Paul L Greenhaff

Overview

Explore the profile of Paul L Greenhaff including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 118

Citations 2841

Followers 0

Related Specialties

Physiology

Endocrinology

General Medicine

Top 10 Co-Authors

Dumitru Constantin-Teodosiu

Philip J Atherton

Francis B Stephens

Despina Constantin

Kenneth Smith

Daniel J Wilkinson

Bethan E Phillips

Nathaniel J Szewczyk

Hannah Crossland

James A Timmons

Published In

J Physiol

Am J Physiol Endocrinol Metab

Diabetes

Clin Nutr

J Appl Physiol (1985)

Affiliations

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Recent Articles

11.

Human adaptation to immobilization: Novel insights of impacts on glucose disposal and fuel utilization

Shur N, Simpson E, Crossland H, Chivaka P, Constantin D, Cordon S, et al.

J Cachexia Sarcopenia Muscle . 2022 Sep; 13(6):2999-3013. PMID: 36058634

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...

12.

Metabolic and molecular responses of human patellar tendon to concentric- and eccentric-type exercise in youth and older age

Crossland H, Brook M, Quinlan J, Franchi M, Phillips B, Wilkinson D, et al.

Geroscience . 2022 Aug; 45(1):331-344. PMID: 35948859

Exercise training can induce adaptive changes to tendon tissue both structurally and mechanically; however, the underlying compositional changes that contribute to these alterations remain uncertain in humans, particularly in the...

13.

The effects of elective abdominal surgery on protein turnover: A meta-analysis of stable isotope techniques to investigate postoperative catabolism

Jaconelli M, Greenhaff P, Atherton P, Lobo D, Brook M

Clin Nutr . 2022 Feb; 41(3):709-722. PMID: 35168004

Background & Aims: Elective surgery induces skeletal muscle wasting driven by an imbalance between muscle protein synthesis and breakdown. From examination of diverse stable isotope tracer techniques, the dynamic processes...

14.

Metabolomics as an Important Tool for Determining the Mechanisms of Human Skeletal Muscle Deconditioning

Alldritt I, Greenhaff P, Wilkinson D

Int J Mol Sci . 2021 Dec; 22(24). PMID: 34948370

Muscle deconditioning impairs both locomotor function and metabolic health, and is associated with reduced quality life and increased mortality rates. Despite an appreciation of the existence of phenomena such as...

15.

PPARα, δ and FOXO1 Gene Silencing Overturns Palmitate-Induced Inhibition of Pyruvate Oxidation Differentially in C2C12 Myotubes

Chien H, Constantin D, Greenhaff P, Constantin-Teodosiu D

Biology (Basel) . 2021 Nov; 10(11). PMID: 34827089

The molecular mechanisms by which free fatty acids (FFA) inhibit muscle glucose oxidation is still elusive. We recently showed that C2C12 myotubes treated with palmitate (PAL) presented with greater protein...

16.

Whole-body and muscle responses to aerobic exercise training and withdrawal in ageing and COPD

Latimer L, Constantin-Teodosiu D, Popat B, Constantin D, Houchen-Wolloff L, Bolton C, et al.

Eur Respir J . 2021 Sep; 59(5). PMID: 34588196

Background: Chronic obstructive pulmonary disease (COPD) patients exhibit lower peak oxygen uptake (' ), altered muscle metabolism and impaired exercise tolerance compared with age-matched controls. Whether these traits reflect muscle-level...

17.

The Regulatory Roles of PPARs in Skeletal Muscle Fuel Metabolism and Inflammation: Impact of PPAR Agonism on Muscle in Chronic Disease, Contraction and Sepsis

Crossland H, Constantin-Teodosiu D, Greenhaff P

Int J Mol Sci . 2021 Sep; 22(18). PMID: 34575939

The peroxisome proliferator-activated receptor (PPAR) family of transcription factors has been demonstrated to play critical roles in regulating fuel selection, energy expenditure and inflammation in skeletal muscle and other tissues....

18.

Review article: The aetiology of fatigue in inflammatory bowel disease and potential therapeutic management strategies

McGing J, Radford S, Francis S, Serres S, Greenhaff P, Moran G

Aliment Pharmacol Ther . 2021 Jul; 54(4):368-387. PMID: 34228817

Background: Fatigue is the inability to achieve or maintain an expected work output resulting from central or peripheral mechanisms. The prevalence of inflammatory bowel disease (IBD) fatigue can reach 86%...

19.

Potential role for pyruvate kinase M2 in the regulation of murine cardiac glycolytic flux during in vivo chronic hypoxia

Handzlik M, Tooth D, Constantin-Teodosiu D, Greenhaff P, Cole M

Biosci Rep . 2021 May; 41(6). PMID: 33973628

Carbohydrate metabolism in heart failure shares similarities to that following hypoxic exposure, and is thought to maintain energy homoeostasis in the face of reduced O2 availability. As part of these...

20.

Immobilisation induces sizeable and sustained reductions in forearm glucose uptake in just 24 h but does not change lipid uptake in healthy men

Burns A, Nixon A, Mallinson J, Cordon S, Stephens F, Greenhaff P

J Physiol . 2021 Feb; 599(8):2197-2210. PMID: 33595094

Key Points: The trajectory, magnitude and localisation of metabolic perturbations caused by immobilisation (IMM) are unresolved. Forearm glucose uptake (FGU) in response to glucose feeding was determined in healthy men...