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Exploring the acute cardiovascular effects of Floatation-REST

The central nervous system (CNS) exerts a strong regulatory influence over the cardiovascular system in response to environmental demands. Floatation-REST (Reduced Environmental Stimulation Therapy) is an intervention that minimizes stimulation from the environment, yet little is known about the aut...

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Autores principales: Flux, M. C., Fine, Thomas H., Poplin, Tate, Al Zoubi, Obada, Schoenhals, William A., Schettler, Jesse, Refai, Hazem H., Naegele, Jessyca, Wohlrab, Colleen, Yeh, Hung-Wen, Lowry, Christopher A., Levine, Jason C., Smith, Ryan, Khalsa, Sahib S., Feinstein, Justin S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9780456/
https://www.ncbi.nlm.nih.gov/pubmed/36570829
http://dx.doi.org/10.3389/fnins.2022.995594
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author Flux, M. C.
Fine, Thomas H.
Poplin, Tate
Al Zoubi, Obada
Schoenhals, William A.
Schettler, Jesse
Refai, Hazem H.
Naegele, Jessyca
Wohlrab, Colleen
Yeh, Hung-Wen
Lowry, Christopher A.
Levine, Jason C.
Smith, Ryan
Khalsa, Sahib S.
Feinstein, Justin S.
author_facet Flux, M. C.
Fine, Thomas H.
Poplin, Tate
Al Zoubi, Obada
Schoenhals, William A.
Schettler, Jesse
Refai, Hazem H.
Naegele, Jessyca
Wohlrab, Colleen
Yeh, Hung-Wen
Lowry, Christopher A.
Levine, Jason C.
Smith, Ryan
Khalsa, Sahib S.
Feinstein, Justin S.
author_sort Flux, M. C.
collection PubMed
description The central nervous system (CNS) exerts a strong regulatory influence over the cardiovascular system in response to environmental demands. Floatation-REST (Reduced Environmental Stimulation Therapy) is an intervention that minimizes stimulation from the environment, yet little is known about the autonomic consequences of reducing external sensory input to the CNS. We recently found that Floatation-REST induces a strong anxiolytic effect in anxious patients while paradoxically enhancing their interoceptive awareness for cardiorespiratory sensations. To further investigate the physiologic nature of this anxiolytic effect, the present study measured acute cardiovascular changes during Floatation-REST using wireless and waterproof equipment that allowed for concurrent measurement of heart rate, heart rate variability (HRV), breathing rate, and blood pressure. Using a within-subjects crossover design, 37 clinically anxious participants with high levels of anxiety sensitivity and 20 non-anxious comparison participants were randomly assigned to undergo a 90-min session of either Floatation-REST or an exteroceptive comparison condition that entailed watching a relaxing nature film. Measures of state anxiety and serenity were collected before and after each session, while indices of autonomic activity were measured throughout each session. HRV was calculated using both time-series and frequency domain analyses. Linear mixed-effects modeling revealed a significant main effect of condition such that relative to the film condition, Floatation-REST elicited significant decreases (p < 0.001) in diastolic blood pressure, systolic blood pressure, breathing rate, and certain metrics of HRV including the standard deviation of the interbeat interval (SDNN), low-frequency HRV, and very low-frequency HRV. Heart rate showed a non-significant trend (p = 0.073) toward being lower in the float condition, especially toward the beginning of the session. The only metric that showed a significant increase during Floatation-REST was normalized high-frequency HRV (p < 0.001). The observed physiological changes were consistent across both anxious and non-anxious participants, and there were no significant group by condition interactions. Blood pressure was the only cardiac metric significantly associated with float-related reductions in state anxiety and increases in serenity. These findings suggest that Floatation-REST lowers sympathetic arousal and alters the balance of the autonomic nervous system toward a more parasympathetic state. CLINICAL TRIAL REGISTRATION: [https://clinicaltrials.gov/show/NCT03051074], identifier [NCT03051074].
