Introduction
It has been known that all living things have electrical charges in their bodies. These electrical charges are distributed throughout the body of an organism. In the modern physiology, it has been found out that it is possible to measure the strength of charges in the body as well as their distribution. The human body is not exempted since it contains the electrical charges as well. In addition, a number of the modern equipment used in hospitals such electrocardiogram, electromyogram, nuclear magnetic resonance imaging and electroencephalogram all depend on the distribution of electrical charges in the body so as to function. Using this concept, it has been possible to carry out facial beautification and regeneration by the process known as cosmetology (Tuorkey, 2012).
It is commonly accepted that the body of a human being contain a number of systems which support life. The endocrine, the circulatory, and the muscular systems are examples that can easily be noted. Nonetheless, the bio-electrical system is one that coordinates all of these other systems as a whole. It is composed of pathways of lower and higher electrical resistance, generally termed as meridians. There are specific points that are located along these pathways which share common electrical characteristics known as acupuncture points. It is indicated that there are a total of twelve such meridians and each one of them connect to a specific organ. These meridians supply the correct amount of bio-electricity to their specified organs. If there is too much energy supplied to the organ, it will be hyperactive and if there is too little energy, the organ becomes sluggish (Tuorkey, 2012).
In this perspective, the same technology is applied for facial replenishment and skin regeneration. Some of the equipment used includes the bioelectrical impedance analyzer which performs a number of services such as skin lymph drainage and facial electronic lifting. In cosmetology, the measurement of electronic charge distribution is done and therefore, the equipment are used to make them be evenly distributed. In so doing, the stressed parts of the face are relaxed making the regeneration of new cells be achieved easily (Tuorkey, 2012).
Bioelectrical impedance analyzer uses two components of the body electrical known as resistance and reactance. Resistance is said to be the total measure of the body water while reactance is the measure of body cell mass. These two factors are used to provide the information of a tissue in the body of a person. Consequently, therapeutic treatments are employed to make the tissues regenerate and rejuvenate as well. For instance, for cancer patients, the concept of bioelectricity is widely applied to make the cells regenerate. Bioelectrical impedance analyzer is used as a prognostic tool to determine the multiplicity of cancer cells and also provide the necessary treatments (Richard B. B. et al., 1979).
Conclusion
In summary, bioelectrical regeneration and cosmetology is the modern technology that can be used for regeneration of cells and treatment of some conditions. Cosmetology is widely used in various health centers and organizations worldwide. The concept of measuring the distribution and quantity of electrical charges in the body is the basis of bioelectrical regeneration and cosmetology. Lastly, it is noted that quite a number of equipment in hospitals and health centers such as electrocardiogram, electromyogram, nuclear magnetic resonance imaging and electroencephalogram also depend on the concept of charge distribution.
Reference:
Tuorkey, M. J. (2012). Bioelectrical Impedance as a Diagnostic Factor in the Clinical Practice and Prognostic Factor for Survival in Cancer Patients: Prediction, Accuracy and Reliability. Biosens Bioelectron, 3.121: 2155-6210.
Richard B. B. et al. (1979). Bioelectricity and Regeneration. BioScience, 29.8: 468-474.
