I. Chelpanova, O. Masna-Chala, A. Yashchenko, Z. Z. Masna, Kh. I. Rudnytska
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引用次数: 0
Abstract
Background. The problem of restoration the integrity of the dentition after tooth loss remains one of the most problematic dental issues. Мodern dental technologies open a promising direction in its solution, in particular - the method of dental implantation. Objective. The aim of our work was to study the changes that occur in the bone tissue of the mandible after implantation of titanium foam and to determine the effect of shock wave therapy (SWT) on its structure restoration. Methods. The study was performed on 15 adult rabbits aged 6-7 months, weighing 2.5-3 kg. The animals from the experimental groups were implanted with titanium pin, 3 mm long. The pin was implanted under combined anesthesia bilaterally into the body of the mandible. One day after the operation, the animals received SWT 500 pulses with a frequency of 5 Hz and a maximum pressure at the wavefront of 1.2 Bar per implantation site using the device Storz Medical Master Plus MP 100. The animals were removed from the experiment on 15-th day, after which the mandible was disarticulated and radiographically performed. The obtained results were statistically significant. The differences at p<0.05 were considered significant. Results. The results showed that the bone tissue of the jaws during implantation undergoes traumatic injury, the results of which, two weeks after surgery on radiographs we can clearly see a violation of the bone tissue structure and a significant increase in its density. Using the SWT method, we obtained a positive dynamics of bone density after titanium pin implantation and slight Rh-changes in bone structure compared with normal. Conclusion. Аfter implantation with titanium pin the bone density of the rabbit lower jaw body is significantly reduced, X-ray shows the heterogeneity of bone structure, areas of sclerosis are expressed. Shock wave therapy helps to restore the quality of bone tissue, this is confirmed by the fact that the density indicators are close to the norm and X-ray shows some separate small areas of restructuring of bone tissue heterogeneity, mainly due to merging the pattern of the bone trabeculae of the bone cancellous part.
背景。牙齿脱落后牙列的完整性修复问题仍然是最棘手的牙科问题之一。Мodern牙科技术在其解决方案中开辟了一个有前途的方向,特别是牙种植方法。目标。我们的研究目的是研究泡沫钛植入后下颌骨骨组织的变化,并确定冲击波治疗(SWT)对其结构恢复的影响。方法。研究对象为15只6-7月龄、体重2.5-3 kg的成年兔子。实验组动物植入长3mm的钛针。在双侧联合麻醉下将针植入下颌骨。手术后一天,动物使用Storz Medical Master Plus MP 100装置接受频率为5 Hz的SWT 500脉冲,每个植入部位的波前最大压力为1.2 Bar。第15天将动物从实验中取出,随后拆除下颌骨并进行x线摄影。所得结果具有统计学意义。p<0.05为显著性差异。结果。结果表明,在植入过程中颌骨的骨组织受到了创伤性损伤,结果,术后两周的x线片上我们可以清楚地看到骨组织结构的破坏和密度的明显增加。采用SWT方法,我们获得了钛针植入后骨密度的正动态变化,骨结构与正常相比有轻微的rh变化。结论。Аfter植入钛针后兔下颌骨体骨密度明显降低,x线显示骨结构不均匀,有硬化区表达。冲击波治疗有助于骨组织质量的恢复,密度指标接近正常值,x线显示一些单独的小区域的骨组织重构不均匀,这主要是由于合并骨松质部分的骨小梁的模式。