from second tube position P2 to first tube position P1, moving collet closer 338 away from force application end portions 320 and 322.
Collet aperture 324 is configured to receive a cable 110/132 as described herein. In general, collet aperture 324 can be configured to receive any fastener body. Examples of alternative collet aperture configurations may be found U.S. patent application Ser. No. 11/358,331, contents of which are hereby incorporated by reference
Referring to
With reference to
Rocker 360 is pivotally connected to handle 202, such that an actuation of rocker 360 from first rocker position R1 to second rocker position R2, slides wedge pusher 358 from first position to second position, moving wedges 354 from first wedge position W1 to second wedge position W2.
Referring to
When trigger 334 is released, trigger 334 is allowed to move from second trigger position TR2 to first trigger position TR1. To actuate cutting cams 352, trigger 334 is again moved from first trigger position TR1 to second trigger position TR2, such that rocker kicker 372 engages rocker 360, pivoting rocker 360 from first rocker position R1 to second rocker position R2. Rocker 360 slides wedge pusher 358 from first position to second position, moving wedges 354 from first wedge position W1 to second wedge position W2, such that, tapered ends 356 urge cut off cams 352 together, whereupon a cable 132 may be cut. Trigger 334 can then be released, releasing the crimped fastener 100.
Referring to
In a method of use in accordance with the invention, cable 132 is passed through bone 104 and fracture 102, where first fastener 112a secures cable 132 on first side (fracture side) of bone and second fastener 112b is positioned about cable on second side of bone, opposite first fastener 112a. Bushing 146 is positioned onto cable 132 to secure second fastener 112a against second side of bone 104.
Cable 132 is inserted through medical device 200 along central longitudinal axis “A-A”, through collet 310, collet holder 208, and cable tensioner 216, positioning bushing in bushing aperture 324 and extending cable through cable aperture 222. To tension cable, winding knob 270 is rotated until desired tension is reached. Prior to use, desired tension can be set by rotating thumb cap 300 to a tension indicated on cover plate 297.
Trigger 334 is actuated from first trigger position TR1 to second trigger position TR2. Actuation of trigger 334 slides outer tube 330 along collet holder 208 from first tube position P1 to second tube position P2, moving collet closer 338 about force application end portions 320 and 322 of first and second collet arms 314 and 316. Inner tapered surfaces 356 of collet closer 338 apply compressive forces to first and second force application end portions 320 and 322, compressing first and second force application end portions 320 and 322 about bushing 146 positioned in bushing aperture 324. Compressive forces crimp bushing about cable 132, securing bushing 146 to cable 132.
Simultaneously, actuation of trigger 334 results in rocker 360 engaging wedge pusher 358, sliding wedge pusher 358 and wedges 354 along collet holder 208. Tapered ends 356 of wedges 354 engage cut off cams 352, forcing cutting edge 353 into cable 132, cutting cable 132.
The components of the medical device 200 of the present invention are rigid members made of, for example, aluminum, stainless steel, polymeric, composite materials, or combinations thereof. The components are sufficiently rigid to transmit the necessary forces. It should be understood that any material of sufficient rigidity might be used. For example, some components can be made by injection molding. Generally, for injection molding, tool and die metal molds of the components are prepared. Hot, melted plastic material is injected into the molds. The plastic is allowed to cool, forming components. The components are removed from the molds and assembled.
Furthermore, it is contemplated that the components can be made of polymeric or composite materials such that the device can be disposable. For example, at least some or all of the components can be made of a biodegradable material such as a biodegradable polymer. Among the important properties of these polymers are their tendency to depolymerize relatively easily and their ability to form environmentally benign byproducts when degraded or depolymerized. One such biodegradable material is poly (hydroxyacids) (“PHA's”) such as polyactic acid (“PLA”) and polyglycolic acid (“PGA”).
Additionally, the device can be made of a nonmagnetic material. In such an instance, the device can be used as a positioning device for use in imaging devices, such as an MRI device. It is also contemplated that the system and medical device of the present invention may be disposable or may be sterilized after use and reused.
