Magnetic Bead-Guided Assembly of 3D Primary Human Islet Cells in Decellularized Pancreatic Scaffolds
Marluce da Cunha Mantovani, Ana Claudia Oliveira Carreira, Nilsa Regina Damaceno-Rodrigues, Elia Garcia Caldini, Mari Cleide Sogayar

TL;DR
This paper introduces a new method using magnetic beads to assemble 3D human islet cell clusters in decellularized pancreatic scaffolds, which could improve diabetes research and tissue engineering.
Contribution
The novel contribution is a magnetic bead-guided protocol for rapid 3D culture of primary human islet cells in decellularized pancreatic scaffolds.
Findings
3D islet-like clusters formed in 18 hours using magnetic beads in decellularized pancreatic scaffolds.
Smaller cell clusters attached faster to the bioscaffold and spread out compared to larger clusters.
Cells in 3D cultures maintained insulin production and stable LDH levels, indicating viability and functionality.
Abstract
Background: Three-dimensional (3D) cell cultures are increasingly recognized as effective models for studying diseases and developing cell therapies. In the endocrine pancreas field, organoids/spheroids derived from human islet cells enable advances in diabetes research, drug screening, and tissue engineering. While various 3D culture methods exist, approaches such as magnetic bead-assisted aggregation remain underexplored for endocrine pancreatic cells. Additionally, the use of biological scaffolds, especially those derived from decellularized pancreatic extracellular matrix, provides a biomimetic environment that promotes adhesion, proliferation, and functionality of pancreatic cells. This study presents a protocol for magnetic bead-guided 3D culture of human islet cells within decellularized pancreatic scaffolds. Methods: Human pancreas from adult brain-dead donors was harvested for…
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Taxonomy
TopicsPancreatic function and diabetes · Tissue Engineering and Regenerative Medicine · 3D Printing in Biomedical Research
