research Engineering a 3D Wounded Skin Equivalent to Study Early Inflammatory and Regenerative Responses In Vitro
A 3D skin model helps study wound healing better than traditional methods.
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research Next Generation Human Skin Constructs as Advanced Tools for Drug Development
Advanced human skin models improve drug development and could replace animal testing.
research Advances in Microengineered Platforms for Skin Research
Recent advances in microfluidic technologies have led to the development of skin-on-a-chip devices that replicate key features of human skin, offering improved models for dermatology research. These platforms provide enhanced control over fluid flow, allowing precise manipulation of cell and molecular distribution, which traditional in vitro models lack. This enables the creation of multilayered models that closely mimic human skin structure and improve nutrient and drug distribution. Applications of these microfluidic platforms include studying epidermal-dermal interactions, cell migration, mechanobiology, microbiome-immune responses, vascular biology, and wound healing. The review highlights the potential and challenges of these technologies and outlines future research directions.
research Microfluidic Technology for the Generation of Cell Spheroids and Their Applications
Microfluidic technology improves cell spheroid creation for better drug testing and tissue engineering.
research A Microfluidic Application for Mass Production of Drug-Loaded Polymeric Microspheres for a Long-Acting Injectable With IVL-DrugFluidic, a Novel Microfluidic Microsphere Manufacturing Platform Technology
IVL-DrugFluidic® can mass-produce high-quality, long-acting injectable drug microspheres, improving patient compliance and reducing side effects.
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