Meet the Professor 7

22 Mar 2026 13:30 14:00

201BC

Case Challenges

Chih-Yuan WangTaiwan Moderator Obesity 2026 updateObesity remains one of the most critical and rapidly evolving global health challenges entering 2026, characterized by persistently rising prevalence, expanding clinical consequences, and profound societal and economic impacts. Over the past three decades, the prevalence of overweight and obesity has more than doubled among adults and increased nearly threefold among children and adolescents worldwide, driven by complex interactions between genetic susceptibility, obesogenic environments, sedentary lifestyles, dietary transitions toward energy-dense ultra-processed foods, and broader socio-economic determinants. Projections indicate that, if current trends continue, more than half of the global adult population and a substantial proportion of children will be living with obesity within the next two decades, with particularly rapid increases occurring in low- and middle-income countries undergoing nutritional and urban transitions. This epidemiologic shift has translated into a marked escalation in obesity-related non-communicable diseases, including type 2 diabetes, cardiovascular disease, chronic kidney disease, non-alcoholic fatty liver disease, osteoarthritis, and several obesity-associated malignancies, positioning excess adiposity as a leading contributor to global morbidity, mortality, and disability-adjusted life years. Alongside the growing disease burden, the conceptual framework of obesity has undergone important refinement. While body mass index remains a pragmatic population-level screening tool, its limitations in capturing adiposity distribution and metabolic risk have prompted international efforts to redefine obesity as a chronic, relapsing disease characterized by excess or dysfunctional adipose tissue with heterogeneous clinical expression. Emerging diagnostic paradigms increasingly emphasize waist-based measures, ectopic fat accumulation, and the presence of obesity-related complications, distinguishing pre-clinical obesity from clinically manifest disease and enabling more precise risk stratification and individualized management. Therapeutically, the obesity landscape has been transformed by advances in incretin-based pharmacotherapy, particularly glucagon-like peptide-1 receptor agonists and dual or multi-agonist agents, which have demonstrated unprecedented and sustained weight reduction alongside meaningful improvements in cardiometabolic outcomes. The recent development of effective oral formulations further expands treatment accessibility and has the potential to improve long-term adherence, although challenges related to cost, equity, and health-system implementation remain substantial. Importantly, pharmacotherapy alone is insufficient to address the obesity epidemic, and contemporary management strategies emphasize multimodal, life-course approaches integrating nutritional therapy, physical activity promotion, behavioral and psychological interventions, digital health technologies, and, when appropriate, metabolic and bariatric surgery, tailored to individual risk profiles and comorbidity burdens. At the population level, global policy initiatives increasingly recognize that obesity is not solely an individual responsibility but a systems-driven condition requiring coordinated action across healthcare, education, food systems, urban planning, and regulatory environments to create supportive contexts for healthy living. Concurrently, ongoing research continues to elucidate the complex pathophysiology of obesity, including the roles of genetics, epigenetics, gut microbiota, neuroendocrine regulation, and adipose tissue inflammation, while implementation science seeks to bridge gaps between evidence and real-world practice. Collectively, the 2026 obesity update portrays a paradoxical landscape of escalating global burden alongside unprecedented scientific and therapeutic progress, underscoring that meaningful and sustainable impact will depend on integrating biomedical innovation with structural policy reform, equitable access to care, and sustained public health commitment to reverse current trajectories and improve outcomes across the lifespan.Long-Term Changes of Urinary Exosomal Peptide Levels after Thyroidectomy in Patients with Thyroid Cancer: A Prospective Observational StudyIn this prospective observational study, we investigated whether longitudinal changes in urinary exosomal peptide profiles after thyroidectomy could predict recurrence risk in patients with papillary thyroid cancer, a disease with reported recurrence rates of up to 30%. Adults older than 20 years with newly diagnosed papillary thyroid cancer who had undergone thyroidectomy were enrolled, and urine samples were collected at 12 months after study entry and again one year later for exosomal peptide identification and comparison. Seventy patients were included and stratified according to the interval between surgery and enrollment (<5 years, 5–10 years, and >10 years). During the two-year follow-up after enrollment, no recurrences were observed. Across groups and time intervals, there were no significant differences in serum protein levels or urinary exosomal peptide concentrations, and established high-risk clinical factors showed only weak correlations with these biomarkers. Collectively, these findings delineate the long-term basal fluctuation ranges of serum proteins and urinary exosomal peptides in post-thyroidectomy thyroid cancer survivors, suggesting that biomarker levels remaining within these ranges may be indicative of a lower long-term risk of recurrence in high-risk patients following thyroidectomy.

