不同能量供需下雌性棕色田鼠胃运动的变化

用PowerLab/8sp生理信号采集分析系统记录哺乳雌鼠、禁食1d和3d雌鼠及正常对照雌鼠胃内压、胃收缩幅值及收缩频率,以研究在不同能量需求与供应状态下,棕色田鼠(Lasiopodomys mandarinus)胃运动的适应性变化。结果显示,禁食组和哺乳期雌鼠的胃内压及胃收缩幅值均显著高于正常对照雌鼠组(P0.05),禁食组胃内压、胃收缩幅值较哺乳组有所下降,且禁食3d组胃内压明显下降(P0.05)。说明在不同生理状态下,能量需求与供应不同,消化道活动发生适应性变化,且消化道生理功能变化与能量胁迫程度相关。     

副溶血性弧菌在动态体外人胃仿生原位消化系统中的存活情况研究

副溶血性弧菌(Vibrio parahaemolyticus)是一种经口摄入感染的食源性致病菌,广泛存在于水产品中,然而其进入人胃后的存活情况尚属研究空白。本研究将浓度为10~7 cfu/g的副溶血性弧菌接种于三文鱼和南美白对虾中,运用体外人胃仿生原位消化系统进行消化模拟,经过120 min后,测定食物排空率、胃部pH值变化及幽门排出食糜中副溶血性弧菌的存活情况。结果显示三文鱼的胃排空滞后时间为60 min,南美白对虾为90 min,模拟消化120 min时,两种食糜均未完全排空。胃部pH值为(1.6±0.1),在食物摄入10 min后大幅上升,随着胃酸的不断分泌及食物的消化分解,其pH值开始下降,并保持在5.41左右。在食品消化120 min进入肠道后,副溶血性弧菌并没有完全被胃酸杀灭,对虾中该菌的存活率为(0.119±0.025)%,而三文鱼中存活率为(0.007±0.005)%。综上所述,副溶血性弧菌可随食物基质的消化分解通过胃排空进入肠道,从而躲避胃酸的杀灭并导致人体患病。     

胃楔形切除术致胃电节律改变的实验观察

目的：观察楔形切除胃的不同部位对术后胃电节律的影响。方法：将30只雄性新西兰兔按照完全随机原则分为胃体近端楔形切除组、胃体远端楔形切除组及对照组3个处理组,每组10只。记录在自然恢复状态下术后3日、6日、9日胃体近端及胃窦处30分钟内慢波总数及正常慢波次数并计算正常慢波百分比。用析因设计分析切除部位、测量部位、术后时间三因素对胃慢波节律的影响。结果：上述三因素均对术后慢波节律有影响,切除胃体近端与切除胃体远端相比,前者引发的术后胃电节律紊乱的程度更严重且恢复更缓慢;术后测量胃窦处与测量胃体处相比,前者发生的胃电节律紊乱的程度更严重且恢复更缓慢。结论：大弯侧胃底与胃体交医院界处的“胃电起始区域”即为“胃电起搏区”,“胃电起搏区”的切除时术后胃电节律的影响大于传导区域切除对其影响、     

胃楔形切除术致胃电节律改变的实验观察

目的:观察楔形切除胃的不同部位对术后胃电节律的影响。方法:将30只雄性新西兰兔按照完全随机原则分为胃体近端楔形切除组、胃体远端楔形切除组及对照组3个处理组,每组10只。记录在自然恢复状态下术后3日、6日、9日胃体近端及胃窦处30分钟内慢波总数及正常慢波次数并计算正常慢波百分比。用析因设计分析切除部位、测量部位、术后时间三因素对胃慢波节律的影响。结果:上述三因素均对术后慢波节律有影响,切除胃体近端与切除胃体远端相比,前者引发的术后胃电节律紊乱的程度更严重且恢复更缓慢;术后测量胃窦处与测量胃体处相比,前者发生的胃电节律紊乱的程度更严重且恢复更缓慢。结论:大弯侧胃底与胃体交医院界处的"胃电起始区域"即为"胃电起搏区","胃电起搏区"的切除对术后胃电节律的影响大于传导区域切除对其影响。     

