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All Outputs (5)

Human adaptation to immobilization: Novel insights of impacts on glucose disposal and fuel utilization (2022)
Journal Article
Shur, N. F., Simpson, E. J., Crossland, H., Chivaka, P. K., Constantin, D., Cordon, S. M., …Greenhaff, P. L. (2022). Human adaptation to immobilization: Novel insights of impacts on glucose disposal and fuel utilization. Journal of Cachexia, Sarcopenia and Muscle, 13(6), 2999-3013. https://doi.org/10.1002/jcsm.13075

Background: Bed rest (BR) reduces whole-body insulin-stimulated glucose disposal (GD) and alters muscle fuel metabolism, but little is known about metabolic adaptation from acute to chronic BR nor the mechanisms involved, particularly when volunteers... Read More about Human adaptation to immobilization: Novel insights of impacts on glucose disposal and fuel utilization.

Major elective abdominal surgery acutely impairs lower limb muscle pyruvate dehydrogenase complex activity and mitochondrial function (2020)
Journal Article
Atkins, R., Constantin-Teodosiu, D., Varadhan, K. K., Constantin, D., Lobo, D. N., & Greenhaff, P. L. (2021). Major elective abdominal surgery acutely impairs lower limb muscle pyruvate dehydrogenase complex activity and mitochondrial function. Clinical Nutrition, 40(3), 1046-1051. https://doi.org/10.1016/j.clnu.2020.07.006

© 2020 The Author(s) Background & aims: This post hoc study aimed to determine whether major elective abdominal surgery had any acute impact on mitochondrial pyruvate dehydrogenase complex (PDC) activity and maximal mitochondrial ATP production rates... Read More about Major elective abdominal surgery acutely impairs lower limb muscle pyruvate dehydrogenase complex activity and mitochondrial function.

Impact of transcutaneous neuromuscular electrical stimulation or resistance exercise on skeletal muscle mRNA expression in COPD (2019)
Journal Article
Latimer, L., Constantin, D., Greening, N., Calvert, L., Menon, M., & Greenhaff, P. (2019). Impact of transcutaneous neuromuscular electrical stimulation or resistance exercise on skeletal muscle mRNA expression in COPD. International Journal of Chronic Obstructive Pulmonary Disease, 14, 1355-1364. https://doi.org/10.2147/COPD.S189896

Background: Voluntary resistance exercise (RE) training increases muscle mass and strength in patients with chronic obstructive pulmonary disease (COPD). Nonvolitional transcutaneous neuromuscular electrical stimulation (NMES) may be an alternative s... Read More about Impact of transcutaneous neuromuscular electrical stimulation or resistance exercise on skeletal muscle mRNA expression in COPD.

Inflammation-mediated muscle metabolic dysregulation local and remote to the site of major abdominal surgery (2017)
Journal Article
Varadhan, K. K., Constantin-Teodosiu, D., Constantin, D., Greenhaff, P. L., & Lobo, D. N. (2017). Inflammation-mediated muscle metabolic dysregulation local and remote to the site of major abdominal surgery. Clinical Nutrition, 37(6, Part A), 2178-2185. https://doi.org/10.1016/j.clnu.2017.10.020

Background & aims: Postoperative hyperglycaemia is common in patients having major surgery and is associated with adverse outcomes. This study aimed to determine whether bacteraemia contributed to postoperative systemic inflammation, and whether incr... Read More about Inflammation-mediated muscle metabolic dysregulation local and remote to the site of major abdominal surgery.

Muscle carnitine availability plays a central role in regulating fuel metabolism in the rodent (2017)
Journal Article
Porter, C., Constantin-Teodosiu, D., Constantin, D., Leighton, B., Poucher, S. M., & Greenhaff, P. L. (2017). Muscle carnitine availability plays a central role in regulating fuel metabolism in the rodent. Journal of Physiology, 595(17), 5765-5780. https://doi.org/10.1113/JP274415

The body carnitine pool is primarily confined to skeletal muscle, where it regulates carbohydrate (CHO) and fat usage. Mildronate (3-(2,2,2-trimethylhydrazinium)-propionate) inhibits carnitine synthesis and tissue uptake, but the impact of carnitine... Read More about Muscle carnitine availability plays a central role in regulating fuel metabolism in the rodent.