Major human cancers are preventable: physiological stimuli induce a dopamine-thyroid-immune efficient mechanism.

C. Gilbert
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引用次数: 9

Abstract

It is proposed that the prerequisites for a low-risk to major cancers-breast, colon, lung, prostate, melanoma (as, for example in Africans, Chinese and Japanese) - include upregulated hypothalamic dopaminergic activity compared to depressed noradrenergic/thyrogenic function and raised vagal tone, and a neuroendocrine constellation that promotes improved immune efficiency and its inimical to the onset of aversive cell responses. Since the integrity of these tissues is regulated by hypothalamic-hypophyseal hormones, under tonic dopaminergic inhibition, cancers are potentially preventable as long as dopaminergic integrity is maintained, or the decline in ageing in slowed. Evidence for the impact of upregulated dopamine on tumour prevention includes: (1) a reduced (40%) rate of colonic cancer in exercised-trained ageing subjects; (2) reduced expected rates of lung/colon cancers, and skin tumours in prolonged post-menopausal oestrogen replacement; (3) the virtual suppression of all cancers during pregnancy (when dopamine synthesis increases); (4) the low rate of bronchogenic carcinoma correlates with reduced enzymatic conversion of dopamine to noradrenaline; and (5) neuroblastoma (specifically dopamine dysregulated tumour) regresses spontaneously on dopamine normalization. Similar tumour reduction is anticipated by controlling the intake of calories. The subtlety of the switch to upregulated dopamine, the speed of translation at the cellular level and the sustainability of responses as long as the initiating stimulus persists (as exposed by pregnancy), underline the plasticity of the neuroendocrine mechanism and ease of manipulation. Long exposure to environmental iodine deficiency, as seen for example in Africans and Chinese, reveals a crucial dopamine-thyroid action that slows cell timing mechanisms. The common neurohormonal basis identified for the prevention of human cancers has practical application, with reasonably assured positive results.
主要的人类癌症是可以预防的:生理刺激诱导多巴胺-甲状腺-免疫有效机制。
主要癌症——乳腺癌、结肠癌、肺癌、前列腺癌、黑色素瘤(如非洲人、中国人和日本人)的低风险的先决条件包括下丘脑多巴胺能活性的上调,而去甲肾上腺素能/甲状腺功能的抑制和迷走神经张力的升高,以及促进免疫效率提高的神经内分泌系统,它对厌恶细胞反应的发生是不利的。由于这些组织的完整性是由下丘脑-垂体激素调节的,在强直性多巴胺能抑制下,只要保持多巴胺能的完整性,或者延缓衰老的衰退,癌症就有可能被预防。多巴胺上调对肿瘤预防影响的证据包括:(1)在锻炼有素的老年受试者中降低(40%)结肠癌的发病率;(2)长期绝经后雌激素替代降低了肺癌/结肠癌和皮肤肿瘤的预期发病率;(3)怀孕期间所有癌症的虚拟抑制(当多巴胺合成增加时);(4)支气管源性癌的低发生率与多巴胺转化为去甲肾上腺素的酶促减少有关;(5)神经母细胞瘤(特别是多巴胺失调肿瘤)在多巴胺正常化过程中自发消退。通过控制卡路里的摄入,类似的肿瘤减少有望实现。切换到上调多巴胺的微妙性,细胞水平上的翻译速度和反应的可持续性,只要初始刺激持续存在(如妊娠暴露),强调了神经内分泌机制的可塑性和易于操作。长期暴露于环境碘缺乏中,例如非洲人和中国人,揭示了一种至关重要的多巴胺-甲状腺作用,它减缓了细胞的计时机制。确定用于预防人类癌症的共同神经激素基础具有实际应用,并具有合理保证的积极结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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