目的

探討正常人直腸電刺激腦誘發(fā)電位（CEP）的正常值及波形特征。

方法

檢查者將刺激電極經肛置入受試者直腸內，在頭頂部Cz點放置記錄電極，參考電極置于前額部Fz點，使用英國Oxford公司肌電誘發(fā)電位儀采樣分析。

結果

所有檢測對象均記錄有直腸電刺激腦誘發(fā)電位，各波參數范圍分別是：P1波潛伏期（45.55±3.26）ms，N1波（101.71±15.71）ms，P2波（198.35±27.70）ms，P1/N1波幅（5.62±1.58）μV，N1/P2波幅（8.26±2.48）μV。直腸電刺激腦誘發(fā)電位各波潛伏期及波幅在性別、年齡分組間比較，差異無統(tǒng)計學意義。經一般線性回歸分析發(fā)現(xiàn)，在控制年齡分組、性別后，波幅隨BMI增加而降低，BMI每增加1 kg/m2，P1/N1波幅平均下降0.234 μV（P=0.011），N1/P2波幅平均下降0.320 μV（P=0.027）。

結論

直腸電刺激腦誘發(fā)電位提供了一種簡單、有效的評估直腸到大腦皮層感覺神經通路的方法。本研究對了解功能性胃腸疾病中的腦腸互動作用具有重要價值。本研究的檢測結果及其影響因素分析，可供后續(xù)臨床研究借鑒。

Objective

To investigate the normal range and waveform characteristics of rectal electrical stimulation cerebral evoked potential (CEP) in healthy people.

Methods

The examiner placed the stimulus electrode in the rectum of the subjects through the anus, the recording electrode at Cz point on the top of the head, the reference electrode at Fz point on the forehead and sampled by Oxford EMP.

Results

Rectal electrical stimulation cerebral evoked potentials were recorded in all subjects. The waveform parameters are P1 wave latency (45.55±3.26) ms, N1 wave (101.71±15.71) ms, P2 wave (198.35±27.70) ms, P1/N1 amplitude (5.62±1.58) μV, N1/P2 amplitude (8.26±2.48) μV. There was no significant difference in latency and amplitude of the evoked potential waves between sex and age groups. By general linear regression analysis, it was found that the amplitude decreased with the increase of BMI after controlling age group and sex. For each increase of BMI of 1 kg/m2, the amplitude of P1/N1 decreased by 0.234 μV (P=0.011), and the amplitude of N1/P2 decreased by 0.320 μV (P=0.027).

Conclusion

Rectal electrical stimulation cerebral evoked potentials provides a simple and effective method for evaluating the sensory nerve pathway from rectum to cerebral. This study is of great value in understanding the brain-intestinal interaction in functional gastrointestinal diseases. The results of this study and the analysis of its influencing factors can be used for reference in the follow-up clinical research.

[1]

彭超，湯穎. 體感誘發(fā)電位臨床新進展[J/CD]. 中華臨床醫(yī)師雜志(電子版), 2013, 7(22): 10260-10262.

[2]

胡曉晴，唐娜. 體感誘發(fā)電位的基本原理[J]. 國外醫(yī)學(物理醫(yī)學與康復學分冊), 2005, (2): 53-55＋79.

[3]

倪敏，丁義江，丁曙晴. 神經調節(jié)在功能性胃腸病發(fā)病中的作用及其研究進展[J]. 世界華人消化雜志, 2011, 19(25): 2649-2653.

[4]

王心剛. 神經電生理診斷技術規(guī)范(續(xù)) [J]. 現(xiàn)代電生理學雜志, 2018, 25(01): 55-62.

[5]

Ridding MC, Ziemann U. Determinants of the induction of cortical plasticity by non-invasive brain stimulation in healthy subjects [J]. J Physiol, 2010, 588(13): 2291-2304.

[6]

劉娟. 腦電圖檢查在臨床規(guī)范應用中的若干注意事項[J]. 現(xiàn)代電生理學雜志, 2009, 16(1): 36-38.

[7]

Harris ML, Hobson AR, Hamdy S, et al. Neurophysiological evaluation of healthy human anorectal sensation [J]. American Journal of Physiology Gastrointestinal & Liver Physiology, 2006, 291(5): G950.

[8]

Hobson AR, Aziz Q, Furlong PL, et al. Identification of the optimal parameters for recording cortical evoked potentials to human oesophageal electrical stimulation [J]. Neurogastroenterol Motil, 1998, 10(5): 421-430.

[9]

潘映輻. 臨床誘發(fā)電位學[M]. 北京: 人民衛(wèi)生出版社, 1988: 85-87.