The methods and devices of the present invention may be used in conjunction with any surgical procedure of the body. The repair, reconstruction, augmentation, and securing of tissue or an implant may be performed in connection with surgery of a joint, bone, muscle, ligament, tendon, cartilage, capsule, organ, skin, nerve, vessel, or other body part. For example, tissue may be repaired, reconstructed, augmented, and secured following intervertebral disc surgery, knee surgery, hip surgery, organ transplant surgery, bariatric surgery, spinal surgery, anterior cruciate ligament (ACL) surgery, tendon-ligament surgery, rotator cuff surgery, capsule repair surgery, fractured bone surgery, pelvic fracture surgery, avulsion fragment surgery, hernia repair surgery, and surgery of an intrasubstance ligament tear, annulus fibrosis, fascia lata, flexor tendons, etc. In one particular application, an anastomosis is performed over a balloon and the methods and devices of the present invention are used to repair the vessel.
Also, tissue may be repaired after an implant has been inserted within the body. Such implant insertion procedures include, but are not limited to, partial or total knee replacement surgery, hip replacement surgery, bone fixation surgery, etc. The implant may be an organ, partial organ grafts, tissue graft material (autogenic, allogenic, xenogenic, or synthetic), collagen, a malleable implant like a sponge, mesh, bag/sac/pouch, collagen, or gelatin, or a rigid implant made of metal, polymer, composite, or ceramic. Other implants include biodegradable plates, porcine or bovine patches, metallic fasteners, compliant bearings for one or more compartments of the knee, nucleus pulposus prosthetic, stent, tissue graft, tissue scaffold, biodegradable collagen scaffold, and polymeric or other biocompatible scaffold. The scaffold may include fetal cells, stem cells, embryonal cells, enzymes, and proteins.
The present invention further provides flexible and rigid fixation of tissue. Both rigid and flexible fixation of tissue and/or an implant provides compression to enhance the healing process of the tissue. A fractured bone, for example, requires the bone to be realigned and rigidly stabilized over a period time for proper healing. Also, bones may be flexibly secured to provide flexible stabilization between two or more bones. Soft tissue, like muscles, ligaments, tendons, skin, etc., may be flexibly or rigidly fastened for proper healing. Flexible fixation and compression of tissue may function as a temporary strut to allow motion as the tissue heals. Furthermore, joints which include hard and soft tissue may require both rigid and flexible fixation to enhance healing and stabilize the range of motion of the joint. Flexible fixation and compression of tissue near a joint may provide motion in one or more desired planes. The fasteners described herein and incorporated by reference provide fir both rigid and flexible fixation.
It is contemplated that the devices and methods of the present invention be applied using minimally invasive incisions and techniques to preserve muscles, tendons, ligaments, bones, nerves, and blood vessels. A small incision(s) may be made adjacent the damaged tissue area to be repaired, and a tube, delivery catheter, sheath, cannula, or expandable cannula may be used to perform the methods of the present invention. U.S. Pat. No. 5,320,611 entitled, Expandable Cannula Having Longitudinal Wire and Method of Use, discloses cannulas for surgical and medical use expandable along their entire lengths. The cannulas are inserted through tissue when in an unexpanded condition and with a small diameter. The cannulas are then expanded radially outwardly to give a full-size instrument passage. Expansion of the cannulas occurs against the viscoelastic resistance of the surrounding tissue. The expandable cannulas do not require a full depth incision, or at most require only a needle-size entrance opening.
Also, U.S. Pat. Nos. 5,674,240; 5,961,499; and 6,338,730 disclose cannulas for surgical and medical use expandable along their entire lengths. The cannula has a pointed end portion and includes wires having cores which are enclosed by jackets. The jackets are integrally formed as one piece with a sheath of the cannula. The cannula may be expanded by inserting members or by fluid pressure. The cannula is advantageously utilized to expand a vessel, such as a blood vessel. An expandable chamber may be provided at the distal end of the cannula. The above mentioned patents are hereby incorporated by reference.
In addition to using a cannula with the methods of the present invention, an introducer may be utilized to position fasteners at a specific location within the body. U.S. Pat. No. 5,948,002 entitled Apparatus and Method for Use in Positioning a Suture Anchor, discloses devices for controlling the placement depth of a fastener. Also, U.S. patent application Ser. No. 10/102,413 discloses methods of securing body tissue with a robotic mechanism. The above-mentioned patent and application are hereby incorporated by reference. Another introducer or cannula which may be used with the present invention is the VERSASTEP® System by TYCO® Healthcare.
