A deformable or flexible suture anchor having apertures secures a suture to a skeletal structure via holes drilled through the skeletal structure, and passing the suture therethrough. A deformable structure permits the anchor to resiliently deform or bend for passing through an aperture, and resume a size larger than the passed aperture for securement on an opposed side of the aperture.
|
1. A knotless suture anchor assembly comprising:
a cannulated suture having a tubular wall defining a cannulated interior between a distal opening at a distal end of the cannulated suture and a proximate opening at a proximate end of the cannulated suture, the proximate opening providing communication with the cannulated interior, the distal end of the cannulated suture passing through the proximate opening to form a loop before passing through a void in the tubular wall;
a suture anchor integrated with the cannulated suture, the suture anchor adapted for fixation at the surgical site, the suture anchor including a first plurality of apertures including a first aperture, a second aperture, and a third aperture on a first end of the suture anchor and a fourth aperture, a fifth aperture, and a sixth aperture on a second end of the suture anchor, the suture anchor further including configured to form a plurality of deformable folds, each one of the plurality of deformable folds deposed disposed between two of the first plurality of apertures and forming configured to form more deformable sections of the suture anchor across a width of the suture anchor; and
a fixation member having an engagement surface and a second plurality of apertures, the loop suture engaging the second plurality of apertures for drawing the engagement surface toward the suture anchor via tightening of the loop, whereby the knotless suture anchor assembly is configured to provide surgical attachment for tissue disposed between the engagement surface and the suture anchor,
wherein the suture anchor includes a first surface facing the fixation member and a second surface opposite the first surface and facing away from the fixation member; the loop suture passes between: the first aperture and second aperture on the second side of the suture anchor; the second aperture and the third aperture on the first side of the suture anchor; the third aperture and the fourth aperture on the second side of the suture anchor; the fourth aperture and the fifth aperture on the first side of the suture anchor; and the fifth aperture and the sixth aperture on the second side of the suture anchor;
wherein the plurality of deformable folds include includes a first deformable fold between the first aperture and the second aperture, a second deformable fold between the second aperture and the third aperture, a third deformable fold between the fourth aperture and the fifth aperture, and a fourth deformable fold between the fifth aperture and the sixth aperture; and the proximate end of the cannulated suture is positioned between the suture anchor and the fixation member.
7. A method of securing tissue comprising:
passing a cannulated suture through a first plurality of apertures in a fixation member, the fixation member having an engagement surface, the cannulated suture having a tubular wall defining a cannulated interior between a distal opening at a distal end of the cannulated suture and a proximate opening at a proximate end of the cannulated suture, the proximate opening providing communication with the cannulated interior;
integrating a suture anchor with the cannulated suture, the suture anchor having a first surface facing the fixation member and a second surface opposite the first surface and facing away from the fixation member, the suture anchor adapted for fixation at a surgical site, the suture anchor including a second plurality of apertures including a first aperture, a second aperture, and a third aperture on a first end of the suture anchor and a fourth aperture, a fifth aperture, and a sixth aperture on a second end of the suture anchor, the suture anchor further including configured to form a plurality of deformable folds, each one of the plurality of deformable folds deposed between two of the second plurality of apertures and forming configured to form more deformable sections of the suture anchor across a width of the suture anchor, the deformable folds including a first deformable fold between the first aperture and the second aperture, a second deformable fold between the second aperture and the third aperture, a third deformable fold between the fourth aperture and the fifth aperture, and a fourth deformable fold between the fifth aperture and the sixth aperture;
wherein integrating the suture anchor with the suture comprises forming a loop in the cannulated suture by passing the distal end of the cannulated suture: through the first aperture on the first side of the suture anchor and through the second aperture on the second side of the suture anchor such that the loop suture passes between the first aperture and the second aperture on the second side of the suture anchor; through the third aperture on the first side of the suture anchor such that the loop suture passes between the second aperture and the third aperture on the first side of the suture anchor; through the fourth aperture on the second side of the suture anchor such that the loop suture passes between the third aperture and the fourth aperture on the second side of the suture anchor; through the fifth aperture on the first side of the suture anchor such that the loop suture passes between the fourth aperture and the fifth aperture on the first side of the suture anchor; and through the sixth aperture on the second side of the suture anchor such that the loop suture passes between the fifth aperture and the sixth aperture on the second side of the suture anchor; and through the proximate opening into the cannulated interior and out through a void in the tubular wall; after the loop has been formed,
passing the distal end of the suture through at least one of the first plurality of apertures in the fixation memberand adjacent to the loop, the proximate end of the cannulated suture being positioned between the suture anchor and the fixation member; and
drawing the engagement surface of the fixation member toward the suture anchor via tightening of the loop suture, whereby surgical attachment is provided for tissue disposed between the engagement surface and the suture anchor.
