在调整下颌位置过程中应用数字技术辅助优化的效果。

Yanji Gong, Yang Liu, Deqiang Yin
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引用次数: 0

摘要

方法选取2022年6月至2023年5月在四川大学华西口腔医院颞下颌关节科就诊的74例TMD患者作为研究对象。收集患者的初始计算机断层扫描(CT)和双侧颞下颌关节磁共振成像(MRI)数据。148个关节被分为椎间盘-髁突关系正常(N)组、椎间盘移位伴缩小(DDWR)组和椎间盘移位不伴有缩小(DDWoR)组。在数字技术的辅助下,对患者的 CT 数据进行重建,并建立个性化的参考平面,以调整下颌位置。根据调整后的咬合空间设计出三点咬合引导夹板,然后通过三维打印技术制作而成。患者佩戴后通过核磁共振检查。在下颌位置调整前后,测量髁突和盘的位移量和方向,以及髁突和盘之间的角度,作为调整效果的评价指标。结果 在 N 组中,椎间盘沿 X 轴和 Z 轴向后和向下移动了(-0.60±0.62)毫米和(0.51±0.71)毫米。在DDWR组中,椎间盘沿X轴和Z轴向后和向上移动的幅度分别为(-1.33±1.38)毫米和(-0.09±1.31)毫米。在DDWoR组中,椎间盘沿X轴和Z轴向前和向下移动的幅度分别为(0.49±1.76)毫米和(1.35±1.76)毫米。三组患者在调整下颌位置后,髁突与椎间盘之间的夹角均有所减小。结论数字技术辅助下颌位置调整可以简化过程,降低技术的敏感性,改善患者的椎间盘-髁状突结构和症状。因此,将其应用于 TMD 患者的治疗具有重要的临床意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of the application of digital technology-assisted optimization in the process of adjusting jaw position.
OBJECTIVES The aim of this study was to demonstrate a novel jaw position adjustment technique derived from digital twins and evaluate the application effect of digital technology-assisted optimization in the process of adjusting jaw position on patients with temporomandibular disorders (TMD). METHODS A total of 74 patients with TMD who attended the Department of Temporomandibular Joint, West China Hospital of Stomatology, Si-chuan University, between June 2022 and May 2023 were selected. The patient's initial computed tomography (CT) and bilateral temporomandibular joint data obtained by magnetic resonance imaging (MRI) were collected. The 148 joints were divided into the normal disc-condyle relationship (N) group, disc displacement with reduction (DDWR) group, and disc displacement without reduction (DDWoR) group. Assisted by digital technology, the patient's CT data were reconstructed, and a personalized reference plane was established to adjust the jaw position. A three-point bite guiding splint was designed by the adjusted occlusal space and then fabricated by 3D printing technology. It was worn by the patients and then reviewed by MRI. Before and after the adjustment of jaw position, the amount and direction of condyle and disc displacement and the angle between condyle and disc were measured as the evaluation indexes of the effect of the adjustment. The correlation with condylar displacement was evaluated. RESULTS In the N group, the disc moved backward and downward along the X and Z axes by (-0.60±0.62) and (0.51±0.71) mm, respectively. In the DDWR group, the disc moved backward and upward along the X and Z axes by (-1.33±1.38) and (-0.09±1.31) mm, respectively. In the DDWoR group, the disc moved forward and downward along the X and Z axes by (0.49±1.76) and (1.35±1.76) mm, respectively. The angle between the condyle and the disc decreased after adjustment of the jaw position in all three groups. All patients showed improvement in symptoms after adjustment. CONCLUSIONS Digital technology-assisted jaw position adjustment can simplify the process, reduce the sensitivity of the technique, and improve patients' disc-condyle structure and symptoms. Therefore, its application in the treatment of patients with TMD is of great clinical significance.
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