Yizhe Hu, Wen Shi, Dengrong Jiang, Li Zhao, Hanzhang Lu, Dan Wu, Zixuan Lin
{"title":"有氧运动时脑灌注、新陈代谢和血脑屏障通透性急性变化的磁共振评估。","authors":"Yizhe Hu, Wen Shi, Dengrong Jiang, Li Zhao, Hanzhang Lu, Dan Wu, Zixuan Lin","doi":"10.1002/jmri.29544","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>It remains unclear how a single bout of exercise affects brain perfusion, oxygen metabolism, and blood-brain barrier (BBB) permeability. Addressing this unresolved issue is essential to understand the acute changes in cerebral physiology induced by aerobic exercise.</p><p><strong>Purpose: </strong>To dynamically monitor the acute changes in cerebral physiology subsequent to a single aerobic exercise training session using noninvasive MRI measurements.</p><p><strong>Study type: </strong>Prospective.</p><p><strong>Population: </strong>Twenty-three healthy participants (18-35 years, 10 females/13 males) were enrolled and divided into 10-minute exercising (N = 10) and 20-minute exercising (N = 13) groups.</p><p><strong>Field strength/sequence: </strong>3.0 T/Phase Contrast (PC) MRI (gradient echo), T<sub>2</sub>-Relaxation-Under-Spin-Tagging (TRUST) MRI (gradient echo EPI), Water-Extraction-with-Phase-Contrast-Arterial-Spin-Tagging (WEPCAST) MRI (gradient echo EPI) and T<sub>1</sub>-weighted magnetization-prepared-rapid-acquisition-of-gradient-echo (MPRAGE) (gradient echo).</p><p><strong>Assessment: </strong>A baseline MR measurement plus four repeated MR measurements immediately after 10 or 20 minutes moderate running exercise. MR measurements included cerebral blood flow (CBF) as measured by PC MRI, venous oxygenation (Y<sub>v</sub>) and cerebral metabolic rate of oxygen (CMRO<sub>2</sub>) as assessed by TRUST MRI, water extraction fraction (E), and BBB permeability-surface-area product (PS) as determined by WEPCAST MRI.</p><p><strong>Statistical tests: </strong>The time dependence of the physiological parameters was studied with a linear mixed-effect model. Additionally, pairwise t-tests comparison of the physiological parameters at each time point was conducted. A P-value of <0.05 was considered statistically significant.</p><p><strong>Results: </strong>There was an initial drop (8.22 ± 2.60%) followed by a recovery in CBF after exercise, while Y<sub>v</sub> revealed a significant decrease (6.37 ± 0.92%), i.e., an increased oxygen extraction, and returned to baseline at later time points. CMRO<sub>2</sub> showed a trend of increase (5.68 ± 3.04%) and a significant interaction between time and group. In addition, E increased significantly (3.86% ± 0.89) and returned to baseline level at later time points, while PS remained elevated (13.33 ± 4.79%).</p><p><strong>Data conclusion: </strong>A single bout of moderate aerobic exercise can induce acute alterations in cerebral perfusion, metabolism, and BBB permeability.</p><p><strong>Evidence level: </strong>2 TECHNICAL EFFICACY: Stage 2.</p>","PeriodicalId":16140,"journal":{"name":"Journal of Magnetic Resonance Imaging","volume":null,"pages":null},"PeriodicalIF":3.3000,"publicationDate":"2024-08-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"MR Assessment of Acute Changes of Cerebral Perfusion, Metabolism, and Blood-Brain Barrier Permeability in Response to Aerobic Exercise.\",\"authors\":\"Yizhe Hu, Wen Shi, Dengrong Jiang, Li Zhao, Hanzhang Lu, Dan Wu, Zixuan Lin\",\"doi\":\"10.1002/jmri.29544\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>It remains unclear how a single bout of exercise affects brain perfusion, oxygen metabolism, and blood-brain barrier (BBB) permeability. Addressing this unresolved issue is essential to understand the acute changes in cerebral physiology induced by aerobic exercise.</p><p><strong>Purpose: </strong>To dynamically monitor the acute changes in cerebral physiology subsequent to a single aerobic exercise training session using noninvasive MRI measurements.</p><p><strong>Study type: </strong>Prospective.</p><p><strong>Population: </strong>Twenty-three healthy participants (18-35 years, 10 females/13 males) were enrolled and divided into 10-minute exercising (N = 10) and 20-minute exercising (N = 13) groups.