Dental Pulp Cell Sheets Enhance Facial Nerve Regeneration via Local Neurotrophic Factor Delivery

Ahmed, Meer N; Shi, Delin; Dailey, Matthew T.; Rothermund, Kristi; Drewry, Michelle; Calabrese, Tia C.; Cui, Xiufang; Syed-Picard, Fatima N.

doi:10.1089/ten.tea.2020.0265

Cited by 18 publications

(31 citation statements)

References 52 publications

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“…DPSC sheets act as an NTF transmission system to promote axon extension and significantly enhance nerve regeneration. All these results suggest the optimistic outlook of DPSC sheets for the treatment of peripheral nerve injury [ 40 ]. Currently, new biomaterials, such as nerve conduits and porous scaffolds, are widely used in the treatment of peripheral nerve injury and spinal cord injury.…”

Section: Dpsc Sheets Applicationsmentioning

confidence: 99%

Dental-derived mesenchymal stem cell sheets: a prospective tissue engineering for regenerative medicine

Chen

Huang

et al. 2022

Stem Cell Res Ther

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Stem cells transplantation is the main method of tissue engineering regeneration treatment, the viability and therapeutic efficiency are limited. Scaffold materials also play an important role in tissue engineering, whereas there are still many limitations, such as rejection and toxic side effects caused by scaffold materials. Cell sheet engineering is a scaffold-free tissue technology, which avoids the side effects of traditional scaffolds and maximizes the function of stem cells. It is increasingly being used in the field of tissue regenerative medicine. Dental-derived mesenchymal stem cells (DMSCs) are multipotent cells that exist in various dental tissues and can be used in stem cell-based therapy, which is impactful in regenerative medicine. Emerging evidences show that cell sheets derived from DMSCs have better effects in the field of regenerative medicine applications. Extracellular matrix (ECM) is the main component of cell sheets, which is a dynamic repository of signalling biological molecules and has a variety of biological functions and may play an important role in the application of cell sheets. In this review, we summarized the application status, mechanisms that sheets and ECM may play and future prospect of DMSC sheets on regeneration medicine.

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Section: Dpsc Sheets Applicationsmentioning

confidence: 99%

Dental-derived mesenchymal stem cell sheets: a prospective tissue engineering for regenerative medicine

Chen

Huang

et al. 2022

Stem Cell Res Ther

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“…To date, use of DPSC sheets has been reported for the regenerative treatment of a variety of injuries, including but not limited to dental pulp diseases[ 112 ], periodontal tissue diseases[ 121 ], bone defects[ 122 ], nerve injuries[ 123 , 124 ], etc ., and all of these applications have achieved significant results. In one representative clinical study, autologous DPSC sheets from deciduous teeth were transplanted into injured young permanent teeth due to trauma.…”

Section: Derivatives Of Dpscsmentioning

confidence: 99%

“…This transplantation was able to regenerate whole dental pulp, increase the length of the root and reduce the width of the apical foramen at 12 mo after treatment[ 125 ]. Furthermore, the evaluation of DPSC sheets in a rat facial nerve crush injury model in vivo established that in comparison to untreated controls, nerves treated with dental pulp cell sheets had greater axon regeneration through the injury site and superior functional recovery as quantitatively assessed by compound muscle action potential measurements, possibly because the DPSC sheets can highly express neurotrophic factor (NTF) and continuously deliver the NTF to sites of peripheral nerve injury[ 123 ]. Moreover, bioengineered teeth using human DPSC aggregates combined with decellularized tooth matrix or avulsed teeth after traumatic dental injuries can regenerate 3D dental pulp and periodontium equipped with vasculature and innervation in both a preclinical pig model and a pilot clinical trial for treating tooth avulsion[ 126 ].…”

Section: Derivatives Of Dpscsmentioning

confidence: 99%

Therapeutic potential of dental pulp stem cells and their derivatives: Insights from basic research toward clinical applications