电针足三里穴对胃电的影响

目的:探讨电针大鼠足三里穴对胃动力的调节.方法:将大鼠随机分成足三里组、非经非穴组、非针刺对照组.观察电针后胃电的变化.结果:选取胃动过缓分布＞1/3(Ⅰ)及胃动过速分布＞1/3(Ⅱ)的各组数据进行统计学分析,胃电图表明:①各组Ⅰ的例数均比Ⅱ的例数多;②在Ⅰ或Ⅱ中,足三里组比其余两组的例数多、平均频率分布率多;③在Ⅰ中,足三里组比其余两组的平均主频慢.结论:电针足三里穴对大鼠胃电具有双向调节作用,以抑制作用为主.     

人类小腿肌肉对运动训练生理响应的电学特性研究

目的 运动训练已被证明能够改善许多慢性肌肉功能疾病,被用于治疗衰老型肌萎缩。本文采用电阻抗成像(electrical impedance tomography,EIT)研究人类小腿肌肉对运动训练生理响应的电学特性,旨在使用EIT方法可视化运动训练对人类小腿响应肌肉隔室内肌肉纤维体积增加的效果。方法 实验对象被要求在连续5个实验日进行左、右腿单侧提踵训练,应用EIT检测每日运动训练前和运动训练后小腿肌肉的电导率分布。为了定量分析运动训练对响应肌肉隔室的作用,使用配对样本t检验分析EIT重建图像的空间平均电导率<σ>。结果 运动训练后,由小腿腓肠肌组成的M₁肌肉隔室空间平均电导率<σ>_M1显著增加。此外,连续5个实验日的EIT测量结果显示,运动训练前的空间平均电导率<σ^pre>_M1呈上升趋势。所有实验对象在实验日1早晨进行实验前的腿部瘦体重与<σ>_M1呈线性关系,即<σ>_M1随腿部瘦体重增加而增加;运...     

腹腔镜辅助胃癌D2根治术联合胃背侧系膜近胃端完整系膜切除术对进展期胃癌患者肠黏膜屏障功能和腹腔微转移的影响

摘要 目的：探讨腹腔镜辅助胃癌D2根治术联合胃背侧系膜近胃端完整系膜切除术对进展期胃癌（AGC）患者肠黏膜屏障功能和腹腔微转移的影响。方法：选取2016年12月～2018年12月我院收治的105例AGC患者,按随机数字表法分为对照组（n=52）和实验组（n=53）,分别施行腹腔镜辅助胃癌D2根治术、腹腔镜辅助胃癌D2根治术联合胃背侧系膜近胃端完整系膜切除术。观察两组手术情况（淋巴结清扫数量、手术时间、术中出血量、近切缘距离）、胃肠功能恢复指标（肛门排气时间、经口进食时间、肠鸣音恢复时间）、并发症、住院时间及术前、术后1 d、3 d、7 d肠黏膜屏障功能[尿乳果糖/甘露醇（L/M）、血清二胺氧化酶（DAO）]、气腹后、关腹前腹腔微转移指标[多巴胺脱羧酶（DDC）、癌胚抗原（CEA）],并于术后12个月随访两组复发率。结果：实验组术中出血量少于对照组（P＜0.05）;两组经口进食时间、肛门排气时间、住院时间、肠鸣音恢复时间比较无差异（P＞0.05）;术前、术后1 d、3 d、7 d两组血清DAO水平、尿L/M比较无差异（P＞0.05）;关腹前实验组腹腔冲洗液DDC、CEA水平低于对照组（P＜0.05）;两组并发症总发生率比较,差异无统计学意义（P＞0.05）;术后12个月随访,实验组和对照组各失访2例,实验组复发率3.92%（2/51）低于对照组20.00%（10/50）（P＜0.05）。结论：腹腔镜辅助胃癌D2根治术联合胃背侧系膜近胃端完整系膜切除术治疗AGC,能有效降低术中出血量,恢复胃肠功能,减少腹腔微转移及术后复发,且未增加肠黏膜屏障功能损伤,安全性高。     

