Dynamic Cerebral Autoregulation Is Maintained during High-Intensity Interval Exercise

Hayato Tsukamoto; Takeshi Hashimoto; Niels D Olesen; Lonnie G Petersen; Henrik Sørensen; Henning B Nielsen; Niels H Secher; Shigehiko Ogoh

doi:10.1249/MSS.0000000000001792

Dynamic Cerebral Autoregulation Is Maintained during High-Intensity Interval Exercise

Hayato Tsukamoto, Takeshi Hashimoto, Niels D Olesen, Lonnie G Petersen, Henrik Sørensen, Henning B Nielsen, Niels H Secher, Shigehiko Ogoh

7 Citations (Scopus)

Abstract

Introduction High-intensity interval exercise (HIIE) is more effective at increasing metabolic and cardiovascular health compared with moderate-intensity continuous exercise for patients with cardiovascular disease, but exhaustive high-intensity continuous exercise attenuates dynamic cerebral autoregulation (CA). This study assessed the effect of HIIE on dynamic CA. Methods Nine healthy men (age, 24 ± 3 yr; mean ± SD) warmed up at 50%-60% maximal workload (W _max ) for 5 min before HIIE including four 4-min bouts of exercise at 80%-90% W _max interspaced by four 3-min bouts at 50% to 60% W _max . Transcranial Doppler determined middle cerebral artery mean blood velocity (MCA V _mean ), and brachial artery catheterization determined mean arterial pressure (MAP). Dynamic CA was evaluated by transfer function analysis of changes in MAP and MCA V _mean . Results The HIIE increased MAP (from 92 ± 9 to 104 ± 10 mm Hg; P < 0.0125), whereas MCA V _mean did not change. Transfer function phase increased and coherence decreased during HIIE (P < 0.0125 vs rest, respectively), whereas gain was unchanged. Conclusions The results suggest that dynamic CA is unaffected during HIIE, indicating that the brain is protected from fluctuations in MAP. Thus, we propose that HIIE may be beneficial for brain-related health as maintenance of cerebral perfusion in contrast to high-intensity continuous exercise.

Original language	English
Journal	Medicine and Science in Sports and Exercise
Volume	51
Issue number	2
Pages (from-to)	372-378
Number of pages	7
ISSN	0195-9131
DOIs	https://doi.org/10.1249/MSS.0000000000001792
Publication status	Published - 1 Feb 2019

Keywords

Adult
Blood Flow Velocity
Blood Pressure
Brachial Artery/physiology
Brain/blood supply
Cerebrovascular Circulation
High-Intensity Interval Training/psychology
Homeostasis
Humans
Male
Middle Cerebral Artery/physiology
Perception
Physical Exertion
Ultrasonography, Doppler, Transcranial
Young Adult

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1249/MSS.0000000000001792

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title = "Dynamic Cerebral Autoregulation Is Maintained during High-Intensity Interval Exercise",

abstract = " Introduction High-intensity interval exercise (HIIE) is more effective at increasing metabolic and cardiovascular health compared with moderate-intensity continuous exercise for patients with cardiovascular disease, but exhaustive high-intensity continuous exercise attenuates dynamic cerebral autoregulation (CA). This study assessed the effect of HIIE on dynamic CA. Methods Nine healthy men (age, 24 ± 3 yr; mean ± SD) warmed up at 50%-60% maximal workload (W max ) for 5 min before HIIE including four 4-min bouts of exercise at 80%-90% W max interspaced by four 3-min bouts at 50% to 60% W max . Transcranial Doppler determined middle cerebral artery mean blood velocity (MCA V mean ), and brachial artery catheterization determined mean arterial pressure (MAP). Dynamic CA was evaluated by transfer function analysis of changes in MAP and MCA V mean . Results The HIIE increased MAP (from 92 ± 9 to 104 ± 10 mm Hg; P < 0.0125), whereas MCA V mean did not change. Transfer function phase increased and coherence decreased during HIIE (P < 0.0125 vs rest, respectively), whereas gain was unchanged. Conclusions The results suggest that dynamic CA is unaffected during HIIE, indicating that the brain is protected from fluctuations in MAP. Thus, we propose that HIIE may be beneficial for brain-related health as maintenance of cerebral perfusion in contrast to high-intensity continuous exercise. ",

keywords = "Adult, Blood Flow Velocity, Blood Pressure, Brachial Artery/physiology, Brain/blood supply, Cerebrovascular Circulation, High-Intensity Interval Training/psychology, Homeostasis, Humans, Male, Middle Cerebral Artery/physiology, Perception, Physical Exertion, Ultrasonography, Doppler, Transcranial, Young Adult",

author = "Hayato Tsukamoto and Takeshi Hashimoto and Olesen, {Niels D} and Petersen, {Lonnie G} and Henrik S{\o}rensen and Nielsen, {Henning B} and Secher, {Niels H} and Shigehiko Ogoh",

year = "2019",

month = feb,

day = "1",

doi = "10.1249/MSS.0000000000001792",

language = "English",

volume = "51",

pages = "372--378",

journal = "Medicine and Science in Sports and Exercise",

issn = "0195-9131",

publisher = "Lippincott Williams & Wilkins",

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T1 - Dynamic Cerebral Autoregulation Is Maintained during High-Intensity Interval Exercise

