Biomechanics of the tether breakage: tensile behaviour of a single-unit vertebral body tethering construct.
Ogulcan GuldenizChristopher C H YipWanis NafoKenneth Man-Chee CheungPublished in: Spine deformity (2023)
The failure occurs because of high-stress concentrations generated within the locking region which damages the tether surface and leads to the slippage of the tether. We observed that the loads leading to failure are within the physiological limits and may indicate the high likelihood of the tether breakage. The failure mode observed in our study is shown to be the dominant failure mode, and a design improvement on the gripping mechanism is suggested to avoid failure at the screw-tether junction. We observed that the tether elongates 10-13% prior to the breakage, which can be employed as a diagnostic criterion to screen for tether breakages radiographically.
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