Thermal Effects of 445-nm Diode Laser Irradiation on Titanium and Ceramic Implants.

IF 1.5 4区 医学 Q3 DENTISTRY, ORAL SURGERY & MEDICINE
Loredana Calce, Maryam Hafeez, Wei Hou, Georgios E Romanos
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Abstract

This study aimed to evaluate temperature changes in titanium and ceramic implants after using a 445-nm diode laser under different in vitro conditions. Titanium (Ti) and ceramic (Zr) dental implants were placed into a bone analog, and an intrabony defect was created at each implant. A 445-nm diode laser was used to irradiate the defects for 30 seconds, noncontact, at 2 W in continuous wave (c.w.) and pulsed mode. The experiment was done at room temperature (21.0 ± 1°C) and in a water bath (37.0 ± 1°C). Two thermocouple probes were used to record real-time temperature changes (°C) at the coronal part of the implant (Tc) and the apex (Ta). The temperature was recorded at time 0 (To) and after 30 seconds of irradiation (Tf). The average temperature change was calculated, and a descriptive analysis was conducted (P < .05). The Ti implant resulted in the highest ΔT values coronally (29.6°C) and apically (6.7°C) using continuous wave at 21°C. The Zr implant increased to 26.4°C coronally and 5.2°C apically. In the water bath, the coronal portion of the Ti and Zr implants rose to 14.2°C and 14.01°C, respectively, using continuous waves. The ΔT values for Ti were 11.9°C coronally and 1.7°C apically when placed in a water bath using pulsed mode. The lowest ΔT occurred on the Zr implant with ΔTc and ΔTa of 4.8°C and 0.78°C, respectively. Under in vitro conditions, the 445-nm diode laser in pulsed mode seems to be safe for use on ceramic implants and should be used with caution on titanium implants.

445nm二极管激光辐照对钛和陶瓷植入物的热效应。
本研究旨在评估445nm二极管激光在不同体外条件下钛和陶瓷植入物的温度变化。将钛(Ti)和陶瓷(Zr)牙种植体放入骨模拟物中,并在每个种植体处创建骨内缺陷。采用445nm二极管激光器,以2w的连续波和脉冲模式对缺陷进行30秒非接触照射。实验在室温(21.0±1°C)和水浴(37.0±1°C)下进行。使用两个热电偶探头记录种植体冠状部(Tc)和尖端部(Ta)的实时温度变化(°C)。记录0 (To)时间和照射30秒(Tf)后的温度。计算平均温度变化,并进行描述性分析(P < 0.05)。钛种植体在21°C下使用连续波,冠状(29.6°C)和根尖(6.7°C)的ΔT值最高。Zr种植体冠状和根尖分别升高到26.4°C和5.2°C。在水浴中,连续波使Ti和Zr植入体的冠状部分分别升高到14.2℃和14.01℃。当使用脉冲模式置于水浴中时,Ti的ΔT值为冠状11.9°C,根尖1.7°C。Zr种植体的ΔT最低,ΔTc和ΔTa分别为4.8°C和0.78°C。在体外条件下,脉冲模式445nm二极管激光器用于陶瓷植入物似乎是安全的,但在钛植入物上应谨慎使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Oral Implantology
Journal of Oral Implantology DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
2.30
自引率
6.20%
发文量
54
审稿时长
6-12 weeks
期刊介绍: The official publication of the American Academy of Implant Dentistry and of the American Academy of Implant Prosthodontics, is dedicated to providing valuable information to general dentists, oral surgeons, prosthodontists, periodontists, scientists, clinicians, laboratory owners and technicians, manufacturers, and educators. Implant basics, prosthetics, pharmaceuticals, the latest research in implantology, implant surgery, and advanced implant procedures are just some of the topics covered.
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