{ "@context": "https://schema.org/", "@type": "ScholarlyArticle", "url": "https://newcells-biotech.cargodev.co.uk/resources/posters/utilization-of-high-content-imaging-for-the-study-of-lung-fibrosis/", "name": "Utilization of High Content Imaging for the Study of Lung Fibrosis", "author": { "@type": "Organization", "name": "NewCells Biotech" }, "publisher": { "@type": "Organization", "name": "NewCells Biotech" }, "description": "A poster presenting research on the use of high content imaging techniques to study lung fibrosis.", "keywords": [ "lung fibrosis", "high content imaging", "biomedical research", "respiratory disease" ], "genre": "Research Poster", "datePublished": "2024", "about": { "@type": "MedicalCondition", "name": "Lung Fibrosis" }, "workExample": { "@type": "ImageObject", "name": "High Content Imaging of Lung Fibrosis" }, "thumbnailUrl": "https://newcells-biotech.cargodev.co.uk/path-to-poster-thumbnail.jpg" }

A man writing something in a notebook

Home › Resources › Posters

Resources: Posters

Utilization of high – content imaging for the study of lung fibrosis

High content imaging (HCI) assays enable the study of the fibrotic processes: fibroblast – to – myofibroblast transition (FMT) and epithelial – to – mesenchymal transition (EMT)

The aProximateTM model for renal drug safety/efficacy and transporter studies

Development of photoreceptor outer segments in human iPSC derived retinal organoids produced at large scale

Developing predictive in vitro Glomerulus , Proximal Tubule and Loop of Henle renal cell model platforms to investigate the renal uptake and nephrotoxic liability of large molecules

Modelling Epithelial Barrier Function and Mucociliary Clearance Using Small Airway Epithelium Cells

An in vitro model that predicts Antibiotic Renal Toxicity

A high-throughput, in vitro assessment of antibiotic induced podocyte injury

A Primary Human in vitro Focal Segmental Glomerulosclerosis (FSGS) model for drug development applications