Abstract
BACKGROUND: Cardiovascular-kidney-metabolic (CKM) syndrome, a newly defined cluster of interrelated cardiometabolic disorders, poses a global health burden. While physical activity (PA) is a cornerstone of metabolic health, its relationship with early CKM progression remains unclear. This study aims to explore the nonlinear dose-response evidence between PA and early CKM syndrome and highlights the potential PA thresholds to maximise metabolic health benefits, providing theoretical support for personalized PA guidelines. METHODS: Using data from the National Health and Nutrition Examination Survey (NHANES) 2007-2018, we analyzed 12,068 participants with early CKM (stages 0-2). Moderate-to-vigorous physical activity (MVPA) was quantified as metabolic equivalent of task (MET)*min/week. Restricted cubic splines, weighted logistic regression, and mediation analyses were employed to assess MVPA-CKM relationships and mediating roles of obesity-related indicators. Subgroup analyses evaluated heterogeneity across demographics and other core covariates. RESULTS: A L-shaped association between MVPA and early CKM risk was identified (p-non-linear < 0.001). Before the lowest point (6872 MET*min/week), any incremental increase in MVPA was associated with a reduction in early CKM risk, and moderate MVPA (600 - 12,600 MET*min/week) exerts a protective effect. Up to the threshold of 12,600 MET*min/week, MVPA continued to exhibit protective effects. The mediating effect of all the obesity-related indicators was not significant (p > 0.05). Protective effects of moderate PA were consistent across the majority subgroups, whereas an attenuation or even reversal of this protective effect was observed at excessive MVPA levels (> 12,600 MET*min/week), where outcomes statistically indistinguishable from those observed at MVPA levels below 600 MET*min/week. CONCLUSIONS: This study reveals an L-shaped association between MVPA and early CKM risk. The findings highlight the protective effects of moderate MVPA (600 - 12,600 MET*min/week) while demonstrating that higher MVPA (> 12,600 MET*min/week) may attenuate or even reverse these benefits.