Moment and power generation during maximal knee extensions performed at low and high speeds
Deutscher übersetzter Titel: | Kraftmoment und Muskelleistung während maximaler Kniestreckungen von niedrigen und hohen Geschwindigkeiten |
---|---|
Autor: | Aagaard, P.; Simonsen, E.B.; Trolle, M.; Bangsbo, J.; Klausen, K. |
Erschienen in: | European journal of applied physiology |
Veröffentlicht: | 69 (1994), 5, S. 376-381, Lit. |
Format: | Literatur (SPOLIT) |
Publikationstyp: | Zeitschriftenartikel |
Medienart: | Gedruckte Ressource Elektronische Ressource (online) |
Sprache: | Englisch |
ISSN: | 1439-6319, 0301-5548 |
DOI: | 10.1007/BF00865398 |
Schlagworte: | |
Online Zugang: | |
Erfassungsnummer: | PU199504101087 |
Quelle: | BISp |
Abstract des Autors
In the present study a method was developed to determine knee joint moment and power generated at low to very high velocities of knee extension. A group of 21 male subjects performed maximal knee extensions at four levels of external loading provided by a flywheel system. Knee extension was performed with no restrictions on joint angular velocity and acceleration. An interpolation procedure was employed to obtain moment and power at standard velocities. During each single knee extension peak velocity, peak moment, peak power and moment and power at 50ø knee flexion were determined (0ø = full extension). While maximal recorded angular velocity averaged 693ø/s (range 479-1030), maximal recorded moment and power were 226 N/m (157-278) and 1140 W (573-1688), respectively, which were generated at velocities of 55ø/s (12-148) and 523ø/s (327-846). Isokinetic moment and power were obtained for comparison. The velocity range applied was larger using the flywheel method (21-1030ø/s individual range) than that achieved isokinetically (30-240ø/s). Significant differences were observed between flywheel and isokinetic measurements. These discrepancies may be ascribed to differences in the time course of muscle length change and contractile force generation imposed by the two measuring methods. However, by the nonisokinetic measuring method presently employed, knee extension moment and power could be determined from low to very high angular extension velocity, at loading and contraction conditions comparable to those encountered during sport and exercise.