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Actinidic archaea has been related to aging. The growth of endosymbiotic actinidic archaea leads to neanderthalisation of the human mind-body system. Neanderthal metabolonomics has been described in aging especially the Warburg phenotype and hyperdigoxinemia. Digoxin produced by archaeal cholesterol catabolism produces neanderthalisation. Prefrontal cortical atrophy and cerebellar hyperplasia has been related to aging. This leads on to dysautonomia with sympathetic hyperactivity and parasympathetic neuropathy in aging. A method to modulate archaeal symbiosis and interconverting homo sapien to…mehr

Produktbeschreibung
Actinidic archaea has been related to aging. The growth of endosymbiotic actinidic archaea leads to neanderthalisation of the human mind-body system. Neanderthal metabolonomics has been described in aging especially the Warburg phenotype and hyperdigoxinemia. Digoxin produced by archaeal cholesterol catabolism produces neanderthalisation. Prefrontal cortical atrophy and cerebellar hyperplasia has been related to aging. This leads on to dysautonomia with sympathetic hyperactivity and parasympathetic neuropathy in aging. A method to modulate archaeal symbiosis and interconverting homo sapien to homo neanderthalis and vice versa is described. This is done by a high fibre versus a low fibre diet, administration of antioxidant antibiotic and colonic microflora from human and cow dung. This can be called as a therapeutic archaeal symbiotic modulated human evolution for the treatment of aging and related diseases.
Autorenporträt
Dr Ravikumar Kurup is the Director of the Metabolic Disorders Research Centre, Trivandrum.