Published November 27, 2020
| Version v1
Journal article
Open
A NEW BIO MATHEMATICAL MODEL TO FIND THE AGE SPECIFIC CORONARY HEART DISEASE MORTALITY RATES IN MEN AND WOMEN USING UNIFORM DISTRIBUTION
Authors/Creators
- 1. Associate Professor, Department of Mathematics, Dhanalakshmi Srinivasan Engineering College, Perambalur, Tamilnadu
- 2. Assistant Professor, Department of Mathematics, Srinivasan College of Arts and Science, Perambalur, Tamilnadu
Description
The gender difference (gender gap) in mortality due to coronary heart disease (CHD) decreases with age. This relationship has not been well characterized in diverse populations. The purpose of this study wad to examine the age specific coronary heart disease mortality rates in men compared with women through telegrapher’s process with the help of uniform distribution.
Files
324.pdf
Files
(866.8 kB)
| Name | Size | Download all |
|---|---|---|
|
md5:349047f882d567e1c0f672ac010c4c1e
|
866.8 kB | Preview Download |
Additional details
References
- 1. Cane V, "Diffusion models with relativity effects, In: Perspectives in Probability and Statistics", Academic Press for the Applied Probability Trust, Sheffield, United Kingdom, Page Number 263-273, 1975. 2. Cooper R S & Ford E, "Comparability of risk factors for coronary heart disease among blacks and whites in the NHANES I Epidemiologic Follow-up Study", Annual Epidemiology 1992;2:637. 3. Foong S K, "First Passage Time, Maximum Displacement and Kac's solution of the Telegrapher Equation", Physical Review, Page Number 707-710, 1992. 4. Foong S K & Kanno S, "Properties of the telegrapher's random process with or without a Trap", Stochastic Proceedings and their Applications, Page Number 147-173, 1994. 5. Johnson J L, Heineman E F, Heiss G, Hames C G & Tyroler H A, "Cardiovascular disease risk factors and mortality among black women and white women aged 40–64 years in Evans County, Georgia", American Journal of Epidemiology, Volume 123, 1986. 6. Kabanov & Yu M, "On the probabilistic representation of the telegraph equation", Theory of Probability and its Applications, Volume 37, Page Number 425-426, 1992. 7. Kannel W B & Wilson P W. "Risk factors that attenuate the female coronary disease advantage", Architect International Medicine, Volume 57, Page Number 155-168, 1995. 8. Keil J E, Loadholt C B, Weinrich M C, Sandifer S H & Boyle E Jr, "Incidence of coronary heart disease in blacks in Charleston, South Carolina", American Heart Journal, Volume 108, 1984. 9. Kolesnik A D, "The equations of Markovian random evolution on the line", Journal of Applied Probability, Volume 35, Page Number 27-35, 1998. 10. Lerner D J, Kannel W B, "Patterns of coronary heart disease morbidity and mortality in the sexes: A 26-year follow-up of the Framingham population", American Heart Journal, Page Number 111-113, 1986. 11. Muthaiyan A & Ramesh Kumar R J, "Stochastic Model to Find the Prognostic Ability of NT Pro-BNP in Advanced Heart Failure Patients Using Gamma Distribution", International Journal of Emerging Engineering Research and Technology, Volume 2, Issue 5, August, Page Number 40-50, 2014. 12. Ramesh Kumar R J & Muthaiyan A, "Stochastic Model to Find the Triiodothyronine Repletion in Infants during Cardiopulmonary Bypass for Congenital Heart Disease Using Normal Distribution", International Journal of Research in Advent Technology, Volume 2, Number 9, September, Page Number 39-43, 2014. 13. Muthaiyan A & Ramesh Kumar R J, "Stochastic Model to Find the Testosterone Therapy on Functional Capacity in Congestive Heart Failure Patients Using Uniform Distribution", Aryabhatta Journal of Mathematics and Informatics, Volume 6, Number 2, Page Number 343-350, 2014. 14. Orsingher E, "Hyperbolic Equations Arising in Random Models", Stochastic Proceedings and their Applications, Page Number 49-66, 1985. 15. Orsingher E, "Probabilistic Models Connected with Wave Equations", Bulletin United Mathematics, Italiana, Page Number 423-438, 1987. 16. Orsingher E, "Probability law, flow function, maximum distribution of wave governed random motions and their connections with Kirchhoff's laws", Stochastic Proceedings and their Applications, Page Number 49-66, 1990. 17. Orsingher E, "Motions with reflecting and absorbing barriers driven by the telegraph equation", Random Operations and Stochastic Equations, Page Number 9-21, 1995. 18. Roger V L, Jacobsen S J, Weston S A, Bailey K R, Kottke T E & Frye R L, "Trends in heart disease deaths in Olmsted County Minnesota, 1979–1994", Mayo Clinical Proceedings, 1999. 19. Wingard D L, Suarez L & Barrett Connor E, "The sex differential in mortality from all causes and ischemic heart disease", American Journal of Epidemiology, Page Number 117-165, 1983. 20. Wild S H, Laws A, Fortmann S P, Varady A N & Byrne C D, "Mortality from coronary heart disease and stroke for six ethnic groups in California, 1985 to 1990", Annual Epidemiology, Volume 5, 1995. 21. Williams J E, Massing M, Rosamond W D, Sorlie P D & Tyroler H A, "Racial disparities in CHD mortality from 1968 to 1992 in the state economic areas surrounding the ARIC study communities. Atherosclerosis Risk in Communities", Annual Epidemiology, Volume 9, 1999.