How the adrenochrome hypothesis could account for many of these changes

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Graham concluded that a small proportion of amines were oxidized to their amino chromium, making the red pigment area of the brain visible only to the naked eye after age six. Reaction 6 will be but reaction 7 is toxic. The good hypothesis of the eight attributes of schizophrenia can be de

Reactions 1, 2 and 4 are essential because we cannot live without noradrenaline and adrenaline. My suspicious reaction 5 and reactions like 3 are also necessary under proper control. Elsewhere I suggest that the conversion of white adrenal pigment to adrenaline (Hoffer and Osmond, 1960) can help control anxiety. If this is true, adrenal chrome is required, but only in

Very little. How the adrenochrome hypothesis could account for many of these changes. Graham concluded that a small proportion of amines were oxidized to their amino chromium, making the red pigment area of the brain visible only to the naked eye after age six. Reaction 6 will be but reaction 7 is toxic. The good hypothesis of the eight attributes of schizophrenia can be derived from the adrenal pigment hypothesis.

(1) Genetic basis: The favorable reaction of genetic potential is 7 to 6, which can explain the phenomenon. For anything that flows into adrenaline, it is a hallucinogen like adrenal pigment. White adrenal pigment is not a hallucinogen. The amount of any adrenal pigment can be transferred to its leukocyte derivatives. The same reasoning applies to the oxidation of each amine to chromium amino in the body.

2) Physiological advantages: if the production of adrenal pigment increases, the patients with adrenal pigment are known to have antihistamine properties; Schizophrenia should then be endowed with antihistamine properties, that is, it should be less sensitive to physical expressions, such as asthma and hay fever; Adrenal pigment has antimitotic properties. This suggests that schizophrenics should receive less

Cancer, and should have a low growth rate of fast growing tissues, such as hair and nails. A. Few studies show that these two conclusions are true. I have a lot of patients who report that they don't have to cut their hair until they start at a normal rate. After a patient had been bald for many years, her hair began to grow normally and began to recover after vitamin B-3 treatment. A. The decrease in growth rate should prolong these tissues, that is, these patients will not age at the same rate. However, appearance deception is likely to be schizophrenia in the chronic period, because there is a faster accumulation of senile pigment in the brain and the brain of the heart, that is, accelerated aging. Excessive adrenal pigment formation will increase the hyperoxia tension of schizophrenic patients. Fortunately, there must be very few schizophrenics working as deep-sea divers, at least early in their career. Bean et al. (1955) found that

The adrenal gland was excised under oxygen stress; They have withstood less pressure. When adrenaline was injected, the gland oxygen toxicity of normal animals or animals without adrenal gland increased.

(3) The role of pressure: pressure has two reasons. The increase in production of noradrenaline and adrenaline will lead to an increase in adrenal pigment, which is genetically related to reaction 7 rather than 6. This will increase the content of adrenaline, which is toxic. Secondly, any pressure will reduce the content of ascorbic acid in the body. The most people's ascorbic acid intake is very low and can not afford any loss. The reduction of ascorbic acid will increase reaction 5.

(4) Clinical picture: Adrenochrome and adrenaline are hallucinogens of animals (Hoffer and Osmond, 1967). They lead to perceptual changes, thinking disorders, behavioral changes, and depressive hallucinogens such as LSD and mescaline. Therefore, any increase in the formation of these substances will lead to schizophrenia syndrome or worsen the condition. Norepinephrine red has not been crystallized and therefore has not been tested, but it will most likely have an amino chromium dopamine produced by levodopa, dopamine and 6OH dopamine (trihydroxy). Factors that increase the reaction 3,

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