BACKGROUND: Tendon transfers are often used in foot and ankle surgery. Different fixation devices and techniques have been described. The most recently developed ones are bone anchors and interference screws. MATERIALS AND METHODS: A biomechanical study was designed to compare tendon transfer fixation, using Corkscrew bone anchors 5 x 15.5 mm and Bio-interference screws (8 x 23 mm). Fifteen fresh cadaver specimens underwent both fixation techniques for split anterior tibial tendon transfer at the cuboid bone. All the specimens underwent standardized X-rays in order to evaluate mineral bone density using a standardized measurement system. All were tested until maximal load to failure. RESULTS: The ultimate load to failure of the tendon secured to the cuboid using anchors was 103 N (SD, 52), compared with 150 N (SD, 68) for tendons secured to the bone with interference screws (p = 0.003). No difference was found between the techniques that could be related to bone density. CONCLUSION: Interference screws provided greater strength than bone anchors. CLINICAL RELEVANCE: This study demonstrated increased strength in securing bone to tendon in vitro for SPLATT tendon transfer with interference screws as compared to suture anchors.
BACKGROUND: Tendon transfers are often used in foot and ankle surgery. Different fixation devices and techniques have been described. The most recently developed ones are bone anchors and interference screws. MATERIALS AND METHODS: A biomechanical study was designed to compare tendon transfer fixation, using Corkscrew bone anchors 5 x 15.5 mm and Bio-interference screws (8 x 23 mm). Fifteen fresh cadaver specimens underwent both fixation techniques for split anterior tibial tendon transfer at the cuboid bone. All the specimens underwent standardized X-rays in order to evaluate mineral bone density using a standardized measurement system. All were tested until maximal load to failure. RESULTS: The ultimate load to failure of the tendon secured to the cuboid using anchors was 103 N (SD, 52), compared with 150 N (SD, 68) for tendons secured to the bone with interference screws (p = 0.003). No difference was found between the techniques that could be related to bone density. CONCLUSION: Interference screws provided greater strength than bone anchors. CLINICAL RELEVANCE: This study demonstrated increased strength in securing bone to tendon in vitro for SPLATT tendon transfer with interference screws as compared to suture anchors.
Authors: Brett Lullo; Alexander Nazareth; Susan Rethlefsen; Kenneth D Illingworth; Oussama Abousamra; Robert M Kay Journal: J Am Acad Orthop Surg Glob Res Rev Date: 2020-05
Authors: Stefano Muscatelli; Kempland C Walley; Conor S Daly-Seiler; Joseph A Greenstein; Aaron Sciascia; David P Patterson; Michael T Freehill Journal: Orthop J Sports Med Date: 2022-08-12
Authors: Peter Wong; Shaneil Fransch; Charles Gallagher; Kate Louise Francis; Abhay Khot; Erich Rutz; H Kerr Graham Journal: J Child Orthop Date: 2021-06-01 Impact factor: 1.548