User:Yealee0401/Acute muscle soreness
The entire article from acute muscle soreness
Acute muscle soreness (ASM) is the pain felt in muscles during and immediately, up to 24 hours, after strenuous physical exercise. The pain appears within a minute of contracting the muscle and it will disappear within two or three minutes or up to several hours after relaxing it.
The following causes have been proposed for acute muscle soreness:
- Accumulation of chemical end products of exercise in muscle cells
- Tissue edema caused by the shifting of blood plasma into the muscle tissue during contraction
- Muscle fatigue (the muscle tires and cannot contract any more)
Cause
[edit]Muscle soreness can stem from strain on the sarcomere, the muscle's functional unit[1]. Due to the mechanism of activation of the unit by the nerves, which accumulates calcium that further degrades sarcomeres. This degradation initiates the body inflammatory response, and has to be supported by surrounding connective tissues. The inflammatory cells and cytokines stimulates the pain receptors that causes the acute pain associated with AMS. Repair of the sarcomere and the surround connective tissue leads to delayed onset muscle soreness, which peaks between 24 and 72 hours after exercise.
Another causes of AMS would be from cramps during or after workout, which has been theorized to have been caused by two pathways:
- Dehydration
- Electrolyte Imbalance
Dehydration
[edit]Dehydration theory states that extracellular fluid compartment becomes contracted due to the excessive sweating, causing the volume to decrease to the point until the muscles are contracted until the fluids can re-inhabit the vacuum[2]. Excessive sweating also is the cause behind the electrolyte imbalance theory, which is that the sweating disturbs the body's balance of electrolyte, which results in excited motor neurons and spontaneous discharge.
The feeling of soreness can also be attributed to the lack contraction from the muscle, which can lead to over-exertion of the muscle. The decrease in contraction has been theorized to have been cause by the high level of concentrations of proton created by glycolysis[3]. Excess in protons displaces calcium ions which is used within the fibers in activating the sacromere. This results in a reduced contractile force.
Electrolyte Imbalance
[edit]During exercising process, lactic acid become lactate and H+ through glycolysis. With more lactic consumed during the process, higher H+ concentration will be, thus lower the blood’s pH level. This low pH level will affect the energy production process through the inhibition of phosphofructokinase. Phosphofructokinase is a key enzyme in glycolytic process, which produces energy. With a pH of 6.4, there will be no glycolysis process existed, thus no energy will be produced. Higher concentration of H+ will also cause the loss of contractile force through the misplacement of calcium in muscle fiber, the misplacement of calcium in muscle fiber will disturb the formation of actin-myosin cross-bridge.[4]
Treatments
[edit]There are conflicting research in terms of treatments of muscle soreness.
Stretching and muscle soreness
[edit]Stretching immediately before or after a workout does provide little help, but is not significant enough to be considered as a preventative measure[5].
- ^ Nelson, Nicole L.; Churilla, James R. (2016-8). "A narrative review of exercise-associated muscle cramps: Factors that contribute to neuromuscular fatigue and management implications: Exercise-Associated Muscle Cramps". Muscle & Nerve. 54 (2): 177–185. doi:10.1002/mus.25176.
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(help) - ^ Layzer, Robert B. (1994-11). "The origin of muscle fasciculations and cramps". Muscle & Nerve. 17 (11): 1243–1249. doi:10.1002/mus.880171102. ISSN 0148-639X.
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(help) - ^ BENEKE, RALPH (1995-06). "Anaerobic threshold, individual anaerobic threshold, and maximal lactate steady state in rowing". Medicine & Science in Sports & Exercise. 27 (6): 863???867. doi:10.1249/00005768-199506000-00010. ISSN 0195-9131.
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(help) - ^ Myers, Jonathan; Ashley, Euan (1997-03-01). "Dangerous Curves: A Perspective on Exercise, Lactate, and the Anaerobic Threshold". CHEST. 111 (3): 787–795. doi:10.1378/chest.111.3.787. ISSN 0012-3692.
- ^ Herbert, Rob D; Gabriel, Michael (2002-08-31). "Effects of stretching before and after exercising on muscle soreness and risk of injury: systematic review". BMJ : British Medical Journal. 325 (7362): 468. ISSN 0959-8138. PMID 12202327.