Gespeichert in:
Bibliographische Detailangaben
Hauptverfasser: Lestari, Widya, Irfanita, Nining, Haris, Muhammad Salahuddin, Lin, Galvin Sim Siang, Jaswir, Irwandi, Darnis, Deny Susanti, Ruziantee, Nurul, Mazlan, Nurzafirah, Idrus, Erik, Amir, Lisa Rinanda, Fadhlina, Anis, Sheikh, Hassan I, Arzmi, Mohd Hafiz
Format: Artículo científico
Sprache:en
Veröffentlicht: Odontology 2026
Schlagworte:
Online-Zugang:https://pubmed.ncbi.nlm.nih.gov/40676446/
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
_version_ 1868266176809795584
author Lestari, Widya
Irfanita, Nining
Haris, Muhammad Salahuddin
Lin, Galvin Sim Siang
Jaswir, Irwandi
Darnis, Deny Susanti
Ruziantee, Nurul
Mazlan, Nurzafirah
Idrus, Erik
Amir, Lisa Rinanda
Fadhlina, Anis
Sheikh, Hassan I
Arzmi, Mohd Hafiz
author_facet Lestari, Widya
Irfanita, Nining
Haris, Muhammad Salahuddin
Lin, Galvin Sim Siang
Jaswir, Irwandi
Darnis, Deny Susanti
Ruziantee, Nurul
Mazlan, Nurzafirah
Idrus, Erik
Amir, Lisa Rinanda
Fadhlina, Anis
Sheikh, Hassan I
Arzmi, Mohd Hafiz
Lestari, Widya
Irfanita, Nining
Haris, Muhammad Salahuddin
Lin, Galvin Sim Siang
Jaswir, Irwandi
Darnis, Deny Susanti
Ruziantee, Nurul
Mazlan, Nurzafirah
Idrus, Erik
Amir, Lisa Rinanda
Fadhlina, Anis
Sheikh, Hassan I
Arzmi, Mohd Hafiz
collection PubMed - marine biology
contents Advancements and applications of gelatin-based scaffolds in dental engineering: a narrative review. Lestari, Widya Irfanita, Nining Haris, Muhammad Salahuddin Lin, Galvin Sim Siang Jaswir, Irwandi Darnis, Deny Susanti Ruziantee, Nurul Mazlan, Nurzafirah Idrus, Erik Amir, Lisa Rinanda Fadhlina, Anis Sheikh, Hassan I Arzmi, Mohd Hafiz Gelatin Tissue Engineering Tissue Scaffolds Humans Biocompatible Materials Gelatin-based scaffolds have garnered significant attention in dental tissue engineering due to their biocompatibility, biodegradability, and resemblance to the extracellular matrix (ECM). This narrative review highlights recent advancements and applications of gelatin-based scaffolds for oral tissue regeneration. Various scaffold types, including hydrogels, electrospun nanofibers, hybrid composites, crosslinked matrices, and microspheres, are discussed in terms of their physicochemical characteristics, fabrication techniques, and regenerative potential. Gelatin methacryloyl (GelMA) hydrogels, for instance, exhibit favorable hydration and mechanical properties for endodontic regeneration, while electrospun nanofibers support enhanced cellular attachment and proliferation. Hybrid scaffolds incorporating ceramics, such as hydroxyapatite or β-tricalcium phosphate (β-TCP), improve mechanical strength, making them suitable for alveolar bone regeneration. Key parameters influencing scaffold performance, including gelatin concentration, crosslinking density, pore size, and biofunctionalization, are also examined. Applications span dentin-pulp complex regeneration, periodontal therapy, and bone defect repair. Despite their promise, limitations, such as rapid degradation and mechanical weakness, necessitate optimization either through chemical modification or composite formation. The integration of emerging technologies, including bioprinting and smart biomaterials, may further enhance scaffold functionality. This review underscores gelatin's versatility and its pivotal role in shaping next-generation strategies for functional and biomimetic dental tissue restoration.
format Artículo científico
id pubmed_40676446
institution PubMed
language en
publishDate 2026
publisher Odontology
record_format pubmed
spellingShingle Advancements and applications of gelatin-based scaffolds in dental engineering: a narrative review.
Lestari, Widya
Irfanita, Nining
Haris, Muhammad Salahuddin
Lin, Galvin Sim Siang
Jaswir, Irwandi
Darnis, Deny Susanti
Ruziantee, Nurul
Mazlan, Nurzafirah
Idrus, Erik
Amir, Lisa Rinanda
Fadhlina, Anis
Sheikh, Hassan I
Arzmi, Mohd Hafiz
Gelatin
Tissue Engineering
Tissue Scaffolds
Humans
Biocompatible Materials
Advancements and applications of gelatin-based scaffolds in dental engineering: a narrative review. Lestari, Widya Irfanita, Nining Haris, Muhammad Salahuddin Lin, Galvin Sim Siang Jaswir, Irwandi Darnis, Deny Susanti Ruziantee, Nurul Mazlan, Nurzafirah Idrus, Erik Amir, Lisa Rinanda Fadhlina, Anis Sheikh, Hassan I Arzmi, Mohd Hafiz Gelatin Tissue Engineering Tissue Scaffolds Humans Biocompatible Materials Gelatin-based scaffolds have garnered significant attention in dental tissue engineering due to their biocompatibility, biodegradability, and resemblance to the extracellular matrix (ECM). This narrative review highlights recent advancements and applications of gelatin-based scaffolds for oral tissue regeneration. Various scaffold types, including hydrogels, electrospun nanofibers, hybrid composites, crosslinked matrices, and microspheres, are discussed in terms of their physicochemical characteristics, fabrication techniques, and regenerative potential. Gelatin methacryloyl (GelMA) hydrogels, for instance, exhibit favorable hydration and mechanical properties for endodontic regeneration, while electrospun nanofibers support enhanced cellular attachment and proliferation. Hybrid scaffolds incorporating ceramics, such as hydroxyapatite or β-tricalcium phosphate (β-TCP), improve mechanical strength, making them suitable for alveolar bone regeneration. Key parameters influencing scaffold performance, including gelatin concentration, crosslinking density, pore size, and biofunctionalization, are also examined. Applications span dentin-pulp complex regeneration, periodontal therapy, and bone defect repair. Despite their promise, limitations, such as rapid degradation and mechanical weakness, necessitate optimization either through chemical modification or composite formation. The integration of emerging technologies, including bioprinting and smart biomaterials, may further enhance scaffold functionality. This review underscores gelatin's versatility and its pivotal role in shaping next-generation strategies for functional and biomimetic dental tissue restoration.
title Advancements and applications of gelatin-based scaffolds in dental engineering: a narrative review.
topic Gelatin
Tissue Engineering
Tissue Scaffolds
Humans
Biocompatible Materials
url https://pubmed.ncbi.nlm.nih.gov/40676446/