Degradation of an ultrasonically welded device for surgical suture holding
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Authors
Crolla J.P.
Farrell E.
ThomasSeale L.E.J.
Beyers J.
Ramachandran M.
Snow M.
Mifsud S.D.
Shepherd,D. E. T.
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2025
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Article
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Abstract
A biodegradable ultrasonically welded device has for the first time been developed for in-body sutures that eliminates the need for surgical knotting. The device comprises two parts that fit together, with a suture inserted between them. Ultrasonic welding is then used to secure the suture by welding the two parts together. The device was manufactured from three biodegradable polymers: Poly(L-lactide-co-D,L-lactide) PLDLA]; Poly(L-lactide-co-glycolide) PLGA]; Poly(L-lactide) PLLA]. All devices were degraded through immersion in phosphate buffer solution at a temperature of 37degreeC +/- 2degreeC. Knotted sutures on their own were also subject to degradation testing. The devices and knotted sutures were mechanically tested at week zero and after 1, 3 and 6 weeks of degradation. Mechanically testing was undertaken to measure the pull-out strength of sutures from the device. PLGA is not suitable for the device, where a significant reduction in failure force was seen after 3 weeks of degradation. By week 6 the mean failure force (+/-SD) for PLGA was 74.9 +/- 23.4 N, which was significantly less than the use of a suture knot on its own, with a mean failure force of 153.2 +/- 37.2 N. PLDLA and PLLA were found to be promising materials, with only a small reduction in mean failure force after 6 weeks of degradation. At week 6 there was no significant difference between the mean failure force of PLDLA, PLLA or the suture knot, with mean failure forces of 152.6 +/- 15.0, 128.8 +/- 35.0 and 153.2 +/- 37.2 N, respectively.
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Proceedings of the Institution of Mechanical Engineers - Part H, Journal of engineering in medicine