High- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in rats

High- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in rats

Subepithelial changes to the vocal fold mucosa, such as fibrosis, are difficult to identify using visual assessment of the tissue surface. Moreover, without suspicion of neoplasm, mucosal biopsy is not a viable clinical option, as it carries its own risk of iatrogenic injury and scar formation. Give...

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Main Authors: Ayami Ohno Kishimoto, Yo Kishimoto, David L. Young, Jinjin Zhang, Ian J. Rowland, Nathan V. Welham
Format: Article
Language:English
Published: The Company of Biologists 2016-11-01
Series:Disease Models & Mechanisms
Subjects:
Fibrosis
Hemorrhage
Larynx
MRI
Tissue repair
Voice
Wound healing
Online Access:http://dmm.biologists.org/content/9/11/1397
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spelling doaj-a0a7b6679c464d6db41f4dab207793022020-11-25T02:23:04ZengThe Company of BiologistsDisease Models & Mechanisms1754-84031754-84112016-11-019111397140310.1242/dmm.026526026526High- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in ratsAyami Ohno Kishimoto0Yo Kishimoto1David L. Young2Jinjin Zhang3Ian J. Rowland4Nathan V. Welham5 Department of Surgery, Division of Otolaryngology, University of Wisconsin School of Medicine and Public Health, Madison, WI 53792, USA Department of Surgery, Division of Otolaryngology, University of Wisconsin School of Medicine and Public Health, Madison, WI 53792, USA Department of Surgery, Division of Otolaryngology, University of Wisconsin School of Medicine and Public Health, Madison, WI 53792, USA Department of Radiology and Center for Magnetic Resonance Research, University of Minnesota–Twin Cities, Minneapolis, MN 55455, USA Department of Entomology, University of Wisconsin–Madison, Madison, WI 53706, USA Department of Surgery, Division of Otolaryngology, University of Wisconsin School of Medicine and Public Health, Madison, WI 53792, USA Subepithelial changes to the vocal fold mucosa, such as fibrosis, are difficult to identify using visual assessment of the tissue surface. Moreover, without suspicion of neoplasm, mucosal biopsy is not a viable clinical option, as it carries its own risk of iatrogenic injury and scar formation. Given these challenges, we assessed the ability of high- (4.7 T) and ultrahigh-field (9.4 T) magnetic resonance imaging to resolve key vocal fold subepithelial tissue structures in the rat, an important and widely used preclinical model in vocal fold biology. We conducted serial in vivo and ex vivo imaging, evaluated an array of acquisition sequences and contrast agents, and successfully resolved key anatomic features of naïve, acutely injured, and chronically scarred vocal fold mucosae on the ex vivo scans. Naïve lamina propria was hyperintense on T1-weighted imaging with gadobenate dimeglumine contrast enhancement, whereas chronic scar was characterized by reduced lamina propria T1 signal intensity and mucosal volume. Acutely injured mucosa was hypointense on T2-weighted imaging; lesion volume steadily increased, peaked at 5 days post-injury, and then decreased – consistent with the physiology of acute, followed by subacute, hemorrhage and associated changes in the magnetic state of hemoglobin and its degradation products. Intravenous administration of superparamagnetic iron oxide conferred no T2 contrast enhancement during the acute injury period. These findings confirm that magnetic resonance imaging can resolve anatomic substructures within naïve vocal fold mucosa, qualitative and quantitative features of acute injury, and the presence of chronic scar.http://dmm.biologists.org/content/9/11/1397FibrosisHemorrhageLarynxMRITissue repairVoiceWound healing
collection DOAJ
language English
format Article
sources DOAJ
author Ayami Ohno Kishimoto
Yo Kishimoto
David L. Young
Jinjin Zhang
Ian J. Rowland
Nathan V. Welham
spellingShingle Ayami Ohno Kishimoto
Yo Kishimoto
David L. Young
Jinjin Zhang
Ian J. Rowland
Nathan V. Welham
High- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in rats
Disease Models & Mechanisms
Fibrosis
Hemorrhage
Larynx
MRI
Tissue repair
Voice
Wound healing
author_facet Ayami Ohno Kishimoto
Yo Kishimoto
David L. Young
Jinjin Zhang
Ian J. Rowland
Nathan V. Welham
author_sort Ayami Ohno Kishimoto
title High- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in rats
title_short High- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in rats
title_full High- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in rats
title_fullStr High- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in rats
title_full_unstemmed High- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in rats
title_sort high- and ultrahigh-field magnetic resonance imaging of naïve, injured and scarred vocal fold mucosae in rats
publisher The Company of Biologists
series Disease Models & Mechanisms
issn 1754-8403
1754-8411
publishDate 2016-11-01
description Subepithelial changes to the vocal fold mucosa, such as fibrosis, are difficult to identify using visual assessment of the tissue surface. Moreover, without suspicion of neoplasm, mucosal biopsy is not a viable clinical option, as it carries its own risk of iatrogenic injury and scar formation. Given these challenges, we assessed the ability of high- (4.7 T) and ultrahigh-field (9.4 T) magnetic resonance imaging to resolve key vocal fold subepithelial tissue structures in the rat, an important and widely used preclinical model in vocal fold biology. We conducted serial in vivo and ex vivo imaging, evaluated an array of acquisition sequences and contrast agents, and successfully resolved key anatomic features of naïve, acutely injured, and chronically scarred vocal fold mucosae on the ex vivo scans. Naïve lamina propria was hyperintense on T1-weighted imaging with gadobenate dimeglumine contrast enhancement, whereas chronic scar was characterized by reduced lamina propria T1 signal intensity and mucosal volume. Acutely injured mucosa was hypointense on T2-weighted imaging; lesion volume steadily increased, peaked at 5 days post-injury, and then decreased – consistent with the physiology of acute, followed by subacute, hemorrhage and associated changes in the magnetic state of hemoglobin and its degradation products. Intravenous administration of superparamagnetic iron oxide conferred no T2 contrast enhancement during the acute injury period. These findings confirm that magnetic resonance imaging can resolve anatomic substructures within naïve vocal fold mucosa, qualitative and quantitative features of acute injury, and the presence of chronic scar.
topic Fibrosis
Hemorrhage
Larynx
MRI
Tissue repair
Voice
Wound healing
url http://dmm.biologists.org/content/9/11/1397
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