[10]

Thiruppathy K, Mason J, Akbari K, et al. A physiological study of the anorectal reflex in patients with functional anorectal and defecation disorders [J]. Journal of Digestive Diseases, 2017, 18(4): 222-228.

[11]

匡榮光，匡彥，左秀麗, 等. 功能性便秘患者直腸擴張腦誘發(fā)電位研究[J]. 中國醫(yī)師雜志, 2008, 10(10): 1380-1381.

[12]

李延青，左秀麗，匡榮光, 等. 腸易激綜合征患者直腸擴張后腦誘發(fā)電位的研究[J]. 基礎醫(yī)學與臨床, 2003, 12(z1): 349-351.

[13]

Drossman DA. Functional gastrointestinal disorders: history, pathophysiology, clinical features and romeⅣ [J]. Gastroenterology, 2016, 150(6): 1262-1279. e2.

[14]

Grunkemeier DMS, Cassara JE, Dalton CB, et al. The narcotic bowel syndrome: clinical features, pathophysiology, and Management [J]. Clinical gastroenterology and hepatology: the official clinical practice journal of the American Gastroenterological Association, 2007, 5(10): 1126-1139.

[15]

Iovino P, Bucci C, Tremolaterra F, et al. Bloating and functional gastro-intestinal disorders: where are we and where are we going? [J]. World Journal of Gastroenterology, 2014, 20(39): 14407.

[16]

Peter H, Aitak F, Hassan AM, et al. Visceral inflammation and immune activation stress the brain [J]. Frontiers in Immunology, 2017, 8: 1613.

[17]

Mertz H. Role of the brain and sensory pathways in gastrointestinal sensory disorders in humans [J]. Gut, 2002, 51(1): 29-33.

[18]

Whitehead WE, Holtkotter B, Enck P, et al. Tolerance for rectosigmoid distention in irritable bowel syndrome [J]. Gastroenterology, 1990, 98(5 Pt 1): 1187.

[19]

蔣曉忠，王邦茂，趙曉志, 等. 直腸內不同溫度刺激對腸易激綜合征患者內臟敏感性的影響[J]. 胃腸病學和肝病學雜志, 2006, (2): 163-166.

[20]

Su A, Gandhy R, Barlow C, et al. Utility of high-resolution anorectal manometry and wireless motility capsule in the evaluation of patients with Parkinson′s disease and chronic constipation[J]. BMJ Open Gastroenterology, 2016, 3(1): e000118.

[21]

Sinhamahapatra P, Saha SP, Chowdhury A, et al. Visceral afferent hypersensitivity in irritable bowel syndrome--evaluation by cerebral evoked potential after rectal stimulation [J]. American Journal of Gastroenterology, 2001, 96(7): 2150-2157.

[22]

丁曙晴. 肛管直腸測壓在排便障礙性疾病中的價值及臨床解讀[J]. 中華胃腸外科雜志, 2016, (12): 1342-1344.

[23]

Sauter M, Heinrich H, Fox M, et al. Toward more accurate measurements of anorectal motor and sensory function in routine clinical practice: Validation of High-Resolution Anorectal Manometry and Rapid Barostat Bag measurements of rectal function [J]. Neurogastroenterology & Motility, 2014, 26(5): 685-695.

[24]

Gaman A, Kuo B. A review of CNS activation patterns from fMRI studies in IBS patients versus healthy controls [J]. Gastroenterology, 2007, 32: 600-602.

[25]

Dimcevski G, Sami SA, Funch-Jensen P, et al. Pain in Chronic Pancreatitis: The Role of Reorganization in the Central Nervous System [J]. Gastroenterology, 2007, 132(4): 1546-1556.

[26]

Delechenault P, Leroi AM, Bruna T, et al. Cerebral potentials evoked by electrical stimulation of the anal canal [J]. Diseases of the Colon & Rectum, 1993, 36(1): 55.

[27]

Lelic D, Nissen TD, Brock C, et al. Rapid balloon distension as a tool to study cortical processing of visceral sensations and pain [J]. Neurogastroenterology & Motility the Official Journal of the European Gastrointestinal Motility Society, 2015, 27(6): 832-840.

[28]

Haas S, Brock C, Krogh K, et al. Cortical evoked potentials in response to rapid balloon distension of the rectum and anal canal [J]. Neurogastroenterology & Motility, 2014, 26(6): 862-873.

[29]

Hobday DI, Hobson A, Furlong PL, et al. Comparison of cortical potentials evoked by mechanical and electrical stimulation of the rectum. Neurogastroenterol Motil. 2000 Dec; 12(6): 547-554.

