Thermoregulation | Open Access Journals

Fluid Mechanics: Open Access

ISSN: 2476-2296

Open Access


Neil Armstrong syndrome triggered by very common earth related magnesium (Mg) deficits, invariably with spaces flight (SF); invariable dehydration with exercise-induced sweating with Mg loss and through kidneys; leaks of plasma through oxidative stress-induced defective capillaries; loss of thirst mechanism; in turn, angiotensin, catecholamine (C) elevations to twice earth levels when supine; vicious cycles with Mg ion deficits; can trigger C cardiomyopathy i.e. acute temporary heart failure. Normal earth CO2 levels about 0.03% with SF, levels can be 0.5-7% as on Mir; this, postulated to trigger calcium (Ca) overload with in turn coronary vasospasm, injuries to mitochondria along with impairment in telomere function; its synthesis is dependent upon Mg and in turn, decreased cardiac function. Since Mg required for thermoregulation was intensified by SF-exercise for at least 2 hours exercise/day; invariable SF mal-absorption with Mg levels reduced to p<0.0001 even though serum Mg lacks sensitivity. Neil Armstrong informed Houston twice at 4 minutes interval, of shortness of breath with heart rate up to 160 (tachycardia conducive to oxidative stress) with marked reduction to 60, half hour before pacific-splashdown over three days later; severe thirst, quenched with in turn, reduced postulated high C. Mg is powerful antioxidant and Ca blocker.

High Impact List of Articles
Conference Proceedings

Relevant Topics in Physics

arrow_upward arrow_upward