The present invention may also be utilized with minimally invasive surgery techniques disclosed in U.S. patent application Ser. No. 10/191,751 and U.S. Pat. Nos. 6,702,821 and 6,770,078. These patent documents disclose, inter alia, apparatus and methods for minimally invasive joint replacement. The femoral, tibial, and/or patellar components of a knee replacement may be fastened or locked to each other and to adjacent tissue using fasteners disclosed herein and incorporated by reference. Furthermore, the methods and devices of the present invention may be utilized for repairing, reconstructing, augmenting, and securing tissue or implants during and “on the way out” of a knee replacement procedure. For example, the anterior cruciate ligament and other ligaments may be repaired or reconstructed; quadriceps mechanisms and other muscles may be repaired. The patent documents mentioned above are hereby incorporated by reference.
In addition, intramedullary fracture fixation and comminuted fracture fixation may be achieved with the devices and methods of the present invention. For example, a plate or rod may be positioned within or against the fractured bone. A fastener may be driven through or about the bone and locked onto the plate, rod, or another fastener.
It is further contemplated that the present invention may be used in conjunction with the devices and methods disclosed in U.S. Pat. No. 5,329,846 entitled, Tissue Press and System, and U.S. Pat. No. 5,269,785 entitled, Apparatus and Method for Tissue Removal. For example, an implant secured within the body using the present invention may include tissue harvested, configured, and implanted as described in the patents. The above-mentioned patents are hereby incorporated by reference.
Furthermore, it is contemplated that the methods of the present invention may be performed under indirect visualization, such as endoscopic guidance, computer assisted navigation, magnetic resonance imaging. CT scan, ultrasound, fluoroscopy, X-ray, or other suitable visualization technique. The implants, fasteners, fastener assemblies, and sutures of the present invention may include a radiopaque material for enhancing indirect visualization. The use of these visualization means along with minimally invasive surgery techniques permits physicians to accurately and rapidly repair, reconstruct, augment, and secure tissue or an implant within the body. U.S. Pat. Nos. 5,329,924; 5,349,956; and 5,542,423 disclose apparatus and methods for use in medical imaging. Also, the present invention may be performed using robotics, such as haptic arms or similar apparatus. The above-mentioned patents are hereby incorporated by reference.
All references cited herein are expressly incorporated by reference in their entirety.
It will be appreciated by persons skilled in the art that the present invention is not limited to what has been particularly shown and described herein above. In addition, unless mention was made above to the contrary, it should be noted that all of the accompanying drawings are not to scale. A variety of modifications and variations are possible in light of the above teachings without departing from the scope and spirit of the invention. Therefore, it will be understood that the appended claims are intended to cover all such modifications and embodiments which come within the spirit and scope of the present invention.
This Application claims priority to U.S. Provisional Patent Application No. 60/889,605, entitled Tissue Fixation System and Method, filed on Feb. 13, 2007, the contents of which are incorporated herein by reference in their entirety.