[30]

Leroi AM, Ducrotté P, Bouaniche M, et al. Assessment of the reliability of cerebral potentials evoked by electrical stimulation of the anal canal [J]. International Journal of Colorectal Disease, 1997, 12(6): 335-339.

[31]

Remes-Troche JM, Tantiphlachiva K, Attaluri A, et al. A bi-directional assessment of the human brain-anorectal axis [J]. Neurogastroenterology & Motility the Official Journal of the European Gastrointestinal Motility Society, 2011, 23(3): 117-118.

[32]

Vasudevan SP, Scott SM, Gladman MA, et al. Rectal hyposensitivity: evaluation of anal sensation in female patients with refractory constipation with and without faecal incontinence [J]. Neurogastroenterology & Motility, 2007, 19(8): 660-667.

[33]

Gagliardo A, Galli F, Grippo A, et al. Motor evoked potentials in multiple sclerosis patients without walking limitation: amplitude vs. conduction time abnormalities [J]. Journal of Neurology, 2007, 254(2): 220-227.

[34]

Delgadoaros S, Locke GR, Camilleri M, et al. Obesity is associated with increased risk of gastrointestinal symptoms: A population-based study [J]. American Journal of Gastroenterology, 2004, 99(9): 1801-1806.

[35]

Delgadoaros S, Camilleri M, Garcia MA, et al. High body mass alters colonic sensory-motor function and transit in humans [J]. American Journal of Physiology Gastrointestinal & Liver Physiology, 2008, 295(2): G382-388.

[36]

Teitelbaum JE, Sinha P, Micale M, et al. Obesity is related to multiple functional abdominal diseases [J]. J Pediatr, 2009, 154(3): 444-446.

[37]

Gudsoorkar VS, Quigley EM. Colorectal sensation and motility [J]. Current Opinion in Gastroenterology, 2014, 30(1): 75-83.

[38]

郭椿，賀平. 腦腸軸及其研究進展[J]. 世界最新醫(yī)學信息文摘, 2017, 17(95): 89-91.

[39]

Andresen V, Bach DR, Poellinger A, et al. Brain activation responses to subliminal or supraliminal rectal stimuli and to auditory stimuli in irritable bowel syndrome [J]. Neurogastroenterol Motil, 2005, 17(6): 827-837.

[40]

Fenton BW. Limbic associated pelvic pain: A hypothesis to explain the diagnostic relationships and features of patients with chronic pelvic pain [J]. Medical Hypotheses, 2007, 69(2): 282-286.

[41]

Takano S, Arakawa H. Bilateral posterior tibial nerve stimulation for functional anorectal pain-short term outcome [J]. International Journal of Colorectal Disease, 2016, 31(5): 1053-1054.

[42]

倪敏，丁曙晴，皇甫少華, 等. 功能性排便障礙患者經腰刺激運動誘發(fā)電位的研究[J]. 第三軍醫(yī)大學學報, 2013, 35(21): 2292-2294.

[43]

倪敏，丁義江，丁曙晴, 等. 功能性便秘患者經顱磁刺激運動誘發(fā)電位的研究[J]. 南京醫(yī)科大學學報(自然科學版), 2011, 31(11): 1674-1678.

[44]

Geeraerts B, Oudenhove LV, Dupont P, et al. Different regional brain activity during physiological gastric distension compared to balloon distension: a H215O-PET study [J]. Neurogastroenterology & Motility, 2011, 23(6): 533-e203.

[45]

Wang D, Zhang X, Zhang X, et al. Magnetic resonance imaging analysis of brain function in patients with irritable bowel syndrome [J]. BMC Gastroenterology, 2017, 17(1): 148.

[46]

Rossi S, Hallett M, Rossini PM, et al. Safety, ethical considerations, and application guidelines for the use of transcranial magnetic stimulation in clinical practice and research [J]. Clinical Neurophysiology, 2009, 120(12): 2008-2039.

