Reprint
Cells and Materials for Disease Modeling and Regenerative Medicine
Edited by
May 2021
270 pages
- ISBN978-3-0365-0262-5 (Hardback)
- ISBN978-3-0365-0263-2 (PDF)
This book is a reprint of the Special Issue Cells and Materials for Disease Modeling and Regenerative Medicine that was published in
Biology & Life Sciences
Chemistry & Materials Science
Medicine & Pharmacology
Summary
Materials science and engineering are strongly developing tools with increasing impact in the biotechnological and biomedical areas. Interestingly, research in molecular and cellular biology is often at the core of the design and development of materials-based approaches, providing biological rationale. Focused on research relying on biology–materials interaction, IJMS launched a Special Issue named “Cells and Materials for Disease Modeling and Regenerative Medicine”. The aim of the Special Issue was to generate a compilation of in vitro and in vivo strategies based on cell–material interactions. This book compiles the papers published in that Special Issue and includes a selection of six original scientific experimental articles and six comprehensive reviews. We are convinced that this collection of articles shows representative examples of the state of the art in the field, unveiling the relevance of materials research in generating new regenerative medicine and disease modeling approaches.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
Leigh syndrome; mitochondrial disorder; iPSC; NSC; neuron; disease modeling; mtDNA; high hydrostatic pressure; devitalization; decellularization; allografts; regenerative medicine; bone and cartilage regeneration; dentogenesis; amelogenesis; dentinogenesis; cementogenesis; drug release materials; scaffolds; odontogenic cells; stem cells; whole-tooth regeneration; psoriasis; cyclic adenosine monophosphate; cholera toxin; isoproterenol; tissue engineering; extracellular matrix; decellularization; regenerative medicine; collagen; elastin; bladder; compliance; microarchitecture; biomimicry; blood cancer; disease modeling; bone marrow; niche; microenvironment; tissue engineering; 3D models; tumor-on-a-chip; leukemia; myeloma; biomaterials; stem cells; cytokines; growth factors; cardiac tissue regeneration; regenerative medicine; adipose tissue; fibrosis; in vitro models; in vivo models; biomaterials; stem cells; dental pulp stem cells; osteogenesis; biomaterials; tissue engineering; regenerative medicine; in vitro models; rheumatoid arthritis; cytokines; mesenchymal stromal cells; co-culture; tissue engineering; 3D cell culture; explants; joint-on-a-chip; piezoelectric; electroactive; patterning; cell differentiation; bone tissue engineering