High-Lard and High-Fish Oil Diets Differ in Their Effects on Insulin Resistance Development, Mitochondrial Morphology and Dynamic Behaviour in Rat Skeletal Muscle

Fish oil (mainly omega 3 polyunsaturated fatty acids), differently from lard (mainly saturated fatty acids) has been suggested to have anti-inflammatory effects associated with amelioration of insulin sensibility. An important role in skeletal muscle insulin resistance development has been recently attributed to mitochondrial dynamic behavior. Mitochondria are dynamic organelles that frequently undergo fission/fusion processes and a shift toward fission process has been associated with skeletal muscle mitochondrial dysfunction and insulin resistance development. The present work aimed to evaluate if the replacement of lard with fish oil in high-fat diet positively affect skeletal muscle mitochondrial dynamic behavior in association with the improvement of insulin-resistance. Body weight gain, systemic insulin-resistance (glucose/insulin ratio), serum TNFα levels and skeletal muscle lipid content were assessed in rats fed a high-lard or high-fish-oil diet for 6 weeks. In skeletal muscle sections, immunohistochemical analysis were performed to detect the presence of insulin receptor substrate 1 (IRS1) and tyrosine phosphorylated IRS1 (key factor in insulin signalling pathway) as well as to detect the main proteins involved in mitochondrial fusion (MFN2 and OPA1) and fission (DRP1 and Fis1) processes. Skeletal muscle mitochondrial ultrastructural features were assessed by electron microscopy. High-fish oil feeding induced lower body weight gain, systemic inflammation and insulin-resistance development as well as skeletal muscle lipid accumulation compared to high-lard feeding. Skeletal muscle sections from high-fish oil fed rats exhibited a greater number of immunoreactive fibers for MFN2 and OPA1 proteins as well as weaker immunostaining for DRP1 and Fis1 compared to sections from high-lard fed rats. Electron microscopy observations suggested a prominent presence of fission events in L rats and fusion events in F rats. The positive effect of the replacement of lard with fish oil in high-fat diet on systemic and skeletal muscle insulin sensibility was associated to changes in mitochondrial dynamic behavior.

Hypolipidemic Activity of Olive Oil (Olea europaea) against High Fat Diet-Induced Nonalcoholic Fatty Liver Disease (NAFLD) in Mice

Aim: The aim of the present study is to access the effect of olive oil supplementation against high fat diet induced fatty liver disease in mice. Methods: Mice were divided into five groups: Group I (normal diet), Group II (high fat diet), Group III (olive oil), Group IV and V (High Fat Diet along with olive oil). All mice were fed for 16 weeks with weight measurements every 2 weeks and then sacrificed. Biochemical analysis of blood samples was done and mice livers were histologically examined. Results: Group II mice showed significant increase in body weight as compared with Group I (p < 0.05). Group IV and V mice were significantly (p < 0.05) reduced in body weight as compared with Group II. Olive oil groups had significantly decreased triglyceride and low density lipoprotein levels as compared with Group II whereas high density lipoprotein levels were significantly increased (p < 0.05). The liver enzymes were significantly increased in Group II as compared with other groups (p < 0.05). Liver histopathology revealed drastically increased lipid droplets in Group II mice as compared with Group IV & V. Conclusion: Olive oil causes weight reduction, decreases the serum triglycerides, normalizes the liver enzymes and significantly reduces the accumulation of fat in liver. Therefore, olive oil may represent a potential therapeutic alternative for NAFLD and other fatty diseases.

Optimization of the Plugging Agent Dosage for High Temperature Salt Profile Control in Heavy Oil Reservoirs

After steam discharge in heavy oil reservoirs,the distribution of temperature,pressure,and permeability in different wells becomes irregular.Flow channels can easily be produced,which affect the sweep efficiency of the oil displacement.Previous studies have shown that the salting-out plugging method can effectively block these channels in high-temperature reservoirs,improve the suction profile,and increase oil production.In the present study,the optimal dosage of the plugging agent is determined taking into account connection transmissibility and inter-well volumes.Together with the connectivity model,a water flooding simulation model is introduced.Moreover,a non-gradient stochastic disturbance algorithm is used to obtain the optimal plugging agent dosage,which provides the basis for the high-temperature salting-out plugging agent adjustment in the field.

Theory and Application of Numerical Simulation of Chemical Flooding in High Temperature and High Salt Reservoirs

Applications, theoretical analysis and numerical methods are introduced for the simulation of mechanical models and principles of the porous flow in high temperature, high salt, complicated geology and large-scale reservoirs in this paper. Considering petroleum geology, geochemistry, computational permeation fluid mechanics and computer technology, we state the models of permeation fluid mechanics and put forward a sequence of implicit upwind difference iteration schemes based on refined fractional steps of the upstream, which can compute the pressures, the saturation and the concentrations of different chemistry components. A type of software applicable in major industries has been completed and carried out in numerical analysis and simulations of oil extraction in Shengli Oil-field, which brings huge economic benefits and social benefits. This software gives many characters: spatial steps are taken as ten meters, the number of nodes is up to hundreds of thousands and simulation time period can be tens of years and the high-order accuracy can be promised in numerical data. Precise analysis is present for simplified models of this type and that provides a tool to solve the international famous problem.

