The present invention relates generally to formation of a securement location in polymer thread structure. More particularly, the present invention relates to the fusing of a surgical suture knot.
Polymer sutures are widely used in surgical applications for purposes such as closing wounds, joining tissue and aiding in delivering and implanting medical devices within the body. In many such applications, a knot is placed in the suture. This knot could be for the purposes of tying off a suture, joining the ends of one or more sutures together or providing a loop which can be grasped by the surgeon for delivery and implantation purposes.
While the knot serves adequately, there are certain distinct disadvantages in knotted sutures. The strength of the knot is dependent upon an individual surgeon's technique. Also, especially with the use of synthetic polymer sutures, the knot may have a tendency to become loose or even untie. To overcome this, in certain applications, the surgeon may take the extra step of applying a glue or adhesive to the knot to prevent subsequent loosening. As may be appreciated, formation of a knot in a suture, especially in situations where the knot is subsequently glued, provides an area of increased thickness. This may lead to certain patient discomfort and an increase in healing time of the site. Moreover, gluing is not always effective in securing the knot. In situations where the suture may contain certain polymers, such as polytetrafluoroethylene (PTFE), the knot is generally resistant to gluing.
The art has looked to alternatives to knotting sutures. One known technique is to join suture ends by processes such as fusing, melting or welding the ends together. In particular, use of ultrasonic energy has been used extensively to weld suture ends together without the need for knotting.
Ultrasonic suture welding devices are well known in the art. On example is shown in U.S. Pat. No. 5,893,880. Overlapped portions of a monofilament suture are placed between the opposed surfaces of an ultrasonic welding tip. By ultrasonic energy, the overlapped portions are fused together. The fused weld joint of this type exhibits desirably high tensile strength.
More specifically, in U.S. Pat. No. 6,409,743 an ultrasonic welding tool is shown. The tool further employs a fusable polymeric sleeve which supports therein overlapped portions of the monofilament sutures. Ultrasonic energy is applied to the sleeve and the sleeve and the overlapped portions of the sutures are fused together. Conventional lap joints position suture ends in overlapping nature, such that they lay on top of one another, both sharing a common plane along the overlapping portion. Since many sutures are actually generally round in cross-section, when their ends are placed on top of each other to form the lap, their respective surfaces may be said to be touching along a common tangent. Fusion of the lap by welding occurs at this tangent. A conventional lap weld is shown in
While the ultrasonic fusing of sutures has been successfully employed, such fusion is not without distinct disadvantages. It has been found that while conventional fused lap joints may exhibit, in some instances, sufficient tensile strength, the lap joints suffer from undesirably low peel or tear strength. This could result in joint failure, particularly once a peel line is initiated. Propagation along the peel line generally takes less energy than the initial tear and consequently it is important to prevent the tear from being initiated.
Attempts have been made to provide improved welded joints. For example, in U.S. Pat. No. 3,657,056 a suture joint is formed by knotting the ends of a suture and then ultrasonically welding the knot itself. In this manner there is an attempt to obtain the benefits of both securement techniques, i.e., the peel or tear strength of a knot, with the long-term benefits of an ultrasonic weld. However, as may be appreciated, the conventional ultrasonic welding of a conventionally formed knot does nothing to decrease the size of the knot placed in the suture. Thus, ultrasonically welded knots still exhibit a large profile which reduces their desirability, both for smoothness in delivery and deployment in the body, as well as patient comfort once implanted.
Additionally, ultrasonic welding of sutures has been found to be viable only with respect to monofilament sutures. The solid surface of the monofilament provides sufficient surface contact between the overlapped portions so as to effectively fuse the portions together. In surgical practice however, multifilament sutures, such as braided sutures, are preferred by surgeons over monofilament, as the multifilament sutures exhibit enhanced physical properties, such as, increased flexibility. Difficulties have arisen in attempts to ultrasonically weld multifilament sutures. The suture itself is formed of plural individual fibers which are braided or wrapped. This results in spaces between the individual fibers. In ultrasonic welding the spaces tend to dissipate the ultrasonic energy and therefore fail to adequately weld the overlapped portions together.
It is therefore desirable to provide a suture securement technique which exhibits high tensile and peel strength while being usable with both monofilament and multifilament sutures.
The present invention provides a polymer thread structure having a knot formed therein defining a securement location. The knot is subsequently fused. The knot may be a formed intermediate an elongate thread or may be formed to tie together two ends of a single thread or the ends of two threads. The thread structure may be a multifilament thread which may be ultrasonically fused.
