An iodine-coated titanium plate prepared with potassium iodide

Q4 Medicine

中华创伤骨科杂志 Pub Date : 2020-03-15 DOI:10.3760/CMA.J.CN115530-20190319-00096

Bingwen Wan, Jian-li Fang, Xiu Yang, Nengfu Chen, Jialin Lyu, Cong Lin, Qinggang Lyu, Wanming Wang

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Abstract

Objective To explore the feasibility of preparing an iodine-coated titanium plate with potassium iodide and verify its antibacterial performance. Methods Iodine was coated onto the surface of a titanium plate in electrolyte of potassium iodide using the electrophoretic deposition method. The signs and composition of the surface of the iodine-coated titanium plate were observed by scanning electron microscopy and energy dispersive spectroscopy. The experiment was conducted in a control group and 3 antibacterial test groups. The control group consisted of 10 titanium plates which had been pretreated but not loaded with iodine; the 3 experimental groups also had in each 10 titanium plates which had been pretreated and loaded with iodine in the electrolytes of concentrations of 1,000 mg/L, 2,000 mg/L and 4,000 mg/L, respectively. The antimicrobial tests in vitro were conducted with standard strains of staphylococcus aureus [1×106 Colony-Forming Units (CFU)/mL ATCC25923] to determine the antibacterial property of the plates. Results The iodine-coated titanium plates appeared grey and their surface was evenly covered with a flat coating with no collapse. The scanning electron microscopy observed on the surface of the iodine-coated titanium plates an iodine coating with scattered irregular collapses in different sizes. The iodine content was 0 mass%, 5.10 mass%, 10.32 mass% and 15.05 mass%, respectively, in the control, 1,000 mg/L, 2,000 mg/L and 4 000 mg/L groups under the energy dispersive spectroscopy. Their counts of in vitro antibacterial colony were 56.00±5.09, 21.40±2.76, 9.10±2.51, and 2.00±1.88, respectively, showing significant differences between groups (P< 0.05). Conclusions A titanium plate with a steady and even iodine coating can be prepared by virtue of the electrophoretic deposition method in electrolyte of potassium iodide. The antibacterial property of an iodine-coated titanium plate is superior to that of a titanium plate without iodine coating. Key words: Iodine; Potassium iodide; Titanium; Bone plates; Infection

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一种用碘化钾制备的碘包覆钛板

目的探讨用碘化钾制备碘涂层钛板的可行性，并验证其抗菌性能。方法采用电泳沉积法在碘化钾电解液中，将碘涂在钛板表面。通过扫描电子显微镜和能谱仪观察了碘涂层钛板表面的形貌和成分。实验分为对照组和3个抗菌试验组。对照组由10块经过预处理但未负载碘的钛板组成；3个实验组的每10块钛板中也分别有经过预处理并在浓度分别为1000mg/L、2000mg/L和4000mg/L的电解质中负载碘的钛板。用金黄色葡萄球菌标准菌株[1×106菌落形成单位（CFU）/mL ATCC25923]进行体外抗菌试验，以测定平板的抗菌性能。结果碘涂层钛板表面呈灰色，涂层平整，无塌陷现象。扫描电子显微镜在碘涂层钛板表面观察到不同尺寸的碘涂层具有分散的不规则塌陷。在能量分散光谱下，对照组、1000mg/L组、2000mg/L组和4000mg/L组的碘含量分别为0质量%、5.10质量%、10.32质量%和15.05质量%。体外抗菌菌落数分别为56.00±5.09、21.40±2.76、9.10±2.51和2.00±1.88，各组间差异有统计学意义（P<0.05）。涂碘钛板的抗菌性能优于未涂碘的钛板。关键词：碘；碘化钾；钛；骨板；感染

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