Title | Authors | PDF |
| A High Content Screening Assay For The Automated Quantitative Analysis Of Colony Formation and Morphology | Linnette Grove, Richik N. Ghosh, Oleg Lapets and Everett Ramer | |
| Application of High Content Screening to the Analysis of Stem Cell Growth & Differentiation | V. C. Abraham, R. N. Ghosh, P. Sammak, P. Petrosko and J. R. Haskins | |
| Automated Correlative Analysis of Multiparametric Cellular Responses Measured using High Content Screening | Vivek C. Abraham, Brent Samson, Oleg Lapets and Jeffrey R. Haskins | |
| Automated Dual Antibody High-Content Screening on the BioCube* System | Jason Quarles, Erica Webber, Megan Cuda, Jeff Haskins, Greg Endress | |
| Automated Quantitative Analysis of Cytoskeletal Rearrangement Over Multiple Spatial Dimensions Using High Content Screening | Linnette Grove, Richik N. Ghosh, Oleg Lapets and Everett Ramer | |
| High Content Screening for Vasopressin Receptor Agonists Using GFP-Beta-Arrestin | Richard DeBiasio, Christine C. Hudson, Everett R. Ramer, Robert H. Oakley and Richik N. Ghosh | |
| High-Content Profiling of Cell Cycle Related Targets with RNAi | Sarah Burroughs Tencza and Jeffrey R. Haskins | |
| In Vitro Analysis of Multiparametric Cytotoxicity at the Individual Cell Level | Vivek C. Abraham, Brent Samson, Oleg Lapets and Jeffrey R. Haskins | |
| Optical Sectioning With the Apotome Attachment on the ArrayScan HCS Reader Enhances High Content Screening Assays | Richard DeBiasio, Richik N. Ghosh, Alexander L. Friedman and Jeffrey R. Haskins | |
| Optimizing Knowledge Extraction from Multiparametric, High-content Experimental Results | Megan E. Cuda, Amy M. Peters and Jeffrey R. Haskins | |
| Overcoming the Expert Bottleneck: Automated Validation of High Throughput Experiments using the Medical Literature | Mark A. Collins | |
| P-glycoprotein Expression Level and its Impact on Clastogenicity | Amy M. Peters and Jeffrey R. Haskins | |
| Quantitative Analysis of Cell Morphology Over Multiple Dimensions Using An Automated High Content Screening Assay | Richik N. Ghosh, Oleg Lapets, Linnette Grove and Everett Ramer | |
| Quantitative High Content Screening Evaluation of a siRNA Kinase Library on Downstream Phenotypic Changes in Cell Morphology and Cytoskeletal Rearrangement | Richik N. Ghosh, Linnette Grove, David Dorris, Rich Jarvis, David Brown and Jeffrey R. Haskins | |
| The Use of Cryopreserved Primary Neurons in High Content Screening Assays | Richard DeBiasio and Richik N. Ghosh | |
| The Use of Division-Arrested Cells Improves the Robustness of High Content Screening Assays | Chandrasekaran Vasudevan, Patrick Maunder, Jeffrey Haskins, Natalie Fursov Mei Cong and Zhong Zhong | |
| Use Of An Automated High Content Screening Assay To Quantify Myotube Formation And Morphology | Linnette Grove, Richik N. Ghosh, Oleg Lapets and Everett Ramer | |
| Use of Kinetic High Content Cell-based Assays for Rapid Profiling of Compound Toxicity | Brent Samson, Vivek C. Abraham, Oleg Lapets and Jeffrey R. Haskins | |
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