Deadline for manuscript submissions: 31 March 2025

 

Special Issue Editors

Dr. Sushma Katkuri  Website  E-Mail: katkurisushma@gmail.com
Guest Editor
Malla Reddy Institute of Medical Sciences, Hyderabad, India
Interests: epidemiology, rehabilitative therapy, clinical research

Dr. Sathyanath D  Website  E-Mail: dsathyanath@gmail.com
Guest Editor
National Institute of Naturopathy, India
Interests: rehabilitation, complementary and alternative medicine, clinical research

 

Special Issue Information

Dear colleagues,

 

Physical remedy, as a important element of rehabilitation and well-being, makes use of movement-based totally interventions including yoga and healing workout to persuade musculoskeletal fitness, tissue repair, and mobile variation. The growing integration of biomechanics into bodily therapy highlights how those interventions can optimize cellular responses, selling tissue regeneration and enhancing mobility. In parallel, the Sustainable Development Goals (SDGs) pressure the importance of fitness and properly-being, making it crucial to don't forget how physical therapy practices contribute to long-term human health sustainability. The idea of SDGs emphasizes the want for ecologically sound and aid-green practices, a angle that aligns with the growing focus on sustainable fitness interventions. Similarly, improvements in cellular and molecular biomechanics now allow a deeper understanding of how bodily remedy procedures effect tissue regeneration, restoration techniques, and cellular mechanics in a sustainable way. This special difficulty invitations studies on the biomechanical, cell, and molecular responses elicited by bodily therapy techniques like yoga, with a focal point on lengthy-time period sustainability in fitness consequences. It encourages exploration of how facts-driven, dynamic evaluation of cell behavior can tell progressive healing strategies in scientific and rehabilitation settings.

 

Call for Papers:
This Special Issue seeks unique research, critiques, and theoretical or practical applications that emphasize:
•The function of biomechanical forces in physical remedy practices, consisting of yoga and stretching.
•How mechanotransduction and mobile signaling are motivated by using healing sporting activities and interventions.
•The effect of physical therapy on tissue regeneration, recuperation strategies, and cellular function.
•Data-pushed techniques to evaluate the effectiveness of therapeutic practices in enhancing sustainable fitness consequences.
•The contribution of motion-based remedy to reaching the Sustainable Development Goals for health and properly-being.
The emphasis is on integrating theoretical fashions, experimental studies, and actual-international medical outcomes to clarify how biomechanical methods in bodily therapy can foster sustainability and optimize cell and tissue-level responses.
Topics of interest encompass, but aren't restrained to:
•Cellular and molecular outcomes of healing interventions (e.G., yoga, stretching) on tissue mechanics.
•Mechanobiology of rehabilitation practices in musculoskeletal fitness.
•Sustainable methods to therapy that optimize long-time period fitness advantages.
•Innovations in healing biomechanics for persistent sickness control and rehabilitation.
•Advanced information-driven analysis of cellular responses to therapeutic motion and physical therapy protocols.
This provides an interdisciplinary platform to improve our expertise of how biomechanics may be implemented within physical remedy to assist sustainable, long-time period health upgrades.

 

This special issue of Molecular & Cellular Biomechanics focuses on the integration of biomechanics into physical therapy, exploring how therapeutic interventions such as yoga and stretching influence cellular and molecular processes. As physical therapy plays a crucial role in rehabilitation and well-being, this issue invites original research, reviews, and practical applications related to the biomechanical forces at play in therapeutic exercises, mechanotransduction, and the impact on tissue regeneration and cell function.
The issue emphasizes sustainable health outcomes, aligning with the Sustainable Development Goals (SDGs) by investigating how physical therapy can contribute to long-term human health. Research into data-driven approaches that evaluate therapeutic effectiveness in achieving sustainable health is encouraged. Topics include cellular and molecular effects of therapeutic exercises, innovations in biomechanics for chronic disease management, and sustainable approaches to rehabilitation.
This special issue aims to create an interdisciplinary platform to enhance understanding of how biomechanics can be applied in physical therapy to promote long-term health improvements. The deadline for manuscript submissions is March 31, 2025

 

Dr. Sushma Katkuri

Dr. Sathyanath D

Guest Editors

 

Keywords

biomechanics
mechanotransduction
therapeutic exercise
tissue regeneration
sustainable health

 

Published Papers