Jeffrey R. Morgan scite author profile

Introduction Developing in vitro models for studying cell biology and cell physiology is of great importance to the fields of biotechnology, cancer research, drug discovery, toxicity testing, as well as the emerging fields of tissue engineering and regenerative medicine. Traditional two dimensional (2D) methods of mammalian cell culture have several limitations and it is increasingly recognized that cells grown in a three dimensional (3D) environment more closely represent normal cellular function due to the increased cell-to-cell interactions, and by mimicking the in vivo architecture of natural organs and tissues. Areas Covered In this review, we discuss the methods to form 3D multi-cellular spheroids, the advantages and limitations of these methods, and assays used to characterize the function of spheroids. The use of spheroids has led to many advances in basic cell sciences, including understanding cancer cell interactions, creating models for drug discovery and cancer metastasis, and they are being investigated as basic units for engineering tissue constructs. As so, this review will focus on contributions made to each of these fields using spheroid models. Expert Opinion Multi-cellular spheroids are rich in biological content and mimic better the in vivo environment than 2D cell culture. New technologies to form and analyze spheroids are rapidly increasing their adoption and expanding their applications.

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Au–Fe₃O₄ Dumbbell Nanoparticles as Dual‐Functional Probes

Xie

et al. 2007

Angew Chem Int Ed

496

292

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Jeffrey R. Morgan

Advances in the formation, use and understanding of multi-cellular spheroids

Au–Fe₃O₄ Dumbbell Nanoparticles as Dual‐Functional Probes

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Jeffrey R. Morgan

Advances in the formation, use and understanding of multi-cellular spheroids

Au–Fe3O4 Dumbbell Nanoparticles as Dual‐Functional Probes

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Au–Fe₃O₄ Dumbbell Nanoparticles as Dual‐Functional Probes