Background and Purpose: Primary nocturnal enuresis (PNE) is a heterogeneous disorder with various underlying pathophysiological mechanisms. Results of our recent studies focused on the relationship of bladder function, sleep and brain function demonstrated a simultaneous occurrence of bladder and brain dysfunction in children with severe refractory PNE. We therefore proposed to use an animal model with altered bladder function to evaluate if abnormalities in bladder function induce functional derangement in brainstem micturition centers and/or sleep-arousal centers. / Materials and methods: In general, the study was divided in to 6 parts. Male Wistar rats (~ 1.5 months) were used for the study. / Study I: Establishment of animal model —— Male Wistar rats (200-220 g) underwent either Sham surgery or surgical reduction of bladder volume (RBV). Animals were used for further Cystometry, EEG, MRS and Cognitive function studies 4-5 weeks postoperatively. / Study II: Conventional Fill Cystometry (CFC) to evaluate bladder functional changes in response to surgical bladder volume reduction —— Twenty-four rats (RBV=12, SHAM 12) were used for the study. CFC was performed under conscious condition for evaluating the functional changes in response to surgical bladder capacity reduction. / Study III: Radiotelemetered EEG study to assess the impact of bladder dysfunction on sleep architecture and cortical arousals in rats —— Twenty-four rats (RBV=12, SHAM 12) were used for the study. Radiotelemeters were implanted in both groups 4 weeks post-operatively. The EEG biopotential and bladder pressure were monitored for 48 hours. Sleep architecture and cortical arousals were then evaluated manually. / Study IV: Evaluation of cognitive function following surgical bladder volume reduction —— Ninety eight rats (RBV=50, SHAM =48) were used for the study. / Morris Water Maze task: A circular plastic translucent pool half-filled with 26 ± 2ºC water, was used in the Morris Animals were given 9 consecutive training (2/day) sessions of Morris Water Maze (MWM) at 4 weeks postoperatively. / 8-arm Radial Maze: Food pellets were randomly placed inside each arm of the maze and the rats were allowed to explore the maze freely for 5 minutes. The rat was allowed to explore the maze for 5 minutes. Total time spent in each arm, total distance traveled in the maze was recorded. / Study V: Magnetic Resonance Spectroscopy to detect functional changes in brain in response to bladder dysfunction elicited by surgical bladder volume reduction —— Proton magnetic resonance spectroscopy was employed to examine brain metabolic changes in 24 rats (RBV=12, SHAM=12). Single voxel 1 H MRS experiments were performed using a 7 T MRI scanner. MR spectra were then processed using the jMRUI software. / Phase VI: Enzyme -linked immunosorbent assay for the assessment of associated changes in neurotransmitters —— Animals were euthanized after