Reduced Model for Female Endocrine Dynamics: Validation and Functional Variations
Authors: Erica J. Graham, No茅mie Elhadad, David Albers
Source: Mathematical Biosciences, Volume: 358, Article Number: 108979, DOI: 10.1016/j.mbs.2023.108979, April 2023
Type of Publication: Article
Abstract: A normally functioning menstrual cycle requires significant crosstalk between hormones originating in ovarian and brain tissues. Reproductive hormone dysregulation may cause abnormal function and sometimes infertility. The inherent complexity in this endocrine system is a challenge to identifying mechanisms of cycle disruption, particularly given the large number of unknown parameters in existing mathematical models. We develop a new endocrine model to limit model complexity and use simulated distributions of unknown parameters for model analysis. By employing a comprehensive model evaluation, we identify a collection of mechanisms that differentiate normal and abnormal phenotypes. We also discover an intermediate phenotype鈥攄isplaying relatively normal hormone levels and cycle dynamics鈥攖hat is grouped statistically with the irregular phenotype. Results provide insight into how clinical symptoms associated with ovulatory disruption may not be detected through hormone measurements alone.