Effect of photofunctionalization with and without vibration on osseointegration of titanium implants: A comparative in vitro study.

IF 1 Q3 DENTISTRY, ORAL SURGERY & MEDICINE

The Journal of Indian Prosthodontic Society Pub Date : 2025-10-01 Epub Date: 2025-10-20 DOI:10.4103/jips.jips_194_25

Priyanka Patra, Rajyalakshmi Ravuri, Praveen Mamidi, Gautam Kumar Annojjula, Tejaswi Manasa Emany, Chittaranjan Bogishetty

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引用次数: 0

Abstract

Aim: Enhancing early cell-implant interaction is vital for successful osseointegration. This in vitro study aimed to evaluate the combined effect of photofunctionalization and low-frequency mechanical vibration on osteoblast cells derived from human placental tissue cultured on titanium surfaces.

Settings and design: Following approval from the Institutional Ethics Committee and informed consent, a controlled in vitro experimental study was conducted in the Department of Prosthodontics in collaboration with a certified cell culture laboratory.

Materials and methods: Osteoblast cells were isolated and cultured. Titanium implant surface was photofunctionalized using ultraviolet C (UV-C) light (254 nm) for 48 h. Cells were seeded onto the implant surface and divided into three groups: Group 1: Control (untreated titanium), Group 2: UV-treated titanium, and Group 3: UV-treated titanium implant with mechanical vibration (20 Hz for 3 min/day for 3 days) to osteoblast cells. Cell proliferation was assessed using MTT assay, mineralization via Alizarin Red S staining, and osteogenic gene expression (runt-related transcription factor-2, Alkaline phosphatase, OCN) through reverse transcription polymerase chain reaction.

Statistical analysis used: Data were analyzed using analysis of variance with Tukey's post hoc test (P < 0.05).

Results: The combination of photofunctionalization and mechanical vibration (Group 3) significantly enhanced cell proliferation, mineral deposition, and osteogenic gene expression compared to Groups 1 and 2 (P < 0.05). While photofunctionalization alone improved osteoblast activity, the synergistic application of mechanical vibration further amplified the response.

Conclusion: The combination of photofunctionalization and low-frequency vibration significantly enhances the osteogenic response of osteoblast cells to titanium, indicating its potential to improve implant osseointegration.

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有振动和无振动的光功能化对钛种植体骨整合的影响：体外比较研究。

目的：增强早期细胞-种植体相互作用对骨整合的成功至关重要。本实验旨在探讨光功能化和低频机械振动对钛表面培养的人胎盘组织成骨细胞的联合作用。环境和设计：经机构伦理委员会批准并获得知情同意后，在口腔修复科与经认证的细胞培养实验室合作进行了一项对照体外实验研究。材料与方法：分离培养成骨细胞。采用UV-C光（254 nm）对钛种植体表面进行48 h的光功能化。将细胞播种于种植体表面，分为三组：1组：对照（未处理的钛），2组：紫外线处理的钛，3组：紫外线处理的钛种植体通过机械振动（20 Hz， 3分钟/天，3天）对成骨细胞。MTT法检测细胞增殖，茜素红S染色检测矿化，逆转录聚合酶链反应检测成骨基因（矮子相关转录因子-2，碱性磷酸酶，OCN）表达。采用统计学分析：采用Tukey事后检验方差分析（P < 0.05）。结果：与1、2组相比，光功能化与机械振动联合作用（3组）显著增强了细胞增殖、矿物质沉积和成骨基因表达（P < 0.05）。光功能化可以提高成骨细胞的活性，而机械振动的协同应用进一步放大了这种反应。结论：光功能化与低频振动结合可显著增强成骨细胞对钛的成骨反应，提示其具有改善种植体骨整合的潜力。

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