Super-Resolution Imaging with Ultrasound for Visualization of the Renal Microvasculature in Rats Before and After Renal Ischemia: A Pilot Study

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Standard

Super-Resolution Imaging with Ultrasound for Visualization of the Renal Microvasculature in Rats Before and After Renal Ischemia : A Pilot Study. / Andersen, Sofie Bech; Taghavi, Iman; Hoyos, Carlos Armando Villagómez; Søgaard, Stinne Byrholdt; Gran, Fredrik; Lönn, Lars; Hansen, Kristoffer Lindskov; Jensen, Jørgen Arendt; Nielsen, Michael Bachmann; Sørensen, Charlotte Mehlin.

I: Diagnostics, Bind 10, Nr. 11, 862, 2020.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Andersen, SB, Taghavi, I, Hoyos, CAV, Søgaard, SB, Gran, F, Lönn, L, Hansen, KL, Jensen, JA, Nielsen, MB & Sørensen, CM 2020, 'Super-Resolution Imaging with Ultrasound for Visualization of the Renal Microvasculature in Rats Before and After Renal Ischemia: A Pilot Study', Diagnostics, bind 10, nr. 11, 862. https://doi.org/10.3390/diagnostics10110862

APA

Andersen, S. B., Taghavi, I., Hoyos, C. A. V., Søgaard, S. B., Gran, F., Lönn, L., Hansen, K. L., Jensen, J. A., Nielsen, M. B., & Sørensen, C. M. (2020). Super-Resolution Imaging with Ultrasound for Visualization of the Renal Microvasculature in Rats Before and After Renal Ischemia: A Pilot Study. Diagnostics, 10(11), [862]. https://doi.org/10.3390/diagnostics10110862

Vancouver

Andersen SB, Taghavi I, Hoyos CAV, Søgaard SB, Gran F, Lönn L o.a. Super-Resolution Imaging with Ultrasound for Visualization of the Renal Microvasculature in Rats Before and After Renal Ischemia: A Pilot Study. Diagnostics. 2020;10(11). 862. https://doi.org/10.3390/diagnostics10110862

Author

Andersen, Sofie Bech ; Taghavi, Iman ; Hoyos, Carlos Armando Villagómez ; Søgaard, Stinne Byrholdt ; Gran, Fredrik ; Lönn, Lars ; Hansen, Kristoffer Lindskov ; Jensen, Jørgen Arendt ; Nielsen, Michael Bachmann ; Sørensen, Charlotte Mehlin. / Super-Resolution Imaging with Ultrasound for Visualization of the Renal Microvasculature in Rats Before and After Renal Ischemia : A Pilot Study. I: Diagnostics. 2020 ; Bind 10, Nr. 11.

Bibtex

@article{4238a9aa2b6b42d499956b6915aa5f46,
title = "Super-Resolution Imaging with Ultrasound for Visualization of the Renal Microvasculature in Rats Before and After Renal Ischemia: A Pilot Study",
abstract = "In vivo monitoring of the microvasculature is relevant since diseases such as diabetes, ischemia, or cancer cause microvascular impairment. Super-resolution ultrasound imaging allows in vivo examination of the microvasculature by detecting and tracking sparsely distributed intravascular microbubbles over a minute-long period. The ability to create detailed images of the renal vasculature of Sprague-Dawley rats using a modified clinical ultrasound platform was investigated in this study. Additionally, we hypothesized that early ischemic damage to the renal microcirculation could be visualized. After a baseline scan of the exposed kidney, 10 rats underwent clamping of the renal vein (n = 5) or artery (n = 5) for 45 min. The kidneys were rescanned at the onset of clamp release and after 60 min of reperfusion. Using a processing pipeline for tissue motion compensation and microbubble tracking, super-resolution images with a very high level of detail were constructed. Image filtration allowed further characterization of the vasculature by isolating specific vessels such as the ascending vasa recta with a 15-20 μm diameter. Using the super-resolution images alone, it was only possible for six assessors to consistently distinguish the healthy renal microvasculature from the microvasculature at the onset of vein clamp release. Future studies will aim at attaining quantitative estimations of alterations in the renal microvascular blood flow using super-resolution ultrasound imaging.",
author = "Andersen, {Sofie Bech} and Iman Taghavi and Hoyos, {Carlos Armando Villag{\'o}mez} and S{\o}gaard, {Stinne Byrholdt} and Fredrik Gran and Lars L{\"o}nn and Hansen, {Kristoffer Lindskov} and Jensen, {J{\o}rgen Arendt} and Nielsen, {Michael Bachmann} and S{\o}rensen, {Charlotte Mehlin}",
year = "2020",
doi = "10.3390/diagnostics10110862",
language = "English",
volume = "10",
journal = "Diagnostics",
issn = "2075-4418",
publisher = "MDPI AG",
number = "11",

