首页|期刊导航|海南医科大学学报|3D打印载米诺环素nHA/CS复合支架修复犬种植体周围炎伴骨缺损

3D打印载米诺环素nHA/CS复合支架修复犬种植体周围炎伴骨缺损

李紫含杨楠方君怡汪振华

海南医科大学学报2026，Vol.32Issue(8)：579-586,8.

海南医科大学学报2026，Vol.32Issue(8)：579-586,8.DOI:10.13210/j.cnki.jhmu.20250207.001

3D打印载米诺环素nHA/CS复合支架修复犬种植体周围炎伴骨缺损

3D Printed nano-hydroxyapatite/chitosan composite with Minocycline repairs dog bone defects&peri-implantitis

李紫含 ¹杨楠 ²方君怡 ¹汪振华³

作者信息

1. 石河子大学医学院,新疆石河子 832000
2. 乌鲁木齐市口腔医院修复科,新疆乌鲁木齐 830000
3. 石河子大学医学院,新疆石河子 832000||乌鲁木齐市口腔医院修复科,新疆乌鲁木齐 830000
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摘要

Abstract

Objective:To explore the repair effect of 3D-printed nano-metronidazole hydroxyapatite(nano-hydroxyapatite,nHA)/chitosan(Chitosan,CS)composite scaffolds on periodontal disease with bone defect in dogs.Methods:A total of 6 male beagle dogs had their posterior mandibular teeth immediately implanted.After 4 weeks,a periodontal disease model was estab-lished around the implants using the suture ligation method,and the scaffold material was reimplanted.The bilateral mandibles of dogs were divided into control C1(nHA)group,control C2(minocycline)group,experimental T0(nHA/CS)group and exper-imental T1(nHA/CS/minocycline)group.Analysis of stent effects on beagle dogs with peri-implantitis bone defects using com-puterized tomography(CBCT)and histopathology.And the levels of IL-8 and IL-34 in the peri-implant gingival crevicular fluid were measured by ELISA on 3rd,7th and 30th day after immediate implantation and stent reimplantation.Results:After stent re-implantation,ELISA test showed that the IL-8 and IL-34 levels in the experimental T1 group were lower than the experimental T0 group at each measurement time point,and the IL-8 and IL-34 levels were lower than the control C2 group at 30th day after surgery,showing a statistically significant difference(P<0.05).CT showed no obvious resorptive shadow in the experimental T1 group in the implant 1 month after surgery,while bone defect was still present in the other groups.DD,DW and BL values were significant in each group(F=19.232,216.008,71.985,P<0.05).The histological staining of H&E showed the best effect of the experimental T1 bone composition,and a large number of fibroblastic vessels and osteoblasts were obviously biodegradable.Con-clusion:3D printed nHA/CS carrier Minocycline composite scaffold shows a promising repair effect on canine implant-related peri-odontitis with bone defects.That has a good antibacterial effect and can effectively promote the repair of alveolar bone defects.

关键词

3D打印/纳米羟基磷灰石(nHA)/壳聚糖(CS)/米诺环素/载药支架/种植体周围炎/骨缺损/比格犬

Key words

3D printing/Nano-hydroxyapatite/Chitosan/Minocycline/Vehicle holder/Peri-implantitis/Bone defect/Beagle dog

分类

医药卫生

引用本文复制引用

李紫含,杨楠,方君怡,汪振华..3D打印载米诺环素nHA/CS复合支架修复犬种植体周围炎伴骨缺损[J].海南医科大学学报,2026,32(8):579-586,8.

基金项目

This study was supported by the Natural Science Foundation of Xinjiang Province(2020D01A28) 新疆维吾尔自治区自然科学基金资助项目(2020D01A28) （2020D01A28）

海南医科大学学报

ISSN：1007-1237

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