About this Research Topic
In the dynamic landscape of exercise science, the pursuit of precision in exercise prescription has emerged as a cornerstone in optimizing training outcomes. This call for papers seeks to bring together cutting-edge research that explores the realms of neuromuscular and cardiovascular training, focusing on data-driven strategies that transcend traditional boundaries, ranging from elite athletes to healthy individuals and those managing chronic diseases.
Introduction:
As the title suggests, Precision Exercise Prescription revolves around a meticulous and informed approach to tailoring exercise regimens for diverse populations. This initiative explores novel methodologies, technologies, and integrated evaluation techniques that foster a comprehensive understanding of neuromuscular and cardiovascular adaptations.
Integral Evaluation and Assessment of Adaptations:
Contributions are encouraged to delve into integral evaluation and assessment techniques, shedding light on the comprehensive understanding of neuromuscular and cardiovascular adaptations. Authors are encouraged to explore innovative methodologies and metrics that transcend conventional assessments, providing a holistic view of the physiological adaptations to exercise interventions.
Integral Monitoring of Responses:
This call emphasizes research on integral monitoring of neuromuscular and cardiovascular responses during exercise. Papers elucidating real-time data acquisition methodologies, wearable technologies, and remote monitoring systems are particularly welcomed. Authors are encouraged to explore how continuous monitoring can enhance our understanding of acute responses and guide adaptive interventions tailored to individual needs.
Data-Informed Exercise Prescription:
The intersection of data science and exercise prescription is at the forefront of contemporary research. Papers discussing data-informed strategies for precision exercise prescription, particularly in the realms of strength/power and endurance objectives, are highly sought. This could include algorithms for personalized programming, machine learning applications, and innovative analytics that contribute to individualized training plans.
New Technologies in Monitoring and Assessment:
As technology continues to evolve, we invite papers showcasing the integration of new technologies in monitoring and assessing adaptations in athletes and chronic disease populations. Contributions may span areas such as Heart Rate Variability (HRV) and HR complexity (DFA alpha 1), SmO2 (muscle oxygen monitoring), VO2 (oxygen consumption by portable devices), EMG (electromyography in the field), velocity-based training, and blood flow restriction training.
In conclusion, this call for papers seeks to foster a collaborative and multidisciplinary dialogue that advances our understanding of precision exercise prescription in diverse populations. We encourage researchers, practitioners, and experts from various fields to contribute their insights, innovations, and evidence-based practices to collectively push the boundaries of knowledge in the pursuit of optimal neuromuscular and cardiovascular training outcomes. Through this collaborative effort, we aim to shape the future of exercise science, paving the way for personalized, effective, and sustainable training strategies across a spectrum of individuals ranging from elite athletes to healthy individuals and those managing chronic diseases.
Introduction:
As the title suggests, Precision Exercise Prescription revolves around a meticulous and informed approach to tailoring exercise regimens for diverse populations. This initiative explores novel methodologies, technologies, and integrated evaluation techniques that foster a comprehensive understanding of neuromuscular and cardiovascular adaptations.
Integral Evaluation and Assessment of Adaptations:
Contributions are encouraged to delve into integral evaluation and assessment techniques, shedding light on the comprehensive understanding of neuromuscular and cardiovascular adaptations. Authors are encouraged to explore innovative methodologies and metrics that transcend conventional assessments, providing a holistic view of the physiological adaptations to exercise interventions.
Integral Monitoring of Responses:
This call emphasizes research on integral monitoring of neuromuscular and cardiovascular responses during exercise. Papers elucidating real-time data acquisition methodologies, wearable technologies, and remote monitoring systems are particularly welcomed. Authors are encouraged to explore how continuous monitoring can enhance our understanding of acute responses and guide adaptive interventions tailored to individual needs.
Data-Informed Exercise Prescription:
The intersection of data science and exercise prescription is at the forefront of contemporary research. Papers discussing data-informed strategies for precision exercise prescription, particularly in the realms of strength/power and endurance objectives, are highly sought. This could include algorithms for personalized programming, machine learning applications, and innovative analytics that contribute to individualized training plans.
New Technologies in Monitoring and Assessment:
As technology continues to evolve, we invite papers showcasing the integration of new technologies in monitoring and assessing adaptations in athletes and chronic disease populations. Contributions may span areas such as Heart Rate Variability (HRV) and HR complexity (DFA alpha 1), SmO2 (muscle oxygen monitoring), VO2 (oxygen consumption by portable devices), EMG (electromyography in the field), velocity-based training, and blood flow restriction training.
In conclusion, this call for papers seeks to foster a collaborative and multidisciplinary dialogue that advances our understanding of precision exercise prescription in diverse populations. We encourage researchers, practitioners, and experts from various fields to contribute their insights, innovations, and evidence-based practices to collectively push the boundaries of knowledge in the pursuit of optimal neuromuscular and cardiovascular training outcomes. Through this collaborative effort, we aim to shape the future of exercise science, paving the way for personalized, effective, and sustainable training strategies across a spectrum of individuals ranging from elite athletes to healthy individuals and those managing chronic diseases.
Keywords: vascular, exercise, physiology
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.
