Kathryn Zuj scite author profile

This review summarizes our current understanding of cerebral blood flow regulation with exposure to microgravity, outlines potential mechanisms associated with post-flight orthostatic intolerance, and proposes future directions for research and linkages with cerebrovascular disorders found in the general population. It encompasses research from cellular mechanisms (e.g. hind limb suspension: tissue, animal studies) to whole body analysis with respect to understanding human responses using space analogue studies (bed rest, parabolic flight) as well as data collected before, during, and after spaceflight. Recent evidence indicates that cerebrovascular autoregulation may be impaired in some astronauts leading to increased susceptibility to syncope upon return to a gravitational environment. The proposed review not only provides insights into the mechanisms of post-flight orthostatic intolerance, but also increases our understanding of the mechanisms associated with pathophysiological conditions (e.g. unexplained syncope) with clinical applications in relation to postural hypotension or intradialytic hypotension.

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Carotid and Femoral Artery Intima-Media Thickness During 6 Months of Spaceflight

Arbeille¹,

Provost²,

Zuj³

2016

aerosp med hum perform

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Impaired cerebrovascular autoregulation and reduced CO₂ reactivity after long duration spaceflight

Zuj

Arbeille

Shoemaker

et al. 2012

American Journal of Physiology-Heart and Circulatory Physiology

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Zuj KA, Arbeille P, Shoemaker JK, Blaber AP, Greaves DK, Xu D, Hughson RL. Impaired cerebrovascular autoregulation and reduced CO2 reactivity after long duration spaceflight. Am J Physiol Heart Circ Physiol 302: H2592-H2598, 2012. First published April 26, 2012 doi:10.1152/ajpheart.00029.2012.-Long duration habitation on the International Space Station (ISS) is associated with chronic elevations in arterial blood pressure in the brain compared with normal upright posture on Earth and elevated inspired CO2. Although results from short-duration spaceflights suggested possibly improved cerebrovascular autoregulation, animal models provided evidence of structural and functional changes in cerebral vessels that might negatively impact autoregulation with longer periods in microgravity. Seven astronauts (1 woman) spent 147 Ϯ 49 days on ISS. Preflight testing (30 -60 days before launch) was compared with postflight testing on landing day (n ϭ 4) or the morning 1 (n ϭ 2) or 2 days (n ϭ 1) after return to Earth. Arterial blood pressure at the level of the middle cerebral artery (BPMCA) and expired CO2 were monitored along with transcranial Doppler ultrasound assessment of middle cerebral artery (MCA) blood flow velocity (CBFV). Cerebrovascular resistance index was calculated as (CVRi ϭ BPMCA/CBFV). Cerebrovascular autoregulation and CO2 reactivity were assessed in a supine position from an autoregressive moving average (ARMA) model of data obtained during a test where two breaths of 10% CO2 were given four times during a 5-min period. CBFV and Doppler pulsatility index were reduced during Ϫ20 mmHg lower body negative pressure, with no differences pre-to postflight. The postflight indicator of dynamic autoregulation from the ARMA model revealed reduced gain for the CVRi response to BPMCA (P ϭ 0.017). The postflight responses to CO2 were reduced for CBFV (P ϭ 0.056) and CVRi (P ϭ 0.047). These results indicate that long duration missions on the ISS impaired dynamic cerebrovascular autoregulation and reduced cerebrovascular CO2 reactivity.transcranial Doppler ultrasound; cerebral blood flow; cerebrovascular resistance THE MICROGRAVITY environment, which causes cephalic fluid shifts with increased arterial pressure at the level of the brain relative to normal daily life on Earth (17), might cause alterations in cerebrovascular structure and function. The impact of microgravity on human cerebrovascular function has primarily been examined during and after short-duration spaceflights (2,5,8,20) with only a few measurements of cerebral blood flow velocity (CBFV) during or after long-duration flights (2, 33). During spaceflight, only modest changes in CBFV have been reported (2, 5) with small increases in cerebrovascular resistance after months in space that were speculated to reflect increased sympathetic vasoconstriction (2). Postflight CBFV in the supine posture was unchanged or slightly elevated from preflight (8,20). Postflight measurements of dynamic cerebrovascular autoregulatory indexes, reflecting vascular smooth muscl...

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Carotid and Femoral Arterial Wall Distensibility During Long-Duration Spaceflight

Arbeille¹,

Provost²,

Zuj³

2017

aerosp med hum perform

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The observed change in CA and FA stiffness indices suggest that spaceflight results in an increase in arterial stiffness. That these changes were not strongly related to measurements of IMT suggests the possibility of different mechanisms contributing to the observed results.Arbeille P, Provost R, Zuj K. Carotid and femoral arterial wall distensibility during long-duration spaceflight. Aerosp Med Hum Perform. 2017; 88(10):924-930.

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Kathryn Zuj

Measurements of jugular, portal, femoral, and calf vein cross-sectional area for the assessment of venous blood redistribution with long duration spaceflight (Vessel Imaging Experiment)

Cerebrovascular autoregulation: lessons learned from spaceflight research

Carotid and Femoral Artery Intima-Media Thickness During 6 Months of Spaceflight

Impaired cerebrovascular autoregulation and reduced CO₂ reactivity after long duration spaceflight

Carotid and Femoral Arterial Wall Distensibility During Long-Duration Spaceflight

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