Cholesterol metabolism plays a pivotal role in the pathogenesis and progression of numerous diseases, impacting health from early adulthood through advanced age. Cholesterol is essential for various physiological functions, including cell membrane integrity, hormone production, and bile acid formation. However, imbalances in cholesterol metabolism can lead to pathological conditions. Aging, genetic predispositions, dietary habits, and lifestyle factors significantly influence cholesterol homeostasis. With advancing age, the body’s ability to regulate cholesterol levels diminishes, increasing the risk of developing cardiovascular diseases, neurodegenerative disorders like Alzheimer’s disease, chronic kidney disease, and even certain types of cancer. Understanding the complex interplay between cholesterol metabolism and these factors is crucial for devising effective therapeutic interventions.
Despite the critical role of cholesterol in disease progression, there is a notable lack of medicines that can effectively modulate cellular cholesterol metabolism. Current treatments, such as statins, primarily focus on lowering plasma cholesterol levels, which, while beneficial, do not adequately address the underlying cellular dysregulation: impaired cholesterol efflux, abnormal cholesterol distribution and accumulation, oxidative stress, mitochondrial dysfunction, and inflammatory responses. This gap in treatment options underscores the necessity for innovative approaches that target cellular cholesterol homeostasis. By developing therapies that can precisely modulate cholesterol at the cellular level, we can potentially mitigate the onset and progression of cholesterol-related diseases, offering patients more comprehensive and effective management strategies.
At Renatus, we are at the forefront of this innovative approach. Our research and development efforts are dedicated to finding novel, safe cyclodextrins (CDs) and leveraging their unique properties to target various diseases and . Our proprietary #CHOLYSER™ CDs exhibit exceptional abilities to preferentially and effectively encapsulate non-membranous cholesterol. Compared to #HPβCD (hydroxypropyl-beta-cyclodextrin), which is under clinical trials for several diseases, CHOLYSER™ CDs offer not only improved cholesterol-lowering effects but also superb safety profiles, providing a powerful means of modulating cholesterol metabolism with a wider therapeutic window. By focusing on these advanced "cholesterol modulators", or "cholesterol-lowering agents", we aim to address the unmet medical need for effective cholesterol intervention, significantly improving patient outcomes and advancing the treatment of cholesterol-related diseases.
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