Tibiofemoral joint forces during isokinetic knee extension

Using a Cybex II, eight healthy male subjects performed isokinetic knee extensions at two different speeds (30 and 180 deg/sec) and two different positions of the resistance pad (proximal and distal). A sagittal plane, biomechanical model was used for calculating the mag nitude of the tibiofemoral j...

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Bibliographic Details
Published in:The American journal of sports medicine 1989-01, Vol.17 (1), p.49-54
Main Authors: Nisell, Ralph, Ericson, Mats O., Nemeth, Gunnar, Ekholm, Jan
Format: Article
Language:English
Subjects:
Adult
Biomechanical Phenomena
Electromyography
Humans
Knee
Knee Joint - physiology
Leg
Ligaments, Articular - physiology
Male
Models, Biological
Muscle Contraction
Muscle Relaxation
Physiological aspects
Tendons - physiology
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Summary:Using a Cybex II, eight healthy male subjects performed isokinetic knee extensions at two different speeds (30 and 180 deg/sec) and two different positions of the resistance pad (proximal and distal). A sagittal plane, biomechanical model was used for calculating the mag nitude of the tibiofemoral joint compressive and shear forces. The magnitude of isokinetic knee extending moments was found to be significantly lower with the resistance pad placed proximally on the leg instead of distally. The tibiofemoral compressive force was of the same magnitude as the patellar tendon force, with a maximum of 6300 N or close to 9 times body weight (BW). The tibiofemoral shear force changed direction from being negative (tibia tends to move posteriorly in relation to femur) to a positive magnitude of about 700 N or close to 1 BW, indicating that high forces arise in the ACL when the knee is extended more than 60°. The anteriorly directed shear force was lowered consid erably by locating the resistance pad to a proximal position on the leg. This model may be used when it is desirable to control stress on the ACL, e.g., in the rehabilitative period after ACL repairs or reconstruc tions.
ISSN:0363-5465
1552-3365
1552-3365
DOI:10.1177/036354658901700108