Effects of Renal Denervation on Renal Artery Function in Humans: Preliminary Study

AIM: To study the effects of RD on renal artery wall function non-invasively using magnetic resonance. METHODS AND RESULTS: 32 patients undergoing RD were included. A 3.0 Tesla magnetic resonance of the renal arteries was performed before RD and after 6-month. We quantified the vessel sharpness of b...

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Autores principales: Doltra, Adelina, Hartmann, Arthur, Stawowy, Philipp, Goubergrits, Leonid, Kuehne, Titus, Wellnhofer, Ernst, Gebker, Rolf, Schneeweis, Christopher, Schnackenburg, Bernhard, Esler, Murray, Fleck, Eckart, Kelle, Sebastian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4803336/
https://www.ncbi.nlm.nih.gov/pubmed/27003912
http://dx.doi.org/10.1371/journal.pone.0150662
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author Doltra, Adelina
Hartmann, Arthur
Stawowy, Philipp
Goubergrits, Leonid
Kuehne, Titus
Wellnhofer, Ernst
Gebker, Rolf
Schneeweis, Christopher
Schnackenburg, Bernhard
Esler, Murray
Fleck, Eckart
Kelle, Sebastian
author_facet Doltra, Adelina
Hartmann, Arthur
Stawowy, Philipp
Goubergrits, Leonid
Kuehne, Titus
Wellnhofer, Ernst
Gebker, Rolf
Schneeweis, Christopher
Schnackenburg, Bernhard
Esler, Murray
Fleck, Eckart
Kelle, Sebastian
author_sort Doltra, Adelina
collection PubMed
description AIM: To study the effects of RD on renal artery wall function non-invasively using magnetic resonance. METHODS AND RESULTS: 32 patients undergoing RD were included. A 3.0 Tesla magnetic resonance of the renal arteries was performed before RD and after 6-month. We quantified the vessel sharpness of both renal arteries using a quantitative analysis tool (Soap-Bubble®). In 17 patients we assessed the maximal and minimal cross-sectional area of both arteries, peak velocity, mean flow, and renal artery distensibility. In a subset of patients wall shear stress was assessed with computational flow dynamics. Neither renal artery sharpness nor renal artery distensibility differed significantly. A significant increase in minimal and maximal areas (by 25.3%, p = 0.008, and 24.6%, p = 0.007, respectively), peak velocity (by 16.9%, p = 0.021), and mean flow (by 22.4%, p = 0.007) was observed after RD. Wall shear stress significantly decreased (by 25%, p = 0.029). These effects were observed in blood pressure responders and non-responders. CONCLUSIONS: RD is not associated with adverse effects at renal artery level, and leads to an increase in cross-sectional areas, velocity and flow and a decrease in wall shear stress.
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spelling pubmed-48033362016-03-25 Effects of Renal Denervation on Renal Artery Function in Humans: Preliminary Study Doltra, Adelina Hartmann, Arthur Stawowy, Philipp Goubergrits, Leonid Kuehne, Titus Wellnhofer, Ernst Gebker, Rolf Schneeweis, Christopher Schnackenburg, Bernhard Esler, Murray Fleck, Eckart Kelle, Sebastian PLoS One Research Article AIM: To study the effects of RD on renal artery wall function non-invasively using magnetic resonance. METHODS AND RESULTS: 32 patients undergoing RD were included. A 3.0 Tesla magnetic resonance of the renal arteries was performed before RD and after 6-month. We quantified the vessel sharpness of both renal arteries using a quantitative analysis tool (Soap-Bubble®). In 17 patients we assessed the maximal and minimal cross-sectional area of both arteries, peak velocity, mean flow, and renal artery distensibility. In a subset of patients wall shear stress was assessed with computational flow dynamics. Neither renal artery sharpness nor renal artery distensibility differed significantly. A significant increase in minimal and maximal areas (by 25.3%, p = 0.008, and 24.6%, p = 0.007, respectively), peak velocity (by 16.9%, p = 0.021), and mean flow (by 22.4%, p = 0.007) was observed after RD. Wall shear stress significantly decreased (by 25%, p = 0.029). These effects were observed in blood pressure responders and non-responders. CONCLUSIONS: RD is not associated with adverse effects at renal artery level, and leads to an increase in cross-sectional areas, velocity and flow and a decrease in wall shear stress. Public Library of Science 2016-03-22 /pmc/articles/PMC4803336/ /pubmed/27003912 http://dx.doi.org/10.1371/journal.pone.0150662 Text en © 2016 Doltra et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Doltra, Adelina
Hartmann, Arthur
Stawowy, Philipp
Goubergrits, Leonid
Kuehne, Titus
Wellnhofer, Ernst
Gebker, Rolf
Schneeweis, Christopher
Schnackenburg, Bernhard
Esler, Murray
Fleck, Eckart
Kelle, Sebastian
Effects of Renal Denervation on Renal Artery Function in Humans: Preliminary Study
title Effects of Renal Denervation on Renal Artery Function in Humans: Preliminary Study
title_full Effects of Renal Denervation on Renal Artery Function in Humans: Preliminary Study
title_fullStr Effects of Renal Denervation on Renal Artery Function in Humans: Preliminary Study
title_full_unstemmed Effects of Renal Denervation on Renal Artery Function in Humans: Preliminary Study
title_short Effects of Renal Denervation on Renal Artery Function in Humans: Preliminary Study
title_sort effects of renal denervation on renal artery function in humans: preliminary study
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4803336/
https://www.ncbi.nlm.nih.gov/pubmed/27003912
http://dx.doi.org/10.1371/journal.pone.0150662
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