A modified Mason-Allen suture technique improved ultimate tensile strength to 359 N compared to 184 N for simple stitches, and a plate-like augmentation device improved bone anchorage strength to 329 N.
Mechanical properties of rotator cuff repairs can be significantly improved by using specific suture materials, a modified Mason-Allen tendon-grasping technique, and plate-like augmentation at the bone attachment.
Absolute Event Rate: 359% vs 184%
We have studied the mechanical properties of several current techniques of tendon-to-bone suture employed in rotator-cuff repair. Non-absorbable braided polyester and absorbable polyglactin and polyglycolic acid sutures best combined ultimate tensile strength and stiffness. Polyglyconate and polydioxanone sutures failed only at high loads, but elongated considerably under moderate loads. We then compared the mechanical properties of nine different techniques of tendon grasping, using 159 normal infraspinatus tendons from sheep. The most commonly used simple stitch was mechanically poor: repairs with two or four such stitches failed at 184 N and 208 N respectively. A new modification of the Mason-Allen suture technique improved the ultimate tensile strength to 359 N for two stitches. Finally, we studied the mechanical properties of several methods of anchorage to bone using typically osteoporotic specimens. Single and even double transosseous sutures and suture anchor fixation both failed at low tensile loads (about 140 N). The use of a 2 mm thick, plate-like augmentation device improved the failure strength to 329 N. The mechanical properties of many current repair techniques are poor and can be greatly improved by using good materials, an improved tendon-grasping suture, and augmentation at the bone attachment.
Gerber et al. (Sun,) conducted a other in Rotator cuff repair (n=159). Modified Mason-Allen suture technique and augmentation device vs. Simple stitch and standard transosseous/suture anchor fixation was evaluated on Ultimate tensile strength. A modified Mason-Allen suture technique improved ultimate tensile strength to 359 N compared to 184 N for simple stitches, and a plate-like augmentation device improved bone anchorage strength to 329 N.
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