Abstract
Background/Objectives: Sports tendinopathy management has traditionally focused on mechanical loading protocols, yet emerging evidence suggests metabolic factors significantly influence clinical outcomes and tissue adaptation responses. The aim was to systematically evaluate the impact of metabolic factors on sports tendinopathy outcomes and assess the effectiveness of advanced rehabilitation approaches that extend beyond traditional mechanical loading protocols. Methods: A comprehensive search across academic papers from Semantic Scholar corpus identified studies investigating metabolic influences and advanced rehabilitation strategies in sports tendinopathy. Inclusion criteria encompassed athletes and active individuals with chronic tendinopathy, interventions targeting metabolic factors or advanced rehabilitation techniques, and validated outcome measures. Risk of bias was assessed using RoB 2 for randomized trials and ROBINS-I for observational studies. Evidence certainty was evaluated using GRADE methodology. Results: Forty studies met inclusion criteria, comprising 5 randomized controlled trials, 9 systematic reviews, and 5 cohort studies. Metabolic syndrome significantly impaired eccentric exercise outcomes in Achilles tendinopathy (F[1,54] = 24.45, p < 0.001). Collagen-derived peptide supplementation combined with eccentric training demonstrated superior pain reduction at rest compared to exercise alone (p < 0.05). Advanced rehabilitation strategies including criteria-based progression, neuroplastic training, and staged loading protocols showed improvements in patient-reported outcomes and functional scores, with some approaches demonstrating superiority over traditional eccentric protocols. Conclusions: Metabolic factors negatively influence sports tendinopathy rehabilitation outcomes, while advanced rehabilitation approaches incorporating metabolic considerations show promise for enhancing treatment effectiveness. Integration of metabolic assessment and targeted interventions may optimize tendinopathy management beyond mechanical loading alone.