自组装肽纳米纤维和纳米陶瓷在牙槽骨修复模型中的应用：来自体内实验和临床试验的见解

Self-assembling peptide nanofibers and nanoceramics in a model of alveolar bone repair: Insights from in vivo experiments and clinical trial.

作者信息

Tahmasebi Elahe, Azadi Sareh, Hajisadeghi Samira, Barikani Hamidreza, Salehi Masoud, Shafikhani Mahdi, Mozaffari Fateme, Nazarpour Edris, Torabizadeh Arman, Khoshzaban Ahad

机构信息

Research Center for Prevention of Oral and Dental Diseases, Baqiyatallah University of Medical Sciences, Tehran, Iran.

School of Dentistry, Baqiyatallah University of Medical Sciences, Tehran, Iran.

出版信息

Regen Ther. 2024 Dec 7;28:134-142. doi: 10.1016/j.reth.2024.11.011. eCollection 2025 Mar.

DOI:10.1016/j.reth.2024.11.011

PMID:39720704

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11666891/

Abstract

INTRODUCTION

Tooth extraction initiates a cascade of homeostatic and structural modifications within the periodontal tissues, culminating in alveolar ridge resorption. To prevent ridge resorption following extraction and facilitate successful placement of an implant-supported prosthesis, alveolar ridge preservation was performed.

METHODS

In this study, the biocompatibility of a nanocomposite consisting of self-assembling peptide nanofibers (organic phase) and tri-calcium phosphate-nano hydroxyapatite (mineral phase), was evaluated in rabbits. Subsequently, the nanocomposite was grafted onto a model of alveolar bone repair in patients.

RESULTS

The in vivo findings revealed no significant differences in the irritation ranking score and average thickness of the reaction zone between the nanocomposite and control groups. Furthermore, there were no significant differences in the appearance of necrosis, granulation tissue, fibroplasia, neovascularization, and hemorrhage as well as in the number of neutrophils, mast cells, lymphocytes, macrophages, and giant cells between the two groups. The defect area was completely filled with newly formed bone trabeculae and cavities containing bone marrow, indicating angiogenesis, while remnants of the scaffold were observed in the deeper region of the defects, adjacent to the bone marrow, considered osteoinductive. The clinical trial findings (TRN: IR.IUMS.REC.1401.355) demonstrated robust bone regeneration after 3.5 months of socket preservation, whereas the bone in the control group experienced atrophy. The nanocomposite facilitated soft tissue healing without any signs of infection or other periodontal malfunction.

CONCLUSION

The application of nanotechnology has enhanced the bio-functionality of alloplastic materials, positioning this nanocomposite a promising alternative to autografts and allografts in alveolar bone repair.

摘要

引言

拔牙会引发牙周组织内一系列的稳态和结构改变，最终导致牙槽嵴吸收。为防止拔牙后牙槽嵴吸收并促进种植体支持修复体的成功植入，进行了牙槽嵴保存。

方法

在本研究中，对一种由自组装肽纳米纤维（有机相）和磷酸三钙-纳米羟基磷灰石（矿物相）组成的纳米复合材料在兔体内的生物相容性进行了评估。随后，将该纳米复合材料移植到患者的牙槽骨修复模型上。

结果

体内研究结果显示，纳米复合材料组与对照组在刺激分级评分和反应区平均厚度方面无显著差异。此外，两组在坏死、肉芽组织、纤维增生、新血管形成和出血的外观以及中性粒细胞、肥大细胞、淋巴细胞、巨噬细胞和巨细胞的数量方面也无显著差异。缺损区域完全被新形成的骨小梁和含有骨髓的腔隙填满，表明有血管生成，而在缺损的深部区域，靠近骨髓处观察到支架的残余物，认为具有骨诱导性。临床试验结果（试验注册号：IR.IUMS.REC.1401.355）表明，拔牙窝保存3.5个月后有强劲的骨再生，而对照组的骨出现萎缩。该纳米复合材料促进了软组织愈合，无任何感染迹象或其他牙周功能障碍。

结论

纳米技术的应用增强了异体材料的生物功能，使这种纳米复合材料成为牙槽骨修复中自体移植物和异体移植物的一种有前景的替代物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/515a/11666891/8fecc2199f0a/gr1.jpg

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自组装肽纳米纤维和纳米陶瓷在牙槽骨修复模型中的应用：来自体内实验和临床试验的见解

Self-assembling peptide nanofibers and nanoceramics in a model of alveolar bone repair: Insights from in vivo experiments and clinical trial.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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