0. 2. The knotless suture anchor assembly of
3. The knotless suture anchor assembly of claim 2 1, wherein the suture anchor comprises textile suture material, and wherein the distal end of the cannulated suture is configured to pass between the interior void and an exterior region outside the cannulated suture.
4. The knotless suture anchor assembly of
5. The knotless suture anchor assembly of
6. The knotless suture anchor assembly of
in an insertion state, the deformable section is temporarily compressed to a smaller dimension for insertion through the aperture, the deformable section returning to the at rest state within the bone in response to the tightening of the loop.
0. 8. The method of
9. The method of
0. 10. The suture anchor assembly of claim 1, wherein the plurality of deformable folds permit a change from a first dimension to a second dimension of the suture anchor via the tightening of the suture.
0. 11. The method of claim 7, wherein drawing the engagement surface of the fixation member toward the suture anchor comprises pulling the suture anchor against a surgical aperture.
|
This patent application is a broadening reissue of U.S. Pat. No. 10,448,942 which in turn claims the benefit under 35 U.S.C. § 119(e) of U.S. Provisional Patent Application Nos. 61/769,400, filed Feb. 26, 2013, entitled “SUTURE BASED HEADED TACK,” and 61/861,530, filed Aug. 2, 2013, entitled “KNOTLESS SUTURE ANCHOR,” both incorporated herein by reference in entirety.
Endoscopic surgical techniques frequently involve physical attachment to human skeletal joint structures. Sutures are often employed for securing reconstructive appliances to the skeletal structures. Sutures may also be employed to replace or supplement flexible connective tissue, such as tendons and ligaments. It is therefore desirable to securely attach the sutures to the skeletal structures such that the sutured attachment can withstand movement of the skeletal structures. Attachment mechanisms may vary based on the rigidity of the skeletal structure, since a hard bone surface withstands more force than a softer connective tissue, which is more prone to tearing or pulling through a suture attachment.
Reconstructive surgery often employs surgical attachment techniques using a suture secured to a rigid skeletal member such as a bone or cartilage structure. Often soft tissue structures are adjacent and may need to be drilled, evacuated or otherwise accommodated. A deformable or flexible suture anchor having a plurality of apertures secures a suture to a skeletal structure via holes drilled through the skeletal structure, and passing the suture therethrough. A deformable structure permits the anchor to resiliently deform or bend for passing through an aperture, and resume a size larger than the passed aperture for securement on an opposed side of the aperture.
In a particular configuration, the suture anchor has a crossmember between the plurality of apertures (typically two) such that a continuous suture passes through both apertures and around the crossmember forming a loop, and through the holes in the skeletal structure. The suture anchor may be disposed through the skeletal hole with an insertion device for inserting the anchor along a smaller dimension (i.e. along its width) for transverse orientation following insertion. Since the transverse or rotated suture anchor is larger than the holes in the skeletal structure (i.e. bone), the suture anchor is drawn and engaged to the skeletal structure when the suture is contracted or pulled through the hole(s). The suture anchor binds the suture to the bone as the loop is pulled tight around the crossmember and forms a “T” with the suture as the length of the anchor is drawn against the surface of the skeletal member and perpendicular to the suture. The contoured anchor shape of the proposed approach facilitates mating with a skeletal structure and reinforcing areas of greatest strain, i.e. having a wider structure around the suture holes. Distal ends of the suture passed through the holes are then secured by any suitable means to maintain the suture taut and the suture anchor engaged by the suture looped around the crossmember.
