Cerebral blood velocity responses during and after sprint interval exercise in healthy young adults

E. Scott; E. Langson‐Justice; O. Smail; A. B. Lester; R. Oliveira; C. J. A. Pugh; M. E. Weston; B. O. Bond

doi:10.14814/phy2.70901

Cerebral blood velocity responses during and after sprint interval exercise in healthy young adults

E. Scott
, E. Langson‐Justice
, O. Smail
, A. B. Lester
, R. Oliveira
, C. J. A. Pugh
, M. E. Weston
, B. O. Bond^*

^*Corresponding author for this work

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

Abstract

This study investigated the middle (MCAv) and posterior (PCAv) cerebral artery blood velocity and end‐tidal carbon dioxide (PETCO2) responses during sprint interval exercise (SIE). We also examined the relationships between MCAv, PCAv and blood pressure during the 60 min post SIE. Fourteen healthy adults completed four 30 s maximal cycle sprints, each separated by 4 min of unloaded cycling. MCAv and PCAv demonstrated a rapid increase followed by a return towards the initial baseline values during each sprint. The increase during the first sprint (MCAv: +31.9% ± 19.9%, PCAv: +32.5% ± 30.6%) was always greater than subsequent sprints (p ≤ 0.039). Each sprint was followed by a transient increase in MCAv and PCAv, which mirrored PETCO2. SIE was followed by 60 min of hypocapnia, and blood pressure was significantly lowered 10–20 and 40–55 min post SIE. However, resting MCAv was not altered, and PCAv was only lower 5 min post SIE. Resting MCAv phase and gain, and PCAv phase were largely unaltered apart from the first 5 min post SIE. The ability to buffer changes in blood pressure during repeated squat‐stand maneuvers remained intact 60 min post SIE, although a greater fall in MCAv and PCAv was noted during a single sit‐to‐stand transition at this time.

Original language	English
Article number	e70901
Journal	Physiological Reports
Volume	14
Issue number	9
Early online date	1 May 2026
DOIs	https://doi.org/10.14814/phy2.70901
Publication status	Published - 1 May 2026

Keywords

autoregulation
cerebrovascular
pressure-flow relationship
repeated sprints
sprint interval exercise

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10.14814/phy2.70901

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title = "Cerebral blood velocity responses during and after sprint interval exercise in healthy young adults",

abstract = "This study investigated the middle (MCAv) and posterior (PCAv) cerebral artery blood velocity and end‐tidal carbon dioxide (PETCO2) responses during sprint interval exercise (SIE). We also examined the relationships between MCAv, PCAv and blood pressure during the 60 min post SIE. Fourteen healthy adults completed four 30 s maximal cycle sprints, each separated by 4 min of unloaded cycling. MCAv and PCAv demonstrated a rapid increase followed by a return towards the initial baseline values during each sprint. The increase during the first sprint (MCAv: +31.9\% ± 19.9\%, PCAv: +32.5\% ± 30.6\%) was always greater than subsequent sprints (p ≤ 0.039). Each sprint was followed by a transient increase in MCAv and PCAv, which mirrored PETCO2. SIE was followed by 60 min of hypocapnia, and blood pressure was significantly lowered 10–20 and 40–55 min post SIE. However, resting MCAv was not altered, and PCAv was only lower 5 min post SIE. Resting MCAv phase and gain, and PCAv phase were largely unaltered apart from the first 5 min post SIE. The ability to buffer changes in blood pressure during repeated squat‐stand maneuvers remained intact 60 min post SIE, although a greater fall in MCAv and PCAv was noted during a single sit‐to‐stand transition at this time.",

keywords = "autoregulation, cerebrovascular, pressure-flow relationship, repeated sprints, sprint interval exercise",

author = "E. Scott and E. Langson‐Justice and O. Smail and Lester, \{A. B.\} and R. Oliveira and Pugh, \{C. J. A.\} and Weston, \{M. E.\} and Bond, \{B. O.\}",

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AU - Scott, E.

AU - Langson‐Justice, E.

AU - Smail, O.

AU - Lester, A. B.

AU - Oliveira, R.

AU - Pugh, C. J. A.

AU - Weston, M. E.

AU - Bond, B. O.

PY - 2026/5/1

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N2 - This study investigated the middle (MCAv) and posterior (PCAv) cerebral artery blood velocity and end‐tidal carbon dioxide (PETCO2) responses during sprint interval exercise (SIE). We also examined the relationships between MCAv, PCAv and blood pressure during the 60 min post SIE. Fourteen healthy adults completed four 30 s maximal cycle sprints, each separated by 4 min of unloaded cycling. MCAv and PCAv demonstrated a rapid increase followed by a return towards the initial baseline values during each sprint. The increase during the first sprint (MCAv: +31.9% ± 19.9%, PCAv: +32.5% ± 30.6%) was always greater than subsequent sprints (p ≤ 0.039). Each sprint was followed by a transient increase in MCAv and PCAv, which mirrored PETCO2. SIE was followed by 60 min of hypocapnia, and blood pressure was significantly lowered 10–20 and 40–55 min post SIE. However, resting MCAv was not altered, and PCAv was only lower 5 min post SIE. Resting MCAv phase and gain, and PCAv phase were largely unaltered apart from the first 5 min post SIE. The ability to buffer changes in blood pressure during repeated squat‐stand maneuvers remained intact 60 min post SIE, although a greater fall in MCAv and PCAv was noted during a single sit‐to‐stand transition at this time.

AB - This study investigated the middle (MCAv) and posterior (PCAv) cerebral artery blood velocity and end‐tidal carbon dioxide (PETCO2) responses during sprint interval exercise (SIE). We also examined the relationships between MCAv, PCAv and blood pressure during the 60 min post SIE. Fourteen healthy adults completed four 30 s maximal cycle sprints, each separated by 4 min of unloaded cycling. MCAv and PCAv demonstrated a rapid increase followed by a return towards the initial baseline values during each sprint. The increase during the first sprint (MCAv: +31.9% ± 19.9%, PCAv: +32.5% ± 30.6%) was always greater than subsequent sprints (p ≤ 0.039). Each sprint was followed by a transient increase in MCAv and PCAv, which mirrored PETCO2. SIE was followed by 60 min of hypocapnia, and blood pressure was significantly lowered 10–20 and 40–55 min post SIE. However, resting MCAv was not altered, and PCAv was only lower 5 min post SIE. Resting MCAv phase and gain, and PCAv phase were largely unaltered apart from the first 5 min post SIE. The ability to buffer changes in blood pressure during repeated squat‐stand maneuvers remained intact 60 min post SIE, although a greater fall in MCAv and PCAv was noted during a single sit‐to‐stand transition at this time.

KW - autoregulation

KW - cerebrovascular

KW - pressure-flow relationship

KW - repeated sprints

KW - sprint interval exercise

UR - https://www.scopus.com/pages/publications/105037735527

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DO - 10.14814/phy2.70901

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SN - 2051-817X

VL - 14

JO - Physiological Reports

JF - Physiological Reports

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M1 - e70901

ER -

Cerebral blood velocity responses during and after sprint interval exercise in healthy young adults

Abstract

Keywords

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