Design considerations when creating a high throughput screen-compatible in vitro model of osteogenesis

Stephanie E. Doyle; Courtney N. Cazzola; Cynthia M. Coleman

SLAS Discovery (Oct 2024)

Design considerations when creating a high throughput screen-compatible in vitro model of osteogenesis

Stephanie E. Doyle,
Courtney N. Cazzola,
Cynthia M. Coleman

Affiliations

Stephanie E. Doyle: Corresponding author at: Regenerative Medicine Institute, Biomedical Science Building, 1st Floor South, University of Galway, Galway City, County Galway, Ireland.; Regenerative Medicine Institute, School of Medicine, College of Medicine, Nursing and Health Science, University of Galway, Galway City, County Galway H91 FD82, Ireland
Courtney N. Cazzola: Regenerative Medicine Institute, School of Medicine, College of Medicine, Nursing and Health Science, University of Galway, Galway City, County Galway H91 FD82, Ireland
Cynthia M. Coleman: Regenerative Medicine Institute, School of Medicine, College of Medicine, Nursing and Health Science, University of Galway, Galway City, County Galway H91 FD82, Ireland

Journal volume & issue: Vol. 29, no. 7
p. 100184

Abstract

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Inducing osteogenic differentiation in vitro is useful for the identification and development of bone regeneration therapies as well as modelling bone disorders. To couple in vitro models with high throughput screening techniques retains the assay's relevance in research while increasing its therapeutic impact. Miniaturizing, automating and/or digitalizing in vitro assays will reduce the required quantity of cells, biologic stimulants, culture/output assay reagents, time and cost. This review highlights the design and workflow considerations for creating a high throughput screen-compatible model of osteogenesis, comparing and contrasting osteogenic cell type, assay fabrication and culture methodology, osteogenic induction approach and repurposing existing output techniques.

Published in SLAS Discovery

ISSN: 2472-5552 (Print); 2472-5560 (Online)
Publisher: Elsevier
Country of publisher: United States
LCC subjects: Medicine: Medicine (General); Technology: Chemical technology: Biotechnology
Website: https://www.journals.elsevier.com/slas-discovery

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