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Dr Caillaud is an active academic member of the Faculty of Health Sciences and the Charles Perkins Centre at the University of Sydney. Her area of expertise lies in the field of exercise physiology with a special interest in energy metabolism and stress responses in relation to health outcomes. In particular, her work investigating the metabolic effect of erythropoietin (EPO) has contributed knew knowledge to the field and to a better understanding of EPO’s mechanism of action in metabolic tissues. Dr Caillaud has also researched how thermal environment such as heat exposure or cryotherapy treatment can modulate heat shock protein response and participate to metabolic adaptations. Her research projects investigate the effect of different interventions including physical exercise, heat/cold stress, and diet manipulation in both human and animal models
More recently, Dr Caillaud research also focused on the use of human centred technologies such as portable sensors with the aim to better characterise physical activity, metabolic adaptations and environmental stressors in humans “on the go”. She is currently developing research projects investigating how technology can help understand human adaptation in “real environment” and assist people to engage in healthy behaviours leading to improved metabolic health.
Dr Caillaud is also committed to enhance the student learning experience and to support students in developing professional skills. Her current projects in education include developing a model for flipped classroom in health sciences, peer-mentoring and developing professional communication skills.
Dr Caillaud is an active academic member of the Faculty of Health Sciences and the Charles Perkins Centre at the University of Sydney. Her area of expertise lies in the field of exercise physiology with a special interest in energy metabolism and stress responses in relation to health outcomes. In particular, her work investigating the metabolic effect of erythropoietin (EPO) has contributed knew knowledge to the field and to a better understanding of EPO’s mechanism of action in metabolic tissues. Dr Caillaud has also researched how thermal environment such as heat exposure or cryotherapy treatment can modulate heat shock protein response and participate to metabolic adaptations. Her research projects investigate the effect of different interventions including physical exercise, heat/cold stress, and diet manipulation in both human and animal models
More recently, Dr Caillaud research also focused on the use of human centred technologies such as portable sensors with the aim to better characterise physical activity, metabolic adaptations and environmental stressors in humans “on the go”. She is currently developing research projects investigating how technology can help understand human adaptation in “real environment” and assist people to engage in healthy behaviours leading to improved metabolic health.
Dr Caillaud is also committed to enhance the student learning experience and to support students in developing professional skills. Her current projects in education include developing a model for flipped classroom in health sciences, peer-mentoring and developing professional communication skills.
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论文共 120 篇作者统计合作学者相似作者
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Solene Bertrand-Protat,Juliana Chen, Aurélie Jonquoy,Stéphane Frayon,Si Thu Win Tin,Amerita Ravuvu,Corinne Caillaud,Olivier Galy
Open Research Europe (2023): 52-52
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AMERICAN JOURNAL OF HYPERTENSIONno. 7 (2023): 372-384
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Journal of diabetesno. 12 (2023): 1048-1069
Patrizia Natale, Sharon Chen,Clara K. Chow, Ngai Wah Cheung,David Martinez‐Martin,Corinne Caillaud,Nicole Scholes‐Robertson,Ayano Kelly,Jonathan C. Craig,Giovanni Strippoli,Allison Jaure
Journal of Diabetesno. 12 (2023): 1048-1069
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