In Search of Commonality: Physiological and Therapeutic Potentials of Sodium-Glucose Transport Protein 2 Inhibitors in Cardiovascular and Chronic Kidney Diseases.
Khalid Sawalha, Lana Alamat, Aakash Rana, Landon Bruich, Angel Lopez Candales
Abstract
Open AccessCardiovascular diseases (CVD), including atherosclerotic cardiovascular disease (ASCVD), remain the leading cause of disease burden across the globe, and their prevalence continues to rise outside high-income areas. Furthermore, CVD rates are now showing an upward trend in many locations where rates were previously declining. Despite all the knowledge accumulated about prevention and treatment, many issues remain unaddressed, and this gap between knowledge and prevention continues to widen. The importance of the kidneys in the whole CVD spectrum should be placed in proper perspective, as chronic kidney disease (CKD) is directly linked to the increasing age of the population and is more prevalent among individuals afflicted with obesity, hypertension, and diabetes mellitus - all conditions that influence CVD. Moreover, failure to implement detection strategies and suboptimal prevention strategies for CKD may be contributing to its overall impact on CVD mortality. Within these lines, the use of recent therapeutic interventions, such as sodium-glucose transport protein 2 inhibitors (SGLT2i), may well provide corrective effects on the heart-kidney relationship, particularly in patients with diabetes-related renal disease. Therefore, in this review, we sought to be diligent in identifying which events are responsible for triggering the first "wave" that causes initial destabilization between kidney and cardiac function. Additionally, we aim to provide a comprehensive overview of SGLT2 inhibitors and their pathophysiology in mediating the unquestionable benefits to both the heart and kidneys.