Molecular Advances in Dental Pulp Tissue Engineering

doi:10.3390/books978-3-0365-8477-5

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Molecular Advances in Dental Pulp Tissue Engineering

Edited by

September 2023

194 pages

ISBN978-3-0365-8476-8 (Hardback)
ISBN978-3-0365-8477-5 (PDF)

https://doi.org/10.3390/books978-3-0365-8477-5

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This book is a reprint of the Special Issue Molecular Advances in Dental Pulp Tissue Engineering that was published in

Biology & Life Sciences

Chemistry & Materials Science

Medicine & Pharmacology

Summary

The dental pulp, surrounded by the barriers of enamel, dentin and cementum, has several functions. It senses thermal and mechanical stimuli, defends against invading microorganisms and supports root development in young patients. Loss of dental pulp due to caries or trauma requires root canal treatment with synthetic materials. Recent advances in regenerative medicine and tissue engineering aim to restore the dentin–pulp complex using stem cells, growth factors and tailored scaffolds to achieve biological regeneration within the root canal. This Special Issue highlights scientific advances in pulp regeneration, bridging the gap between research and clinical application.

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Hardback

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Keywords

electrospinning; cryomilling; biodegradation; antibiotics; fibrous particles; regeneration; dentistry; endodontics; dental pulp stem cells; stem cells of the apical papilla; mesenchymal stem cells; regenerative endodontics; transcriptome; human amnion epithelial cells; dental pulp stem cells; dentin matrix proteins; odontoblastic differentiation; revitalization; regenerative endodontics; dentin-pulp complex regeneration; pulp injury; pulp necrosis; animal model; Wnt signal; dentin pulp complex regeneration engineering; small molecules; antimicrobial; electrospinning; dentistry; drug delivery; endodontics; fibers; regenerative endodontics; study model; dental pulp; regeneration; tissue engineering; cell culture techniques; animal models; translational research; stem cells from the apical papilla (SCAP); regenerative endodontic treatment (RET); osteogenesis; dentinogenesis; Enterococcus faecalis; Fusobacterium nucleatum; transcriptome analysis; differential gene expression analysis (DEG); stem cells from human exfoliated deciduous teeth; bone regeneration; CD146; biocompatibility; dental pulp stem cells; dental tissue engineering; odontogenic differentiation; scaffolds; tissue regeneration; n/a

Molecular Advances in Dental Pulp Tissue Engineering

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