期刊
JOURNAL OF APPLIED PHYSIOLOGY
卷 117, 期 12, 页码 1486-1492出版社
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/japplphysiol.00809.2014
关键词
Ia afferent; persistent inward current; muscle force
资金
- Edith Cowan University
The purpose of the present study was to examine the possible inhibitory effect of passive plantar flexor muscle stretching on the motoneuron facilitatory system. Achilles tendon vibration (70 Hz) and triceps surae electrical stimulation (20 Hz) were imposed simultaneously in 11 subjects to elicit contraction through reflexive pathways in two experiments. In experiment 1, a vibration-stimulation protocol was implemented with the ankle joint plantar flexed (+10 degrees), neutral (0 degrees), and dorsiflexed (-10 degrees). In experiment 2, the vibration-stimulation protocol was performed twice before (control), then immediately, 5, 10, and 15 min after a 5-min intermittent muscle stretch protocol. Plantar flexor torque and medial and lateral gastrocnemius and soleus (EMG(Sol)) EMG amplitudes measured during and after (i.e., self-sustained motor unit firing) the vibration protocol were used as an indicator of this facilitatory pathway. In experiment 1, vibration torque, self-sustained torque and EMG(Sol) were higher with the ankle at -10 degrees compared with 0 degrees and +10 degrees, suggesting that this method is valid to assess motoneuronal facilitation. In experiment 2, torque during vibration was reduced by similar to 60% immediately after stretch and remained depressed by similar to 35% at 5 min after stretch (P < 0.05). Self-sustained torque was also reduced by similar to 65% immediately after stretch (P < 0.05) but recovered by 5 min. Similarly, medial gastrocnemius EMG during vibration was reduced by similar to 40% immediately after stretch (P < 0.05), and EMGSol during the self-sustained torque period was reduced by 44% immediately after stretch (P < 0.05). In conclusion, passive stretch negatively affected the motoneuronal amplification for at least 5 min, suggesting that motoneuron disfacilitation is a possible mechanism influencing the stretch-induced torque loss.
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