Abstract
Cephalospinal fluid (CSF) dynamics (secretion and absorption) rate is considered a primary disturbance in the CSF dynamics. CSF reabsorption is a key part of ventriculomegaly, and to a lesser extent other anatomical features of CNS such as elasticity, brain water content, glial cell ratio, tissue atrophy, cranial suture status, age, weight, height, and sex.
Neonates and the elderly, the extremes of life, are more readily developed enlarged ventricles, supposedly in association with impairment of CSF absorption, but these absorption mechanisms are theoretical. The Evans index (EI), a linear ratio between the maximal frontal horn width and the cranium diameter, it is a relatively gross parameter that has been extensively used as an indirect marker of ventricular volume (VV).
The current accepted mechanisms of CSF secretion and reabsorption do not explain clinical observations, since they are based on theoretical processes such as ultrafiltration or third circulation theory as a means of production.
The unsuspected ability of human eukaryotic cells to transform the power of sunlight into chemical energy, through the dissociation of intracellularly located water molecules, makes it largely possible a paradigm shift with respect to the biodynamics of the Cephalospinal fluid.
Keywords
Aging, Brain ventricles, Cephalospinal fluid, Choroid plexus, Hydrogen, Oxygen, Water dissociation