In other contexts, it would be beneficial to provide a surgical anchor that can be inserted with a single insertion motion from a corresponding appliance, and which employs a knotless design cinchable by tension on a single suture strand. Unfortunately, conventional approaches suffer from the shortcoming that suture anchors are either all suture (anchor constructed itself of suture material) or knotless, but not both. The disclosed approach merges these approaches to define an all suture knotless anchor, capable of being delivered trans tissue. Features of the disclosed approach include the following: knotless design, radio lucent, all suture material construction, and provides a low profile suture pledget having a larger contact area under the pledget compared to standard anchors.
In another configuration, a knotless suture anchor as disclosed herein includes a cannulated suture forming a loop, in which the cannulated suture has a tubular wall defining an opening at an end of the suture, and the opening provides communication with a cannulated interior. The loop is defined by segment of the suture passed through the opening and into the cannulated interior a short distance and then passed out through a void in the tubular wall. A woven or mesh construction of the tubular wall permits passage to complete the looping in a so-called “finger trap” manner. The suture anchor is integrated with the cannulated suture, via a woven or mesh integration, such that the suture anchor is adapted for fixation at a surgical site. The pledget takes the form of a fixation member having an engagement surface, such as a substantially flat or planer surface facing the suture anchor and a plurality of apertures through which the suture loop passes, in which the loop engaging the apertures for drawing the engagement surface toward the suture anchor via tightening of the loop. Depending on the construction of the suture anchor, the engagement surface may be irregular or resilient, as in the case of a suture material anchor. In this manner, the surgical attachment is provided for tissue disposed between the engagement surface and the anchor.
In another configuration, a method of surgical attachment includes disposing a suture anchor through a surgical aperture, such that the suture anchor is compressibly deformable for permitting passage through the surgical aperture, and securing the suture anchor against the surgical aperture by restraining the suture anchor against the surgical aperture. The suture anchor deformability prevents subsequent passage through the surgical aperture. The suture anchor may be secured by drawing a suture strand through the surgical aperture and tightly against surgical tissue. Alternatively, securing may involve passing a distal end of a cannulated suture through a plurality of apertures in a fixation member, in which the fixation member has an engagement surface, and the cannulated suture has a tubular wall defining an opening at distal and proximate ends of the suture and an interior void defined by the cannulated interior. The method includes integrating a suture anchor into the tubular wall of the suture, the suture anchor adapted for fixation at a surgical site, and forming a loop in the cannulated suture, the opening providing communication with a cannulated interior, the loop defined by passing the suture passed through the opening into the cannulated interior and passed through a void in the tubular wall. A surgeon passes the distal end of the suture through at least one of the apertures in the fixation member and adjacent to the loop, and draws the engagement surface toward the suture anchor via tightening of the loop, the surgical attachment provided for tissue disposed between the engagement surface and the anchor.
The above configurations of deformable anchors may be employed individually or together, for example combining the knotless anchor with the deformable anchor as the pledget. Alternatively, the knotless anchor may be employed with a more rigid structure, also referred to as an ENDOBUTTON®, marketed commercially by Smith and Nephew, of Memphis, Tenn.
The foregoing and other objects, features and advantages of the invention will be apparent from the following description of particular embodiments of the invention, as illustrated in the accompanying drawings in which like reference characters refer to the same parts throughout the different views. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention.
Depicted below are various configurations of the proposed approach. The deformable anchor may be of any suitable deformable and/or resilient material, such as textile, plastic or rubber.
The suture anchor body 102 has a plurality of apertures 111-1, 111-2 (111 generally) suitable for suture passage. The suture anchor therefore includes a body 102 having a plurality of apertures 111-1, 111-2 extending therethrough, such that the apertures are adapted for passing suture. The body 102 includes at least one crossmember 119, defined by the region between the apertures 111, such that the cross-member 119 is adapted for engagement with a suture loop 142 from a suture passed through at least two of the apertures 111, discussed further below with respect to
The body 102 includes a flexible portion 125, adapted to deform along dotted line 132, for deforming the anchor 100 for insertion in a skeletal aperture, such that the flexible portion 125 is configured to return to an undeformed shape subsequent to insertion, in which the undeformed shape is unsuitable for passage through the skeletal aperture through which the deformed anchor 100 was passed. The flexible portion 125 may be part of the crossmember 119, and the body 102 may have a cutaway or more flexible portion at the dotted line 132 for facilitating a fold or other deformation in the anchor 100. Alternatively, the body 102 may be passed substantially undeformed in a lengthwise manner such that upon emerging, rotates 90 degrees for engaging a longitudinal side against the skeletal aperture. The undeformed anchor 100 is shown elongated and the deformed anchor folds substantially at a midsection defined by the dotted line 132. Once deployed, the anchor unfolds or undeforms, discussed below in
Depicted below are various configurations of an alternate configuration of the proposed approach for a non-rigid knotless suture anchor.
