Your search keyword '"Bohumil Bednar"' showing total 3 results

1. Optical Imaging Biomarkers of Drug-Induced Vascular Injury

Author

Shu-An Lin MS, Donna L. Suresch, Brett Connolly, Gebre Mesfin, Raymond J. Gonzalez, Manishkumar R. Patel, Diane Shevell, Timothy Johnson, and Bohumil Bednar

Subjects

Biology (General), QH301-705.5, Medical technology, R855-855.5

Abstract

Drug-induced vascular injury (DIVI), defined as arterial medial degeneration/necrosis usually associated with perivascular inflammation, is frequently observed in the mesenteric arteries of rats but the relevance to humans remains a hurdle for drug development. Here, we describe the evaluation of commercially available optical imaging biomarkers using a rat DIVI model. Male Sprague Dawley rats were administered 10 mg/kg/day of a proprietary soluble guanylate cyclase activator (sGCa). Optical agents, AngioSense for the detection of vessel permeability, MMPSense for the detection of activated matrix metalloproteinases (MMPs), and IntegriSense for the detection of α v β 3 integrin, were injected via tail vein 24 hours before fluorescence (FL) ex vivo imaging. Imaging found a statistically significant difference in FL from all optical agents between treated and vehicle groups (p < .05). Mesenteric arteries were further analyzed by histopathology, flow cytometry, and immunohistochemistry. Histopathology confirmed perivascular inflammation and/or arterial medial degeneration in the sGCa-treated animals. Flow cytometry of digested arteries revealed myeloid cells as a main source of MMPSense signal. Immunohistochemical analysis further identified elevated MMP-9 expression within arterial walls and surrounding tissue of treated animals. Together, these data demonstrate that MMPSense and AngioSense are sensitive optical imaging biomarkers for the quantification of DIVI in rat mesenteric arteries.

Published

2015

2. Automation of In Vitro Dose-Inhibition Assays Utilizing the Tecan Genesis and an Integrated Software Package to Support the Drug Discovery Process

Author

Scott D. Mosser, Stanley L. Gaul, Bohumil Bednar, Kenneth S. Koblan, and Rodney A. Bednar

Subjects

Medical Laboratory Technology, Computer Science Applications

Abstract

We have automated in vitro dose-inhibition assays to evaluate newly synthesized chemical entities and to rapidly produce and disseminate the results with minimal personnel. A variety of assay methods were automated using the Tecan Genesis Workstation to produce ten-point titration curves and generate reproducible KI values. Our integrated software package provides the unique ability to simultaneously inventory and schedule compounds into various in vitro assays. A worklist generator, in combination with a Gemini script automatically makes variable pre-dilutions of compounds, retrieves incubation plates from the Carousel using the RoMa Arm, performs serial dilutions of compounds within the final 96 well incubation plate using disposable tips, and adds essential assay reagents. Our “Expert System for Data Analysis” automatically retrieves data from a reader (e.g. TopCount, FLIPR or VIPR), analyzes the data based on a set of rules, and provides value added reports. An overview of the basic workflow and the integrated software for support of the drug discovery process is described. The ability of the Tecan Robot to produce dose-inhibition profiles is illustrated and validated by using a radioligand binding assay and a DMSO solubilized fluorescein dye method.

Published

2003

3. Automation of In Vitro Dose-Inhibition Assays Utilizing the Tecan Genesis and an Integrated Software Package to Support the Drug Discovery Process

Author

Stanley L. Gaul, Scott D. Mosser, Kenneth S. Koblan, Rodney A. Bednar, and Bohumil Bednar

Subjects

Medical Laboratory Technology, Engineering, business.industry, Drug discovery, Integrated software, Systems engineering, business, Automation, Computer Science Applications, Variety (cybernetics)

Abstract

We have automated in vitro dose-inhibition assays to evaluate newly synthesized chemical entities and to rapidly produce and disseminate the results with minimal personnel. A variety of assay metho...

Published

2003