Morfological Comparisons of the Heart of Mammals and Humans

Authors

  • Ziyodullaev Maqsud Maxmudovich Bukhara Medical Institute Assistant of the Department of “Internal diseases and Endocrinology”

DOI:

https://doi.org/10.51699/ijhsms.v1i3.86

Keywords:

animals, heart, human, topography, comparison

Abstract

Currently, animal studies are fundamental to the development of new therapies aimed at improving the quality of life of patients with cardiovascular disease. In addition, early testing of cardiac device prototypes is typically conducted using animal models with and without cardiovascular disease. that the animal model to be tested is similar in anatomy and physiology to the human model. Unfortunately, detailed information linking the anatomy of the human heart to that of the most common large mammalian models is still lacking.

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References

Загоруйко, Г. Е. Морфометрический анализ пренатального и постнатального созревания кардиомиоцитов крыс / Г. Е. Загоруйко, Ю. В. Загоруйко // Морфология. – 2017. – № 2 (136). – С. 290–292.

American Heart Association. (2001) Congestive Heart Failure [abstract]. Available at Website: (www.americanheart.org). Date accessed: Nov. 18, 2004.)

Hoeg, J.M. (1997) Evaluating coronary heart disease risk. Tiles in the mosaic. JAMA. 277, 1387–1390.)

Kelly, D.P. and Strauss, A.W. (1994) Inherited cardiomyopathies. N Engl J Med. 330, 913–919.)

Marwick, C. (1997) NHANES III health data relevant for aging nation. JAMA. 277, 100–102.)

Ridker, P.M. and Antman, E.M. (1999) Pathogenesis and pathology of coronary heart disease syndromes. J Thromb Thrombolysis. 8, 167–189.)

Gura, T. (2001) Genetics: Can SNPs deliver on susceptibility genes? Science. 293, 593–595. )

Roses, A.D. (2002) SNPs—where’s the beef? Pharmacogenomics J.2, 277–283.).

Seidman, C.E. and Seidman, J.G. (1991) Mutations in cardiac myosinheavy chain genes cause familial hypertrophic cardiomyopathy. Mol Biol Med. 8, 159–166.)

Hoeg, J.M. (1997) Evaluating coronary heart disease risk. Tiles in the mosaic. JAMA. 277, 1387–1390. )

Gura, T. (2001) Genetics: SNP-ing drugs to size. Science. 293, 595).

Cheng, C.F., Kuo, H.C., and Chien, K.R. (2003) Genetic modifiers of cardiac arrhythmias. Trends Mol Med. 9, 59–66.).

Lander, E.S., Linton, L.M., Birren, B., et al. (2001) Initial sequencing and analysis of the human genome. Nature. 409, 860–921.).

ORHERUATA, RA; 2OM’INIABOH, FA; 3EJEGUO /A Comparative Studies on the Cardiovascular System in the Wistar Rat (Rattus norvegicus) and Agama Lizard (Agama agama) /J. Appl. Sci. Environ. Manage. Vol. 22 (4) 605 – 608 April 2018.

Ziyodullayev M. M. / Specific features of anemia and inflammatory factors in patients with cardiovascular disease /Science and Education 2022 C. 66-99.

Ziyodullaev Maksud Makhmudovich, Ilyasov Aziz Saidmuradovich/PATTERNS OF GROWTH AND DEVELOPMENT OF THE HEART OF RATS IN EARLY POSTNATAL ONTOGENESIS/Web Of Scientist: International Scientific Research Journal 2022 C 1-9.

Ziyodullaev Maksud Makhmudovich / PATTERNS OF GROWTH AND DEVELOPMENT OF THE HEART OF RATS IN EARLY POSTNATAL ONTOGENESIS/Web Of Scientist: International Scientific Research Journal 2022 C 886 - 892.

Ziyodullaev Maksud Makhmudovich / Alkogol ta’sirida yurakning morfiziologik xususiyatlari/ Science and Education C 194 - 197.

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Published

2022-10-07

How to Cite

Maxmudovich, Z. M. . (2022). Morfological Comparisons of the Heart of Mammals and Humans. INTERNATIONAL JOURNAL OF HEALTH SYSTEMS AND MEDICAL SCIENCES, 1(3), 22–25. https://doi.org/10.51699/ijhsms.v1i3.86