乙醇对家兔离体小肠平滑肌活动的影响

目的 :观察乙醇对家兔小肠平滑肌活动的影响。方法 :制备家兔十二指肠离体肠段标本 ,采用常规离体灌注小肠平滑肌标本活动的实验方法 ,记录用药前后肠段平滑肌自发收缩性活动变化。结果 :不同浓度乙醇 (10 0mmo1/L～4 0 0mmo1/L)对小肠平滑肌自发收缩活动有抑制作用 ,其变化值与用药前比较差异有显著性 (P <0 0 5 ,P <0 0 1)。结论 :乙醇对小肠平滑肌活动有抑制性趋势。

盐酸和氢氧化钠对豚鼠各段小肠平滑肌活动的影响

目的观察盐酸和氢氧化钠对豚鼠各段小肠平滑肌活动的影响。方法制备离体小肠平滑肌标本,放置于灌流浴槽中,观察其收缩活动的影响。结果与对照组相比,盐酸对十二指肠和空肠上段平滑肌自发收缩活动有增强效应(P<0.05),而对回肠下段平滑肌的自发收缩活动有抑制效应(P<0.05),氢氧化钠对空肠和回肠收缩活动均有抑制效应(P<0.05)。结论盐酸对豚鼠十二指肠和空肠平滑肌自发收缩活动有增强作用,而氢氧化钠对空肠和回肠的活动则有减弱作用。

电针足三里穴对兔胃肠道平滑肌电活动的影响及与胃动素、胆囊收缩素关系的研究

目的:研究针刺穴位对胃肠运动的调控作用,探讨其与胃动素、胆囊收缩素之间的关系。方法:兔20只,进行胃及近端空肠浆膜下包埋电极,观察针刺足三里穴以及非穴位点对胃肠道平滑肌电活动的影响,并比较针刺前后外周血中胃动素、胆囊收缩素浓度的变化。结果:(1)电针足三里穴后胃及近端空肠电活动的慢波频率无明显变化,快波出现率增高,发放持续时间延长,波幅增加。非穴位组胃肠道平滑肌电活动针刺前后无明显变化。(2)针刺足三里穴前后外周血胃动素浓度为50.48±22.74 pg·ml^(-1)vs 68.51±21.63 pg·ml^(-1)(P<0.01),胆囊收缩素浓度为37.88±23.87 ng·ml^(-1)vs 44.67±25.75 ng·ml^(-1)(P<0.05)。针刺非穴位点前后外周血胃动素浓度为53.56±21.62 pg·ml^(-1)vs 52.10±21.80pg·ml^(-1)(P>0.05),胆囊收缩素浓度为33.89±20.43 ng·ml^(-1)vs 37.88±24.01 ng·ml^(-1)(P>0.05)。结论:电针足三里穴对胃肠道平滑肌电活动的慢波电位影响较小,对快波的影响则较大,主要表现为兴奋作用。电针穴位可促进胃动素、胆囊收缩素的释放。胃动素、胆囊收缩素可能参与了针刺穴位对消化道运动的调节。

电针“脾俞”对胃窦部溃疡大鼠胃肠平滑肌电活动的干预作用及其机制探讨

目的 :观察电针“脾俞”对胃窦部溃疡大鼠胃肠平滑肌电活动的影响 ,并探讨其作用机制。方法 :采用冰醋酸损伤法复制急性胃窦部溃疡动物模型 ;分别植入记录电极于肾上腺交感神经、胃窦部、十二指肠和大肠 ;用RM 86多导生理记录仪和SMUP计算机软件分析系统 ,同步记录胃窦部溃疡模型大鼠针刺“脾俞”前后胃肠平滑肌电活动和心率变异性 (HRV)动态变化曲线、肾上腺交感神经放电情况。结果 :电针刺激“脾俞”后 ,胃肠平滑肌电活动抑制 ,LF HF比值上升至 0 .99,肾上腺交感神经放电活动频率上升。结论 :低频疏密波刺激“脾俞” ,可使急性胃窦部溃疡大鼠自主神经系统重新建立动态平衡 。

