|
| (a) Embryogenesis, with organ-specific mitochondria leading to harmonious synaptogenesis. | |
| (b) Consciousness, intellect, fantasy, memory, intuition, experience and telepathy. | |
| (c) Inductional CNS is linked to cancer control and healthy gene transcription. | |
| (d) Blood-brain barrier lesions upset the axonal inductional cell control (e.g., herpes virus infections). | |
| (e) Lymphopoietic stimulation by a CNS lipid molecule containing titanium (Ti), as cobalt in B12. | |
| (f) Neurological pain, the warning signal from nerves is alleviated by ingestion of CNS lipids. | |
| (g) Burn-out stress syndromes in sportsmen, battle fatigue, and sleep disorders eased from CNS diets. | |
| (h) Rheumatic, neuropathic, psoriatic arthritis, fibromyalgia, Crohn’s disease, and IBD, PTSD respond to CNS diets. | |
| (i) Idiopathic neural pain, sterile inflammatory diatheses, and insomnia are mitigated by dietary CNSlipids. | |
| (j) Marked regional depletion of CNS-lipids found in spinal cord segments may link it to atherosclerosis. | |
| (k) The aetiology of autism spectrum disorder (ASD) and ADHD seems to be due to a deficiency in circulating vital CNS-lipids during gestation and after birth. | |
| (l) CNS-lipid monomers may be involved in controlling allergic reactions via cellreceptors. | |
| (m) Melanoma satellites appear in the enervated axonal area—affected by impaired CNS induction. | |
| (n) Cholesterol levels dip from ingestion of extracts made from brainlipids and membranes. | |
| (o) A prolonged relative lack of vital CNS-lipids may cause anorexia and infertility. | |
| (p) Mitochondrial lesions lead to derangements in the lipidome. | |
|