A suture anchor 130 is integrated with the cannulated suture 110, via weaving or mesh construction to interleave, or “zig zag” around the suture 110 and is responsive to compress upon tightening of the loop 120, shown further in
A fixation member 140 takes the form of a pledget or Endobutton® having a planer engagement surface 142 and a plurality of apertures 144, such that the loop 120 engages the apertures 144 by passing the suture 110 therethrough for drawing the engagement surface 142 toward the suture anchor 130 via tightening of the loop 120, as shown by arrows 132, such that surgical attachment is provided for tissue disposed or compressed between the engagement surface 142 and the anchor 130. The fixation member 140 may be a deformable anchor 100 as in
The disclosed non-rigid knotless suture anchor assembly 101 is employed in a method of securing tissue 160 to other skeletal or connective members such as bone 162. The distal end 138 of a cannulated suture 110 is passed through the plurality of apertures 144 in the fixation member 140, such that the fixation member 140 has a planer surface 142, and the cannulated suture 110 has a tubular wall defining an opening at distal and proximate ends of the suture 110 and an interior void defined by the cannulated interior of the suture 110. The suture anchor 130 is integrated into the tubular wall 118 of the suture, such that the suture anchor 130 is adapted for fixation at a surgical site 170. The distal end 138 forms a loop 120 in the cannulated suture 110, via the opening 112 that provides communication with the cannulated interior, in which the loop 120 is defined by passing the suture 110 through the opening 112 into the cannulated interior and passed through a void 116 in the tubular wall 118. The distal end 138 of the suture is passed through at least one of the apertures 144 in the fixation member 140 and adjacent to the suture 110 passing through the same aperture 144. Insertion of the surgical anchor 130 causes it to compress via the alternate folds 134 upon pulling on the distal end 138 acting as a cinch for drawing the engagement surface 142 toward the suture anchor 130 via tightening of the loop 120, such that surgical attachment is provided for the tissue 160 disposed between the engagement surface 142 and the bone 162.
In the configurations above, a deformable section (shown by the flexible section 125 and the folds 134 in the suture anchor 130) effectively provides a suture anchor with varying dimensions of length and width such that they may be passed through a suture aperture such as a bone tunnel for insertion, and achieve an alternate dimension for fixation. Depending on the “undeformed” or “at rest” state of the deformable suture anchor, the state of deformation may provide for insertion or fixation. Generally, the insertion state is a temporary compression or expansion which allows passage through an aperture, followed by fixation which causes the suture anchor to achieve a dimension preventing passage through the aperture. In colloquial terms, the suture anchor may be “squeezed” or “squished” through a hole, or inserted through and then “squished” or “squeezed” to enlarge the anchor against passage.
The suture anchor of
The deformable section 125 is responsive to external forces for modifying a cross section width, such as from an insertion tool or pulling on the suture 121 via the cross-member 120, in which the deformation permits passage through the surgical aperture and subsequent expansion for preventing passage through the surgical aperture. In the example of
The suture anchor 100 therefore includes at least one crossmember 120 between the surgical apertures 110, such that the crossmember is adapted for engagement with a suture loop 142 from a suture 121 passed through at least two of the apertures 100. The undeformed anchor 100, having body 102, is elongated and the deformed anchor folds substantially at a midsection or fold 132 (
In the examples shown, the knotless suture anchor 101 is a non-rigid elongated member having alternate folds 134 and adapted to deform along the folds 134 for increasing a diameter of the elongated member (such as anchor 130) for frictional engagement with a bone tunnel 160, securing the suture loop and thereby preventing passage of the suture via pulling through the bone tunnel 160. In the example shown, the deformable section may be a mesh section defining a portion of the cannulated suture, such that passing through the gap in the cannulated suture forms the loop 123 responsive to closing from tightening the cannulated suture (arrow 802) for closing the loop 123 and compressing the mesh for deforming the suture anchor 130, shown as compressed dimension 801-2. The suture anchor is adapted for engagement with a fixation member 140 having an engagement surface 142 and a plurality of apertures 144, in which the loop 123 engages the apertures for drawing the engagement surface 142 toward the suture anchor 130 via tightening 802 of the loop 123 and providing surgical attachment for tissue disposed between the engagement surface 142 and the suture anchor. The fixation member may be a resilient or textile fixation member 100 as disclosed above, or may be a rigid construction.