海马Glu与抑郁症的关系及其对胃运动的影响

目的：探讨抑郁症的发生与海马谷氨酸（Glu）的关系及其对胃运动的影响。方法：运用慢性不可预见性温和应激（GUMS）建立抑郁动物模型,采用海马定位微量注射,通过体重变化率、糖水偏爱、敞箱、强迫游泳实验观察大鼠行为表现,用PowerLab／8sp生理信号采集分析系统记录胃内压,观察胃运动的变化。结果：慢性不可预见性温和应激21d,可显著降低大鼠的体重增长率,糖水偏爱率和敞箱实验的水平运动和垂直运动得分,增加了大鼠的游泳不动时间,与正常对照组相比,差异显著。同时大鼠平均胃内压和胃的收缩幅值也显著降低。海马微量注射Glu与慢性不可预见性温和应激引起的动物行为表现一致,而胃运动减弱的程度小于应激组,但与正常时照组比较,差异明显。海马微量注射NMDA受体阻断剂MK-801,可消除应激所引起的抑郁样行为,减弱应激对胃内压的抑制作用,并明显增大胃的收缩幅值。结论：海马Glu和NMDA受体与应激性抑郁发生密切相关,既参与了应激引起的行为变化。又参与了应激引起的胃活动变化,只是对行为影响和胃活动影响有所不同。     

花背蟾蜍蝌蚪胃的发育形态学观察

应用大体解剖、组织切片和扫描电镜3种形态学方法对花背蟾蜍(Bufo raddei)蝌蚪在生长发育和变态过程中胃的形态结构变化进行了观察。结果显示,在蝌蚪发育24期(即G24)消化道呈简单的管状结构,胃与小肠等区分不明显,胃壁由内层矮柱状黏膜上皮细胞和其外的扁平上皮细胞层构成;直到26期胃略膨大,呈短粗管状,与小肠和食道可明显区分,胃壁内层的黏膜上皮细胞呈高柱状,上皮细胞间出现少量杯状细胞;36期的胃管明显膨大,其壁已具有胃的4层基本组织结构,杯状细胞数量增加,黏膜上皮细胞游离面有细长的微绒毛交织成网状覆盖;42期胃发育呈"C"字形,胃壁具备了消化道典型的4层结构,有胃腺芽出现,黏膜细胞的微绒毛短而直立,仅极少数细胞有长的微绒毛;蝌蚪发育到46期,肠道缩短,胃呈"J"字状,占消化道大部分,胃体中胃腺发达。在临近肝一侧,黏膜上皮细胞的微绒毛较短,胃腺少而小;而在相反一侧,微绒毛较长,胃腺多而大。基于上述结果说明,花背蟾蜍蝌蚪胃在36期已经基本完成了组织结构的分化,在变态发育期间结构和功能得到进一步完善,以适应变态后陆地生活的食性变化。     

清醒猫摄食过程中的胃电活动

本文报告慢性清醒猫正常摄食过程中胃电的变化,以及脑室注射心得安和动物麻醉对胃电的影响。结果显示,空腹饥饿状态下,猫胃电图上出现具有特征性的高振幅的“饥饿波”;摄食时胃电慢波抑制,可见较小快波;进食后半小时左右,胃电开始出现每分钟4—5次的振幅逐渐增大的正弦形慢波,多数慢波负载有快波。脑室注射心得安,可使饱猫胃电慢波抑制期出现饥饿波。动物在饥饿时麻醉,胃电慢波幅度显著降低,饥饿波完全不出现,苏醒后逐渐恢复。     

