CNS Fatigue and susceptibility to Muscle Damage⁣

CNS Fatigue and susceptibility to Muscle Damage⁣
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Generally speaking, it’s completely normal to experience fatigue after a training set/training session, and in many cases, it dissipates quickly after a day or so. ⁣
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However, if it lasts for several days, it’s likely being caused by muscle damage, as a result of excessive training volumes. ⁣
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In a great article and review written by @chrisabeardsley he lays down the possibilities through which this mechanism can be explained. The specific cause is still unknown, however two are the main school of thoughts:⁣
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1) One hypothesis suggests it is purely mechanical: the disruption of the sarcomeres & cytoskeleton occur due to mechanical tension. ⁣⁣
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2) The other suggests there’s a strong biochemical element involved, through the release of proteases in response to an increased calcium ion influx in the sarcoplasm… and it’s likely the more plausible one.⁣
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Quite in fact, Calcium (Ca2+) is responsible for a whole lot of muscle-related processes: first of all, it allows muscle fiber contraction, and then, it’s also involved in muscle fiber degradation (when there’s too much of it). ⁣⁣
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This means that it’s very important for the muscle to control the levels of Ca2+ in the muscle & avoid overload, since that triggers the release of proteases (Calpains) that degrade parts of the muscle fibers. ⁣⁣
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Eccentric contractions are known to be more “muscle- damaging” than concentric ones, for example, and the cause has to do with to the fact that eccentrics seem to activate “SACs” (Stretch Activated Ion Channels) that allow more Ca2+ Influx concentration.⁣
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Which fibers get damaged the most ? ⁣
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Type II fibers seem to undergo more damage than Type I. ⁣
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In fact these fibers get very easily damaged, likely due to the fact that they contain fewer number of mitochondria, therefore when we’re performing long-lasting contractions, and high amounts of Ca2+ get released, Calpains get activated causing the breakdown of parts of the muscle cells…