Electromyographically evident changes in skeletal muscles during tibial lengthening in dogs using the Ilizarov method.
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Electromyographically evident changes in skeletal muscles during tibial lengthening in dogs using the Ilizarov method. / Fink, B; von Giesen, H J; Wilcke, C; Lehmann, J; Sager, M; Schmielau, G; Rüther, Wolfgang.
In: ARCH ORTHOP TRAUM SU, Vol. 120, No. 1-2, 1-2, 2000, p. 79-83.Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review
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TY - JOUR
T1 - Electromyographically evident changes in skeletal muscles during tibial lengthening in dogs using the Ilizarov method.
AU - Fink, B
AU - von Giesen, H J
AU - Wilcke, C
AU - Lehmann, J
AU - Sager, M
AU - Schmielau, G
AU - Rüther, Wolfgang
PY - 2000
Y1 - 2000
N2 - Twenty-four beagle dogs underwent a lower leg lengthening on the right side of 2.5 cm at a distraction rate of 2 times 0.5 mm per day using a circular fixator system. After a latency phase of 5 days and a distraction phase of 25 days, 12 dogs (30-day dogs) underwent electromyography (EMG) of the gastrocnemius muscle on the lengthened and on the control side. The remaining half of the dogs underwent EMG after a consolidation phase of 25 days following the end of distraction (55-day dogs). During every EMG, at least 20 different muscle potentials were analyzed, and the duration, amplitude, and number of phases were determined of each individual potential. The 30-day dogs had significantly longer potential phases on the lengthened side and insignificantly smaller amplitudes compared with the control side. Furthermore, we observed a slightly larger number of polyphasic potentials on the distraction side. In the 55-day dogs, no significant differences were observed in the various parameters between the lengthened and the control side. Comparing 30- and 55-day dogs, the duration of the potentials on the distraction side was not significantly shorter in the 55-day dogs, and the amplitude significantly higher. These findings could indicate combined neurogenous and myopathic alterations of the muscles during the early distraction phase which will be compensated during the later distraction period and the consolidation phase by reparative and reinnervation processes, leaving no lasting functional damage.
AB - Twenty-four beagle dogs underwent a lower leg lengthening on the right side of 2.5 cm at a distraction rate of 2 times 0.5 mm per day using a circular fixator system. After a latency phase of 5 days and a distraction phase of 25 days, 12 dogs (30-day dogs) underwent electromyography (EMG) of the gastrocnemius muscle on the lengthened and on the control side. The remaining half of the dogs underwent EMG after a consolidation phase of 25 days following the end of distraction (55-day dogs). During every EMG, at least 20 different muscle potentials were analyzed, and the duration, amplitude, and number of phases were determined of each individual potential. The 30-day dogs had significantly longer potential phases on the lengthened side and insignificantly smaller amplitudes compared with the control side. Furthermore, we observed a slightly larger number of polyphasic potentials on the distraction side. In the 55-day dogs, no significant differences were observed in the various parameters between the lengthened and the control side. Comparing 30- and 55-day dogs, the duration of the potentials on the distraction side was not significantly shorter in the 55-day dogs, and the amplitude significantly higher. These findings could indicate combined neurogenous and myopathic alterations of the muscles during the early distraction phase which will be compensated during the later distraction period and the consolidation phase by reparative and reinnervation processes, leaving no lasting functional damage.
M3 - SCORING: Zeitschriftenaufsatz
VL - 120
SP - 79
EP - 83
JO - ARCH ORTHOP TRAUM SU
JF - ARCH ORTHOP TRAUM SU
SN - 0936-8051
IS - 1-2
M1 - 1-2
ER -
