High-resolution visualization of pial surface vessels by flattened whole mount staining

Understanding development of the cerebral vasculature is essential for the central nervous system (CNS) research and therapeutic developments. Here, we developed a simple, convenient, and fast method—the flattened cortex whole mount (FCWM) technique—for imaging of pial cerebral vessels. FCWM involve...

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Published iniScience Vol. 26; no. 4; p. 106467
Main Authors Xu, Yanying, Zhang, Jiasheng, Lee, Heon-Woo, Zhang, Guogang, Bai, Yongping, Simons, Michael
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 21.04.2023
Elsevier
Subjects
Medical imaging
Neuroscience
Vascular anatomy
Vascular anatomy
Neuroscience
Medical imaging
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Abstract Understanding development of the cerebral vasculature is essential for the central nervous system (CNS) research and therapeutic developments. Here, we developed a simple, convenient, and fast method—the flattened cortex whole mount (FCWM) technique—for imaging of pial cerebral vessels. FCWM involves dissection of the whole cerebral cortex followed by flattening, sectioning and application of CLARITY technology. Compared to conventional methods, FCWM offers several advantages including (1) high-resolution visualization of the whole cortex pial surface vessel structures and distributions; (2) precise localization of a particular blood vessel, allowing observations of a desired blood vessel during normal development or in disease settings; (3) compatibility with confocal imaging. Application of FCWM for examination of cerebral vasculature during postnatal development or in stroke settings allowed us to demonstrate that cerebral blood vessels manifest type-specific maturation and remodeling which are linked to the rate of endothelial proliferation. [Display omitted] •High resolution imaging of pial cortex vessel in a 2D view•Compatibility of processed cortex tissue with confocal imaging•Precise localization of pial surface vessels with high magnification imaging Vascular anatomy; Medical imaging; Neuroscience
AbstractList Understanding development of the cerebral vasculature is essential for the central nervous system (CNS) research and therapeutic developments. Here, we developed a simple, convenient, and fast method—the flattened cortex whole mount (FCWM) technique—for imaging of pial cerebral vessels. FCWM involves dissection of the whole cerebral cortex followed by flattening, sectioning and application of CLARITY technology. Compared to conventional methods, FCWM offers several advantages including (1) high-resolution visualization of the whole cortex pial surface vessel structures and distributions; (2) precise localization of a particular blood vessel, allowing observations of a desired blood vessel during normal development or in disease settings; (3) compatibility with confocal imaging. Application of FCWM for examination of cerebral vasculature during postnatal development or in stroke settings allowed us to demonstrate that cerebral blood vessels manifest type-specific maturation and remodeling which are linked to the rate of endothelial proliferation. [Display omitted] •High resolution imaging of pial cortex vessel in a 2D view•Compatibility of processed cortex tissue with confocal imaging•Precise localization of pial surface vessels with high magnification imaging Vascular anatomy; Medical imaging; Neuroscience
Understanding development of the cerebral vasculature is essential for the central nervous system (CNS) research and therapeutic developments. Here, we developed a simple, convenient, and fast method-the flattened cortex whole mount (FCWM) technique-for imaging of pial cerebral vessels. FCWM involves dissection of the whole cerebral cortex followed by flattening, sectioning and application of CLARITY technology. Compared to conventional methods, FCWM offers several advantages including (1) high-resolution visualization of the whole cortex pial surface vessel structures and distributions; (2) precise localization of a particular blood vessel, allowing observations of a desired blood vessel during normal development or in disease settings; (3) compatibility with confocal imaging. Application of FCWM for examination of cerebral vasculature during postnatal development or in stroke settings allowed us to demonstrate that cerebral blood vessels manifest type-specific maturation and remodeling which are linked to the rate of endothelial proliferation.Understanding development of the cerebral vasculature is essential for the central nervous system (CNS) research and therapeutic developments. Here, we developed a simple, convenient, and fast method-the flattened cortex whole mount (FCWM) technique-for imaging of pial cerebral vessels. FCWM involves dissection of the whole cerebral cortex followed by flattening, sectioning and application of CLARITY technology. Compared to conventional methods, FCWM offers several advantages including (1) high-resolution visualization of the whole cortex pial surface vessel structures and distributions; (2) precise localization of a particular blood vessel, allowing observations of a desired blood vessel during normal development or in disease settings; (3) compatibility with confocal imaging. Application of FCWM for examination of cerebral vasculature during postnatal development or in stroke settings allowed us to demonstrate that cerebral blood vessels manifest type-specific maturation and remodeling which are linked to the rate of endothelial proliferation.
Understanding development of the cerebral vasculature is essential for the central nervous system (CNS) research and therapeutic developments. Here, we developed a simple, convenient, and fast method—the flattened cortex whole mount (FCWM) technique—for imaging of pial cerebral vessels. FCWM involves dissection of the whole cerebral cortex followed by flattening, sectioning and application of CLARITY technology. Compared to conventional methods, FCWM offers several advantages including (1) high-resolution visualization of the whole cortex pial surface vessel structures and distributions; (2) precise localization of a particular blood vessel, allowing observations of a desired blood vessel during normal development or in disease settings; (3) compatibility with confocal imaging. Application of FCWM for examination of cerebral vasculature during postnatal development or in stroke settings allowed us to demonstrate that cerebral blood vessels manifest type-specific maturation and remodeling which are linked to the rate of endothelial proliferation. • High resolution imaging of pial cortex vessel in a 2D view • Compatibility of processed cortex tissue with confocal imaging • Precise localization of pial surface vessels with high magnification imaging Vascular anatomy; Medical imaging; Neuroscience
Understanding development of the cerebral vasculature is essential for the central nervous system (CNS) research and therapeutic developments. Here, we developed a simple, convenient, and fast method—the flattened cortex whole mount (FCWM) technique—for imaging of pial cerebral vessels. FCWM involves dissection of the whole cerebral cortex followed by flattening, sectioning and application of CLARITY technology. Compared to conventional methods, FCWM offers several advantages including (1) high-resolution visualization of the whole cortex pial surface vessel structures and distributions; (2) precise localization of a particular blood vessel, allowing observations of a desired blood vessel during normal development or in disease settings; (3) compatibility with confocal imaging. Application of FCWM for examination of cerebral vasculature during postnatal development or in stroke settings allowed us to demonstrate that cerebral blood vessels manifest type-specific maturation and remodeling which are linked to the rate of endothelial proliferation.
ArticleNumber 106467
Author Xu, Yanying
Simons, Michael
Bai, Yongping
Lee, Heon-Woo
Zhang, Jiasheng
Zhang, Guogang
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Snippet Understanding development of the cerebral vasculature is essential for the central nervous system (CNS) research and therapeutic developments. Here, we...
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SubjectTerms Medical imaging
Neuroscience
Vascular anatomy
Title High-resolution visualization of pial surface vessels by flattened whole mount staining
URI https://dx.doi.org/10.1016/j.isci.2023.106467
https://www.ncbi.nlm.nih.gov/pubmed/37020957
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Volume 26
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