MRS study and brain samples were collected. Serotonin and dopamine levels were assessed in 10 mg of tissue extracts from brainstem and cortex, with ELISA kits. / Results: Study I: Bladder reduction surgery did not affect the increase in body weight post -operatively. Average body weight of the RBV and the sham groups were 340.2 ± 47.2 g and 340.5 ± 67.9 g respectively at 4 weeks post operatively. / Study II: Compared to sham group, the maximum cystometric capacity in animals with RBV was remarkably reduced at week 4 (0.78 ± 0.12 ml vs. 1.46 ± 0.22 ml, RBV vs. Sham respectively; p<0.005). Moreover, maximum detrusor pressure during voiding was significantly increased in RBV group at week 4 post operatively (32.4± 2.14 vs.23.27±1.2 5 cm H2O, RBV vs. Sham respectively). / Study III: Light non-repaid eye movement sleep occurred significantly more in RBV rats compared to sham group (61.8% vs 35%). Deep sleep and rapid eye movement sleep occurred significantly less in RBV group compared to that of sham group (30.7% vs 53.4%). / Study IV: Results showed that the RBV group used a significantly longer latency to locate the platform compared to Sham group (24.4s vs 17.19s, RBV vs. Sham respectively, p<0.001).. Moreover, significantly more animals from the RBV group could not complete the visit of the 8 arms of radial maze than that of the sham group. / Study V: Seven metabolites were detected and quantified. The results demonstrated significant changes in the lactate (Lac) metabolism in some specific regions of rat brain. At 4 weeks post - operatively, level of lactate significantly decreased in the hippocampus (43%, P<0.001) cingulate and retrosplenial cortex (29%, p<0.05) of RBV rats compared to that of sham rats. / Study VI: Results demonstrated a significant increase in Serotonin level in the brainstem of RBV rats compared to that of SHAM rats (23.726 + 0.88 ng/ml vs. 1.88 + 0.302 ng/ml). Dopamine levels decreased significantly in brainstem samples of RBV group compared to sham group (2.85 + 0.10 ng/ml vs. 6.85 + 0.84 ng/ml). / Conclusion: Surgical bladder volume reduction of bladder capacity can induce functional changes in the central nervous system. An alteration of the sleep architecture occurred in response to surgical reduction of bladder volume in rats, suggesting that there exists a potential for central consequences of bladder dysfunction. Bladder disorder chronically altered brain energy metabolism. Furthermore, bladder disorder altered the central neurotransmission in the brainstem and cortex. The finding of bladder dysfunction induced significant impairments in cognitive function in RBV rats, suggesting that the alteration in brain energy metabolism may contribute to the behavioral and attention problems, impaired learning and cognitive performance. / 研究背景: 原發性夜間遺尿症(PNE)是一種異質性疾病,涉及多種潛在的病理生理機制。我們最近的研究主要集中在膀胱功能,睡眠和腦功能的關係,結果顯示膀胱和腦功能障礙同時出現在患有嚴重難治性的PNE的兒童。