[1]代莉, 鄧恢偉, 郭華靜, 黃芙蓉. 術中持續(xù)輸注艾司氯胺酮對腹腔鏡結直腸癌手術患者術后睡眠質量的影響[J]. 中華普通外科學文獻(電子版), 2023, 17(06): 408-412.[2]王得晨, 楊康, 楊自杰, 歸明彬, 屈蓮平, 張小鳳, 高峰. 結直腸癌微衛(wèi)星穩(wěn)定狀態(tài)和程序性死亡、吲哚胺2,3-雙加氧酶關系的研究進展[J]. 中華普通外科學文獻(電子版), 2023, 17(06): 462-465.[3]唐旭, 韓冰, 劉威, 陳茹星. 結直腸癌根治術后隱匿性肝轉移危險因素分析及預測模型構建[J]. 中華普外科手術學雜志(電子版), 2024, 18(01): 16-20.[4]張生軍, 趙阿靜, 李守博, 郝祥宏, 劉敏麗. 高糖通過HGF/c-met通路促進結直腸癌侵襲和遷移的實驗研究[J]. 中華普外科手術學雜志(電子版), 2024, 18(01): 21-24.[5]張焱輝, 張蛟, 朱志賢. 留置肛管在中低位直腸癌新輔助放化療后腹腔鏡TME術中的臨床研究[J]. 中華普外科手術學雜志(電子版), 2024, 18(01): 25-28.[6]曹迪, 張玉茹. 經腹腔鏡生物補片修補直腸癌根治術后盆底疝1例[J]. 中華普外科手術學雜志(電子版), 2024, 18(01): 115-116.[7]王亮, 符謹誠, 許薇, 李彥慶, 郭永波, 鄒科見. 直腸成熟囊性畸胎瘤伴直腸陰道瘺一例并文獻復習[J]. 中華普外科手術學雜志(電子版), 2024, 18(01): 117-118.[8]李婷, 張琳. 血清脂肪酸代謝物及維生素D水平與結直腸癌發(fā)生的關系研究[J]. 中華普外科手術學雜志(電子版), 2023, 17(06): 661-665.[9]付振保, 曹萬龍, 劉富紅. 腹腔鏡直腸癌低位前切除術中不同縫合方法的回腸雙腔造口術臨床效果研究[J]. 中華普外科手術學雜志(電子版), 2023, 17(06): 684-687.[10]賀亮, 王松林, 周業(yè)江. 兩種預防性回腸造口在腹腔鏡ISR術治療超低位直腸癌的效果對比研究[J]. 中華普外科手術學雜志(電子版), 2023, 17(06): 697-700.[11]中國醫(yī)師協(xié)會結直腸腫瘤專業(yè)委員會, 中國抗癌協(xié)會大腸癌專業(yè)委員會, 北京整合醫(yī)學學會結直腸腫瘤分會. 吲哚菁綠近紅外熒光血管成像技術應用于腹腔鏡結直腸手術中吻合口血供判斷中國專家共識（2023版）[J]. 中華結直腸疾病電子雜志, 2023, 12(06): 441-447.[12]李永勝, 孫家和, 郭書偉, 盧義康, 劉洪洲. 高齡結直腸癌患者根治術后短期并發(fā)癥及其影響因素[J]. 中華臨床醫(yī)師雜志(電子版), 2023, 17(9): 962-967.[13]鄭秀麗, 倪敏. 功能性便秘患者的直腸肛門抑制反射特征分析100例[J]. 中華臨床醫(yī)師雜志(電子版), 2023, 17(08): 870-875.[14]王飛飛, 王光林, 孟澤松, 李保坤, 曹龍飛, 張娟, 周超熙, 丁源一, 王貴英. 敲低IMPDH1對結腸癌SW480、HT29細胞生物功能的影響[J]. 中華臨床醫(yī)師雜志(電子版), 2023, 17(08): 884-890.[15]孔凡彪, 楊建榮. 肝臟基礎疾病與結直腸癌肝轉移之間關系的研究進展[J]. 中華臨床醫(yī)師雜志(電子版), 2023, 17(07): 818-822.閱讀次數全文

0

HTMLPDF最新錄用 在線預覽 正式出版最新錄用 在線預覽 正式出版 0 0 0 0 0 0

摘要

205

 來源 本網站其他網站   次數79126  比例39%61%

相關知識

Nature子刊：人工智能和腦電刺激結合，改善人類大腦功能
無創(chuàng)、安全又有效的減肥方法，口服電刺激器「迷惑大腦」
神經肌肉電刺激療法促進腦卒中患者肢體功能康復的研究進展
中國北方成年人皮下和內臟脂肪分布特點分析！
用于腦卒中病人手功能康復的功能性電刺激系統(tǒng)的研制
腦癱兒童康復病例分析
【中西合璧】體感交互作用下經皮穴位電刺激對癌癥相關疲勞和免疫的影響:一項隨機對照試驗
關于電生理檢查的基本信息介紹
電腦族久對電腦的保健方法
性刺激

網址: 60例成年人直腸電刺激腦誘發(fā)電位特點及結果分析 http://www.u1s5d6.cn/newsview350899.html