Mechanical properties of rat soleus after long-term spinal cord transection

doi:10.1152/japplphysiol.00053.2002

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Mechanical properties of rat soleus after long-term spinal cord transection

Robert J. Talmadge¹, Roland R. Roy², Vincent J. Caiozzo³, and V. Reggie Edgerton²^,⁴

¹ Department of Biological Sciences, California State Polytechnic University, Pomona 91768; ² Brain Research Institute, University of California, Los Angeles 90095; ³ Department of Physiology and Biophysics and Department of Orthopaedics, College of Medicine, University of California, Irvine 92717; and ⁴ Physiological Science Department, University of California, Los Angeles, California 90095

The effects of a complete spinal cord transection (ST) on the mechanical properties of the rat soleus were assessed 3 and6 mo post-ST and compared with age-matched controls. Maximal tetanicforce was reduced by ~44 and ~25% at 3 and 6 mo post-ST, respectively.Similarly, maximum twitch force was reduced by ~29% in 3-mo and~17% in 6-mo ST rats. ST resulted in faster twitch propertiesas evidenced by shorter time to peak tension (~45%) and half-relaxationtime (~55%) at both time points. Maximum shortening velocity wassignificantly increased in ST rats whether measured by extrapolationfrom the force-velocity curve (approximately twofold at both timepoints) or by slack-test measurements (over twofold at both timepoints). A significant reduction in fatigue resistance of thesoleus was observed at 3 (~25%) and 6 mo (~45%) post-ST. For themajority of the speed-related properties, no significant differenceswere detected between 3- and 6-mo ST rats. However, the fatigueresistance of the soleus was significantly lower in 6- vs. 3-moST rats. These data suggest that, between 3 and 6 mo post-ST,force-related properties tended to recover, speed-related propertiesplateaued, and fatigue-related properties continued to decline.Thus some specific functional properties of the rat soleus relatedto contractile force, speed, and fatigue adapted independentlyafterST.

adaptation; contractile function; fatigue; myosin heavy chain; paralysis; plasticity

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				J. Celichowski, W. Mrowczynski, P. Krutki, T. Gorska, H. Majczynski, and U. Slawinska Changes in contractile properties of motor units of the rat medial gastrocnemius muscle after spinal cord transection Exp Physiol, September 1, 2006; 91(5): 887 - 895. [Abstract] [Full Text] [PDF]

				R. K. Shields, S. Dudley-Javoroski, and A. E. Littmann Postfatigue potentiation of the paralyzed soleus muscle: evidence for adaptation with long-term electrical stimulation training J Appl Physiol, August 1, 2006; 101(2): 556 - 565. [Abstract] [Full Text] [PDF]

				W. B Scott, S. C. Lee, T. E Johnston, J. Binkley, and S. A Binder-Macleod Contractile Properties and the Force-Frequency Relationship of the Paralyzed Human Quadriceps Femoris Muscle Physical Therapy, June 1, 2006; 86(6): 788 - 799. [Abstract] [Full Text] [PDF]

				C. S. Klein, C. K. Hager-Ross, and C. K. Thomas Fatigue properties of human thenar motor units paralysed by chronic spinal cord injury J. Physiol., May 15, 2006; 573(1): 161 - 171. [Abstract] [Full Text] [PDF]

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				M. Gallo, T. Gordon, N. Tyreman, Y. Shu, and C. T. Putman Reliability of isolated isometric function measures in rat muscles composed of different fibre types Exp Physiol, September 1, 2004; 89(5): 583 - 592. [Abstract] [Full Text] [PDF]

				J. S. Otis, R. R. Roy, V. R. Edgerton, and R. J. Talmadge Adaptations in metabolic capacity of rat soleus after paralysis J Appl Physiol, February 1, 2004; 96(2): 584 - 596. [Abstract] [Full Text] [PDF]