Alterations of Gastrointestinal Motility in Obesity

All nutrients are absorbed in the gastrointestinal (GI) system, and GI motility plays a very critical role in the consumption of foods, digestion, and absorption of nutrients. Various segments of the GI tract (esophagus, stomach, and intestines) coordinate in a complex yet precise way to control the process of food consumption, digestion, and absorption of nutrients. GI motility not only regulates the rates at which nutrients are processed and absorbed in the gut but also participates in the control of appetite and satiety. Altered GI motility has been associated with various disease conditions (gastroparesis, etc.) and has been frequently observed in obese patients. The significance of these GI motility alterations in obesity is not fully understood, but they have been considered as potential contributing factors in the development and maintenance of obesity and changed eating behavior. Therapies aimed at regulating GI motility are being actively explored and applied clinically for the management of obese patients. To better understand the pathophysiology of obesity, we systematically reviewed GI motility changes observed in obese conditions. The relationship and pathological significance of these findings, as well as the potential therapies by modification of GI motility, are also discussed.     

Chronic tachygastrial electrical stimulation reduces food intake in dogs

Objective: Tachygastria is known to be associated with gastric hypomotility. This study investigated the effect of tachygastrial electrical stimulation (TES) on food intake and its effects on gastric motility. Research Methods and Procedures: Five experiments were performed to study the effects of TES on gastric slow waves, gastric tone, accommodation, and antral contractions, gastric emptying, acute food intake, and chronic food intake in dogs. Results: TES at tachygastrial frequencies induced tachygastria and reduced normal slow waves. TES significantly reduced gastric tone or induced gastric distention, impaired gastric accommodation, and inhibited antral contractions. TES significantly delayed gastric emptying. Acute TES reduced food intake but did not induce any noticeable symptoms. Chronic TES resulted in a 20% reduction in food intake, and the effect of TES was found to be related to specific parameters. Discussion: TES at the distal antrum results in a significant reduction in food intake in dogs, and this inhibitory effect is probably attributed to TES‐induced reduction in proximal gastric tone, gastric accommodation, antral contractility, and gastric emptying. These data suggest a therapeutic potential of the specific method of TES for obesity.     

Gastric Electrical‐Stimulation Effects on Canine Gastric Emptying,Food Intake,and Body Weight

Objective: It has been reported that electrical stimulation at the distal stomach can disrupt intrinsic gastric electrical activity and delay gastric emptying. Gastric dysrhythmia and impaired gastric emptying are associated with upper gastrointestinal symptoms and weight loss. The purpose of this study was to evaluate the effect of low‐frequency/long‐pulse gastric electrical stimulation (GES), at proximal and distal stomach, on canine gastric emptying, food intake, and body weight. Research Methods and Procedures: Eight dogs were surgically implanted with four pairs of electrodes along the greater curvature and a gastric tube at the dependent part of the stomach. Liquid gastric emptying at baseline, during proximal and distal GES at 6 cycles per minute, was assessed first by a dye dilution technique. Proximal and distal GES were then randomly delivered during feeding for 10 consecutive days, and food intake and body weight were recorded daily. Results: There was no significant difference in gastric emptying parameters among the various sessions. The mean daily food consumption was significantly reduced during both sessions of GES, resulting in significant immediate weight loss. Percentage weight loss was comparable between both sessions of GES. Discussion: Short‐term GES significantly reduced canine food intake and weight. This effect may not be related to changes in gastric emptying. GES may have a potential role in the treatment of obesity.     

Potential of intestinal electrical stimulation for obesity: a preliminary canine study