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13:30 14:00	Challenging Cases in Endocrinology Ronald MaHong Kong, China Speaker Precision Medicine in Diabetes: Perspectives from AsiaPrecision Medicine in Diabetes: Perspectives from Asia Abstract Diabetes is traditionally classified into type 1 diabetes, type 2 diabetes and gestational diabetes as the main forms of diabetes. However, there is increasing recognition that there is significant hidden heterogeneity within diabetes. Resolving this heterogeneity of diabetes can help facilitate personalized treatment and precision medicine in diabetes. For example, identification of specific monogenic forms of diabetes may facilitate tailored choices of diabetes medications. Precision diagnosis also includes the use of biomarkers to correctly identify adults presenting with autoimmune diabetes for appropriate treatment. Recent advances have included the use of clinical characteristics to empower subtyping of adult-onset diabetes through different clustering strategies. Regardless of the approach of subclassification, the essence of diabetes subtyping is to differentiate between individuals with diabetes due to different underlying pathophysiological defects, and hence have different prognosis towards complications or response to treatment. Recent advances in precision prognostics have also highlighted strategies that can identify high-risk individuals for more intensive treatment. An international consortium initiated by the American Diabetes Association and European Association for the Study of Diabetes (EASD) has reviewed the landscape for precision medicine in diabetes to map our current understanding, as well as outline future directions. The ability to resolve the heterogeneity in diabetes, and thereby provide treatment that is best tailored to the underlying pathophysiology, provides exciting opportunities to realize precision medicine in diabetes towards better patient outcomes. References 1. Leslie RD, Ma RCW, Franks PW, Nadeau KJ, Pearson ER, Redondo MJ. Understanding diabetes heterogeneity: key steps towards precision medicine in diabetes. Lancet Diabetes Endocrinol. 2023 Nov;11(11):848-860. 2. Tobias D, Merino J et al, Second International Consensus report on gaps and opportunities for the clinical translation of precision diabetes medicine. Nature Medicine 2023; 29: 2438-2457. Challenging Cases in EndocrinologyIn this meet the professor session, we will use 4-5 case scenarios to illustrate diagnostic challenges around clinical endocrinology and diabetes and discuss management strategies.

Time

Session

13:30

14:00

Challenging Cases in Endocrinology

Ronald MaHong Kong, China Speaker Precision Medicine in Diabetes: Perspectives from AsiaPrecision Medicine in Diabetes: Perspectives from Asia Abstract Diabetes is traditionally classified into type 1 diabetes, type 2 diabetes and gestational diabetes as the main forms of diabetes. However, there is increasing recognition that there is significant hidden heterogeneity within diabetes. Resolving this heterogeneity of diabetes can help facilitate personalized treatment and precision medicine in diabetes. For example, identification of specific monogenic forms of diabetes may facilitate tailored choices of diabetes medications. Precision diagnosis also includes the use of biomarkers to correctly identify adults presenting with autoimmune diabetes for appropriate treatment. Recent advances have included the use of clinical characteristics to empower subtyping of adult-onset diabetes through different clustering strategies. Regardless of the approach of subclassification, the essence of diabetes subtyping is to differentiate between individuals with diabetes due to different underlying pathophysiological defects, and hence have different prognosis towards complications or response to treatment. Recent advances in precision prognostics have also highlighted strategies that can identify high-risk individuals for more intensive treatment. An international consortium initiated by the American Diabetes Association and European Association for the Study of Diabetes (EASD) has reviewed the landscape for precision medicine in diabetes to map our current understanding, as well as outline future directions. The ability to resolve the heterogeneity in diabetes, and thereby provide treatment that is best tailored to the underlying pathophysiology, provides exciting opportunities to realize precision medicine in diabetes towards better patient outcomes. References 1. Leslie RD, Ma RCW, Franks PW, Nadeau KJ, Pearson ER, Redondo MJ. Understanding diabetes heterogeneity: key steps towards precision medicine in diabetes. Lancet Diabetes Endocrinol. 2023 Nov;11(11):848-860. 2. Tobias D, Merino J et al, Second International Consensus report on gaps and opportunities for the clinical translation of precision diabetes medicine. Nature Medicine 2023; 29: 2438-2457. Challenging Cases in EndocrinologyIn this meet the professor session, we will use 4-5 case scenarios to illustrate diagnostic challenges around clinical endocrinology and diabetes and discuss management strategies.