因此,我們建議採用一種已改變膀胱功能的動物模型來評估膀胱功能異常會否引起腦幹排尿中心和/或睡眠 - 覺醒中心的功能紊亂 / 研究工具和方法: 研究被分成6個部分。雄性Wistar大鼠(約1.5個月)被用於研究。 / 研究I: 動物模型的建立 —— 雄性Wistar大鼠(200-220克),會先接受假手術或手術降低膀胱容量(RBV)。手術後4至5週,動物會進行進一步的膀胱測壓,腦電圖,MRS和認知功能研究。 / 研究II: 以常規填充膀胱測壓(CFC)評估減少膀胱容量手術對膀胱功能的變化 —— 二十四隻大鼠(RBV=12,對照=12)被用於研究。 CFC是用以評估在有意識的條件下,膀胱因膀胱容量減少的手術而引起的功能變化。 / 研究III: Radiotelemetered腦電圖研究,以評估在大鼠膀胱功能失調對睡眠結構和皮質覺醒的影響 —— 二十四隻大鼠(RBV=12,對照=12)被用於研究。膀胱容量減少的手術4週後,Radiotelemeters被植入在兩個組別的大鼠,並監測其腦電生物電勢和膀胱內壓48小時,然後手動評估睡眠結構和皮層覺醒。。 / 研究IV: 評估在膀胱容量減少的手術後對認知功能的影響 —— 103個大鼠(RBV=56,對照= =47)被用於研究。 / Morris水迷宮任務: 一個圓形的塑料半透明池盛載半滿的水,溫度介乎26 - ±2℃,手術4週後,該池被用在莫里斯動物進行連續9次Morris水迷宮(MWM)培訓(每天2次)。 / 八臂迷宮: 食物顆粒被隨機放置在迷宮的每個臂內,大鼠可以自由地探索迷宮5分鐘。大鼠被允許探索迷宮5分鐘。在每個手臂所用的總時間,以及在迷宮行走的總距離都會被記錄。 / 研究V: 以磁共振波譜檢測膀胱容量減少的手術所引起的膀胱功能障礙對腦功能的改變 —— 以質子磁共振波譜研究24隻大鼠腦內的代謝變化(RBV=12,對照==12)。以7 T MRI掃描儀進行磁共振波譜實驗,然後使用jMRUI軟件處理MR譜。 / 第六期: 以酶聯免疫吸附測定法評估神經遞質的相關變化 —— 動物在進行MRS研究後實施安樂死,並收集其腦樣品。從腦幹和皮層提取10毫克組織提取物,使用ELISA試劑盒,以評估羥色胺和多巴胺水平。 / 結果: 研究I: 膀胱容量減少手術並沒有影響體重增加。手術4週後,利巴韋林和對照實驗組的平均體重分別為340.2±47.2克和340.5±67.9克。 / 研究II: 相比起對照實驗組的動物,RBV組的最大膀胱容量顯著降低(0. 0.78 ± 0.12毫升對1.46±0.22毫升),排尿頻率顯著增加(2.53±0.30 對.0.53±0.05/hr)。此外,排尿時最大逼尿肌壓力亦顯著升高(32.0.8±2.19 比.20.37±1.2 5厘米水分子) / 研究III: 相比起對照實驗組的動物,光非快速動眼期睡眠顯著地較多發生於RBV大鼠身上(61.8%對35.6%),深層睡眠和快速動眼期睡眠顯著地較少發生在RBV組(32.3%對52.8%) / 研究IV: 結果表明,RBV組使用了顯著較長的時間來定位平台(24.4s vs. vs.17.19s)。而且,在RBV組,顯著地較多動物無法完成行走8臂的放射狀迷宮。 / 研究V: 進行檢測和定量七種代謝物。結果顯示乳酸(LAC)代謝在大鼠大腦的某些特定區域出現顯著變化。在手術4週後,相比起對照實驗組的動物,RBV組大鼠在海馬體(43%,P <0.001),扣帶和夾肌皮質(29%,P <0.05)的乳酸水平均顯著減少。 / 研究VI: 結果顯示RBV大鼠腦幹的血清素水平較對照實驗組的顯著增加(23.726+0.88納克/毫升與1.88±0.302ng/ml)。RBV大鼠腦幹的多巴胺水平則較對照實驗組的顯著下降(2.850.10納克/毫升與6.85+0.84毫微克/毫升)。 / 結論: 外科膀胱容量減少可誘導中樞神經系統的功能變化。以外科手術減少膀胱容量的大鼠亦引起睡眠結構改變,這顯示膀胱功能障礙對中樞有潛在影響。膀胱疾病長期改變大腦的能量代謝。此外,膀胱疾病亦改變了在腦幹和大腦皮層的中樞神經遞質傳遞。研究發現膀胱功能障礙顯著地損害RBV大鼠的認知功能,顯示改變大腦的能量代謝亦可導致行為和專注力的問題,從而損害學習和認知能力。 / Yeung, Chung Kwong. / Thesis Ph.D. Chinese University of Hong Kong 2014. / Includes bibliographical references (leaves 199-230). / Abstracts also in Chinese. / Title from PDF title page (viewed on 14, September, 2016). / Yeung, Chung Kwong. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only.
| Identifer | oai:union.ndltd.org:cuhk.edu.hk/oai:cuhk-dr:cuhk_1291264 |
| Date | January 2014 |
| Contributors | Yeung, Chung Kwong (author.), Rudd, John Anthony (thesis advisor.), Chinese University of Hong Kong Graduate School. Division of Biomedical Sciences. (degree granting institution.) |
| Source Sets | The Chinese University of Hong Kong |
| Language | English, Chinese |
| Detected Language | English |
| Type | Text, bibliography, text |
| Format | electronic resource], electronic resource, remote, 1 online resource (xxi, 230 leaves) : illustrations, computer, online resource |
| Rights | Use of this resource is governed by the terms and conditions of the Creative Commons "Attribution-NonCommercial-NoDerivatives 4.0 International" License (http://creativecommons.org/licenses/by-nc-nd/4.0/) |
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