AU - Tsukamoto, Hayato

AU - Hashimoto, Takeshi

AU - Olesen, Niels D

AU - Petersen, Lonnie G

AU - Sørensen, Henrik

AU - Nielsen, Henning B

AU - Secher, Niels H

AU - Ogoh, Shigehiko

PY - 2019/2/1

Y1 - 2019/2/1

N2 - Introduction High-intensity interval exercise (HIIE) is more effective at increasing metabolic and cardiovascular health compared with moderate-intensity continuous exercise for patients with cardiovascular disease, but exhaustive high-intensity continuous exercise attenuates dynamic cerebral autoregulation (CA). This study assessed the effect of HIIE on dynamic CA. Methods Nine healthy men (age, 24 ± 3 yr; mean ± SD) warmed up at 50%-60% maximal workload (W max ) for 5 min before HIIE including four 4-min bouts of exercise at 80%-90% W max interspaced by four 3-min bouts at 50% to 60% W max . Transcranial Doppler determined middle cerebral artery mean blood velocity (MCA V mean ), and brachial artery catheterization determined mean arterial pressure (MAP). Dynamic CA was evaluated by transfer function analysis of changes in MAP and MCA V mean . Results The HIIE increased MAP (from 92 ± 9 to 104 ± 10 mm Hg; P < 0.0125), whereas MCA V mean did not change. Transfer function phase increased and coherence decreased during HIIE (P < 0.0125 vs rest, respectively), whereas gain was unchanged. Conclusions The results suggest that dynamic CA is unaffected during HIIE, indicating that the brain is protected from fluctuations in MAP. Thus, we propose that HIIE may be beneficial for brain-related health as maintenance of cerebral perfusion in contrast to high-intensity continuous exercise.

AB - Introduction High-intensity interval exercise (HIIE) is more effective at increasing metabolic and cardiovascular health compared with moderate-intensity continuous exercise for patients with cardiovascular disease, but exhaustive high-intensity continuous exercise attenuates dynamic cerebral autoregulation (CA). This study assessed the effect of HIIE on dynamic CA. Methods Nine healthy men (age, 24 ± 3 yr; mean ± SD) warmed up at 50%-60% maximal workload (W max ) for 5 min before HIIE including four 4-min bouts of exercise at 80%-90% W max interspaced by four 3-min bouts at 50% to 60% W max . Transcranial Doppler determined middle cerebral artery mean blood velocity (MCA V mean ), and brachial artery catheterization determined mean arterial pressure (MAP). Dynamic CA was evaluated by transfer function analysis of changes in MAP and MCA V mean . Results The HIIE increased MAP (from 92 ± 9 to 104 ± 10 mm Hg; P < 0.0125), whereas MCA V mean did not change. Transfer function phase increased and coherence decreased during HIIE (P < 0.0125 vs rest, respectively), whereas gain was unchanged. Conclusions The results suggest that dynamic CA is unaffected during HIIE, indicating that the brain is protected from fluctuations in MAP. Thus, we propose that HIIE may be beneficial for brain-related health as maintenance of cerebral perfusion in contrast to high-intensity continuous exercise.

KW - Adult

KW - Blood Flow Velocity

KW - Blood Pressure

KW - Brachial Artery/physiology

KW - Brain/blood supply

KW - Cerebrovascular Circulation

KW - High-Intensity Interval Training/psychology

KW - Homeostasis

KW - Humans

KW - Male

KW - Middle Cerebral Artery/physiology

KW - Perception

KW - Physical Exertion

KW - Ultrasonography, Doppler, Transcranial

KW - Young Adult

U2 - 10.1249/MSS.0000000000001792

DO - 10.1249/MSS.0000000000001792

M3 - Journal article

C2 - 30252775

SN - 0195-9131

VL - 51

SP - 372

EP - 378

JO - Medicine and Science in Sports and Exercise

JF - Medicine and Science in Sports and Exercise

IS - 2

ER -

Dynamic Cerebral Autoregulation Is Maintained during High-Intensity Interval Exercise

Abstract

Keywords

UN SDGs

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