Abbate, F., Sargeant, A. J., Verdijk, P. W. L. and de Haan, A (2000). The effects of high frequency initial pulses and post tetanic potentiation on the power output of skeletal muscle. J. Appl. Physiol 88, 35-.[Abstract/Free Full Text]
Baker, A. J., Kostov, K. G., Miller, R. G. and Weiner, M. W (1993). Slow force recovery after long duration exercise: metabolic and activation factors in muscle fatigue. J. Appl. Physiol 74, 2294-.[Abstract/Free Full Text]
Bigland-Ritchie, B., Jones, D. A. and Woods, J. J (1979). Excitation frequency and muscle fatigue: electrical responses during human voluntary and stimulated contractions. Exp. Neurol 64, 414-.[Medline]
Binder-Macleod, S. A., Barker III, C. B (1991). Use of a catchlike property of human skeletal muscle to reduce fatigue. Muscle& Nerve 14, 850-.[Medline]
Burke, R. E., Radomin, P. and Zajac, F. E (1970). Catch property in single mammalian motor units. Science 168, 122-.[Abstract/Free Full Text]
de Haan, A (1998). The influence of stimulation frequency onforce\320velocity characteristics of in situ rat medial gastrocnemius muscle. Exp. Physiol 83, 77-.[Abstract]
de Haan, A., de Jong, J., van Doorn, J. E., Huijing, P. A., Woittiez, R. D. and Westra, H. G (1986). Muscle economy of isometric contractions as a function of stimulation time and relative muscle length. Pflugers Arch 407, 445-.[Medline]
de Haan, A., de Ruiter, C. J., Lind, A. and Sargeant, A. J (1993). Age-related changes in force and efficiency in rat skeletal muscle. Acta Physiol. Scand 147, 347-.[Medline]
de Haan, A., Jones, D. A. and Sargeant, A. J (1989). Changes in velocity of shortening, power output and relaxation rate during fatigue of rat medial gastrocnemius muscle. Pflugers Arch 413, 422-.[Medline]
de Haan, A., Koudijs, J. C. M. and Verburg, E (1996). Absence of an effect of fatigue on muscle efficiency during high-intensityexercise in rat skeletal muscle. Eur. J. Appl. Physiol 72, 570-.
Gorassini, M., Bennett, D. J., Kiehn, O., Eken, T. and Hultborn, H (1999). Activation patterns of hindlimb motor units in the awake rat and their relation to motoneuron intrinsic properties. J. Neurophysiol 82, 709-.[Abstract/Free Full Text]
Henneman, E., Clamann, H. P., Gillies, J. D. and Skinner, R. D (1974). Rank order of motoneurons within a pool, law of combination. J. Neurophysiol 37, 1338-.[Free Full Text]
Hennig, R. and L\277mo, T (1985). Firing patterns of motor units normal rats. Nature 314, 164-.[Medline]
Jones, D. A., Bigland-Ritchie, B. and Woods, J. J (1979). Excitation frequency and muscle fatigue: mechanical responses during voluntary and stimulated contractions. Exp. Neurol 64, 401-.[Medline]
Miller, R. G., Kent-Braun, J. A., Sharma, K. R. and Weiner, M. W (1995). Mechanisms of human muscle fatigue; quantitating the contribution of metabolic factors and activation impairment. In. Adv. Exp. Med. Biol 384, 195-.[Medline]
Sandercock, T. G. and Heckman, C. J (1997). Doublet potentiation during eccentric and concentric contractions of cat soleus muscle. J. Appl. Physiol 82, 1219-.[Abstract/Free Full Text]
Westerblad, H. and Allen, D. G (1992). Myoplasmic Mg2+concentration in Xenopus muscle fibres at rest, during fatigue and during metabolic blockade. Exp. Physiol 77, 733-.[Abstract]
Zajac, F. E. and Young, J. L (1980). Properties of stimulus trains producing maximum tension\320time area per pulse from single motor units in medial gastrocnemius muscle of the cat. J. Neurophysiol 43, 1206-.[Free Full Text]
