The goal of this project is to develop a rubric that links the study of motor-unit fatigability in reduced-animal (anesthetized-cat) preparations with that in conscious humans. In addition, the goal is to link the study of motor-unit fatigability to that of the orderly motor-unit recruitment phenomenon and Hennaman's """"""""Size Principle."""""""" The project is based upon two specific aims. The first examines the premise that the adaptive properties of motoneurons during both sustanied and brief repetitive current injections are associated with their functional thresholds and the force- producing capacity of the muscle fibers they supply.
This aim will be tested in deeply anesthetized cats by measuring the biophysical properties of spinal motoneurons and the force output of their motor units and testing for an association between these properties and changes in mononeuronal firing rates brought about by intracellular injection of depolarizing currents of variable strength, duration, waveform and intermittency. The second specific aim tests the proposition that the fatigue of motor units during sustained and various forms of intermittent activation are associated with their normal recruitment order and their peak force-producing capacity.
This second aim will be tested in animal preparations similar to the first aim, by measuring a variety of motor-unit properties in a hindlimb muscle, including the responses to newly developed fatigue-inducing stimulus regimens designed to stress the motor units in a relatively similar manner, irrespective of their contraction times, fusion frequencies and peak force-producing capacities. It is anticipated that these studies will contribute information on fundamental issues in motor control that have not yet been resolved. Furthermore, the work has profound implications for orthopedics, sports medicine, the fatigability that is evident in many neuromuscular diseases, motor recovery after brain damage and peripheral neuromuscular damage, and for the emerging field of motor prosthetics.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS025077-05
Application #
3410191
Study Section
Orthopedics and Musculoskeletal Study Section (ORTH)
Project Start
1987-09-01
Project End
1992-08-31
Budget Start
1991-09-01
Budget End
1992-08-31
Support Year
5
Fiscal Year
1991
Total Cost
Indirect Cost
Name
University of Arizona
Department
Type
Schools of Medicine
DUNS #
City
Tucson
State
AZ
Country
United States
Zip Code
85721
Laouris, Y; Bevan, L; Reinking, R M et al. (2004) Associations between force and fatigue in fast-twitch motor units of a cat hindlimb muscle. Can J Physiol Pharmacol 82:577-88
Callister, Robert J; Sesodia, Sanjay; Enoka, Roger M et al. (2004) Fatigue of rat hindlimb motor units: biochemical-physiological associations. Muscle Nerve 30:714-26
Callister, R J; Donnelly, R P; Pierce, P A et al. (1996) Motor pool organization of the external gastrocnemius muscle in the turtle, Pseudemys (Trachemys) scripta elegans. J Morphol 227:171-83
Callister, R J; Laidlaw, D H; Stuart, D G (1995) A commentary on the segmental motor system of the turtle: implications for the study of its cellular mechanisms and interactions. J Morphol 225:213-27
Laidlaw, D H; Callister, R J; Stuart, D G (1995) Fiber-type composition of hindlimb muscles in the turtle, Pseudemys (Trachemys) scripta elegans. J Morphol 225:193-211
Bevan, L; Laouris, Y; Garland, S J et al. (1993) Prolonged depression of force developed by single motor units after their intermittent activation in adult cats. Brain Res Bull 30:127-31
Spielmann, J M; Laouris, Y; Nordstrom, M A et al. (1993) Adaptation of cat motoneurons to sustained and intermittent extracellular activation. J Physiol 464:75-120
Enoka, R M; Stuart, D G (1992) Neurobiology of muscle fatigue. J Appl Physiol 72:1631-48
Bevan, L; Laouris, Y; Reinking, R M et al. (1992) The effect of the stimulation pattern on the fatigue of single motor units in adult cats. J Physiol 449:85-108
Reinking, R M; Laouris, Y (1991) Triggering module for waveform digitization. Brain Res Bull 27:145-9

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