Your search keyword '"Lateral Ligament, Ankle innervation"' showing total 2 results

1. Effect of peripheral afferent alteration of the lateral ankle ligaments on dynamic stability.

Author

Myers JB, Riemann BL, Hwang JH, Fu FH, and Lephart SM

Subjects

Adult, Afferent Pathways physiology, Biomechanical Phenomena, Female, Gait physiology, Humans, Male, Muscle, Skeletal innervation, Muscle, Skeletal physiology, Reflex physiology, Running physiology, Walking physiology, Lateral Ligament, Ankle innervation, Lateral Ligament, Ankle physiology

Abstract

Background: The sensorimotor influence of the lateral ankle ligaments in muscle activation is unclear., Hypothesis: The lateral ankle ligaments have significant sensorimotor influence on muscle activation., Study Design: Controlled laboratory study., Methods: Muscle-firing characteristics in response to a high-speed inversion perturbation and during gait were assessed in 13 normal subjects. Solutions (1.5% lidocaine or a placebo of saline) were injected bilaterally into the anterior talofibular and calcaneofibular ligaments (1.5 ml per ligament) to alter peripheral afferent influence. Subjects were again tested with the same protocol., Results: The protective response of the anterior tibialis and peroneal muscles during inversion perturbation and mean muscle activation amplitude decreased during running after both injections. After injection, no significant differences were seen for muscle reflex latencies, maximum amplitude, time to maximum amplitude during inversion perturbation, or mean amplitude during walking., Conclusion: The lateral ankle ligaments have a sensorimotor influence on muscle activation., Clinical Relevance: Induced edema from the injected solutions may have altered the sensorimotor influence of the lateral ankle ligaments, thereby inhibiting the dynamic ankle stabilizers. This finding suggests that dynamic stability may be compromised because of swelling after joint injury.

Published

2003

2. Mechanosensitive afferent units in the lateral ligament of the ankle.

Author

Takebayashi T, Yamashita T, Minaki Y, and Ishii S

Subjects

Animals, Cats, Electrophysiology, Lateral Ligament, Ankle physiology, Neural Conduction, Physical Stimulation, Spinal Nerve Roots physiology, Lateral Ligament, Ankle innervation, Mechanoreceptors physiology, Neurons, Afferent physiology

Abstract

We have studied the mechanosensitive afferent units in the lateral ligament of the ankle of the cat, with reference to the causes of lateral instability after injury, using electrophysiological recording from the lumbar dorsal rootlets. We identified 30 mechanosensitive units in the lateral ligament; 28 (93%) were located near the attachment to the fibula and calcaneus, which included both low-threshold group-II units and low- and high-threshold group-III units. Our results indicate that there are both proprioceptors and nociceptors in the lateral ligament of the cat ankle, and confirm that afferent fibres from the lateral ligament may contribute to the stability of the joint by regulation of position and movement.

Published

1997