Nano/Micro-Assisted Regenerative Medicine

doi:10.3390/books978-3-03897-267-9

Reprint

Download Flyer

Nano/Micro-Assisted Regenerative Medicine

Edited by

October 2018

222 pages

ISBN978-3-03897-266-2 (Paperback)
ISBN978-3-03897-267-9 (PDF)

https://doi.org/10.3390/books978-3-03897-267-9

Free download (PDF)

This book is a reprint of the Special Issue Nano/Micro-Assisted Regenerative Medicine that was published in

Biology & Life Sciences

Chemistry & Materials Science

Medicine & Pharmacology

Summary

Regenerative medicine is an emerging multidisciplinary field that aims to repair and restore the normal functions of tissues and organs damaged by aging, disease, injury, or congenital disorders. The basic concept of "Nano/Micro-Assisted Regenerative Medicine" is to use advanced nano/micro-technologies, either alone or in combination with specific cells, such as stem cells, to replace, enhance, or regenerate damaged or diseased human tissues or organs.

This book introduces promising applications of nano/micro-technologies, such as iron oxide nanoparticles, simvastatin-loaded porous microspheres, graphene-RGD nanoisland composites, bioreducible poly(ethylene glycol)-poly(amino ketal) micelles, reduced graphene oxide-coated biphasic calcium phosphate bone graft material, amorphous nano/micro polyphosphate, cilostazol ophthalmic nanodispersions, carbonic anhydrase-IX anchored albumin-paclitaxel nanoparticles, peptide liposome incorporated citron extracts, turmeric extract-loaded nanoemulsions, and inkjet-printed nanofibrous membrane, in different tissue engineering or cancer treatment applications. In addition, it provides strategies for the further development of this field.

Format

Paperback

License

Keywords

reduced graphene oxide; biphasic calcium phosphate; bone regeneration; concentration; rat; nanoparticle; cilostazol; diabetic retinopathy; electroretinogram; streptozotocin-induced diabetic rat; β-amyloid; calcium polyphosphate; microparticles; neurotoxic effect; adenosine triphosphate level; PC12 cells; primary rat cortex neurons; in vitro cancer model; inkjet cell printing; microtissue array; cancer drug discovery; electrospinning; nanofibrous membrane; turmeric; curcumin; nanoemulsion; cytotoxicity; temporomandibular joint; regenerative medicine; stem cells; scaffolds; growth factors; functionalization; drug delivery systems; nanotechnology; osteochondral regeneration; angiogenesis; bioreducible polymer; gene therapy; hADSCs; SDF-1α; citrus fruits; citron; nanotechnology; liposome; peptide; cell viability; cytotoxicity; graphene oxide; silica nanoparticles; gold nanoparticles; RGD peptide; differentiation; mesenchymal stem cells; adipose-derived stem cells; osteogenesis; Achilles tendinitis; simvastatin; porous microspheres; anti-inflammation; tendon healing; carbonic anhydrase IX; tumor hypoxia targeting; paclitaxel; copper free ‘click’ chemistry; triple negative breast cancer; albumin nanoparticles; human serum albumin; silicone breast implant; capsular contracture; foreign body reaction; T-cell immunity; ALCL; nano/microtechniques; superparamagnetic iron oxide nanoparticles; CXCR4; homing; mesenchymal stem cells; intranasal delivery; olfactory-injured mouse model; n/a