Zebrafish Caudal Fin Angiogenesis Assay-Advanced Quantitative Assessment Including 3-Way Correlative Microscopy.

Hlushchuk, Ruslan; Brönnimann, Daniel; Correa Shokiche, Carlos; Schaad, Laura; Triet, Ramona; Jazwinska, Anna; Tschanz, Stefan A.; Djonov, Valentin (2016). Zebrafish Caudal Fin Angiogenesis Assay-Advanced Quantitative Assessment Including 3-Way Correlative Microscopy. PLoS ONE, 11(3), e0149281. Public Library of Science 10.1371/journal.pone.0149281

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BACKGROUND

Researchers evaluating angiomodulating compounds as a part of scientific projects or pre-clinical studies are often confronted with limitations of applied animal models. The rough and insufficient early-stage compound assessment without reliable quantification of the vascular response counts, at least partially, to the low transition rate to clinics.

OBJECTIVE

To establish an advanced, rapid and cost-effective angiogenesis assay for the precise and sensitive assessment of angiomodulating compounds using zebrafish caudal fin regeneration. It should provide information regarding the angiogenic mechanisms involved and should include qualitative and quantitative data of drug effects in a non-biased and time-efficient way.

APPROACH & RESULTS

Basic vascular parameters (total regenerated area, vascular projection area, contour length, vessel area density) were extracted from in vivo fluorescence microscopy images using a stereological approach. Skeletonization of the vasculature by our custom-made software Skelios provided additional parameters including "graph energy" and "distance to farthest node". The latter gave important insights into the complexity, connectivity and maturation status of the regenerating vascular network. The employment of a reference point (vascular parameters prior amputation) is unique for the model and crucial for a proper assessment. Additionally, the assay provides exceptional possibilities for correlative microscopy by combining in vivo-imaging and morphological investigation of the area of interest. The 3-way correlative microscopy links the dynamic changes in vivo with their structural substrate at the subcellular level.

CONCLUSIONS

The improved zebrafish fin regeneration model with advanced quantitative analysis and optional 3-way correlative morphology is a promising in vivo angiogenesis assay, well-suitable for basic research and preclinical investigations.

Item Type:	Journal Article (Original Article)
Division/Institute:	04 Faculty of Medicine > Pre-clinic Human Medicine > Institute of Anatomy 09 Interdisciplinary Units > Microscopy Imaging Center (MIC)
Graduate School:	Graduate School for Cellular and Biomedical Sciences (GCB)
UniBE Contributor:	Hlushchuk, Ruslan, Brönnimann, Daniel, Correa Shokiche, Carlos, Schaad, Laura, Triet, Ramona, Tschanz, Stefan A., Djonov, Valentin Georgiev
Subjects:	600 Technology > 610 Medicine & health
ISSN:	1932-6203
Publisher:	Public Library of Science
Language:	English
Submitter:	Ruslan Hlushchuk
Date Deposited:	06 Jul 2016 11:16
Last Modified:	05 Dec 2022 14:56
Publisher DOI:	10.1371/journal.pone.0149281
PubMed ID:	26950851
BORIS DOI:	10.7892/boris.82614
URI:	https://boris.unibe.ch/id/eprint/82614

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