We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Quantitative Evaluation of Drug-induced Microvascular Constriction in Mice Kidney Using a Novel Tool for 3D Geometrical Analysis of Ex vivo Organ Vasculature.
- Authors
Ramot, Yuval; Brauner, Raul; Kang, Kongbin; Heymach, John V.; Furtado, Stacia; Nyska, Abraham
- Abstract
The analysis of organ vasculature, and more specifically organ microvasculature, carries special importance for toxicological sciences, and especially for evaluation of drug-induced vascular toxicity. This field presents a special challenge in nonclinical drug safety assessments since there are currently no reliable microvascular toxicity biomarkers. Therefore, we aimed to systematically investigate the use of microvascular 3D geometrical analysis of corrosion casts for evaluation of drug-induced vascular toxicity, utilizing a novel image investigation tool that allows full 3D-quantified geometrical analysis of the entire vascular tree structure. Vascular casts of kidneys from control and low- and high-dose ephedrine/caffeine-treated mice were scanned by a micro CT, and images were processed and analyzed using the VasculomicsTM platform. All evaluations were performed on the kidney cortex. Treatment resulted in a significant and dose-related reduction in overall microvessel density throughout the kidney cortex. This effect was most pronounced for vessels with diameters between 25 µm and 35 µm, and affected mostly vessels located in the superficial part of the kidney cortex. The use of 3D analysis tools in drug-induced vascular toxicity studies allows for very high resolution and characterization of drug effects on the microvasculature and can be used as a valuable tool in drug safety assessments.
- Subjects
PHARMACEUTICAL research; VASCULAR diseases; KIDNEY diseases; MEDICATION safety; BIOMARKERS; DRUG side effects; GEOMETRIC analysis; CARDIOVASCULAR system; LABORATORY mice
- Publication
Toxicologic Pathology, 2014, Vol 42, Issue 4, p774
- ISSN
0192-6233
- Publication type
Article
- DOI
10.1177/0192623314525685