黄体酮对家兔输尿管平滑肌电活动和尿流量的影响

目的 :探讨黄体酮对输尿管平滑肌电活动和尿流量的影响。方法 :采用在体电活动记录观察家兔实验前后输尿管平滑肌电活动及尿流量的变化。结果 :黄体酮能显著降低家兔输尿管电活动频率 ,并使尿流量增加。结论 :黄体酮对家兔输尿管平滑肌产生一定负性影响 ,但对尿流量却有增加作用。

清胰汤对豚鼠离体结肠平滑肌收缩活动的影响

目的 :探讨清胰汤促结肠动力作用的机制。方法 :采用正交设计方案 ,观察不同药物对离体结肠平滑肌条张力的影响。结果 :清胰汤中的白芍、木香、延胡索和大黄有直接兴奋结肠的作用 ,其中白芍作用最强 (P<0 .0 5 )。结果

体表记录人子宫平滑肌电活动的研究

目的试图在体表记录人子宫平滑肌的电活动，并确定之；了解子宫电活动的变化特征。方法在患者孕检或住院待产中，选择孕周在１６～４２ｗｋ之间的孕妇４２例，争取其配合，在腹壁体表放置银氯记录电极双极，用ＳＪ－４２生理四道记录仪记录子宫平滑肌电活动。为确认电活动的来源，在６例非孕妇女体表和２例剖腹产产妇的子宫上作了记录，并对３例腹壁较薄患者产后６ｈ的子宫电活动作了体表记录。结果非孕妇女腹壁上记录不到子宫的平滑肌电活动；怀孕早期，子宫平滑肌电活动微弱，临近分娩时，子宫肌肉电活动频率增加，幅度增强，电活动的持续时间延长。结论体表记录子宫平滑肌电活动是可行的，电活动的特征可反映子宫收缩和产程进展的情况。进一步确定其临床意义，有待于深入研究。

远志增强大鼠子宫平滑肌峰电活动实验研究

目的探讨远志对未孕大鼠子宫平滑肌电活动的影响及其机制。方法用Biolap410生物机能仪进行记录,分别进行5种阻断剂使用前后,远志水煎醇沉液(以下简称远志)对子宫平滑肌电活动的影响。结果远志可使未孕大鼠子宫平滑肌的电活动频率加快,持续时间延长,峰面积加大。酚妥拉明、苯海拉明、异博定、消炎痛等能全部或部分阻断其兴奋作用,但阿托品无明显影响。结论远志对大鼠子宫平滑肌电活动增强作用主要通过H1受体、L型钙通道、α受体发挥作用,也与前列腺素的合成与释放有关,而与M受体无关。

川芎嗪对肠平滑肌电活动及运动的影响

目的 研究川芎嗪(TMP)对小肠平滑肌电活动及运动效应的影响。方法 采用改进的整体同步记录方法。大鼠以TMP 20mg/kg腹腔注射。结果 肠电慢波频率增加,小肠运动频率亦增加。结论 TMP能增加肠平滑肌的电活动及肠的运动。

