Post-exercise muscle glycogen synthesis with glucose, galactose and combined galactose-glucose ingestion

Tim Podlogar; Brandon J Shad; Alex P Seabright; Oliver J Odell; Samuel O Lord; Rafael B Salgueiro; Rita Civil; Emma L Shepherd; Patricia F Lalor; Yasir S Elhassan; Yu-Chiang Lai; David S Rowlands; Gareth A Wallis

doi:10.1152/ajpendo.00127.2022

Post-exercise muscle glycogen synthesis with glucose, galactose and combined galactose-glucose ingestion

Tim Podlogar
, Brandon J Shad
, Alex P Seabright
, Oliver J Odell
, Samuel O Lord
, Rafael B Salgueiro
, Rita Civil
, Emma L Shepherd
, Patricia F Lalor
, Yasir S Elhassan
, Yu-Chiang Lai
, David S Rowlands
, Gareth A Wallis

Research output: Contribution to journal › Article › peer-review

6 Citations (SciVal)

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Abstract

Ingested galactose can enhance postexercise liver glycogen repletion when combined with glucose but effects on muscle glycogen synthesis are unknown. In this double-blind randomized study participants [7 men and 2 women; V̇o2max: 51.1 (8.7) mL·kg-1·min-1] completed three trials of exhaustive cycling exercise followed by a 4-h recovery period, during which carbohydrates were ingested at the rate of 1.2 g·kg-1·h-1 comprising glucose (GLU), galactose (GAL) or galactose + glucose (GAL + GLU; 1:2 ratio). The increase in vastus lateralis skeletal-muscle glycogen concentration during recovery was higher with GLU relative to GAL + GLU [contrast: +50 mmol·(kg DM)-1; 95%CL 10, 89; P = 0.021] and GAL [+46 mmol·(kg DM)-1; 95%CL 8, 84; P = 0.024] with no difference between GAL + GLU and GAL [-3 mmol·(kg DM)-1; 95%CL -44, 37; P = 0.843]. Plasma glucose concentration in GLU was not significantly different vs. GAL + GLU (+ 0.41 mmol·L-1; 95%CL 0.13, 0.94) but was significantly lower than GAL (-0.75 mmol·L-1; 95%CL -1.34, -0.17) and also lower in GAL vs. GAL + GLU (-1.16 mmol·-1; 95%CL -1.80, -0.53). Plasma insulin was higher in GLU + GAL and GLU compared with GAL but not different between GLU + GAL and GLU. Plasma galactose concentration was higher in GAL compared with GLU (3.35 mmol·L-1; 95%CL 3.07, 3.63) and GAL + GLU (3.22 mmol·L-1; 95%CL 3.54, 2.90) with no difference between GLU + GAL (0.13 mmol·L-1; 95%CL -0.11, 0.37) and GLU. Compared with galactose or a galactose + glucose blend, glucose feeding was more effective in postexercise muscle glycogen synthesis. Comparable muscle glycogen synthesis was observed with galactose-glucose coingestion and exclusive galactose-only ingestion.NEW & NOTEWORTHY Postexercise galactose-glucose coingestion or exclusive galactose-only ingestion resulted in a lower rate of skeletal-muscle glycogen replenishment compared with exclusive glucose-only ingestion. Comparable muscle glycogen synthesis was observed with galactose-glucose coingestion and exclusive galactose-only ingestion.

Original language	English
Pages (from-to)	E672-E681
Journal	American Journal of Physiology
Volume	325
Issue number	6
Early online date	18 Oct 2023
DOIs	https://doi.org/10.1152/ajpendo.00127.2022
Publication status	Published - 1 Dec 2023

Bibliographical note

Keywords

exercise
nutrition
recovery
sugars

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10.1152/ajpendo.00127.2022Licence: CC BY 4.0

podlogar-et-al-2023-postexercise-muscle-glycogen-synthesis-with-glucose-galactose-and-combined-galactose-glucose
Copyright © 2023 The Authors. Licensed under Creative Commons Attribution CC-BY 4.0 (https://creativecommons.org/licenses/by/4.0/). Published by the American Physiological Society.
Final published version, 0.99 MBLicence: CC BY 4.0

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Podlogar, T., Shad, B. J., Seabright, A. P., Odell, O. J., Lord, S. O., Salgueiro, R. B., Civil, R., Shepherd, E. L., Lalor, P. F., Elhassan, Y. S., Lai, Y.-C., Rowlands, D. S., & Wallis, G. A. (2023). Post-exercise muscle glycogen synthesis with glucose, galactose and combined galactose-glucose ingestion. American Journal of Physiology, 325(6), E672-E681. https://doi.org/10.1152/ajpendo.00127.2022