Yuan¹,

Yang²,

Zhang³

et al. 2022

WJSC

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For more than 20 years, researchers have isolated and identified postnatal dental pulp stem cells (DPSCs) from different teeth, including natal teeth, exfoliated deciduous teeth, healthy teeth, and diseased teeth. Their mesenchymal stem cell (MSC)-like immunophenotypic characteristics, high proliferation rate, potential for multidirectional differentiation and biological features were demonstrated to be superior to those of bone marrow MSCs. In addition, several main application forms of DPSCs and their derivatives have been investigated, including stem cell injections, modified stem cells, stem cell sheets and stem cell spheroids. In vitro and in vivo administration of DPSCs and their derivatives exhibited beneficial effects in various disease models of different tissues and organs. Therefore, DPSCs and their derivatives are regarded as excellent candidates for stem cell-based tissue regeneration. In this review, we aim to provide an overview of the potential application of DPSCs and their derivatives in the field of regenerative medicine. We describe the similarities and differences of DPSCs isolated from donors of different ages and health conditions. The methodologies for therapeutic administration of DPSCs and their derivatives are introduced, including single injections and the transplantation of the cells with a support, as cell sheets, or as cell spheroids. We also summarize the underlying mechanisms of the regenerative potential of DPSCs.

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“…In a pilot clinical studies with two patients with periodontal intrabone defects, the same group reported that DPSCs-IPs generated new bones to repair the periodontal defects 9 months after surgical reconstruction (99). For craniofacial nerve regeneration, implantation of DPSCsheets and DPSCs infilled in PLGA artificial nerve conduits significantly promoted crush-injured and segmental defect models of rat facial nerves, respectively (100,101). The superior laryngeal nerve (SLN) plays an essential role in swallowing.…”

Section: Dental Pulp Stem Cells (Dpscs) and Stem Cells From Human Exfoliated Deciduous Teeth (Shed)mentioning

confidence: 99%

Potential application of dental stem cells in regenerative reconstruction of oral and maxillofacial tissues: a narrative review

He¹,

Zhang²,

Motiwala³

et al. 2022

Front Oral Maxillofac Med

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Oral and maxillofacial (OMF) defects caused by congenital conditions and various injuries such as trauma, warfare, ablative surgery for benign and malignant head & neck tumor can often lead to OMF deformities and malfunctions in speech, mastication/chewing, and swallowing as well as deleterious psychological effects and socioeconomic burdens to patients. Due to the unique complex 3D geometry and complicated causes, reconstruction and rehabilitation of OMF defects remain a major challenge for OMF surgeons. Currently, microsurgical free tissue transfer remains the mainstay of care in the reconstruction of OMF defects due to their abundant blood supply and flexibility for transplantation. However, there exists several major challenges, such as the limited availability, the requirement of a secondary surgery and donor site morbidity, and the multifactorial failure of free flap transplantation. Due to the advancement in stem cell biology, biomaterial science, and tissue engineering (TE) technology, stem cell-based regenerative therapy is emerging as a promising therapeutic approach for a variety of diseases, including regenerative reconstruction and rehabilitation of OMF defects. In this narrative review, we update the information on the characteristics and biological functions of mesenchymal stem cells derived from various dental tissues (dental-MSCs) and their released cell-free products, extracellular vesicles (EVs). We then highlight their potential application in TE and regenerative reconstruction of OMF defects in animal models and clinical studies and the potential challenges in this field.

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Dental Pulp Cell Sheets Enhance Facial Nerve Regeneration via Local Neurotrophic Factor Delivery

Cited by 18 publications

References 52 publications

Dental-derived mesenchymal stem cell sheets: a prospective tissue engineering for regenerative medicine

Dental-derived mesenchymal stem cell sheets: a prospective tissue engineering for regenerative medicine

Therapeutic potential of dental pulp stem cells and their derivatives: Insights from basic research toward clinical applications

Potential application of dental stem cells in regenerative reconstruction of oral and maxillofacial tissues: a narrative review

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