</p><p><strong>Field strength/sequence: </strong>3.0 T/Phase Contrast (PC) MRI (gradient echo), T<sub>2</sub>-Relaxation-Under-Spin-Tagging (TRUST) MRI (gradient echo EPI), Water-Extraction-with-Phase-Contrast-Arterial-Spin-Tagging (WEPCAST) MRI (gradient echo EPI) and T<sub>1</sub>-weighted magnetization-prepared-rapid-acquisition-of-gradient-echo (MPRAGE) (gradient echo).</p><p><strong>Assessment: </strong>A baseline MR measurement plus four repeated MR measurements immediately after 10 or 20 minutes moderate running exercise. MR measurements included cerebral blood flow (CBF) as measured by PC MRI, venous oxygenation (Y<sub>v</sub>) and cerebral metabolic rate of oxygen (CMRO<sub>2</sub>) as assessed by TRUST MRI, water extraction fraction (E), and BBB permeability-surface-area product (PS) as determined by WEPCAST MRI.</p><p><strong>Statistical tests: </strong>The time dependence of the physiological parameters was studied with a linear mixed-effect model. Additionally, pairwise t-tests comparison of the physiological parameters at each time point was conducted. A P-value of <0.05 was considered statistically significant.</p><p><strong>Results: </strong>There was an initial drop (8.22 ± 2.60%) followed by a recovery in CBF after exercise, while Y<sub>v</sub> revealed a significant decrease (6.37 ± 0.92%), i.e., an increased oxygen extraction, and returned to baseline at later time points. CMRO<sub>2</sub> showed a trend of increase (5.68 ± 3.04%) and a significant interaction between time and group. 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MR Assessment of Acute Changes of Cerebral Perfusion, Metabolism, and Blood-Brain Barrier Permeability in Response to Aerobic Exercise.
Background: It remains unclear how a single bout of exercise affects brain perfusion, oxygen metabolism, and blood-brain barrier (BBB) permeability. Addressing this unresolved issue is essential to understand the acute changes in cerebral physiology induced by aerobic exercise.
Purpose: To dynamically monitor the acute changes in cerebral physiology subsequent to a single aerobic exercise training session using noninvasive MRI measurements.
Study type: Prospective.
Population: Twenty-three healthy participants (18-35 years, 10 females/13 males) were enrolled and divided into 10-minute exercising (N = 10) and 20-minute exercising (N = 13) groups.
Assessment: A baseline MR measurement plus four repeated MR measurements immediately after 10 or 20 minutes moderate running exercise. MR measurements included cerebral blood flow (CBF) as measured by PC MRI, venous oxygenation (Yv) and cerebral metabolic rate of oxygen (CMRO2) as assessed by TRUST MRI, water extraction fraction (E), and BBB permeability-surface-area product (PS) as determined by WEPCAST MRI.
Statistical tests: The time dependence of the physiological parameters was studied with a linear mixed-effect model. Additionally, pairwise t-tests comparison of the physiological parameters at each time point was conducted. A P-value of <0.05 was considered statistically significant.
Results: There was an initial drop (8.22 ± 2.60%) followed by a recovery in CBF after exercise, while Yv revealed a significant decrease (6.37 ± 0.92%), i.e., an increased oxygen extraction, and returned to baseline at later time points. CMRO2 showed a trend of increase (5.68 ± 3.04%) and a significant interaction between time and group. In addition, E increased significantly (3.86% ± 0.89) and returned to baseline level at later time points, while PS remained elevated (13.33 ± 4.79%).
Data conclusion: A single bout of moderate aerobic exercise can induce acute alterations in cerebral perfusion, metabolism, and BBB permeability.
期刊介绍:
The Journal of Magnetic Resonance Imaging (JMRI) is an international journal devoted to the timely publication of basic and clinical research, educational and review articles, and other information related to the diagnostic applications of magnetic resonance.