家兔小肠动脉介入栓塞后对肠道平滑肌电活动的影响

目的研究介入动脉栓塞后对小肠肌电活动的影响,为小肠病变栓塞治疗后监测肠管存活和指导临床处理提供理论依据.方法20只正常家兔,分别经小肠动脉注射PVA(350～550μm)2、6mg和生理盐水2 ml,分为2 mg组(10只),6 mg组(5只)和对照组(5只).利用微导管动脉栓塞技术,以基本电节律为观察指标,研究各组动脉栓塞后24 h小肠肌电活动的改变.结果2 mg组小肠动脉PVA栓塞前后慢波频率和波幅分别为(17.83±0.55)次/min、(0.1641±0.0043)mV和(11.59±0.23)次/min、(0.0739±0.0011)mV,慢波频率和波幅明显下降(P＜0.01).6 mg组栓塞后3～6 h后基本电节律(basal electrical rhvthm,BER)活动逐渐消失,剖腹探查示肠管发生长短不等坏死.对照组小肠动脉生理盐水注射前后慢波频率和波幅分别为(17.89±0.48)次/min、(0.1632±0.0020)mV和(16.95±0.34)次/min、(0.1606±0.0030)mV,慢波频率和波幅无明显变化(P＞0.05).结论小肠动脉介入栓塞后对小肠BER影响显著,近端空肠电活动的慢波频率和波幅明显下降,小肠动脉介入栓塞后对胃肠道平滑肌慢波电活动主要表现为抑制作用,小肠动脉PVA栓塞后有望通过动态监测BER改变来判断肠壁存活与否.

腑通丸对胃肠平滑肌电活动与胃肠运动的影响

采用改进的整体同步记录的电生理方法，观察腑通丸对胃肠平滑肌电活动及运动效应的影响。大鼠以腑通丸１．５ｇ／ｋｇ灌胃可显著增加胃肠电慢波平均振幅及胃运动总振幅，而对肠运动总振幅无明显影响；以３．５ｇ／ｋｇ灌胃可显著增加胃肠电慢波平均振幅及胃肠运动总振幅，但两个剂量对胃肠电慢波频率及胃肠运动频率均无明显影响。

白酒对家兔离体小肠平滑肌生理特性影响的研究

观察白酒对家兔离体小肠平滑肌活动的影响。制备家兔小肠离体肠段标本,采用常规离体灌注小肠平滑肌标本活动的实验方法,记录用药前后肠段平滑肌自发收缩性活动变化。不同度数的白酒(23°、38°、48°、56°)对小肠平滑肌自发收缩活动有抑制作用,其变化值与用药之前比较差异性显著(P<0.05,P<0.01)。最后得出结论:白酒对小肠平滑肌活动有抑制性作用。

刺激兔孤束核诱发胃电活动变化及针刺效应观察

在27只麻醉制动的兔身上观察记录了电刺激孤束核区诱发胃电活动的变化和电针效应。实验结果表明：电刺激孤束核可诱发胃窦平滑肌电活动发生明显变化，以兴奋为主，并有一定后效应。切断双侧颈迷走神经或注射阿托品后，诱发电位增强反应消失，提示胆碱能纤维参与了这种兴奋性效应。刺激孤束接区时引起胃电抑制的途径比较复杂，在切断双侧颈迷走神经或注射心得安后，这种抑制现象仍存在。电针双“足三里”穴可使孤束核刺激所诱发的胃电增强反应受到一定程度抑制。表明孤束核可能是参与调制胃电及其功能活动的脑干内中枢结构之一。

影响大鼠胃电图若干因素的初步探讨

影响大鼠胃电图若干因素的初步探讨李在琉，严海 （延边医学院消化生理研究室）为胃电的临床应用提供生理学实验依据，探讨了体表胃电图（ｅｌｅｃｔｒｏｇａｓｔｒｏｇｒａｍ—ＥＧＧ）和胃平滑肌电活动（ｇａｓｔｒｏｍｙｏｅｌｅｃｔｒｉｃａｃｔｉｖｉｔｙ—ＧＥＡ）...

Effects of radiation upon gastrointestinal motility

Whether due to therapeutic or belligerent exposure, the gastrointestinal effects of irradiation produce symptoms dreaded by a majority of the population. Nausea, vomiting, diarrhea and abdominal cramping are hallmarks of the prodromal phase of radiation sickness, occurring hours to days following radiation exposure. The prodromal phase is distinct from acute radiation sickness in that the absorptive, secretory and anatomic changes associated with radiation damage are not easily identifi able. It is during this phase of radiation sickness that gastrointestinal motility significantly changes. In addition, there is evidence that motor activity of the gut contributes to some of the acute and chronic effects of radiation.

