Hypothetically, when direct microcurrent of 50-500 microamperes (uamps) is applied to injured human tissue, an artificial proton gradient may be formed, which may also result in ATP synthesis.
Although this process actually involves a feedback process referred to as a "loop," to explain this mechanism would require more space than this column provides. Theoretically, amino acids are transported by the electrical gradient across the mitochondrial membranes wherein they become available for use in the synthesis of protein.
To summarize, DC cellular electrostimulation results in the creation of protons at the anode and a proton gradient is formed across the cytosol. The energy of the protons migrating to the mitochondria activates the enzyme H+-ATPase, catalyzing the formation of ATP. The energy of electron transport is used to generate ATP, otherwise it would probably appear as free energy.
The reader is reminded that although the Mitchell hypothesis is the best current explanation for this process, it remains just that and until science provides for a more established explanation, it provides a reasonable basis for this process.
R. Vincent Davis, DC, PT, DNBPM
Independence, Missouri