Post-exercise hypotension after exercising in hypoxia with and without tart cherry supplementation

Research output: Contribution to journalArticlepeer-review

Standard Standard

Post-exercise hypotension after exercising in hypoxia with and without tart cherry supplementation. / Horiuchi, Masahiro; Oliver, Sam.
In: High Altitude Medicine and Biology, 26.10.2024.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

APA

CBE

MLA

VancouverVancouver

Author

RIS

TY - JOUR

T1 - Post-exercise hypotension after exercising in hypoxia with and without tart cherry supplementation

AU - Horiuchi, Masahiro

AU - Oliver, Sam

PY - 2024/10/26

Y1 - 2024/10/26

N2 - Background: This study investigated the effects of hypoxic exercise with and without tart cherry supplementation on post-exercise hypotension (PEH). Method: In a randomized order, 12 healthy young adults (9 men and 3 women) completed cycle exercise to exhaustion i) in normoxia without any supplementation (Norm), ii) in hypoxia (13% O2) with placebo (Hypo), and iii) in hypoxia with tart cherry supplementation (Hypo+TC). Supplements were supplied for 5 days pre-trial (TC was 200 mg anthocyanin per day for 4 days and 100 mg on day 5). Results: Cycle exercise total energy expenditure was greater in Norm than Hypo and Hypo+TC (P<0.001) with no difference between Hypo and Hypo+TC (P=0.41). Mean arterial pressure (MAP) decreased during recovery in all trials (main effect of time, P<0.001), with no difference in PEH between the trials (P>0.05, change (Δ) in MAP from pre-exercise at 60 min recovery, mean difference, Norm Δ-4.4 mmHg, Hypo Δ-6.1 mmHg, and Hypo+TC Δ-5.2 mmHg). Cardiac baroreflex sensitivity decreased during recovery in all trials (P<0.001) and was lower in Hypo than Norm and Hypo+TC (main effect of trial, P=0.02). Conclusion: Post-exercise hypotension was not increased after exercise in hypoxia, with or without tart cherry supplementation, compared to exercise in normoxia.

AB - Background: This study investigated the effects of hypoxic exercise with and without tart cherry supplementation on post-exercise hypotension (PEH). Method: In a randomized order, 12 healthy young adults (9 men and 3 women) completed cycle exercise to exhaustion i) in normoxia without any supplementation (Norm), ii) in hypoxia (13% O2) with placebo (Hypo), and iii) in hypoxia with tart cherry supplementation (Hypo+TC). Supplements were supplied for 5 days pre-trial (TC was 200 mg anthocyanin per day for 4 days and 100 mg on day 5). Results: Cycle exercise total energy expenditure was greater in Norm than Hypo and Hypo+TC (P<0.001) with no difference between Hypo and Hypo+TC (P=0.41). Mean arterial pressure (MAP) decreased during recovery in all trials (main effect of time, P<0.001), with no difference in PEH between the trials (P>0.05, change (Δ) in MAP from pre-exercise at 60 min recovery, mean difference, Norm Δ-4.4 mmHg, Hypo Δ-6.1 mmHg, and Hypo+TC Δ-5.2 mmHg). Cardiac baroreflex sensitivity decreased during recovery in all trials (P<0.001) and was lower in Hypo than Norm and Hypo+TC (main effect of trial, P=0.02). Conclusion: Post-exercise hypotension was not increased after exercise in hypoxia, with or without tart cherry supplementation, compared to exercise in normoxia.

M3 - Article

JO - High Altitude Medicine and Biology

JF - High Altitude Medicine and Biology

SN - 1527-0297

ER -