Enrollment of Vector in Cardiology and Study of Cardiac Cadence

Page Numbers: 1-14
Published
2024-01-01
Digital Object Identifier: 10.58578/ajstea.v2i1.2301
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  • Sujal Mishra M.I.T. Campus, T.U., Campus, Janakpur, Nepal
  • Suresh Kumar Sahani M.I.T. Campus, T.U., Campus, Janakpur, Nepal
  • Kameshwar Sahani Kathmandu University, Nepal
  • Binod Kumar Sah R.R.M. Campus, T.U., Nepal
  • Vijay Vir Singh Lingaya Vidhyapeetth, India

Abstract

We have analyzed the application of vectors in cardiology and the way cardiac vector theory analyzes the heartbeat and can explain the entire cardiac conduction vector relationship and the Enthoven equilateral triangle hypothesis. This sheet explains the principles of the electrocardiogram and the interpretation of the waveforms. ECG can be called an electrocardiogram, which is a process of producing electrical activity through repetitive cycles. This diagram shows the voltage and duration of electrical activity by placing electrodes on the skin. Vector cardiography ( VCG) is a procedure that creates a 2D image of the heart's electrical activity by monitoring the spatial location of ECG waves at each successive point in their period. Even in the 21st century, coronary heart disease still represents a serious threat to humans and a major challenge to the scientific community. The most important elements for understanding and interpreting the ECG are the Enthoven triangle and the cardiac vector hypothesis, which have the potential , saving millions of lives when used quickly and appropriately to treat patients.

Keywords: Enthoven Equilateral Triangle Hypothesis; Cardiology; Cadencce; Electrodes; Vector Electrocardiogram; Cardiac Electrical Activity

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How to Cite
Mishra, S., Sahani, S., Sahani, K., Sah, B. K., & Singh, V. V. (2024). Enrollment of Vector in Cardiology and Study of Cardiac Cadence. Asian Journal of Science, Technology, Engineering, and Art, 2(1), 1-14. https://doi.org/10.58578/ajstea.v2i1.2301

References

Rajini. Samuel. (2021). Paripex Indian journal of reseach,The application of vector theory on cardiac Rhythm,Vol.10, No.7, 1-9(oct.21).

Rajesh. Prajapati, Amatya. Neebha, Rajab Rana. Magar, Shrestha. Ripti. (2021). Journal of Gandaki medical college, Vectorial analysis of the electrocardiogram from conventional limb leads, Vol.103, No.84-87(Dec).

Novosel . D, Alanovic . Matija, Becic. Tina. (2022). Paripex indian journal, The chalanges and pitfalls of limb leads and heart axis calculations, Vol.11, No.3, 3-7(nov).

Majd AlGhatrif. Joseph Lindsay. (2012). Journal of Community Hospital Medicine Perspective, A brief review: history to understand fundamentals of electrocardiography, Vol.14383, No.4, 345-366 (april).

Otomar. Kittnar, Mleck Mikulas. (2010). Physiocological research / Academia Scientiarum, Analysis of the electrical heart field, Vol.59, No.17, 19-24,(Jan).

R, Rajini Samuel. (2023). ARC journal of cardiology, unlocking the cardiac vector theory and Einthoven Equilateral Triangle, Vol B(l), No.10, 12-22 (oct).

V.N, batchvarov, Marek. Malik. (2000). Measurement and interpretation of QT dispersion, Pubmed, Vol.3, No.4 ,42-44(apr)

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