Your search keyword '"Varlan P"' showing total 2 results

1. Veterinary and human biobanking practices: enhancing molecular sample integrity.

Author

Hostetter G, Collins E, Varlan P, Edewaard E, Harbach PR, Hudson EA, Feenstra KJ, Turner LM, Berghuis BD, Resau JH, and Jewell SD

Subjects

Algorithms, Animals, Autolysis, Biological Specimen Banks classification, Evidence-Based Medicine, Formaldehyde, Gene Expression Profiling, Genomics, High-Throughput Screening Assays, Humans, Paraffin Embedding, Proteins analysis, Proteins isolation & purification, RNA analysis, RNA isolation & purification, Reproducibility of Results, Time Factors, Tissue Fixation methods, Tissue Fixation standards, Biological Specimen Banks standards, Image Processing, Computer-Assisted methods, Specimen Handling methods

Abstract

Animal models have historically informed veterinary and human pathophysiology. Next-generation genomic sequencing and molecular analyses using analytes derived from tissue require integrative approaches to determine macroanalyte integrity as well as morphology for imaging algorithms that can extend translational applications. The field of biospecimen science and biobanking will play critical roles in tissue sample collection and processing to ensure the integrity of macromolecules, aid experimental design, and provide more accurate and reproducible downstream genomic data. Herein, we employ animal experiments to combine protein expression analysis by microscopy with RNA integrity number and quantitative measures of morphologic changes of autolysis. These analyses can be used to predict the effect of preanalytic variables and provide the basis for standardized methods in tissue sample collection and processing. We also discuss the application of digital imaging with quantitative RNA and tissue-based protein measurements to show that genomic methods augment traditional in vivo imaging to support biospecimen science. To make these observations, we have established a time course experiment of murine kidney tissues that predicts conventional measures of RNA integrity by RIN analysis and provides reliable and accurate measures of biospecimen integrity and fitness, in particular for time points less than 3 hours post-tissue resection.

Published

2014

2. Use of flow cytometry for high-throughput cell population estimates in brain tissue.

Author

Young NA, Flaherty DK, Airey DC, Varlan P, Aworunse F, Kaas JH, and Collins CE

Abstract

The large size of primate brains is an impediment to obtaining high-resolution cell number maps of the cortex in humans and non-human primates. We present a rapid, flow cytometry-based cell counting method that can be used to estimate cell numbers from homogenized brain tissue samples comprising the entire cortical sheet. The new method, called the flow fractionator, is based on the isotropic fractionator (IF) method (Herculano-Houzel and Lent, 2005), but substitutes flow cytometry analysis for manual, microscope analysis using a Neubauer counting chamber. We show that our flow cytometry-based method for total cell estimation in homogenized brain tissue provides comparable data to that obtained using a counting chamber on a microscope. The advantages of the flow fractionator over existing methods are improved precision of cell number estimates and improved speed of analysis.

Published

2012