EFFECTS OF CALDESMON, CALPONIN, AND TROPOMYOSIN ON THE MG^(2+)-ATPase ACTIVITIES OF SMOOTH MUSCLE MYOSIN

Objective To test whether in the absence of actin, actin-binding proteins such as caldesmon, calponin, and tropomyosin interact with the myosin of unphosphorylation, Ca 2+ -dependent phosphorylation (CDP), and Ca 2+ -independent phosphorylati-on (CIP) and stimulate myosin Mg 2+ -ATPase activities. Methods Mg 2+ -ATPase activities were measured to evaluate the effects of caldesmon, calponin, and tropomyosin on the myosin in unphosphorylation, CDP by myosin light chain kinase (MLCK), and CIP by MLCK. Results (1) At different incubation-time, i.e., 5, 10, 20, 40, and 60 minutes, the highest Mg 2+ -ATPase activity was ob-served when myosin was in the state of CDP, the medium was CIP of myosin, and the lowest was the unphosphorylated myosin. (2) In the absence of caldesmon, calponin, and tropomyosin, the Mg 2+ -ATPase activities from high to low were in the following order: CDP, CIP, and unphosphorylated myosin. However, in the presence of caldesmon, calponin, and tropo-myosin, the order of relative value of Mg 2+ -ATPase activities from high to low was unphosphorylated, CIP, and CDP of myosin respectively compared to the corresponding controls. Conclusions The results propose that caldesmon, calponin, and tropomyosin are capable of stimulating Mg 2+ -ATPase activity of smooth muscle myosin in Ca 2+ -independent manner, since Ca 2+ is not obligating for the stimulating effects of the three proteins. The common characteristic of the three proteins is that when myosin activities are low, their activations are relatively strong and this property might be involved in smooth muscle tension keeping.

Up-regulation of Fas Ligand Expression by Sirtuin 1 in both Flow-restricted Vessels and Serum-stimulated Vascular Smooth Muscle Cells

Objective To study the role of sirtuin 1 （SIRT1） in Fas ligand （FasL） expression regulation during vascular lesion formation and to elucidate the potential mechanisms. Methods SIRT1 and FasL protein levels were detected by Western blotting in either mouse arteries extract or the whole rat aortic vascular smooth muscle cell （VSMC） lysate. Smooth muscle cell （SMC）-specific human SIRT1 transgenic （Tg） C57BL/6 mice and their littermate wild-type （WT） controls underwent complete carotid artery ligation （ligation groups） or the ligation-excluded operation （sham groups）. The carotid arteries were collected 1 day after operation. Reverse transcription-polymerase chain reaction was performed to detect the mRNA levels of SIRT1 and FasL. Luciferase reporter assays were performed to detect the effect of WT-SIRT1, a dominant-negative form of SIRT1 （SIRT1H363Y）, and GATA-6 on the promoter activity of FasL. Flow cytometry assay was applied to measure the hypodiploid DNA content of VSMC so as to monitor cellular apoptosis. Results SIRTI was expressed in both rat aortic VSMCs and mouse arteries. Forced SIRT1 expression increased FasL expression both in injured mouse carotid arteries 1 day after ligation （P〈0.001） and VSMCs treated with serum （P〈0.05 at the transcriptional level, P〈0.001 at the protein level）. No notable apoptosis was observed. Furthermore, transcription factor GATA-6 increased the promoter activity of FasL （P〈0.001）. The induction of FasL promoter activity by GATA-6 was enhanced by WT-SIRT1 （P〈0.001）, while SIRT1H363Y significantly relieved the enhancing effect of WT-SIRT1 on GATA-6 （P〈0.001）. Conclusions Overexpression of SIRT1 up-regulates FasL expression in both flow-restricted mouse carotid arteries and serum-stimulated VSMCs. The transcription factor GATA-6 participates in the transcriptional regulation of FasL expression by SIRT 1.