Research Information System
European Journal of Nuclear Medicine and Molecular Imaging, 2026 (SCI-Expanded, Scopus)
Purpose: Frailty in oncology is a major determinant of treatment toxicity and survival, and is often framed primarily as a muscle problem. Adipose tissue, however, is an active endocrine and metabolic organ, and its glycolytic activity on positron emission tomography/computed tomography with fluorodeoxyglucose (18 F-FDG PET/CT) may capture physiological vulnerability that is not reflected by body composition alone. We investigated the association between adipose glycolytic activity and frailty in older adults with solid tumours. Methods: We prospectively enrolled 104 adults (≥ 50 years) with solid malignancies (median age 63.5 years) who underwent clinical whole-body 18 F-FDG PET/CT and a comprehensive geriatric assessment on the same day. At the L3 level, adipose area and metabolic activity (SUVmean and rSUVmax; SUVp95-derived and reference-normalized hereafter referred as SUVmax for simplicity) were quantified using a deep learning segmentation pipeline (TotalSegmentator) with strict exclusion of visceral structures to isolate adipose signal. Frailty was assessed using the Clinical Frailty Scale (CFS) and the FRAIL Scale. Results: Total adipose area did not differ between frail and non-frail phenotypes (425.64 vs. 424.38 cm², p = 0.45). In contrast, adipose glycolytic activity was significantly higher in frail patients (SUVmean 0.30 vs. 0.20, p < 0.001). In multivariable logistic regression adjusted for age and sex, each 0.1-unit increase in adipose SUVmean was associated with 1.78-fold higher odds of frailty (95% CI 1.10–2.88, p = 0.002). Associations were directionally consistent across both frailty instruments. Conclusion: Adipose hypermetabolism on 18 F-FDG PET/CT, despite low absolute SUV values, appears to track frailty independently of adipose quantity, supporting a “fat heat-up” phenotype as a marker of diminished physiological reserve. Routine oncologic PET/CT may therefore provide an opportunistic, imaging-derived frailty signal that can precede overt morphological deterioration in body composition. Significance Statement: Frailty is a high-impact and frequently under-recognised driver of treatment intolerance and adverse outcomes in oncology, yet comprehensive geriatric assessment remains resource-intensive and inconsistently implemented. In this prospective cohort, adipose tissue was quantified using a fully automated Total Segmentator-based pipeline, providing an objective and reproducible measure of adipose FDG uptake at the L3 level. This single quantitative feature, already embedded in routine 18F-FDG PET/CT, aligned with frailty across two independent frailty scales and multiple geriatric assessment domains, independent of age and sex. If externally validated, adipose FDG uptake could function as an opportunistic imaging-derived frailty flag to trigger earlier geriatric input, support treatment individualisation, and enable physiologic risk stratification in trials and real-world practice.