While the disclosed configurations have been described with reference to exemplary embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed for carrying out this invention, but that various configurations will include all embodiments falling within the scope of the appended claims.
Wyman, Jeffrey, Santangelo, Stephen, Koski, Matthew E.
Patent | Priority | Assignee | Title |
Patent | Priority | Assignee | Title |
6660008, | Jun 07 2001 | Arthrocare Corporation | Method and apparatus for attaching connective tissues to bone using a suture anchoring device |
7749250, | Feb 03 2006 | Biomet Sports Medicine, LLC | Soft tissue repair assembly and associated method |
8267959, | Dec 19 2003 | ST JUDE MEDICAL COORDINATION CENTER BVBA | Technique for securing a suture |
8303604, | Nov 05 2004 | Biomet Sports Medicine, LLC | Soft tissue repair device and method |
8361113, | Feb 03 2006 | Biomet Sports Medicine, LLC | Method and apparatus for coupling soft tissue to a bone |
8460379, | Mar 31 2009 | Arthrex, Inc. | Adjustable suture button construct and methods of tissue reconstruction |
8562647, | Sep 29 2006 | Biomet Sports Medicine, LLC | Method and apparatus for securing soft tissue to bone |
8652172, | Feb 03 2006 | Biomet Sports Medicine, LLC | Flexible anchors for tissue fixation |
8795334, | Jan 28 2011 | Smith & Nephew, Inc. | Tissue repair |
9149267, | Feb 03 2006 | Biomet Sports Medicine, LLC | Method and apparatus for coupling soft tissue to a bone |
9421007, | Dec 09 2010 | Arthrex, Inc.; ARTHREX, INC | Acromioclavicular joint fixation using suture button contstruct with dog bone-shaped button |
9421008, | Sep 23 2011 | ARTHREX, INC | Soft suture-based anchors |
9826971, | May 06 2011 | Linvatec Corporation | Soft anchor made from suture filament and suture tape |
20020029066, | |||
20030130694, | |||
20050137624, | |||
20070185532, | |||
20090259251, | |||
20090318961, | |||
20100268273, | |||
20110098727, | |||
20110264141, | |||
20120059417, | |||
20120150203, | |||
20120290004, | |||
20130110165, | |||
20150066081, | |||
RE43143, | May 20 1982 | Tissue manipulation | |
WO2012151592, |
Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Aug 12 2015 | WYMAN, JEFFREY | Smith & Nephew, Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 057350 | /0929 | |
Aug 25 2015 | KOSKI, MATTHEW | Smith & Nephew, Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 057350 | /0929 | |
Sep 01 2015 | SANTANGELO, STEPHEN | Smith & Nephew, Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 057350 | /0929 | |
Jul 14 2021 | Smith & Nephew, Inc. | (assignment on the face of the patent) | / |
Date | Maintenance Fee Events |
Jul 14 2021 | BIG: Entity status set to Undiscounted (note the period is included in the code). |
Date | Maintenance Schedule |
Apr 02 2027 | 4 years fee payment window open |
Oct 02 2027 | 6 months grace period start (w surcharge) |
Apr 02 2028 | patent expiry (for year 4) |
Apr 02 2030 | 2 years to revive unintentionally abandoned end. (for year 4) |
Apr 02 2031 | 8 years fee payment window open |
Oct 02 2031 | 6 months grace period start (w surcharge) |
Apr 02 2032 | patent expiry (for year 8) |
Apr 02 2034 | 2 years to revive unintentionally abandoned end. (for year 8) |
Apr 02 2035 | 12 years fee payment window open |
Oct 02 2035 | 6 months grace period start (w surcharge) |
Apr 02 2036 | patent expiry (for year 12) |
Apr 02 2038 | 2 years to revive unintentionally abandoned end. (for year 12) |