@article{be4920dae55641e086a920a25e0b99a2,

title = "Post-exercise muscle glycogen synthesis with glucose, galactose and combined galactose-glucose ingestion",

abstract = "Ingested galactose can enhance postexercise liver glycogen repletion when combined with glucose but effects on muscle glycogen synthesis are unknown. In this double-blind randomized study participants [7 men and 2 women; {\.V}o2max: 51.1 (8.7) mL·kg-1·min-1] completed three trials of exhaustive cycling exercise followed by a 4-h recovery period, during which carbohydrates were ingested at the rate of 1.2 g·kg-1·h-1 comprising glucose (GLU), galactose (GAL) or galactose + glucose (GAL + GLU; 1:2 ratio). The increase in vastus lateralis skeletal-muscle glycogen concentration during recovery was higher with GLU relative to GAL + GLU [contrast: +50 mmol·(kg DM)-1; 95\%CL 10, 89; P = 0.021] and GAL [+46 mmol·(kg DM)-1; 95\%CL 8, 84; P = 0.024] with no difference between GAL + GLU and GAL [-3 mmol·(kg DM)-1; 95\%CL -44, 37; P = 0.843]. Plasma glucose concentration in GLU was not significantly different vs. GAL + GLU (+ 0.41 mmol·L-1; 95\%CL 0.13, 0.94) but was significantly lower than GAL (-0.75 mmol·L-1; 95\%CL -1.34, -0.17) and also lower in GAL vs. GAL + GLU (-1.16 mmol·-1; 95\%CL -1.80, -0.53). Plasma insulin was higher in GLU + GAL and GLU compared with GAL but not different between GLU + GAL and GLU. Plasma galactose concentration was higher in GAL compared with GLU (3.35 mmol·L-1; 95\%CL 3.07, 3.63) and GAL + GLU (3.22 mmol·L-1; 95\%CL 3.54, 2.90) with no difference between GLU + GAL (0.13 mmol·L-1; 95\%CL -0.11, 0.37) and GLU. Compared with galactose or a galactose + glucose blend, glucose feeding was more effective in postexercise muscle glycogen synthesis. Comparable muscle glycogen synthesis was observed with galactose-glucose coingestion and exclusive galactose-only ingestion.NEW \& NOTEWORTHY Postexercise galactose-glucose coingestion or exclusive galactose-only ingestion resulted in a lower rate of skeletal-muscle glycogen replenishment compared with exclusive glucose-only ingestion. Comparable muscle glycogen synthesis was observed with galactose-glucose coingestion and exclusive galactose-only ingestion.",

keywords = "exercise, nutrition, recovery, sugars",

author = "Tim Podlogar and Shad, \{Brandon J\} and Seabright, \{Alex P\} and Odell, \{Oliver J\} and Lord, \{Samuel O\} and Salgueiro, \{Rafael B\} and Rita Civil and Shepherd, \{Emma L\} and Lalor, \{Patricia F\} and Elhassan, \{Yasir S\} and Yu-Chiang Lai and Rowlands, \{David S\} and Wallis, \{Gareth A\}",

note = "Copyright {\textcopyright} 2023 The Authors. Licensed under Creative Commons Attribution CC-BY 4.0 (https://creativecommons.org/licenses/by/4.0/). Published by the American Physiological Society.",

year = "2023",

month = dec,

day = "1",

doi = "10.1152/ajpendo.00127.2022",

language = "English",

volume = "325",

pages = "E672--E681",

journal = "American Journal of Physiology",

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Podlogar, T, Shad, BJ, Seabright, AP, Odell, OJ, Lord, SO, Salgueiro, RB, Civil, R, Shepherd, EL, Lalor, PF, Elhassan, YS, Lai, Y-C, Rowlands, DS & Wallis, GA 2023, 'Post-exercise muscle glycogen synthesis with glucose, galactose and combined galactose-glucose ingestion', American Journal of Physiology, vol. 325, no. 6, pp. E672-E681. https://doi.org/10.1152/ajpendo.00127.2022

TY - JOUR

T1 - Post-exercise muscle glycogen synthesis with glucose, galactose and combined galactose-glucose ingestion

