BACKGROUND: Tendon-repair techniques have evolved to increase the construct strength of the repair site in order to permit early active range of motion without tendon gap or rupture. The present study evaluated the hypothesis that the injection of botulinum neurotoxin type-A (BoNT-A) into the gastrocnemius muscle will reduce the active force production of that muscle below the force required to rupture the associated, repaired Achilles tendon. METHODS: Seventy-nine rat Achilles tendons were surgically bisected and were repaired with use of a two-strand core suture with a running epitenon repair. After the repair, the animals were treated with unilateral intramuscular (gastrocnemius) injections of either BoNT-A (6 U/kg body weight) (thirty-seven rats) or saline solution (forty-two rats). Operatively treated ankles were fixed in the neutral position with a percutaneous pin for the first two days after surgery. Unrestricted ankle motion and weight-bearing were allowed after the second postoperative day. An assessment of gap formation or rupture at the repair site, electrophysiologic measurements of force applied to the tendon, and an assessment of the strength of the repaired tendon were performed. RESULTS: Intramuscular BoNT-A injections produced a significant, reversible reduction in active muscle force (p < 0.007). Twitch and tetanus contractions decreased to approximately 25% of the values for the control side within one week, remained at <50% of the values for the control side at one month, and returned to normal levels by six months. The tetanic force capability of the muscles that had been injected with BoNT-A was fivefold to tenfold less than the force required to rupture the associated Achilles tendon for as long as four weeks after tendon repair. The spontaneous Achilles tendon rupture rate of repaired tendons in the BoNT-A group was three times lower than that in the saline solution group at one week, and the tendon rupture force was significantly higher in the BoNT-A group between one and three weeks after repair (p < 0.007). There was no significant difference in tendon rupture force between the two groups after three weeks. CONCLUSIONS: Intramuscular gastrocnemius BoNT-A injections were associated with a significant reduction in force-generating potential, such that the muscle was incapable of actively producing enough force to rupture the repaired Achilles tendon in this rat model of tendon repair.
BACKGROUND: Tendon-repair techniques have evolved to increase the construct strength of the repair site in order to permit early active range of motion without tendon gap or rupture. The present study evaluated the hypothesis that the injection of botulinum neurotoxin type-A (BoNT-A) into the gastrocnemius muscle will reduce the active force production of that muscle below the force required to rupture the associated, repaired Achilles tendon. METHODS: Seventy-nine rat Achilles tendons were surgically bisected and were repaired with use of a two-strand core suture with a running epitenon repair. After the repair, the animals were treated with unilateral intramuscular (gastrocnemius) injections of either BoNT-A (6 U/kg body weight) (thirty-seven rats) or saline solution (forty-two rats). Operatively treated ankles were fixed in the neutral position with a percutaneous pin for the first two days after surgery. Unrestricted ankle motion and weight-bearing were allowed after the second postoperative day. An assessment of gap formation or rupture at the repair site, electrophysiologic measurements of force applied to the tendon, and an assessment of the strength of the repaired tendon were performed. RESULTS: Intramuscular BoNT-A injections produced a significant, reversible reduction in active muscle force (p < 0.007). Twitch and tetanus contractions decreased to approximately 25% of the values for the control side within one week, remained at <50% of the values for the control side at one month, and returned to normal levels by six months. The tetanic force capability of the muscles that had been injected with BoNT-A was fivefold to tenfold less than the force required to rupture the associated Achilles tendon for as long as four weeks after tendon repair. The spontaneous Achilles tendon rupture rate of repaired tendons in the BoNT-A group was three times lower than that in the saline solution group at one week, and the tendon rupture force was significantly higher in the BoNT-A group between one and three weeks after repair (p < 0.007). There was no significant difference in tendon rupture force between the two groups after three weeks. CONCLUSIONS: Intramuscular gastrocnemius BoNT-A injections were associated with a significant reduction in force-generating potential, such that the muscle was incapable of actively producing enough force to rupture the repaired Achilles tendon in this rat model of tendon repair.
Authors: Benjamin B Rothrauff; Thierry Pauyo; Richard E Debski; Mark W Rodosky; Rocky S Tuan; Volker Musahl Journal: Tissue Eng Part B Rev Date: 2017-02-09 Impact factor: 6.389
Authors: Sandeep Mannava; Johannes F Plate; Christopher J Tuohy; Thorsten M Seyler; Patrick W Whitlock; Walton W Curl; Thomas L Smith; Katherine R Saul Journal: Knee Surg Sports Traumatol Arthrosc Date: 2012-07-29 Impact factor: 4.342
Authors: Sabah N Rezvani; Anne E C Nichols; Robert W Grange; Linda A Dahlgren; P Gunnar Brolinson; Vincent M Wang Journal: J Appl Physiol (1985) Date: 2021-02-11