Moreover, subsequent to fusing, the knot exhibits a knot diameter which is less than the knot diameter prior to fusing.
In a method aspect of the present invention a method of forming a securement location in a polymer thread structure is provided. The method includes the steps of forming a knot in the thread structure and fusing the knot. The thread structure which may be a multifilament thread is preferably ultrasonically welded.
The welding of the knot decreases the knot diameter.
The present invention provides for the formation of a securement location within a thread structure. As used herein the term securement location refers generally to a knot which may be placed in a suture. The knot may be used to join the ends of single suture or the ends of two different sutures. In addition, the securement location may be a knot placed centrally in the suture which may be used to provide a loop which may be grasped by a surgeon for delivering and implanting of implantable medical devices. The present invention finds particular utility with multifilament sutures. Moreover, the term thread structure refers to one or more threads.
Referring now to
Among the useful structures are multifilament sutures or threads which include a monofilament core. Multifilament threads may be combined into twisted, braided or other configurations for use. A wide variety of thermoplastic polymers may be employed including polyesters, fluorinated polymers, nylons, polyamides and copolymers and combinations thereof.
The present invention provides a technique for placing a securement location within such synthetic multifilament sutures employing conventional ultrasonic welding techniques.
It is well known to ultrasonically weld the overlapped portions of monofilament sutures. Reference is made to U.S. Pat. Nos. 5,893,880 issued Apr. 13, 1999 entitled “Fused Loop Filamentous Material”; and U.S. Pat. No. 6,409,743 issued Jun. 25, 2002 entitled “Device and Methods for Securing Sutures and Ligatures Without Knots”, which show conventional techniques for ultrasonic welding monofilament sutures. Each of these patents is incorporated by reference herein for all purposes. The present invention employs such conventional techniques to ultrasonically weld a knot placed in synthetic multifilament sutures.
Referring now to
The knot is ultrasonically welded employing the techniques and equipment shown in the above-referenced incorporated patents, as discussed below. Knots of the present invention may be used on a wide variety of medical devices, including implantable devices, delivery devices and devices used on the body. The inventive knot structure can be used to make another knot, such as a slip knot more secure.
A variety of wave shapes of energy can be used to form the weld.
Any useful form of energy which effectively fuses the structure together may be employed provided it does not deleteriously effect the desired properties While ultrasonic energy has been found to be particularly effective in forming the weld, other forms of energy, which ultimately result in fusion of the filaments, such as electromagnetic energy and mechanical energy may be used. Radiation from RF, laser, UV light, infrared light are among the possible sources, as are heat, pressure or combinations of various fusion or welding energy sources.
Examples were prepared of the ultrasonically welded multifilament knotted suture. The suture employed is USP 2-0 (Metric 3) Genzyme Code 113-T, Lot No. 612657, green braided polyester suture.
The ultrasonic welding tool described in the above-referenced patent employed was “Shoulder Fixation System”, Catalog No. 1104 from Axya Medical, Inc. A spring loaded welding disposal sleeve, Catalog No. 1258 (for USP 2-0 suture) of Axya Medical, Inc. was also employed. The specific knot tested was a 2=2 knot configuration as illustrated in
Four successfully welded knots were tested for loop tensile strength. The testing equipment employed includes Chilton Tensile 8E40973-10 ID No. 00829, including a J-hook attachment on Chilton Gauge and a J-hook to pull the suture. The Chilton was attached to the workbench with a C clamp.
Each of the samples exhibited superior loop tensile strength as noted hereinbelow.
The above results were compared with a conventional lap weld, that is a weld of the multifilament suture ends layered one over the other such that they share a common plane along the overlapped portion, i.e., without placing a knot in the suture (
During sample testing, several knots slipped during the ultrasonic welding process. As a result, as shown in
Moreover, it is contemplated that modifications to the weld base and the horn may be provided so as to change the profile of the knot after ultrasonic welding. This change in profile may reduce the shape, size or diameter of the knot from its pre-welded configuration shown in
In another aspect of the invention, the knot is formed from a mono-, multifilament or a combination of mono- and multifilament sutures. This knot profile reduction is also seen in monofilament sutures such as nylon monofilaments, and in combinations of mono- and multifilament sutures.
Various changes to the foregoing described and shown structures would now be evident to those skilled in the art. Accordingly, the particularly disclosed scope of the invention is set forth in the following claims.
This application claims benefit of priority of U.S. Provisional Application No. 60/551,141, filed Mar. 8, 2004.
Number | Date | Country | |
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60551141 | Mar 2004 | US |