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spelling pubmed-97804562022-12-24 Exploring the acute cardiovascular effects of Floatation-REST Flux, M. C. Fine, Thomas H. Poplin, Tate Al Zoubi, Obada Schoenhals, William A. Schettler, Jesse Refai, Hazem H. Naegele, Jessyca Wohlrab, Colleen Yeh, Hung-Wen Lowry, Christopher A. Levine, Jason C. Smith, Ryan Khalsa, Sahib S. Feinstein, Justin S. Front Neurosci Neuroscience The central nervous system (CNS) exerts a strong regulatory influence over the cardiovascular system in response to environmental demands. Floatation-REST (Reduced Environmental Stimulation Therapy) is an intervention that minimizes stimulation from the environment, yet little is known about the autonomic consequences of reducing external sensory input to the CNS. We recently found that Floatation-REST induces a strong anxiolytic effect in anxious patients while paradoxically enhancing their interoceptive awareness for cardiorespiratory sensations. To further investigate the physiologic nature of this anxiolytic effect, the present study measured acute cardiovascular changes during Floatation-REST using wireless and waterproof equipment that allowed for concurrent measurement of heart rate, heart rate variability (HRV), breathing rate, and blood pressure. Using a within-subjects crossover design, 37 clinically anxious participants with high levels of anxiety sensitivity and 20 non-anxious comparison participants were randomly assigned to undergo a 90-min session of either Floatation-REST or an exteroceptive comparison condition that entailed watching a relaxing nature film. Measures of state anxiety and serenity were collected before and after each session, while indices of autonomic activity were measured throughout each session. HRV was calculated using both time-series and frequency domain analyses. Linear mixed-effects modeling revealed a significant main effect of condition such that relative to the film condition, Floatation-REST elicited significant decreases (p < 0.001) in diastolic blood pressure, systolic blood pressure, breathing rate, and certain metrics of HRV including the standard deviation of the interbeat interval (SDNN), low-frequency HRV, and very low-frequency HRV. Heart rate showed a non-significant trend (p = 0.073) toward being lower in the float condition, especially toward the beginning of the session. The only metric that showed a significant increase during Floatation-REST was normalized high-frequency HRV (p < 0.001). The observed physiological changes were consistent across both anxious and non-anxious participants, and there were no significant group by condition interactions. Blood pressure was the only cardiac metric significantly associated with float-related reductions in state anxiety and increases in serenity. These findings suggest that Floatation-REST lowers sympathetic arousal and alters the balance of the autonomic nervous system toward a more parasympathetic state. CLINICAL TRIAL REGISTRATION: [https://clinicaltrials.gov/show/NCT03051074], identifier [NCT03051074]. Frontiers Media S.A. 2022-12-09 /pmc/articles/PMC9780456/ /pubmed/36570829 http://dx.doi.org/10.3389/fnins.2022.995594 Text en Copyright © 2022 Flux, Fine, Poplin, Al Zoubi, Schoenhals, Schettler, Refai, Naegele, Wohlrab, Yeh, Lowry, Levine, Smith, Khalsa and Feinstein. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neuroscience
Flux, M. C.
Fine, Thomas H.
Poplin, Tate
Al Zoubi, Obada
Schoenhals, William A.
Schettler, Jesse
Refai, Hazem H.
Naegele, Jessyca
Wohlrab, Colleen
Yeh, Hung-Wen
Lowry, Christopher A.
Levine, Jason C.
Smith, Ryan
Khalsa, Sahib S.
Feinstein, Justin S.
Exploring the acute cardiovascular effects of Floatation-REST
title Exploring the acute cardiovascular effects of Floatation-REST
title_full Exploring the acute cardiovascular effects of Floatation-REST
title_fullStr Exploring the acute cardiovascular effects of Floatation-REST
title_full_unstemmed Exploring the acute cardiovascular effects of Floatation-REST
title_short Exploring the acute cardiovascular effects of Floatation-REST
title_sort exploring the acute cardiovascular effects of floatation-rest
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9780456/
https://www.ncbi.nlm.nih.gov/pubmed/36570829
http://dx.doi.org/10.3389/fnins.2022.995594
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