Low levels of anterior tibial loading enhance knee extensor reflex response characteristics

We examined whether neuromuscular reflexes were altered with anterior loads applied to the tibio-femoral joint. A ligament testing device was modified by attaching a reflex hammer to a steel mounted frame to illicit a patellar tendon tap, while anterior directed loads displaced the tibia on the femu...

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Published in:Journal of electromyography and kinesiology 2005-02, Vol.15 (1), p.61-71
Main Authors: Shultz, Sandra J., Windley, Thomas C., Kulas, Anthony S., Schmitz, Randy J., Valovich McLeod, Tamara C., Perrin, David H.
Format: Article
Language:English
Subjects:
Adult
Electromyography
Female
Humans
Knee extensor moment
Knee Joint - physiology
Male
Proprioception
Proprioception - physiology
Reflex, Stretch - physiology
Stretch reflex
Surface electromyography
Tendon tap
Tendons - physiology
Tibia - physiology
Tibiofemoral displacement
Weight-Bearing - physiology
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cited_by cdi_FETCH-LOGICAL-c410t-ca15069f5a34565a7856ec158eb9a7ad18ac0c678e4ba894ee07435d7d476f683
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container_title Journal of electromyography and kinesiology
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creator Shultz, Sandra J.
Windley, Thomas C.
Kulas, Anthony S.
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Perrin, David H.
description We examined whether neuromuscular reflexes were altered with anterior loads applied to the tibio-femoral joint. A ligament testing device was modified by attaching a reflex hammer to a steel mounted frame to illicit a patellar tendon tap, while anterior directed loads displaced the tibia on the femur. Five trials were acquired while anterior-directed loads (20, 50, 100 N; counterbalanced) were applied to the posterior tibia between 20 N pre (20 N Pre) and post (20 N Post) baseline conditions on two different days. Surface electromyography (sEMG) recorded mean quadriceps ( Q) and hamstring ( H) reflex time ( R Time = ms) and reflex amplitude ( R Amp = %MVIC). A load cell on the anterior tibia measured the timing (KE Time = ms) and amplitude (KE Amp = N) of the knee extension force, and was used to calculate electromechanical delay (EMD = ms) and peak knee extension moment (KE Mom = N m/kg). Data from 19 recreationally active subjects revealed good to excellent response consistency between test days and between baseline conditions for R Time, R Amp, KE Time and KE Amp. With anterior tibial loading, R Time was faster at 50 N vs. 20 N Post, and R Amp was greater at 20 N Pre vs. 20 N Post ( Q and H) and at 50 N vs. 100 N ( Q only). KE Mom was greater at 20 N Pre and 50 N vs. 20 N Post, and EMD was shorter at 50 N vs. 20 N, 20 N Pre and 20 N Post. These results suggest that knee extensor reflex responses are enhanced with low (50 N) but not moderate (100 N) anterior loading of the knee.
doi_str_mv 10.1016/j.jelekin.2004.07.002
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subjects Adult
Electromyography
Female
Humans
Knee extensor moment
Knee Joint - physiology
Male
Proprioception
Proprioception - physiology
Reflex, Stretch - physiology
Stretch reflex
Surface electromyography
Tendon tap
Tendons - physiology
Tibia - physiology
Tibiofemoral displacement
Weight-Bearing - physiology
title Low levels of anterior tibial loading enhance knee extensor reflex response characteristics
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