Objective: The aims of this study were to investigate the therapeutic potential of intestinal electrical stimulation (IES) for obesity. Experiments were performed to investigate the effects of IES on food intake, gastric tone, gastric accommodation, and its possible pathway. Research Methods and Procedures: Ten normal dogs and six dogs with truncal vagotomy were used in this study. Each dog was equipped with a gastric cannula for the measurement of gastric tone and accommodation by barostat and one pair of duodenal serosal electrodes for IES. The experiment on food intake was composed of both control session without IES and IES session after a 28‐hour fast. The experiment on gastric tone and accommodation was performed in the fasting and fed states and composed of three sessions: control, IES, and IES with N^G‐nitro‐l ‐arginine. Results: IES significantly reduced food intake in the normal dogs (459.0 vs. 312.6 grams, p < 0.001). The food intake was negatively correlated with the fasting gastric volume during IES. IES significantly decreased fasting gastric tone in the normal dogs reflected as a decrease in gastric volume (89.1 vs. 261.3 mL, p < 0.01), which was abolished by vagotomy and N^G‐nitro‐l ‐arginine. Discussion: IES reduces food intake and inhibits gastric tone in the fasting state. The inhibitory effect of IES on gastric tone is mediated by both vagal and nitrergic pathway.     

Retrograde Gastric Electrical Stimulation Reduces Food Intake and Weight in Obese Rats

Objective: To investigate the therapeutic potential of retrograde gastric electrical stimulation (RGES) for obesity in a rodent model of obesity. Research Methods and Procedures: The study was performed in 12 obese Zucker rats implanted with two pairs of gastric serosal electrodes, one pair for stimulation and the other for recording intrinsic gastric myoelectrical activity. It was composed of an acute study in three sessions to study the effect of RGES on intrinsic gastric myoelectrical activity and acute food intake and a chronic phase to study the short‐term effect of RGES on weight. RGES was performed through the distal stomach using long pulses at a frequency of tachygastria (known to induce gastric hypomotility). Results: RGES completely entrained intrinsic gastric myoelectrical activity and turned it into tachygastria at a certain strength. RGES reduced acute food intake compared with the control (p < 0.01). A 2‐week treatment of RGES resulted in a significant reduction in food intake (p = 0.002) and a significantly greater weight loss than sham stimulation (p = 0.004). Discussion: RGES at a tachygastrial frequency reduces food intake and results in weight loss in obese Zucker rats, and its effect is probably attributed to the introduction of tachygastria in the stomach.     

Bioelectric,tissue, and molecular characteristics of the gastric mucosa at different times of ischemia

Gastrointestinal ischemia may be presented as a complication associated with late shock detection in patients in critical condition. Prolonged ischemia can cause mucosal integrity to lose its barrier function, triggering alterations that can induce organ dysfunction and lead to death. Electrical impedance spectroscopy has been proposed to identify early alteration in ischemia-induced gastric mucosa in this type of patients. This work analyzed changes in impedance parameters, and tissue and molecular alterations that allow us to identify the time of ischemia in which the gastric mucosa still maintains its barrier function. The animals were randomly distributed in four groups: Control, Ischemia 60, 90, and 120 min. Impedance parameters were measured and predictive values were determined to categorize the degree of injury using a receiver operating characteristic curve. Markers of inflammatory process and apoptosis (iNOS, TNFα, COX-2, and Caspase-3) were analyzed. The largest increase in impedance parameters occurred in the ischemia 90 and 120 min groups, with resistance at low frequencies (R_L) and reactance at high frequencies (X_H) being the most related to damage, allowing prediction of the occurrence of reversible and irreversible tissue damage. Histological analysis and apoptosis assay showed progressive mucosal deterioration with irreversible damage (p < 0.001) starting from 90 min of ischemia. Furthermore, a significant increase in the expression of iNOS, TNFα, and COX-2 was identified in addition to apoptosis in the gastric mucosa starting from 90 min of ischemia. Tissue damage generated by an ischemia time greater than 60 min induces loss of barrier function in the gastric mucosa.     

Presence of cancer cells in gastric lavage of gastric cancer patients as an indicator of advanced disease,predictor of tumour aggressive phenotype and independent prognostic factor for poor survival: The endoluminal metastatic pathway of gastric cancer and GL0/GL1 classification

Objective

As of 2017, the pathobiology of gastric cancer (GC) is far from fully understood; consequently, new methods of basic and advanced research have been proposed and tested. The presence (GL1) vs absence (GL0) of malignant cells exfoliated in gastric lavage (GL) of GC patients was formerly evaluated with diagnostic intent but not for staging or prognostic assessment. We investigated this hitherto unreported application of cytopathology.