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4968317 | Tormala | Nov 1990 | A |
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5035713 | Friis | Jul 1991 | A |
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5203784 | Ross | Apr 1993 | A |
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5290281 | Tschakaloff | Mar 1994 | A |
5304119 | Balaban | Apr 1994 | A |
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5312410 | Miller | May 1994 | A |
5315741 | Dubberke | May 1994 | A |
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5320611 | Bonutti | Jun 1994 | A |
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5324308 | Pierce | Jun 1994 | A |
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5329846 | Bonutti | Jul 1994 | A |
5329924 | Bonutti | Jul 1994 | A |
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5330476 | Hiot | Jul 1994 | A |
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5336231 | Adair | Aug 1994 | A |
5336240 | Metzler | Aug 1994 | A |
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5354298 | Lee | Oct 1994 | A |
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5366480 | Corriveaau | Nov 1994 | A |
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5400805 | Warren | Mar 1995 | A |
5403312 | Yates | Apr 1995 | A |
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5405359 | Pierce | Apr 1995 | A |
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5413585 | Pagedas | May 1995 | A |
5417691 | Hayhurst | May 1995 | A |
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5417712 | Whittaker | May 1995 | A |
5423796 | Shikhman | Jun 1995 | A |
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5443512 | Parr | Aug 1995 | A |
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5449372 | Schmaltz | Sep 1995 | A |
5449382 | Dayton | Sep 1995 | A |
5451235 | Lock | Sep 1995 | A |
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5456722 | McLeod | Oct 1995 | A |
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5522845 | WEnstrom | Jun 1996 | A |
5522846 | Bonutti | Jun 1996 | A |
5527341 | Gogolewski | Jun 1996 | A |
5527342 | Pietrzak | Jun 1996 | A |
5527343 | Bonutti | Jun 1996 | A |
5529075 | Clark | Jun 1996 | A |
5531759 | Kensey | Jul 1996 | A |
5534012 | Bonutti | Jul 1996 | A |
5534028 | Bao | Jul 1996 | A |
5540718 | Bartlett | Jul 1996 | A |
5542423 | Bonutti | Aug 1996 | A |
5545178 | Kensey | Aug 1996 | A |
5545180 | Le | Aug 1996 | A |
5545206 | Carson | Aug 1996 | A |
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5569252 | Justin | Oct 1996 | A |
5569305 | Bonutti | Oct 1996 | A |
5569306 | Thai | Oct 1996 | A |
5573517 | Bonutti | Nov 1996 | A |
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5573542 | Stevens | Nov 1996 | A |
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5591206 | Moufarrege | Jan 1997 | A |
5593422 | Muijs Van De Moer | Jan 1997 | A |
5593425 | Bonutti | Jan 1997 | A |
5593625 | Riebel | Jan 1997 | A |
5601557 | Hayhurst | Feb 1997 | A |
5601558 | Torrie | Feb 1997 | A |
5601595 | Schwartz | Feb 1997 | A |
5607427 | Tschakaloff | Mar 1997 | A |
5609595 | Pennig | Mar 1997 | A |
5618314 | Harwin | Apr 1997 | A |
5620461 | Muijs Van De Moer | Apr 1997 | A |
5626612 | Bartlett | May 1997 | A |
5626614 | Hart | May 1997 | A |
5626718 | Philippe | May 1997 | A |
5630824 | Hart | May 1997 | A |
5634926 | Jobe | Jun 1997 | A |
5628751 | Sander | Jul 1997 | A |
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5643289 | Sauer | Jul 1997 | A |
5643293 | Kogasaka | Jul 1997 | A |
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5643321 | McDevitt | Jul 1997 | A |
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5645597 | Krapiva | Jul 1997 | A |
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5649955 | Hashimoto | Jul 1997 | A |
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5651377 | O'Donnell | Jul 1997 | A |
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5662658 | Wenstrom | Sep 1997 | A |
5665089 | Dall | Sep 1997 | A |
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5667513 | Torrie | Sep 1997 | A |
5669917 | Sauer | Sep 1997 | A |
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5681351 | Jamiolkowski | Oct 1997 | A |
5681352 | Clancy | Oct 1997 | A |
5685820 | Riek | Nov 1997 | A |
5688283 | Knapp | Nov 1997 | A |
