Abstract
Restoration of hand function following division of a flexor tendon remains a significant challenge.
We describe a new method of tendon repair. The first suture is placed in the standard fashion, the second suture is inserted with a round bodied needle to avoid damage to the first repair. This is placed at right angles to the first repair and enters the tendon at the furthest point from the cut tendon end. This suture is then tied with the knot on the surface of the tendon, using 4/0 Ti.cron. The repair is completed with a circumferential continuous epitenon suture, using 6/0 Prolene. This method produces a repair with a four-strand core suture and is referred to throughout this paper as the Evans repair.
Flexor digitorum profundus tendons harvested from pigs were used as the experimental model. They were divided at the mid-point and then repaired using either a ‘modified Kessler’ 4/0 Ethibond core suture, a ‘modified Kessler’ 4/0 Ti.cron core suture or the Evans double core suture. The specimens were then tested to failure on an Instron materials testing machine. This produced a figure for the ultimate tensile strength of each repair.
The average tensile strength for the Ethibond Kessler repair was 33 (range, 27–36) Newtons and that of the Ti.cron Kessler repair was 31 (range 21–43) Newtons. The average tensile strength for the Evans repair was 52 (range 43–60) Newtons, and it is significantly stronger than the two standard Kessler repairs (p< 0.001, Student’s t-test). Even the weakest of the Evans repairs was as strong as the strongest of the standard Kessler repairs.
The abstracts were prepared by Mr Simon Donell. Correspondence should be addressed to him at the Department of Orthopaedics, Norfolk & Norwich Hospital, Level 4, Centre Block, Colney Lane, Norwich NR4 7UY, United Kingdom.