Background Autism spectrum disorder (ASD) is a complex neurodevelopmental condition associated with impairments in sensory processing, motor coordination, and postural control. A prominent yet underappreciated contributor to these deficits is the persistence of primitive reflexes beyond the expected developmental timeline. Reflexes such as the asymmetrical tonic neck reflex (ATNR), symmetrical tonic neck reflex (STNR), and tonic labyrinthine reflex (TLR) are brainstem-mediated automatisms that, under typical neurodevelopment, integrate within the first year of life. In children with ASD, their persistence disrupts voluntary motor control, sensory modulation, postural stability, and behavioral regulation, thereby amplifying functional limitations across daily activities. Objective This study aimed to evaluate the effectiveness of a structured 12-week reflex integration exercise program on primitive reflex inhibition, motor proficiency, and sensory processing in children with ASD aged four to 10 years. Methods An experimental pre-post interventional design was employed with a sample of 27 children (mean age 6.69 ± 2.38 years; 74.1% male) diagnosed with mild to moderate ASD, recruited through convenience sampling from a single tertiary care pediatric physiotherapy setting. Participants underwent a structured 12-week reflex integration exercise program targeting the ATNR, STNR, and TLR, delivered across four sessions per week at progressive intensities through three distinct four-week phases. Outcome measures included the Bruininks-Oseretsky Test of Motor Proficiency, Second Edition (BOT-2) for motor outcomes; the Short Sensory Profile (SSP) encompassing Sensory and Behavior subscales for sensory outcomes; and the Sally Goddard Primitive Reflex Testing Protocol for reflex inhibition. Data were analyzed using paired samples t-tests, with Cohen’s d computed to quantify effect size. Statistical significance was set at p < 0.05. Results Post-intervention findings demonstrated statistically significant improvements across all outcome domains. Motor proficiency improved markedly, with BOT-2 scores increasing from a pre-intervention mean of 32.41 ± 5.38 to a post-intervention mean of 40.93 ± 4.50. Sensory processing difficulties decreased substantially, with SSP Sensory subscale scores reducing from 57.07 ± 6.29 to 44.67 ± 4.37 and SSP Behavior subscale scores declining from 82.37 ± 7.98 to 63.00 ± 7.50. Significant bilateral inhibition of retained reflexes was demonstrated for the ATNR, STNR, and TLR. Conclusion A structured 12-week reflex integration exercise program produced clinically meaningful and statistically significant improvements in motor proficiency, sensory processing, behavioral regulation, and primitive reflex inhibition in children with ASD aged four to 10 years. The large effect sizes observed across all outcome domains underscore the neurophysiological relevance of targeting retained primitive reflexes as a foundational mechanism for broader sensorimotor development in this population. These preliminary findings suggest that reflex integration exercises may hold promise as a therapeutic component in pediatric physiotherapy for children with ASD; however, randomized controlled trials with larger samples are warranted before definitive clinical recommendations can be made.
Bijle et al. (Thu,) studied this question.