5690654 | Ovil | Nov 1997 | A |
5690655 | Hart | Nov 1997 | A |
5690676 | DiPoto | Nov 1997 | A |
5693055 | Zahiri | Dec 1997 | A |
5697950 | Fucci | Dec 1997 | A |
5702397 | Gonle | Dec 1997 | A |
5702462 | Oberlander | Dec 1997 | A |
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5713921 | Bonutti | Feb 1998 | A |
5718717 | Bonutti | Feb 1998 | A |
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5725556 | Moser | Mar 1998 | A |
5725582 | Bevan | Mar 1998 | A |
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5730747 | Ek | Mar 1998 | A |
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5779706 | Tschakaloff | Jul 1998 | A |
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5785713 | Jobe | Jul 1998 | A |
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5792096 | Rentmeester | Aug 1998 | A |
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5800537 | Bell | Sep 1998 | A |
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5810849 | Kontos | Sep 1998 | A |
5810853 | Yoon | Sep 1998 | A |
5810884 | Kim | Sep 1998 | A |
5814052 | Nakao et al. | Sep 1998 | A |
5814072 | Bonutti | Sep 1998 | A |
5814073 | Bonutti | Sep 1998 | A |
5817107 | Schaller | Oct 1998 | A |
5823994 | Sharkey | Oct 1998 | A |
5824009 | Fukuda | Oct 1998 | A |
5830125 | Scribner | Nov 1998 | A |
5836897 | Sakural | Nov 1998 | A |
5839899 | Robinson | Nov 1998 | A |
5843084 | Hart | Dec 1998 | A |
5843178 | Vanney | Dec 1998 | A |
5845645 | Bonutti | Dec 1998 | A |
5851185 | Berns | Dec 1998 | A |
5865834 | McGuire | Feb 1999 | A |
5866634 | Tokushige | Feb 1999 | A |
5868749 | Reed | Feb 1999 | A |
5874235 | CHan | Feb 1999 | A |
5879372 | Bartlett | Mar 1999 | A |
5891166 | Schervinsky | Apr 1999 | A |
5891168 | Thal | Apr 1999 | A |
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5897574 | Bonutti | Apr 1999 | A |
5899911 | Carter | May 1999 | A |
5899921 | Caspari | May 1999 | A |
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5944750 | Tanner | Aug 1999 | A |
5945002 | Bonutti | Sep 1999 | A |
5947982 | Duran | Sep 1999 | A |
5948000 | Larsen | Sep 1999 | A |
5948001 | Larsen | Sep 1999 | A |
5948002 | Bonutti | Sep 1999 | A |
5951590 | Goldfarb | Sep 1999 | A |
5957953 | DiPoto | Sep 1999 | A |
5961499 | Bonutti | Oct 1999 | A |
5961521 | Roger | Oct 1999 | A |
5961554 | Janson | Oct 1999 | A |
5964765 | Fenton | Oct 1999 | A |
5964769 | Wagner | Oct 1999 | A |
5968046 | Castleman | Oct 1999 | A |
5968047 | Reed | Oct 1999 | A |
5980520 | Vancaillie | Nov 1999 | A |
5980559 | Bonutti | Nov 1999 | A |
5984929 | Bashiri | Nov 1999 | A |
5989282 | Bonutti | Nov 1999 | A |
5993458 | Vaitekunas | Nov 1999 | A |
5993477 | Vaitekunas | Nov 1999 | A |
6007567 | Bonutti | Dec 1999 | A |
6007580 | Lehto | Dec 1999 | A |
6010525 | Bonutti | Jan 2000 | A |
6010526 | Sandstrom | Jan 2000 | A |
6017321 | Boone | Jan 2000 | A |
6033429 | Magovern | Mar 2000 | A |
6033430 | Bonutti | Mar 2000 | A |
6045551 | Bonutti | Apr 2000 | A |
6050937 | Benderev | Apr 2000 | A |
6050998 | Fletcher | Apr 2000 | A |
6056751 | Fenton | May 2000 | A |
6056772 | Bonutti | May 2000 | A |
6056773 | Bonutti | May 2000 | A |
6059797 | Mears | May 2000 | A |
6059817 | Bonutti | May 2000 | A |
6059827 | Fenton | May 2000 | A |
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6066160 | Colvin | May 2000 | A |
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6077277 | Mollenauer | Jun 2000 | A |
6077292 | Mollenauer | Jun 2000 | A |
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6086593 | Bonutti | Jul 2000 | A |
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6099531 | Bonutti | Aug 2000 | A |
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6099550 | Yoon | Aug 2000 | A |
6099552 | Adams | Aug 2000 | A |
6102850 | Wang | Aug 2000 | A |
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6117160 | Bonutti | Sep 2000 | A |
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6139320 | Hahn | Oct 2000 | A |
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6152949 | Bonutti | Nov 2000 | A |
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6159234 | Bonutti | Dec 2000 | A |
6171299 | Bonutti | Jan 2001 | B1 |
6171307 | Bonutti | Jan 2001 | B1 |
6174324 | Egan | Jan 2001 | B1 |
6179840 | Bowman | Jan 2001 | B1 |
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