Old organisms are not easily injured by inappropriate excitation
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Opposing Arguments
Argument #3271fc07 1 0 2
If it is true that...
Stress, a "respiratory defect", and free radical damage are common factors in disease and aging 1 0 2and
The polyunsaturated fats make the lungs more sensitive to excess oxygen or hyperventilation, they make the eyes more sensitive to light, and they make the brain more sensitive to fatigue 1 0 2Then it must be true that...
Old organisms are easily injured by inappropriate excitation 1 0 2Argument #d5733e93 1 0 2
If it is true that...
Stress, a "respiratory defect", and free radical damage are common factors in disease and aging 1 0 2and
Free fatty acids that are mobilized from storage tissues in the night and in the winter also tend to increase with aging as the ability to tolerate stress decreases 1 0 2Then it must be true that...
Old organisms are easily injured by inappropriate excitation 1 0 2Citations
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Related Propositions
Unpleasant consequences of estrogen excess resemble some events of aging 1 0 2Changes of aging are also the result of complex interactions between organisms and their environment rather than some genetic program 1 0 2The retina becomes easier to injure by light in old age for some of the same reasons that the infant's retina is susceptible 1 0 2When animals are made "deficient" in all the exogenous polyunsaturated fatty acids, they become remarkably resistant to all sorts of stress and toxins 1 0 2Old organisms are easily injured by inappropriate excitation 1 0 2The aged eyes, lungs, and brain are especially sensitive to damage by stress 1 0 1In old age, the number of cells in the brain keeps increasing with age 1 0 2The structure of the brain goes into an "entropic" deterioration during the process of aging 1 0 2The same things that injure the brain of a fetus also injure the brain of an aging person 1 0 2The mitochondrial energy problem, cytochrome oxidase and its regulation; body temperature/pulse-rate cycle disturbance; lipid peroxidation; respiratory defect; altered amino acid uptake; memory impairment; dominance of the excitatory systems vs. the inhibitory adenosine/GABA/progesterone/pregnenolone system are functional and biochemical observations of Alzheimer's disease 1 0 1