Effects of Long-Term Cold Exposure on Contractile Properties in Slow- and Fast-Twitch Muscles of Rats.

Abstract: Mechanical properties of skeletal muscles or motor performance in mammals [1][2][3][4][5][6][7][8][9], frogs [10,11], and fishes [12][13][14][15] are influenced by changes in environmental temperatures. For example, the maximum velocity of shortening and the maximum rate of tension development decreased at a low temperature in the soleus and extensor digitorum longus (EDL) muscles of rats [4]. Further, Faulkner et al. [1] reported that the maximum and sustained powers in mice EDL muscle were reduced by 40 and… Show more

“…Similar results were also reported elsewhere [1]. The mean CSA of single muscle fibers expressing pure type I MHC in the soleus of the cold-exposed group was also significantly less than in controls.…”

“…Askew [17] reported that body weight loss was common during chronic exposure to cold environment, because cold exposure elevated energy expenditure almost 2.5 times over the subjects in the warm environment. Such phenomena were also supported by the findings that cold exposure resulted in an increased interscapular brown adipose tissue mass and plasma catecholamine levels in rats [1].…”

“…The muscles were frozen in liquid nitrogen and stored at -80°C until analyzed. The muscles from the right limb were used for analyses of contractile properties [1].…”

“…It has been reported that an adaptation of the metabolic and contractile properties of skeletal muscles is induced in response to cold exposure [1][2][3]. An improved fatigue resistance of fast-twitch extensor digitorum longus (EDL) muscle, but not of slowtwitch soleus muscle, in response to train stimulation at 10 Hz (100 ms train duration, 60 trains/min) was induced following 20-week intermittent cold-water immersion in rats [1].…”

“…An improved fatigue resistance of fast-twitch extensor digitorum longus (EDL) muscle, but not of slowtwitch soleus muscle, in response to train stimulation at 10 Hz (100 ms train duration, 60 trains/min) was induced following 20-week intermittent cold-water immersion in rats [1]. It is also reported that mitochondrial enzyme activities, which influence the fatigue resistance, in fast-twitch gastrocnemius muscle of frog were increased in response to chronic cold exposure at 4°C [2].…”

Effects of 20-Week Intermittent Cold-Water-Immersion on Phenotype and Myonuclei in Single Fibers of Rat Hindlimb Muscles

“…Similar results were also reported elsewhere [1]. The mean CSA of single muscle fibers expressing pure type I MHC in the soleus of the cold-exposed group was also significantly less than in controls.…”

“…Askew [17] reported that body weight loss was common during chronic exposure to cold environment, because cold exposure elevated energy expenditure almost 2.5 times over the subjects in the warm environment. Such phenomena were also supported by the findings that cold exposure resulted in an increased interscapular brown adipose tissue mass and plasma catecholamine levels in rats [1].…”

“…The muscles were frozen in liquid nitrogen and stored at -80°C until analyzed. The muscles from the right limb were used for analyses of contractile properties [1].…”

“…It has been reported that an adaptation of the metabolic and contractile properties of skeletal muscles is induced in response to cold exposure [1][2][3]. An improved fatigue resistance of fast-twitch extensor digitorum longus (EDL) muscle, but not of slowtwitch soleus muscle, in response to train stimulation at 10 Hz (100 ms train duration, 60 trains/min) was induced following 20-week intermittent cold-water immersion in rats [1].…”

“…An improved fatigue resistance of fast-twitch extensor digitorum longus (EDL) muscle, but not of slowtwitch soleus muscle, in response to train stimulation at 10 Hz (100 ms train duration, 60 trains/min) was induced following 20-week intermittent cold-water immersion in rats [1]. It is also reported that mitochondrial enzyme activities, which influence the fatigue resistance, in fast-twitch gastrocnemius muscle of frog were increased in response to chronic cold exposure at 4°C [2].…”

Effects of 20-Week Intermittent Cold-Water-Immersion on Phenotype and Myonuclei in Single Fibers of Rat Hindlimb Muscles

The skeletal muscle: composition and biomechanics

Synergistic action of gravity and temperature on the motor system within the lifespan: A “Baby Astronaut” hypothesis