Master Program in Physical Cardiochemistry

Main Article Content

Anaclet B. Kunyima
Séraphin N. Lusamba
Papy K. Kunyima

Abstract

Background: The heart acting analysis leads to necessity of total energy quantization needful for its life from the cellular metabolism (Keith Flack node).

This energy is mainly distributed to make possible the cardiac muscle acting (Electrocardiogram) and to circulate the blood in aorta to be ultimately poured out the small circulation in upstream of general circulation, distribution obeying Lusamba diagram. A model has been elaborated to choose a thermodynamic system (KUNYIMA Chart) on which the needful energy of blood flow has been assessed. It stays to quantify the vital energy for the electrification of cardiac muscle (ECG) in order to have a definitive idea on total energy from Keith Flack node. Each heart failure demands energetic knowledge of Keith Flack node and the energetic repartition of ventricles shrinkages.

Aim and Objective: Presentation master program in cardiochemistry (new discipline) and Lusamba diagram to scientific world.

Methodology: Observation, documentary research and calculations have been used.

Results: Physico-chemical and thermoexergetic grounds of heart acting have been published elsewhere and allowed thus to conceive this program.

Conclusion: Physical Cardiochemistry (PCC) is therefore a set of physico-chemical and thermoexergetic grounds of heart acting. It backs up the bio-medical sciences and helps in one sense to the comprehension of certain energetic phenomena occurring in the cardiac system. Therefore, this large knowledge will help physicians to efficient prescriptions for an effective energetic and appropriate supplying. It is supposed evidently that future cardiac healing will essentially be energetic.

Keywords:
Physical cardiochemistry, Kunyima chart, exergetic cardiac yield, Lusamba diagram.

Article Details

How to Cite
Kunyima, A. B., Lusamba, S. N., & Kunyima, P. K. (2020). Master Program in Physical Cardiochemistry. Cardiology and Angiology: An International Journal, 9(4), 28-33. https://doi.org/10.9734/ca/2020/v9i430144
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Commentary

References

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