}

RIS

TY - JOUR

T1 - Super-Resolution Imaging with Ultrasound for Visualization of the Renal Microvasculature in Rats Before and After Renal Ischemia

T2 - A Pilot Study

AU - Andersen, Sofie Bech

AU - Taghavi, Iman

AU - Hoyos, Carlos Armando Villagómez

AU - Søgaard, Stinne Byrholdt

AU - Gran, Fredrik

AU - Lönn, Lars

AU - Hansen, Kristoffer Lindskov

AU - Jensen, Jørgen Arendt

AU - Nielsen, Michael Bachmann

AU - Sørensen, Charlotte Mehlin

PY - 2020

Y1 - 2020

N2 - In vivo monitoring of the microvasculature is relevant since diseases such as diabetes, ischemia, or cancer cause microvascular impairment. Super-resolution ultrasound imaging allows in vivo examination of the microvasculature by detecting and tracking sparsely distributed intravascular microbubbles over a minute-long period. The ability to create detailed images of the renal vasculature of Sprague-Dawley rats using a modified clinical ultrasound platform was investigated in this study. Additionally, we hypothesized that early ischemic damage to the renal microcirculation could be visualized. After a baseline scan of the exposed kidney, 10 rats underwent clamping of the renal vein (n = 5) or artery (n = 5) for 45 min. The kidneys were rescanned at the onset of clamp release and after 60 min of reperfusion. Using a processing pipeline for tissue motion compensation and microbubble tracking, super-resolution images with a very high level of detail were constructed. Image filtration allowed further characterization of the vasculature by isolating specific vessels such as the ascending vasa recta with a 15-20 μm diameter. Using the super-resolution images alone, it was only possible for six assessors to consistently distinguish the healthy renal microvasculature from the microvasculature at the onset of vein clamp release. Future studies will aim at attaining quantitative estimations of alterations in the renal microvascular blood flow using super-resolution ultrasound imaging.

AB - In vivo monitoring of the microvasculature is relevant since diseases such as diabetes, ischemia, or cancer cause microvascular impairment. Super-resolution ultrasound imaging allows in vivo examination of the microvasculature by detecting and tracking sparsely distributed intravascular microbubbles over a minute-long period. The ability to create detailed images of the renal vasculature of Sprague-Dawley rats using a modified clinical ultrasound platform was investigated in this study. Additionally, we hypothesized that early ischemic damage to the renal microcirculation could be visualized. After a baseline scan of the exposed kidney, 10 rats underwent clamping of the renal vein (n = 5) or artery (n = 5) for 45 min. The kidneys were rescanned at the onset of clamp release and after 60 min of reperfusion. Using a processing pipeline for tissue motion compensation and microbubble tracking, super-resolution images with a very high level of detail were constructed. Image filtration allowed further characterization of the vasculature by isolating specific vessels such as the ascending vasa recta with a 15-20 μm diameter. Using the super-resolution images alone, it was only possible for six assessors to consistently distinguish the healthy renal microvasculature from the microvasculature at the onset of vein clamp release. Future studies will aim at attaining quantitative estimations of alterations in the renal microvascular blood flow using super-resolution ultrasound imaging.

U2 - 10.3390/diagnostics10110862

DO - 10.3390/diagnostics10110862

M3 - Journal article

C2 - 33105888

VL - 10

JO - Diagnostics

JF - Diagnostics

SN - 2075-4418

IS - 11

M1 - 862

ER -

ID: 250768650