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Collagen and Vitamin C Supplementation Increases Lower Limb Rate of Force Development

Dana M. Lis, Matthew J. Jordan, Timothy Lipuma, Tayler Smith, Karine Schaal, Keith Baar

2021International Journal of Sport Nutrition and Exercise Metabolism27 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Exercise and vitamin C-enriched collagen supplementation increase collagen synthesis, potentially increasing matrix density, stiffness, and force transfer. PURPOSE: To determine whether vitamin C-enriched collagen (hydrolyzed collagen [HC] + C) supplementation improves rate of force development (RFD) alongside a strength training program. METHODS: Using a double-blinded parallel design, over 3 weeks, healthy male athletes (n = 50, 18-25 years) were randomly assigned to the intervention (HC + C; 20 g HC + 50 mg vitamin C) or placebo (20 g maltodextrin). Supplements were ingested daily 60 min prior to training. Athletes completed the same targeted maximal muscle power training program. Maximal isometric squats, countermovement jumps, and squat jumps were performed on a force plate at the same time each testing day (baseline, Tests 1, 2, and 3) to measure RFD and maximal force development. Mixed-model analysis of variance compared performance variables across the study timeline, whereas t tests were used to compare the change between baseline and Test 3. RESULTS: Over 3 weeks, maximal RFD in the HC + C group returned to baseline, whereas the placebo group remained depressed (p = .18). While both groups showed a decrease in RFD through Test 2, only the treatment group recovered RFD to baseline by Test 3 (p = .036). In the HC + C group, change in countermovement jumps eccentric deceleration impulse (p = .008) and eccentric deceleration RFD (p = .04) was improved. A strong trend was observed for lower limb stiffness assessed in the countermovement jumps (p = .08). No difference was observed in maximal force or squat jump parameters. CONCLUSION: The HC + C supplementation improved RFD in the squat and countermovement jump alongside training.

Topics & Concepts

SquatIsometric exerciseEccentricStretch shortening cycleMedicineAnalysis of varianceCountermovementRepeated measures designPlyometricsPlaceboPhysical therapyInternal medicineAnimal scienceMathematicsJumpingJumpBiologyPhysicsPhysiologyAlternative medicineQuantum mechanicsStatisticsPathologyExercise and Physiological ResponsesMuscle metabolism and nutritionSports injuries and prevention
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