Amberlyn M Simmons scite author profile

The increasing global prevalence of endocrine diseases like type 1 diabetes mellitus (T1DM) elevates the need for cellular replacement approaches, which can potentially enhance therapeutic durability and outcomes. Central to any cell therapy is the design of delivery systems that support cell survival and integration. In T1DM, well-established fabrication methods have created a wide range of implants, ranging from 3D macro-scale scaffolds to nano-scale coatings. These traditional methods, however, are often challenged by their inherent limitations in reproducible and discrete fabrication, particularly when scaling to the clinic. Additive manufacturing (AM) techniques provide a means to address these challenges by delivering improved control over construct geometry and microscale component placement. While still early in development in the context of T1DM cellular transplantation, the integration of AM approaches serves to improve nutrient material transport, vascularization efficiency, and the accuracy of cell, matrix, and local therapeutic placement. This review highlights current methods in T1DM cellular transplantation and the potential of AM approaches to overcome these limitations. In addition, emerging AM technologies and their broader application to cell-based therapy are discussed. Cellular Implants for the Treatment of Type 1 DiabetesCell-based therapies provide a potential curative approach for resolving type 1 diabetes mellitus (T1DM) via the replacement of the insulin-producing cells lost to autoimmune destruction. [1][2][3] In the native pancreas, these insulin-producing cells, termed 𝛽-cells, work to modulate metabolism and blood sugar in

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3D Printed Elastomeric Biomaterial Mitigates Compaction During in Vitro Vasculogenesis

Accolla

Deller

Lansberry

et al. 2023

Preprint

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Amberlyn M Simmons

Integrating Additive Manufacturing Techniques to Improve Cell‐Based Implants for the Treatment of Type 1 Diabetes

3D Printed Elastomeric Biomaterial Mitigates Compaction During in Vitro Vasculogenesis

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