Etched 3D-Printed Polycaprolactone Constructs Functionalized with Reduced Graphene Oxide for Enhanced Attachment of Dental Pulp-Derived Stem Cells

Bow, Austin; Masi, Thomas; Dhar, Madhu

doi:10.3390/pharmaceutics13122146

Cited by 5 publications

(2 citation statements)

References 58 publications

(62 reference statements)

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“…Nevertheless, the lack of cell-anchoring site and hydrophobic surface lead to the low bioactivity of synthetic polymers ( Place et al, 2009 ). Various attempts have been made for the optimization of biological properties, including surface modification, biomaterial coating, introduction of functional groups and so on ( Bow et al, 2021 ; Feng et al, 2021 ; Park et al, 2021 ).…”

Section: Biomaterials In 3d Printing For Dental Tissue Regenerationmentioning

confidence: 99%

The 3-dimensional printing for dental tissue regeneration: the state of the art and future challenges

Zhao,

Zhang,

Guo

2024

Front. Bioeng. Biotechnol.

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Tooth loss or damage poses great threaten to oral and general health. While contemporary clinical treatments have enabled tooth restoration to a certain extent, achieving functional tooth regeneration remains a challenging task due to the intricate and hierarchically organized architecture of teeth. The past few decades have seen a rapid development of three-dimensional (3D) printing technology, which has provided new breakthroughs in the field of tissue engineering and regenerative dentistry. This review outlined the bioactive materials and stem/progenitor cells used in dental regeneration, summarized recent advancements in the application of 3D printing technology for tooth and tooth-supporting tissue regeneration, including dental pulp, dentin, periodontal ligament, alveolar bone and so on. It also discussed current obstacles and potential future directions, aiming to inspire innovative ideas and encourage further development in regenerative medicine.

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Section: Biomaterials In 3d Printing For Dental Tissue Regenerationmentioning

confidence: 99%

The 3-dimensional printing for dental tissue regeneration: the state of the art and future challenges

Zhao,

Zhang,

Guo

2024

Front. Bioeng. Biotechnol.

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“…This may result in nutrient deficits in coronal regions [ 6 ] and hinders the therapeutic success. Nonetheless, many cell- or biomaterial-based therapeutic approaches have been presented in the literature [ 7 , 8 , 9 , 10 , 11 ]. Exemplarily, Liu et al recently described a dopamine-modified, hyaluronic-acid based biopolymer, which enables efficient adhesion of dental pulp stem cells (DPSCs) for dental pulp regeneration and dentin synthesis [ 12 ].…”

Section: Introductionmentioning

confidence: 99%

Characterization of a Stemness-Optimized Purification Method for Human Dental-Pulp Stem Cells: An Approach to Standardization

Dieterle

Gross

Steinberg

et al. 2022

Cells

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Human dental pulp stem cells (hDPSCs) are promising for oral/craniofacial regeneration, but their purification and characterization is not yet standardized. hDPSCs from three donors were purified by magnetic activated cell sorting (MACS)-assisted STRO-1-positive cell enrichment (+), colony derivation (c), or a combination of both (c/+). Immunophenotype, clonogenicity, stemness marker expression, senescence, and proliferation were analyzed. Multilineage differentiation was assessed by qPCR, immunohistochemistry, and extracellular matrix mineralization. To confirm the credibility of the results, repeated measures analysis and post hoc p-value adjustment were applied. All hDPSC fractions expressed STRO-1 and were similar for several surface markers, while their clonogenicity and expression of CD10/44/105/146, and 166 varied with the purification method. (+) cells proliferated significantly faster than (c/+), while (c) showed the highest increase in metabolic activity. Colony formation was most efficient in (+) cells, which also exhibited the lowest cellular senescence. All hDPSCs produced mineralized extracellular matrix. Regarding osteogenic induction, (c/+) revealed a significant increase in mRNA expression of COL5A1 and COL6A1, while osteogenic marker genes were detected at varying levels. (c/+) were the only population missing BDNF gene transcription increase during neurogenic induction. All hDPSCs were able to differentiate into chondrocytes. In summary, the three hDPSCs populations showed differences in phenotype, stemness, proliferation, and differentiation capacity. The data suggest that STRO-1-positive cell enrichment is the optimal choice for hDPSCs purification to maintain hDPSCs stemness. Furthermore, an (immuno) phenotypic characterization is the minimum requirement for quality control in hDPSCs studies.

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Multimaterial 3D printing of self-assembling smart thermo-responsive polymers into 4D printed objects: A review

Shahbazi

Jäger

Ettelaie

et al. 2023

Additive Manufacturing

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Etched 3D-Printed Polycaprolactone Constructs Functionalized with Reduced Graphene Oxide for Enhanced Attachment of Dental Pulp-Derived Stem Cells

Cited by 5 publications

References 58 publications

The 3-dimensional printing for dental tissue regeneration: the state of the art and future challenges

The 3-dimensional printing for dental tissue regeneration: the state of the art and future challenges

Characterization of a Stemness-Optimized Purification Method for Human Dental-Pulp Stem Cells: An Approach to Standardization

Multimaterial 3D printing of self-assembling smart thermo-responsive polymers into 4D printed objects: A review

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