Comparative Study of Effects of Neuromuscular Warmup vs Conventional Warmup in Recreational Gym Population

Overview

* Impaired balance or insufficient strength may increase the risk of musculoskeletal injuries among recreational enthusiasts. Warm-up protocols are an essential component of exercise preparation, aiming to enhance performance and reduce the risk of injury among physically active individuals. * Neuromuscular warm-up protocols are designed to stimulate the sensorimotor system by integrating balance, coordination, strength, and proprioceptive exercises. These protocols enhance neuromuscular control, joint stability, and muscle activation, which are critical for dynamic movements performed during gym-based training and functional activities. * Similarly, Conventional warm-up protocols consist of light aerobic activity and static or dynamic stretching. These protocols enhance blood flow and muscle flexibility. * Dynamic balance refers to the ability to maintain postural control while performing movement tasks and is a key determinant of athletic performance and injury prevention. * Strength is an essential component for functional performance and is commonly assessed through Counter jump movement tests. * This study aims to compare the effects of a neuromuscular warm-up versus a conventional warm-up on dynamic balance and strength among recreational gym enthusiasts. The findings may help create a more effective warm-up strategy for improving performance in recreational enthusiasts.

Experimental Group (Neuromuscular Warm-up Protocol): Participants assigned to the experimental group underwent a structured neuromuscular warm-up (NM-W) program before their routine gym training sessions. The intervention was conducted four times per week over a period of six weeks, with each warm-up session lasting approximately 10-12 minutes at a low to moderate intensity. The protocol began with a light aerobic phase, consisting of treadmill jogging at 50-60% of maximum heart rate for two minutes, followed by dynamic mobility exercises such as arm circles and leg swings. This was followed by a core activation and strengthening phase, which included front planks, side planks, and single-leg glute bridges aimed at enhancing trunk stability and proximal muscle control. The final phase focused on balance and plyometric activities, including single-leg balance with eyes closed, step-ups, BOSU mini squats, and diagonal hopping drills combined with medicine-ball interception gestures. This neuromuscular warm-up protocol was specifically designed to improve neuromuscular integration, enhance dynamic balance, and increase muscular strength prior to resistance-based training. Control Group ( conventional warmup Protocol): Participants allocated to the control group received a conventional (traditional) warm-up protocol prior to their routine workout sessions. The warm-up was performed four times per week for six weeks same as in experimental group, with each session lasting approximately 12 minutes, matching the frequency and duration of the experimental group. The conventional warm-up consisted of a general aerobic component aimed at increasing body temperature and heart rate, followed by dynamic mobility exercises. The aerobic phase included treadmill jogging at 50-60% of maximum heart rate for approximately five minutes, after which participants performed dynamic movements such as leg swings, dynamic hip circles, arm swings, high knees, and butt kicks. The overall intensity of the warm-up was maintained at a low to moderate level (RPE 4-5). This protocol was intended to enhance blood circulation, improve muscle flexibility, and prepare the musculoskeletal system for subsequent exercise, without targeting specific neuromuscular, balance, or plyometric training components.