Published December 24, 2020 | Version v1
Journal article Open

STOCHASTIC MODEL TO FIND THE ADRENOCORTICOTROPIC HORMONE ON CORTISOL AND DHEA'S PRODUCTION THROUGH HAMILTON JACOBI BELLMANN EQUATIONS USING NORMAL DISTRIBUTION

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 adrenal glands are the primary source of minerocorticoids, glucocorticoids, and the so called adrenal androgens. Under physiological conditions, cortisol and adrenal androgen synthesis are controlled primarily by ACTH. Although it has been established that ACTH can stimulate steroidogenesis, the effects of ACTH on overall gene expression in human adrenal cells have not been established. In this paper, we estimate the Adrenocorticotropic Hormone on cortisol and Dehydroepiandrosterone Sulfate (DHEA’s) production through Hamilton Jacobi-Bellmann equation using stochastic analysis.

Files

185.pdf

Files (513.3 kB)

Name Size Download all
md5:0aad05dd005f9cd87d10e585da176f47
513.3 kB Preview Download

Additional details

References

  • 1. Banerjee S, Dhar G, Haque I, Kambhampati S, Mehta S, Sengupta K, Tawfik O, Phillips T A & Banerjee S K, "CCN5/WISP-2 expression in breast adenocarcinoma is associated with less frequent progression of the disease and suppresses the invasive phenotypes of tumor cells", Cancer Research, Volume 68, Page Number 7606–7612, 2008. 2. Cecim M, Alvarez Sanz M, Van de Kar L, Milton S & Bartke A, "Increased plasma corticosterone levels in bovine growth hormone (bGH) transgenic mice: effects of ACTH, GH and IGF-I on in vitro adrenal corticosterone production", Transgenic Research, Volume 5, Page Number 187–192, 1996. 3. Gaillard I, Keramidas M, Liakos P, Vilgrain I, Feige J J & Vittet D, "ACTH-regulated expression of vascular endothelial growth factor in the adult bovine adrenal cortex: a possible role in the maintenance of the microvasculature", Journal of Cellular Physiology, Volume 185, Page Number 226–234, 2000. 4. Kim T S & Omberg E, "Dynamic nonmyopic portfolio behavior", The Review of Financial Studies, Volume 9, Page Number 141-161. 1996. 5. Korn R & Kraft H, "On the stability of continuous-time portfolio problems with stochastic opportunity set", Mathematical Finance, Volume 14, Page Number 403-413, 2004. 6. Le Roy C, Li J Y, Stocco D M, Langlois D & Saez J M, "Regulation by adrenocorticotropin (ACTH), angiotensin II, transforming growth factor-b, and insulin-like growth factor I of bovine adrenal cell steroidogenic capacity and expression of ACTH receptor, steroidogenic acute regulatory protein, cytochrome P450c17, and 3b-hydroxysteroid dehydrogenase", Endocrinology, Volume 141, Page Number 1599–1607, 2000. 7. Markowska A, Rebuffat P, Rocco S, Gottardo G, Mazzocchi G & Nussdorfer G G, "Evidence that an extrahypothalamic pituitary corticotrophin releasing hormone (CRH) adrenocorticotropin (ACTH) system controls adrenal growth and secretion in rats", Cell and Tissue Research, Volume 272, Page Number 439–445, 1993. 8. Merton R, "Life time portfolio selection under uncertainty: The continuous time case", Review of Economics and Statistics, Volume 51, Page Number 247-257, 1969. 9. Neri G, Andreis P G & Nussdorfer G G, "Comparison of ACTH and corticotrophin releasing hormone effects on rat adrenal steroidogenesis in vitro", Research in Experimental Medicine, Volume 191, Page Number 291–295, 1991. 10. Senthil Kumar P, Balasubramanian K & Dinesh Kumar A, "A New Mathematical Model to Estimate the Effects of Lipid Induced Insulin Resistance on UPR mRNA Using Normal Distribution", International Journal for Research in Applied Science & Engineering Technology (IJRASET), Volume 3, Issue 9, Page Number 124-130, 2015. 11. Senthil Kumar P, Balasubramanian K & Dinesh Kumar A, "A New Stochastic Model to Find the Insulin Secretion from Human Islets Using Exponential Distribution", IJRDO Journal of Mathematics, Volume 1, Issue 3, Page Number 72-79, 2015. 12. Senthil Kumar P, Balasubramanian K & Dinesh Kumar A, "Stochastic Model to Estimate the Changes in Plasma Insulin and FFAs During OLTT and OGTT Using Normal Distribution", Bulletin of Mathematics and Statistics Research, Volume 3, Issue 3, Page Number 10-16, 2015. 13. Senthil Kumar P, Balasubramanian K & Dinesh Kumar A, "Stochastic Model to Estimate the Insulin Secretion Using Normal Distribution", Arya Bhatta Journal of Mathematics and Informatics (ABJMI), Volume 7, Issue 2, Page Number 277-282, 2015 14. Senthil Kumar P, Abirami R & Dinesh Kumar A, "Fuzzy Model for the Effect of rhIL6 Infusion on Growth Hormone", International Conference on Advances in Applied Probability, Graph Theory and Fuzzy Mathematics (ICAPGF), Proceedings Page Number 246-252, 2014. 15. Senthil Kumar P, Dinesh Kumar A & Vasuki M, "Stochastic Model to Find the Effect of Gallbladder Contraction Result Using Uniform Distribution", Arya Bhatta Journal of Mathematics and Informatics (ABJMI), Volume 6, Issue 2, Page Number 323-328, 2014. 16. Simmonds P J, Phillips I D, Poore K R, Coghill I D, Young I R & Canny B J, "The role of the pituitary gland and ACTH in the regulation of mRNAs encoding proteins essential for adrenal steroidogenesis in the late-gestation ovine fetus", Journal of Endocrinology, Volume 168, Page Number 475–485, 2001. 17. Toshiki Honda & Shoji Kamimura, "On the verification theorems of continuous time optimal portfolio problems with stochastic market price of risk", Citation, Volume 1443, Page Number 144-150, 2005. 18. Yewei Xing, Richard Parker C, Michael Edwards & William E Rainey, "ACTH is a potent regulator of gene expression in human adrenal cells", Journal of Molecular Endocrinology, Volume 45, Page Number 59–68, 2010. 19. "An intertemporal capital asset pricing model", Econometrica, Volume 41, Page Number 867-887. 1973. 20. "Optimum consumption and portfolio rules in a continuous time model", Journal of Economic Theory, Volume 3, Page Number 373-413, 1971.