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Author Topic: Botulinum toxin type A (Botox) may protect some tendon biomechanical properties  (Read 747 times)

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682

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Numerous studies have examined the effects of distraction osteogenesis (DO) on bone, but relatively fewer have explored muscle adaptation, and even less have addressed the concomitant alterations that occur in the tendon. The purpose herein was to characterize the biomechanical properties of normal and elongated rabbit (N = 20) tendons with and without prophylactic botulinum toxin type A (BTX-A) treatment. Elastic and viscoelastic properties of Achilles and Tibialis anterior (TA) tendons were evaluated through pull to failure and stress relaxation tests. All TA tendons displayed nonlinear viscoelastic responses that were strain dependent. A power law formulation was used to model tendon viscoelastic responses and tendon elastic responses were fit with a microstructural model. Distraction-elongated tendons displayed increases in compliance and stress relaxation rates over undistracted tendons; BTX-A administration offset this result. The elastic moduli of distraction-lengthened TA tendons were diminished (p = 0.010) when distraction was combined with gastrocnemius (GA) BTX-A administration, elastic moduli were further decreased (p = 0.004) and distraction following TA BTX-A administration resulted in TA tendons with moduli not different from contralateral control (p > 0.05). Compared to contralateral control, distraction and GA BTX-A administration displayed shortened toe regions, (p = 0.031 and 0.038, respectively), while tendons receiving BTX-A in the TA had no differences in the toe region (p > 0.05). Ultimate tensile stress was unaltered by DO, but stress at the transition from the toe to the linear region of the stress-stretch curve was diminished in all distraction-elongated TA tendons (p < 0.05). The data suggest that prophylactic BTX-A treatment to the TA protects some tendon biomechanical properties.

https://www.ncbi.nlm.nih.gov/pubmed/20719314

Interesting and makes sense, by making the muscular structures weaker and more pliable, they are less likely to be damaged by lengthening.
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TIBIKE200

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Interesting. Though it seems the effect was much more pronounced on the tibialis anterior tendon while the achilles one was not affected. That is a bit too bad since the achilles tendon is much more important with walking mechanics than the tibialis anterior.

 One can live pretty good without a functioning toe.. But limited range of motion of the entire foot can have much more davastating consequences on one's normal life
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I learned some stuff during this time
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