Utilizing diffusion tensor imaging as an image biomarker in exploring the therapeutic efficacy of forniceal deep brain stimulation in a mice model of Alzheimer's disease.

You-Yin Chen, Chih-Ju Chang, Yao-Wen Liang, Hsin-Yi Tseng, Ssu-Ju Li, Ching-Wen Chang, Yen-Ting Wu, Huai-Hsuan Shao, Po-Chun Chen, Ming-Liang Lai, Wen-Chun Deng, RuSiou Hsu, Yu-Chun Lo
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Abstract

Objective.With prolonged life expectancy, the incidence of memory deficits, especially in Alzheimer's disease (AD), has increased. Although multiple treatments have been evaluated, no promising treatment has been found to date. Deep brain stimulation (DBS) of the fornix area was explored as a possible treatment because the fornix is intimately connected to memory-related areas that are vulnerable in AD; however, a proper imaging biomarker for assessing the therapeutic efficiency of forniceal DBS in AD has not been established.Approach.This study assessed the efficacy and safety of DBS by estimating the optimal intersection volume between the volume of tissue activated and the fornix. Utilizing a gold-electroplating process, the microelectrode's surface area on the neural probe was increased, enhancing charge transfer performance within potential water window limits. Bilateral fornix implantation was conducted in triple-transgenic AD mice (3 × Tg-AD) and wild-type mice (strain: B6129SF1/J), with forniceal DBS administered exclusively to 3 × Tg-AD mice in the DBS-on group. Behavioral tasks, diffusion tensor imaging (DTI), and immunohistochemistry (IHC) were performed in all mice to assess the therapeutic efficacy of forniceal DBS.Main results.The results illustrated that memory deficits and increased anxiety-like behavior in 3 × Tg-AD mice were rescued by forniceal DBS. Furthermore, forniceal DBS positively altered DTI indices, such as increasing fractional anisotropy (FA) and decreasing mean diffusivity (MD), together with reducing microglial cell and astrocyte counts, suggesting a potential causal relationship between revised FA/MD and reduced cell counts in the anterior cingulate cortex, hippocampus, fornix, amygdala, and entorhinal cortex of 3 × Tg-AD mice following forniceal DBS.Significance.The efficacy of forniceal DBS in AD can be indicated by alterations in DTI-based biomarkers reflecting the decreased activation of glial cells, suggesting reduced neural inflammation as evidenced by improvements in memory and anxiety-like behavior.

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利用弥散张量成像作为图像生物标志物,探索在阿尔茨海默病小鼠模型中使用穹窿深部脑刺激疗法的疗效。
目的:随着预期寿命的延长,记忆障碍的发病率也在增加,尤其是阿尔茨海默病(AD)。虽然已对多种治疗方法进行了评估,但迄今为止尚未发现有前景的治疗方法。由于穹窿与记忆相关区域紧密相连,而记忆相关区域在阿兹海默症(AD)中很脆弱,因此对穹窿区域进行深部脑刺激(DBS)被视为一种可能的治疗方法;然而,评估穹窿DBS对阿兹海默症(AD)治疗效果的适当成像生物标志物尚未确立。利用镀金工艺,增加了神经探针上微电极的表面积,在潜在水窗限制范围内提高了电荷转移性能。在三转基因AD小鼠(3 × Tg-AD)和野生型小鼠(品系:B6129SF1/J)中进行了双侧穹窿植入,DBS开启组中的3 × Tg-AD小鼠只接受穹窿DBS治疗。主要结果:结果表明,3 × Tg-AD 小鼠的记忆缺陷和焦虑样行为的增加通过穹窿DBS得到了挽救。此外,穹窿DBS还能正向改变DTI指数,如增加分数各向异性(FA)和降低平均扩散率(MD),同时减少小胶质细胞和星形胶质细胞的数量,这表明穹窿DBS治疗后,3 × Tg-AD小鼠前扣带回皮层、海马、穹窿、杏仁核和内侧皮层的FA/MD改变和细胞数量减少之间可能存在因果关系。穹窿DBS对AD的疗效可以通过基于DTI的生物标志物的改变来体现,这些生物标志物反映了神经胶质细胞活化的减少,表明神经炎症的减轻,记忆力和焦虑样行为的改善也证明了这一点。
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