Pharmacological Intensification of the Process of Water Dissociation, or Human Photosynthesis, and Its Impact on the Recovery Mechanisms of Diverse Etiology in Tissues Affected by Bloodshed

Arturo Solís  Herrera; María del Carmen Arias  Esparza; J. Jesús Alvarado  Esquivel; Graciela Landín  Miranda; Ruth Isabel Solís  Arias; Paola Eugenia Solís  Arias; Martha Patricia Solís  Arias

doi:10.9734/bpi/hmmr/v9/1681C

Pharmacological Intensification of the Process of Water Dissociation, or Human Photosynthesis, and Its Impact on the Recovery Mechanisms of Diverse Etiology in Tissues Affected by Bloodshed

Authors

Arturo Solís Herrera Human Photosynthesis Study Center, Centro Aguascalientes, México.
María del Carmen Arias Esparza Human Photosynthesis Study Center, Centro Aguascalientes, México.
J. Jesús Alvarado Esquivel Human Photosynthesis Study Center, Centro Aguascalientes, México.
Graciela Landín Miranda Human Photosynthesis Study Center, Centro Aguascalientes, México.
Ruth Isabel Solís Arias Human Photosynthesis Study Center, Centro Aguascalientes, México.
Paola Eugenia Solís Arias Human Photosynthesis Study Center, Centro Aguascalientes, México.
Martha Patricia Solís Arias Human Photosynthesis Study Center, Centro Aguascalientes, México.

DOI:

https://doi.org/10.9734/bpi/hmmr/v9/1681C

Keywords:

Melanin, hydrogen, oxygen, water, energy, human photosynthesis

Abstract

The human retina's photoreceptor layer has some unique features. Their energy requirements are the highest in the organism; in proportion, rods and cones require 10-fold the energy consumed by the cerebral cortex, 6-fold more than the cardiac muscle, and 3-fold more than the renal cortex. Surprisingly, there are no blood vessels in the photoreceptor layer. So, where is the energy to this tissue coming from? In this article we will describe the hitherto unknown explanation. Human photosynthesis is the origin of life and it’s placed at first in the sequence of all biochemical processes of life; any other function or reaction it’s secondary to water dissociation and directly or indirectly are depending on the energy released by our hitherto unknown human photo-system.

Published

2021-05-10

How to Cite

Arturo Solís Herrera, María del Carmen Arias Esparza, J. Jesús Alvarado Esquivel, Graciela Landín Miranda, Ruth Isabel Solís Arias, Paola Eugenia Solís Arias, & Martha Patricia Solís Arias. (2021). Pharmacological Intensification of the Process of Water Dissociation, or Human Photosynthesis, and Its Impact on the Recovery Mechanisms of Diverse Etiology in Tissues Affected by Bloodshed. Highlights on Medicine and Medical Research Vol. 9, 106–117. https://doi.org/10.9734/bpi/hmmr/v9/1681C

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Issue

Highlights on Medicine and Medical Research Vol. 9

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Chapters