STUDY OF PHYSICAL AND MECHANICAL PROPERTIES OF POLYMER-IMPREGNATED COMPOSITION IN CLINICAL PURULENT OSTEOLOGY

Ulyanovsk Medico-biological Journal Pub Date : 2022-04-20 DOI:10.34014/2227-1848-2022-1-56-64

I. Efremov, V. Midlenko

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Abstract

Bone cement, or PMMA (polymethyl methacrylate) is often used in purulent surgery. Scientific literature contains very contradictory data on the physical and mechanical properties of polymer-impregnated compositions, in particular, on the temperature of the PMMA polymerization process and the ways to reduce it, such as introduction of antimicrobial drugs for prevention and treatment of infectious complications in patients after injuries and musculoskeletal surgery. The aim of the study is to conduct an in vitro experiment and to evaluate the temperature of the exothermic polymerization reaction of bone cement (PMMA) and possible ways to reduce it. Materials and Methods. The authors conducted 8 series of experiments in vitro. In each series, a disk (45–50 mm in diameter, 5–7 mm thick) was made by hand after mixing the components of the polymer composition. The temperature of the ongoing exothermic reaction was measured on the disk surface using a non-contact infrared thermometer ADA TemPro 300 in a continuous scanning mode. Results. The temperature of the exothermic polymerization reaction of PMMA Synicem 1-based bone cement was 92.8±1.6 °C (min 91.2 °C, max 94.9 °C), and Palacos®MV+G-based bone cement 92.7±1.2 °С (min 91.1 °C, max 93.8 °C). Reducing the monomer amount by 50 % (polymer / monomer ratio was equal to 4:1) and simultaneously introducing “Sextaphage” (10 ml) led to a sharp temperature decrease of the exothermic reaction by more than 30 °C. Conclusions. One of the ways to reduce the temperature of the exothermic reaction in vitro is to change the ratio of polymer powder and liquid monomer, reducing the amount of monomer introduced into the polymer composition.

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临床化脓性骨学中聚合物浸渍组合物的物理力学性能研究

骨水泥或PMMA(聚甲基丙烯酸甲酯)常用于化脓性手术。科学文献中包含了关于聚合物浸渍组合物的物理和机械性能的非常矛盾的数据，特别是关于PMMA聚合过程的温度和降低温度的方法，例如引入抗菌药物来预防和治疗受伤和肌肉骨骼手术后患者的感染并发症。本研究的目的是进行体外实验，评估骨水泥(PMMA)放热聚合反应的温度和可能的降低方法。材料与方法。作者进行了8个系列的体外实验。在每个系列中，将聚合物组成的成分混合后，手工制作一个圆盘(直径45 - 50mm，厚5 - 7mm)。在连续扫描模式下，使用ADA TemPro 300非接触式红外测温仪在磁盘表面测量正在进行的放热反应的温度。结果。PMMA Synicem 1基骨水泥放热聚合反应温度为92.8±1.6°C(最小91.2°C，最大94.9°C)， Palacos®MV+ g基骨水泥放热聚合反应温度为92.7±1.2°С(最小91.1°C，最大93.8°C)。将单体用量减少50%(聚合物/单体比为4:1)，同时引入“Sextaphage”(10 ml)，放热反应温度急剧下降30℃以上。结论。降低体外放热反应温度的方法之一是改变聚合物粉末与液体单体的比例，减少单体引入到聚合物组合物中的量。

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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Ulyanovsk Medico-biological Journal

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