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Experimental Spinal Cord Injury and Orthostatic Hypotension

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Conteúdo fornecido por American Physiological Society. Todo o conteúdo do podcast, incluindo episódios, gráficos e descrições de podcast, é carregado e fornecido diretamente por American Physiological Society ou por seu parceiro de plataforma de podcast. Se você acredita que alguém está usando seu trabalho protegido por direitos autorais sem sua permissão, siga o processo descrito aqui https://pt.player.fm/legal.

What is the causal relationship between high-level spinal cord injury, orthostatic hypotension and increased risk for cardiovascular disease? In this episode, Consulting Editor Patrick Osei-Owusu (Case Western Reserve University) interviews authors Christopher West (University of British Columbia) and Aaron Phillips (University of Calgary), along with expert Jill Wecht (James J. Peters VA Medical Center) about the new study by Hayes et al. High-level spinal cord injury can lead to orthostatic hypotension, a debilitating condition experienced by a substantial number of both cervical and high thoracic spinal cord injury (SCI) patients. Yet how this impacts the heart and cerebral vasculature is not well understood in this population. By creating a novel experimental animal model of lower body negative pressure, the authors were able to study how the brain vasculature and heart respond to an orthostatic challenge. Hayes et al. first quantified how much negative pressure was needed to replicate clinically-relevant orthostatic hypotension in rodents with SCI. The authors then introduced the lower body negative pressure technique, and measured cardiac pressure and volume responses in rodents with and without SCI. Finally, the authors imaged the mid-cerebral artery and analyzed step-wise reductions in blood pressure during lower body negative pressure to understand the relationship of pressure to flow in the cerebrovasculature in rodents with and without SCI. What did the authors find and what is the clinical significance of this novel experimental model of lower body negative pressure that allows for real-time micro-analysis in multiple organ systems? Listen to find out.

Brian D. Hayes, Mary Pauline Mona Fossey, Malihe-Sadat Poormasjedi-Meibod, Erin Erskine, Jan Elaine Soriano, Berkeley Scott, Ryan Rosentreter, David J. Granville, Aaron A. Phillips, and Christopher R. West Experimental high thoracic spinal cord injury impairs the cardiac and cerebrovascular response to orthostatic challenge in rats Am J Physiol Heart Circ Physiol, published September 23, 2021. DOI: 10.1152/ajpheart.00239.2021

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23 episódios

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iconCompartilhar
 

Série arquivada ("Feed inativo " status)

When? This feed was archived on September 02, 2022 19:28 (1+ y ago). Last successful fetch was on August 02, 2022 20:36 (1+ y ago)

Why? Feed inativo status. Nossos servidores foram incapazes de recuperar um feed de podcast válido por um período razoável.

What now? You might be able to find a more up-to-date version using the search function. This series will no longer be checked for updates. If you believe this to be in error, please check if the publisher's feed link below is valid and contact support to request the feed be restored or if you have any other concerns about this.

Manage episode 306188894 series 2369234
Conteúdo fornecido por American Physiological Society. Todo o conteúdo do podcast, incluindo episódios, gráficos e descrições de podcast, é carregado e fornecido diretamente por American Physiological Society ou por seu parceiro de plataforma de podcast. Se você acredita que alguém está usando seu trabalho protegido por direitos autorais sem sua permissão, siga o processo descrito aqui https://pt.player.fm/legal.

What is the causal relationship between high-level spinal cord injury, orthostatic hypotension and increased risk for cardiovascular disease? In this episode, Consulting Editor Patrick Osei-Owusu (Case Western Reserve University) interviews authors Christopher West (University of British Columbia) and Aaron Phillips (University of Calgary), along with expert Jill Wecht (James J. Peters VA Medical Center) about the new study by Hayes et al. High-level spinal cord injury can lead to orthostatic hypotension, a debilitating condition experienced by a substantial number of both cervical and high thoracic spinal cord injury (SCI) patients. Yet how this impacts the heart and cerebral vasculature is not well understood in this population. By creating a novel experimental animal model of lower body negative pressure, the authors were able to study how the brain vasculature and heart respond to an orthostatic challenge. Hayes et al. first quantified how much negative pressure was needed to replicate clinically-relevant orthostatic hypotension in rodents with SCI. The authors then introduced the lower body negative pressure technique, and measured cardiac pressure and volume responses in rodents with and without SCI. Finally, the authors imaged the mid-cerebral artery and analyzed step-wise reductions in blood pressure during lower body negative pressure to understand the relationship of pressure to flow in the cerebrovasculature in rodents with and without SCI. What did the authors find and what is the clinical significance of this novel experimental model of lower body negative pressure that allows for real-time micro-analysis in multiple organ systems? Listen to find out.

Brian D. Hayes, Mary Pauline Mona Fossey, Malihe-Sadat Poormasjedi-Meibod, Erin Erskine, Jan Elaine Soriano, Berkeley Scott, Ryan Rosentreter, David J. Granville, Aaron A. Phillips, and Christopher R. West Experimental high thoracic spinal cord injury impairs the cardiac and cerebrovascular response to orthostatic challenge in rats Am J Physiol Heart Circ Physiol, published September 23, 2021. DOI: 10.1152/ajpheart.00239.2021

  continue reading

23 episódios

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