Julien Luraschi, Mayuresh S Korgaonkar, Terry Whittle, Martin Schimmel, Frauke Müller, Iven Klineberg
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引用次数: 53
Abstract
Aims: To investigate cerebral cortical changes by using functional magnetic resonance imaging (fMRI) after denture renewal and to test how these relate to prosthodontic treatment adaptability as measured by chewing efficiency and maximum bite force.
Methods: Ten complete denture wearers (five women and five men, mean age ± standard deviation: 70.3 ± 9.1 years) participated in the study. Each had their complete dentures renewed and underwent an fMRI examination with three functional tasks (lip pursing; jaw tapping; jaw clenching) as well as a color-mixing test for chewing efficiency and unilateral maximum bite force measurements. Recordings were performed with the old dentures (T0) and with the new dentures on insertion (T1) and at 1 week (T2) and 3 months postinsertion (T3). At T1, denture stability and retention (S/T) were assessed by two independent operators. Wilcoxon signed rank tests and Spearman's rho correlation were carried out for data analysis.
Results: The right and the left precentral gyrus (PRCG) and postcentral gyrus (POCG) were identified with significant activation across all three functional tasks. A statistically significant increase in the level of activity between T0 and T2 (POCG: P = .022; PRCG: P = .017) was found during jaw clenching tasks. Both regions of interest (PRCG, POCG) appeared to correlate with S/T of the new dentures while the subject performed a lip-pursing task (PRCG: r = 0.689, P = .027; POCG: r = 0.665, P = .036). The chewing efficiency and maximum bite force increased significantly during the adaptation to replacement dentures (chewing efficiency: T1-T2 P = .032, T2-T3 P = .012; maximum bite force right side: T2-T3 P = .047).
Conclusion: Changes in brain activity occurred in the adaptation to replacement dentures and appeared to regain preinsertion activity levels during motor tasks involving the dental occlusion after 3 months postinsertion.
目的:利用功能磁共振成像(fMRI)研究义齿修复后大脑皮层的变化,并通过咀嚼效率和最大咬合力来检测这些变化与修复治疗适应性的关系。方法:10名全口义齿佩戴者(女5名,男5名,平均年龄±标准差:70.3±9.1岁)参与研究。每个人都更换了全假牙,并进行了功能磁共振成像检查,包括三个功能任务(撅唇;下巴攻丝;以及咀嚼效率和单侧最大咬合力测量的颜色混合测试。分别在旧义齿(T0)、新义齿置入时(T1)、置入后1周(T2)和3个月(T3)进行记录。T1时,由两名独立操作人员评估义齿稳定性和固位(S/T)。数据分析采用Wilcoxon符号秩检验和Spearman相关检验。结果:左右中央前回(PRCG)和中央后回(POCG)在所有三个功能任务中都被确定为显著激活。T0和T2之间的活动水平有统计学意义的增加(POCG: P = 0.022;PRCG: P = 0.017)。当受试者执行追唇任务时,两个兴趣区(PRCG, POCG)似乎与新义齿的S/T相关(PRCG: r = 0.689, P = 0.027;POCG: r = 0.665, P = 0.036)。在假牙适应过程中,咀嚼效率和最大咬合力显著提高(咀嚼效率:T1-T2 P = 0.032, T2-T3 P = 0.012;右侧最大咬合力:T2-T3 P = 0.047)。结论:假牙患者在适应假牙过程中发生了脑活动的变化,假牙植入3个月后,在涉及牙齿咬合的运动任务中,脑活动似乎恢复到植入前的水平。
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