Reversible effect of castration induced hypogonadism on the morphology of the left coronary arteries in adult male rabbits.
Duncan AnangweMoses Obimbo MadadiIbsen Henric OngidiPeter Bundi GichangiPublished in: Anatomy & cell biology (2023)
Hypogonadism is associated with an increased risk of coronary artery disease. This study sought to describe the histomorphology of the left coronary arteries of the adult male rabbit following orchiectomy and subsequent testosterone administration. We included 20 adult male rabbits, divided into a baseline group (n=2), an interventional group subjected to castration only (n=6), an intervention group subjected to castration followed by testosterone injection (n=6), and a control group (n=6). Key variables under investigation were serum testosterone levels, the intima-media thickness of coronary arteries, smooth muscle cell density, and adventitial collagen fiber density. The mean coronary arteries' intimal medial thickness was significantly higher in the castrated group than in controls (0.488 mm and 0.388 mm, respectively), while the testosterone-injected group had a mean of 0.440 mm. Mean smooth muscle cell density was significantly lower in the castrated rabbits versus controls (26.96% and 47.80%, respectively), this observation being reversed with testosterone injection (47.53%). Mean adventitial collagen fiber density was significantly higher in the castrated group than in controls (66.6% and 36.1%, respectively), with a marginal difference after testosterone injection (65.2%). This study demonstrates that castration-induced hypogonadism causes morphological changes in the coronary arteries that are partly reversible using testosterone injections. These findings provide a morphological basis for understanding the role of testosterone in coronary arteries.
Keyphrases
- replacement therapy
- coronary artery disease
- smooth muscle
- coronary artery
- smoking cessation
- percutaneous coronary intervention
- randomized controlled trial
- single cell
- aortic stenosis
- cardiovascular events
- stem cells
- young adults
- cell therapy
- mesenchymal stem cells
- diabetic rats
- transcatheter aortic valve replacement