Methods

GL was preoperatively and prospectively collected from 80 GC patients and cytologically analysed. The results were compared with the classic clinicopathological features of GC and related to survival. The prognostic value of GL1 was assessed through univariate and multivariate analyses.

Results

GL1 was detected in 36 samples (45%) and correlated with advanced tumour depth (T3‐T4), lymphatic metastasis (N+), distant metastasis (M1) and lymphovascular invasion (LVI1; P=.0317, .0024, .003 and .0028, respectively). Overall survival (OS) was significantly shorter for GL1 (23 months) vs GL0 patients (42 months; P=.005) and GL1 vs GL0 T1 subjects (12.6 vs 47.8 months, P=.0029). Univariate analysis revealed that GL1, N+, M1, LVI1 and advanced stage were significantly associated with OS. Multivariate analysis assessed GL1 as the only independent prognostic factor for worse OS and progression‐free survival (P=.0013 and .0107).

Conclusions

In the present study, GL1 was correlated with advanced disease, aggressive tumour behaviour and poor prognosis. Although additional studies are needed to confirm these findings, the GL0/GL1 classification can be applied to GC patients to achieve higher accuracy in staging, prognostic stratification and treatment selection.     

维拉帕米对大鼠浸水应激性胃溃疡的影响

目的和方法：尖激性胃溃疡模型,研究维拉帕米ｉｐ对大鼠应激性溃疡的影响及其作用机制。结果：（１）给拉帕米（５～２０ｍｇ／ｋｇ）可抑制大鼠浸水应激性胃溃疡的发生。（２）维拉帕米（１０ｍｇ／ｋｇ）可抑制浸水应激大鼠胃液,胃酸的分泌及胃的运动,而对胃粘液的分泌无影响;（３０浸水庆激后大鼠胃粘膜一氧化氮合成酶（ＮＯＳ）活性和一氧化氮（ＮＯ）含量均明显降人氏,维拉帕米（１０ｍｇ／ｋｇ）可抑制应激导致的ＮＯＳ活     

Effect of stress on the antioxidant enzymes and gastric ulceration

The effect of cold-restraint stress on the antioxidant enzymes of the rat gastric mucosa was studied with a view to finding out their role in stress induced gastric ulceration. Histological examination revealed stress induced extensive damage of the surface epithelial cell with lesions extending upto submucosa in some cases. Stress causes time-dependent increase in histamine and pepsin content but decrease in acid content of the gastric fluid with the progress of ulceration (ulcer index) for two hours. The tissue lipid peroxidation was significantly increased as evidenced by accumulation of malondialdehyde. Since lipid peroxidation results from the generation of reactive oxygen species, stress effect was studied on some antioxidant enzymes such as superoxide dismutase, peroxidases and prostaglandin synthetase as a function of time. The time dependent increase in stress ulcer correlates well with the concomitant increase in superoxide dismutase activity and decrease in peroxidase and prostaglandin synthetase activity. This creates a favourable condition for accumulation of endogenous H₂O₂ and more reactive hydroxyl radical (OH·). Administration of antioxidants such as reduced glutathione or sodium benzoate prior to stress causes significant decrease in ulcer index and lipid peroxidation and protection of gastric peroxidase activity suggesting the involvement of reactive oxygen species in stress induced gastric ulceration. This is supported by thein vitro observation that OH· can also inactivate peroxidase and induce lipid peroxidation. As prostaglandin is known to offer cytoprotection, stress-induced loss of prostaglandin synthetase activity appears to aggravate the oxidative damage caused by reactive oxygen species.Abbreviations ROS reactive oxygen species - GPO gastric peroxidase - SOD superoxide dismutase - MDA malondialdehyde - GSH reduced glutathione - TCA trichloroacetic acid