Cell-based assays are essential for drug discovery and development as they increase the quality of lead compounds due to their physiological relevance. Toxicological data can be gathered during the early phases of hit selection and verification, reducing costs and attrition rates during clinical trials. Amongst the various cell-based assays that are currently being used, high content screening (HCS) has enjoyed particular interest and is now widely considered as an essential tool for the drug discovery and development industry and is implemented at every step of the process. This powerful technology is used for target validation1,2, primary screening3, secondary screening4, structure-activity relationship studies5,6 and ADMET (adso...
High content screening (HCS) has quickly established itself as a core technique in the early stage o...
High-content screening to monitor disease-modifying phenotypes upon small-molecule addition has beco...
Each bioactive compound induces phenotypic changes in target cells that can be made visible by label...
Cell-based assays are essential for drug discovery and development as they increase the quality of l...
In the past decade, automated microscopy has become an important tool for the drug discovery and dev...
Advanced microscopy and the corresponding image analysis have been developed in recent years into a ...
The term "high-content screening" has become synonymous with imaging screens using automated microsc...
High throughput screening (HTS) is the foundation of current drug discovery to assay drug candidates...
Given a pharmaceutical landscape in which fewer drugs are succeeding in reaching the market, pharmac...
High content imaging combines automated microscopy with image analysis approaches to simultaneously ...
Phenotypic or High Content Screening (HCS) is becoming more widely used for primary screening campai...
AbstractThe pharmaceutical industry is presently suffering difficult times due to low productivity o...
*These authors contributed equally to this work. Cell-based high-content screening (HCS) assays have...
High content screening (HCS), the large-scale automated analysis of the temporal and spatial changes...
To develop and validate a practical, in vitro, cell-based model to assess human hepatotoxicity poten...
High content screening (HCS) has quickly established itself as a core technique in the early stage o...
High-content screening to monitor disease-modifying phenotypes upon small-molecule addition has beco...
Each bioactive compound induces phenotypic changes in target cells that can be made visible by label...
Cell-based assays are essential for drug discovery and development as they increase the quality of l...
In the past decade, automated microscopy has become an important tool for the drug discovery and dev...
Advanced microscopy and the corresponding image analysis have been developed in recent years into a ...
The term "high-content screening" has become synonymous with imaging screens using automated microsc...
High throughput screening (HTS) is the foundation of current drug discovery to assay drug candidates...
Given a pharmaceutical landscape in which fewer drugs are succeeding in reaching the market, pharmac...
High content imaging combines automated microscopy with image analysis approaches to simultaneously ...
Phenotypic or High Content Screening (HCS) is becoming more widely used for primary screening campai...
AbstractThe pharmaceutical industry is presently suffering difficult times due to low productivity o...
*These authors contributed equally to this work. Cell-based high-content screening (HCS) assays have...
High content screening (HCS), the large-scale automated analysis of the temporal and spatial changes...
To develop and validate a practical, in vitro, cell-based model to assess human hepatotoxicity poten...
High content screening (HCS) has quickly established itself as a core technique in the early stage o...
High-content screening to monitor disease-modifying phenotypes upon small-molecule addition has beco...
Each bioactive compound induces phenotypic changes in target cells that can be made visible by label...