Myosteatosis and Sarcopenic Obesity in Men Receiving Androgen Deprivation Therapy for Prostate Cancer: Rationale for Mechanism-Driven Multimodal Intervention

Background: Androgen deprivation therapy (ADT) is widely used in the management of prostate cancer (PCa) and remains a cornerstone of treatment across multiple disease settings. Although ADT con-tributes substantially to disease control, it also induces significant adverse metabolic and body composition changes. These alterations include loss of lean mass, increased fat mass, and deterio-ration in muscle quality, together contributing to a clinical phenotype consistent with sarcopenic obesity (SO). Importantly, ADT-induced SO is characterized not only by reductions in skel-etal muscle mass but also by impaired muscle quality, particularly fatty infiltration of skeletal muscle, or myosteatosis, an underrecognized but defining feature of this syndrome. Methods: This narrative review examines current evidence regarding interventions aimed at mitigating sar-copenic obesity in men treated with ADT for prostate cancer, identifies key gaps in the literature, and proposes a mechanism-driven path forward for intervention development. Results: Several exercise- and nutrition-based interventions have been evaluated in men receiving ADT and demonstrate improvements in selected outcomes such as muscle strength, body composition, and metabolic parameters. However, most studies have been limited by small sample sizes, short intervention durations, and a focus on isolated intervention components. Importantly, muscle quality and intramuscular fat infiltration (myosteatosis), a central component of sarcopenic obesity, have rarely been incorporated as biomarkers or endpoints in intervention trials targeting men re-ceiving ADT. Conclusion: Future interventions designed to mitigate SO and its associated metabolic abnormalities should evaluate comprehensive, bundled strategies initiated early during ADT and sustained long enough to capture clinically meaningful changes. Outcomes should include biomarkers of muscle mass, strength, and quality, including imaging-based measures of myosteatosis, along with metabolic syndrome markers, inflammatory mediators, functional outcomes, adherence, and quality of life. These changes should be correlated with underlying biological mechanisms such as NF-κB signal-ing and pro-inflammatory cytokines. Such data may inform future phase III trials and ultimately support clinical strategies to mitigate ADT-related sarcopenic obesity and its downstream cardi-ometabolic and oncologic consequences.