The field of regenerative medicine, focusing on muscle regeneration following exercise-induced lesions, is dynamic and continually evolving. Intense or prolonged exercise often results in muscle wear and tear, manifesting in the form of exercise-induced lesions. To counterbalance this, our bodies deploy a complex network of regenerative pathways involving multiple biological systems. Within this network, stem cells and growth factors have emerged as pivotal players, assisting in the healing process through their regenerative and healing properties. Understanding the mechanisms of these entities within the context of muscle regeneration is imperative for developing effective therapies for muscle injuries and degenerative muscle disorders.
The primary goal of this research is to delve deeply into the complexities and dynamics of muscle regeneration after exercise-induced lesions. Central to this inquiry are stem cells and growth factors, examining their role, functionality, and interaction during the regeneration process. We aim to explore how these elements shape the regenerative pathways, striving to unlock their untapped potential which could lead to significant advancements in regenerative medicine. By unraveling this intricate interplay, we seek to contribute valuable insights to the scientific community, potentially paving the way for innovative therapeutic methods.
Potential areas of interest may include, but are not limited to:
- Exercise-induced skeletal muscle injury and regeneration
- Therapeutic strategies to accelerate force recovery following injury
- Novel molecular mechanisms implicated in skeletal muscle regeneration
- Crosstalk among biological processes or signaling pathways related to skeletal muscle regeneration
- The role of leukocytes in skeletal muscle regeneration
- The role of hormones in skeletal muscle regeneration
- Crosstalk between stem cells and growth factors, identifying key mediators and regulatory networks
- The role of the extracellular matrix and microenvironment in modulating the effects of stem cells and growth factors on muscle regeneration
- Impact of physical exercise on stem cells and growth factors in muscle regeneration
We welcome the submission of different article types to this collection, especially reviews, mini-reviews, and original research papers. For a complete list of article types that can be considered in the Exercise Physiology section, please follow this link.
Even though it is not mandatory, we encourage all interested researchers to submit a summary of their manuscript before submitting their work. These summaries do not have to coincide with the final abstract of the manuscripts.
Keywords:
regenerative medicine, exercise, stem cells, lesion, injury, recovery, muscle, regeneration
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
The field of regenerative medicine, focusing on muscle regeneration following exercise-induced lesions, is dynamic and continually evolving. Intense or prolonged exercise often results in muscle wear and tear, manifesting in the form of exercise-induced lesions. To counterbalance this, our bodies deploy a complex network of regenerative pathways involving multiple biological systems. Within this network, stem cells and growth factors have emerged as pivotal players, assisting in the healing process through their regenerative and healing properties. Understanding the mechanisms of these entities within the context of muscle regeneration is imperative for developing effective therapies for muscle injuries and degenerative muscle disorders.
The primary goal of this research is to delve deeply into the complexities and dynamics of muscle regeneration after exercise-induced lesions. Central to this inquiry are stem cells and growth factors, examining their role, functionality, and interaction during the regeneration process. We aim to explore how these elements shape the regenerative pathways, striving to unlock their untapped potential which could lead to significant advancements in regenerative medicine. By unraveling this intricate interplay, we seek to contribute valuable insights to the scientific community, potentially paving the way for innovative therapeutic methods.
Potential areas of interest may include, but are not limited to:
- Exercise-induced skeletal muscle injury and regeneration
- Therapeutic strategies to accelerate force recovery following injury
- Novel molecular mechanisms implicated in skeletal muscle regeneration
- Crosstalk among biological processes or signaling pathways related to skeletal muscle regeneration
- The role of leukocytes in skeletal muscle regeneration
- The role of hormones in skeletal muscle regeneration
- Crosstalk between stem cells and growth factors, identifying key mediators and regulatory networks
- The role of the extracellular matrix and microenvironment in modulating the effects of stem cells and growth factors on muscle regeneration
- Impact of physical exercise on stem cells and growth factors in muscle regeneration
We welcome the submission of different article types to this collection, especially reviews, mini-reviews, and original research papers. For a complete list of article types that can be considered in the Exercise Physiology section, please follow
this link.
Even though it is not mandatory, we encourage all interested researchers to submit a summary of their manuscript before submitting their work. These summaries do not have to coincide with the final abstract of the manuscripts.
Keywords:
regenerative medicine, exercise, stem cells, lesion, injury, recovery, muscle, regeneration
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.