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Vitamins C and E, separately or combined

Posted on the June 15th, 2010 under - Alzheimer's,- Neurones,- Supplements by

Combined deficiency in vitamins C and E is a risk factor for neuronal death and brain necrosis
Vitamin C easily crosses the blood brain barrier and its transport into the brain is mediated by glucose transporters. Vitamin C concentrations in the brain exceed those in blood by 10-fold. In humans, hypovitaminosis C correlated with brain damage in patients with head trauma (Stroke. 2001;32:898-902). The vitamin C has important functions in the brain, for example, protecting neuronal membranes from oxidative damage acting as a scavenger of free radicals.
Another free radical scavenger Vitamin E (-tocopherol) inhibits the amyloid peptide characteristic for Alzheimer’s disease known to induced cell death (Biochemical and Biophysical Research Communications Volume 186, Issue 2, 31 July 1992, Pages 944-950).
The results of a study of Guinea Pigs’s fed either on normal or vitamin-deficient diets showed that while moderate deficiencies of vitamins E or C didn’t result in serious brain changes, their combined moderate deficienciescaused degenerative changes in the guinea pig brains in only 5 days after vitamins were removed from the feed.
Interestingly, the deficiencies in either E or C vitamins had only moderate consequences, but their combination caused severe brain lesions – inflammation, cell death with necrosis and apoptosis and animals’ death (Nutr. 136:1576-1581, June 2006).

Combined deficiency in vitamins C and E is a risk factor for neuronal death and brain necrosis.

Vitamin C easily crosses the blood brain barrier and its transport into the brain is mediated by glucose transporters. Vitamin C concentrations in the brain exceed those in blood by 10-fold. In humans, hypovitaminosis C correlated with brain damage in patients with head trauma (Stroke. 2001;32:898-902). The vitamin C has important functions in the brain, for example, protecting neuronal membranes from oxidative damage acting as a scavenger of free radicals.

Another free radical scavenger Vitamin E (-tocopherol) inhibits the amyloid peptide characteristic for Alzheimer’s disease known to induced cell death (Biochemical and Biophysical Research Communications Volume 186, Issue 2, 31 July 1992, Pages 944-950).

The results of a study of Guinea Pigs’s fed either on normal or vitamin-deficient diets showed that while moderate deficiencies of vitamins E or C didn’t result in serious brain changes, their combined moderate deficienciescaused degenerative changes in the guinea pig brains in only 5 days after vitamins were removed from the feed.

Interestingly, the deficiencies in either E or C vitamins had only moderate consequences, but their combination caused severe brain lesions – inflammation, cell death with necrosis and apoptosis and animals’ death (Nutr. 136:1576-1581, June 2006).