AU - Podlogar, Tim

AU - Shad, Brandon J

AU - Seabright, Alex P

AU - Odell, Oliver J

AU - Lord, Samuel O

AU - Salgueiro, Rafael B

AU - Civil, Rita

AU - Shepherd, Emma L

AU - Lalor, Patricia F

AU - Elhassan, Yasir S

AU - Lai, Yu-Chiang

AU - Rowlands, David S

AU - Wallis, Gareth A

PY - 2023/12/1

Y1 - 2023/12/1

N2 - Ingested galactose can enhance postexercise liver glycogen repletion when combined with glucose but effects on muscle glycogen synthesis are unknown. In this double-blind randomized study participants [7 men and 2 women; V̇o2max: 51.1 (8.7) mL·kg-1·min-1] completed three trials of exhaustive cycling exercise followed by a 4-h recovery period, during which carbohydrates were ingested at the rate of 1.2 g·kg-1·h-1 comprising glucose (GLU), galactose (GAL) or galactose + glucose (GAL + GLU; 1:2 ratio). The increase in vastus lateralis skeletal-muscle glycogen concentration during recovery was higher with GLU relative to GAL + GLU [contrast: +50 mmol·(kg DM)-1; 95%CL 10, 89; P = 0.021] and GAL [+46 mmol·(kg DM)-1; 95%CL 8, 84; P = 0.024] with no difference between GAL + GLU and GAL [-3 mmol·(kg DM)-1; 95%CL -44, 37; P = 0.843]. Plasma glucose concentration in GLU was not significantly different vs. GAL + GLU (+ 0.41 mmol·L-1; 95%CL 0.13, 0.94) but was significantly lower than GAL (-0.75 mmol·L-1; 95%CL -1.34, -0.17) and also lower in GAL vs. GAL + GLU (-1.16 mmol·-1; 95%CL -1.80, -0.53). Plasma insulin was higher in GLU + GAL and GLU compared with GAL but not different between GLU + GAL and GLU. Plasma galactose concentration was higher in GAL compared with GLU (3.35 mmol·L-1; 95%CL 3.07, 3.63) and GAL + GLU (3.22 mmol·L-1; 95%CL 3.54, 2.90) with no difference between GLU + GAL (0.13 mmol·L-1; 95%CL -0.11, 0.37) and GLU. Compared with galactose or a galactose + glucose blend, glucose feeding was more effective in postexercise muscle glycogen synthesis. Comparable muscle glycogen synthesis was observed with galactose-glucose coingestion and exclusive galactose-only ingestion.NEW & NOTEWORTHY Postexercise galactose-glucose coingestion or exclusive galactose-only ingestion resulted in a lower rate of skeletal-muscle glycogen replenishment compared with exclusive glucose-only ingestion. Comparable muscle glycogen synthesis was observed with galactose-glucose coingestion and exclusive galactose-only ingestion.

AB - Ingested galactose can enhance postexercise liver glycogen repletion when combined with glucose but effects on muscle glycogen synthesis are unknown. In this double-blind randomized study participants [7 men and 2 women; V̇o2max: 51.1 (8.7) mL·kg-1·min-1] completed three trials of exhaustive cycling exercise followed by a 4-h recovery period, during which carbohydrates were ingested at the rate of 1.2 g·kg-1·h-1 comprising glucose (GLU), galactose (GAL) or galactose + glucose (GAL + GLU; 1:2 ratio). The increase in vastus lateralis skeletal-muscle glycogen concentration during recovery was higher with GLU relative to GAL + GLU [contrast: +50 mmol·(kg DM)-1; 95%CL 10, 89; P = 0.021] and GAL [+46 mmol·(kg DM)-1; 95%CL 8, 84; P = 0.024] with no difference between GAL + GLU and GAL [-3 mmol·(kg DM)-1; 95%CL -44, 37; P = 0.843]. Plasma glucose concentration in GLU was not significantly different vs. GAL + GLU (+ 0.41 mmol·L-1; 95%CL 0.13, 0.94) but was significantly lower than GAL (-0.75 mmol·L-1; 95%CL -1.34, -0.17) and also lower in GAL vs. GAL + GLU (-1.16 mmol·-1; 95%CL -1.80, -0.53). Plasma insulin was higher in GLU + GAL and GLU compared with GAL but not different between GLU + GAL and GLU. Plasma galactose concentration was higher in GAL compared with GLU (3.35 mmol·L-1; 95%CL 3.07, 3.63) and GAL + GLU (3.22 mmol·L-1; 95%CL 3.54, 2.90) with no difference between GLU + GAL (0.13 mmol·L-1; 95%CL -0.11, 0.37) and GLU. Compared with galactose or a galactose + glucose blend, glucose feeding was more effective in postexercise muscle glycogen synthesis. Comparable muscle glycogen synthesis was observed with galactose-glucose coingestion and exclusive galactose-only ingestion.NEW & NOTEWORTHY Postexercise galactose-glucose coingestion or exclusive galactose-only ingestion resulted in a lower rate of skeletal-muscle glycogen replenishment compared with exclusive glucose-only ingestion. Comparable muscle glycogen synthesis was observed with galactose-glucose coingestion and exclusive galactose-only ingestion.

KW - exercise

KW - nutrition

KW - recovery

KW - sugars

UR - https://journals.physiology.org/doi/abs/10.1152/ajpendo.00127.2022

UR - https://www.scopus.com/pages/publications/85177103111

U2 - 10.1152/ajpendo.00127.2022

DO - 10.1152/ajpendo.00127.2022

M3 - Article

C2 - 37850935

SN - 0193-1849

VL - 325

SP - E672-E681

JO - American Journal of Physiology

JF - American Journal of Physiology

IS - 6

ER -

Post-exercise muscle glycogen synthesis with glucose, galactose and combined galactose-glucose ingestion

Abstract

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Keywords

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