Dietary flaxseed oil regulate lipid metabolism associated with modulation of gut microbiota in high-fat-diet fed mice

Accumulating data suggest that consuming dietary flaxseed oil(FSO)was a potential strategy for treating diet-induced lipid metabolism disorder(LMD).Effects of FSO on high-fat-diet(HFD)induced LMD and gut microbiota were studied in C57/BL6J mice.Results showed that FSO remarkably suppressed body weight gain induced by HFD and also attenuated LMD by decreasing levels of total cholesterol(TC),total triglyceride(TG),lowdensity lipoprotein cholesterol(LDL-C),non-esterified fatty acid(NEFA)and fasting bloodglucose(FBG)in serum.FSO treatment modulated mRNA expression level of genes associated with glucose and lipid metabolism.It regulated gut microbiome at different taxonomic levels by increasing proportions of beneficial Alistipes,Anaeroplasma,Bifidobacterium and inhibiting the growth of insulin resistance or obesity-associated bacteria such as Adlercreutzia,Dorea and Sporosarcina,compared with HFD group.Spearman's correlation analysis suggested that modulation of gut microbiota by FSO were closely related with LMD parameters.These findings might help us to better understand FSO impact on human health.

运动调控高盐膳食果蝇运动能力和生命周期的机制--基于Salt与Foxo基因过表达

目的研究耐力运动对高盐膳食果蝇运动能力和寿命的影响并分析其机制。方法利用上游激活序列(UAS)/半乳糖调节上游启动子元件(Gal4)系统,将雄性野生型w^(1118)、盐(Salt)-UAS-过表达型、叉头转录因子O(Foxo)-UAS-过表达型果蝇分别与雌性arm-Gal4果蝇杂交,收集F1代羽化12 h内的arm-Gal4>w^(1118)、arm-Gal4>Salt-UAS-过表达、arm-Gal4>Foxo-UAS-过表达雄蝇,分为对照组、高盐组、运动组、高盐运动组、Salt组、Salt+运动组、Foxo组、Foxo+高盐组,共8组,每组350只果蝇。第2天龄开始进行运动和高盐干预,在2周龄末检测各指标。结果高盐运动组果蝇的快速攀爬能力、存活率、超氧化物歧化酶(SOD)活力水平、Foxo基因信使核糖核酸(messengerRiboseNucleicAcid,mRNA)表达水平均高于高盐组(P<0.05),丙二醛(MDA)水平、活性氧(ROS)水平和Salt基因mRNA表达水平均低于高盐组(P<0.05);Salt+运动组果蝇的快速攀爬能力、存活率、SOD活力水平、Foxo基因mRNA表达水平均高于Salt组(P<0.05),MDA水平、ROS水平均低于Salt组(P<0.01);Foxo+高盐组果蝇的快速攀爬能力、存活率、SOD活力水平、Foxo基因mRNA表达水平均高于高盐组(P<0.01),MDA水平、ROS水平、Salt基因mRNA表达水平均低于高盐组(P<0.05)。结论Foxo/SOD通路活性增强和Salt基因表达下调是耐力运动后高盐膳食果蝇运动能力增强和寿命延长的重要分子机制;耐力运动能通过提高Foxo/SOD通路活性减缓Salt基因过表达诱发的果蝇运动能力下降和寿命衰减。

Blockade of Endogenous Angiotensin-(1–7) in Hypothalamic Paraventricular Nucleus Attenuates High Salt-Induced Sympathoexcitation and Hypertension

Angiotensin(Ang)-(1–7) is an important biologically-active peptide of the renin-angiotensin system. This study was designed to determine whether inhibition of Ang-(1–7) in the hypothalamic paraventricular nucleus(PVN) attenuates sympathetic activity and elevates blood pressure by modulating pro-inflammatory cytokines(PICs)and oxidative stress in the PVN in salt-induced hypertension. Rats were fed either a high-salt(8% NaCl) or a normal salt diet(0.3% NaCl) for 10 weeks, followed by bilateral microinjections of the Ang-(1–7) antagonist A-779 or vehicle into the PVN. We found that the mean arterial pressure(MAP), renal sympathetic nerve activity(RSNA), and plasma norepinephrine(NE) were significantly increased in salt-induced hypertensive rats. The high-salt diet also resulted in higher levels of the PICs interleukin-6, interleukin-1 beta, tumor necrosis factor alpha, and monocyte chemotactic protein-1, as well as higher gp91 phoxexpression and superoxide production in the PVN. Microinjection of A-779(3 nmol/50 nL) into the bilateral PVN of hypertensive rats not only attenuated MAP, RSNA, and NE, but also decreased the PICs and oxidative stress in the PVN. These results suggest that the increased MAP and sympathetic activity in salt-induced hypertension can be suppressed by blockade of endogenous Ang-(1–7) in the PVN, through modulation of PICs and oxidative stress.

AMPS单体和缔合单体的引入对聚合物流变性及驱油性能影响研究

研究了引入AMPS单体形成的超高分多元共聚物(HMWP)和引入缔合单体形成的超高分缔合聚合物(AP-P5)的流变性能与驱油性能。室内实验表明,引入AMPS单体和缔合单体均可以显著提高聚合物的增黏性能与黏弹性能。浓度为2000 mg/L时,相对于常规聚合物,AP-P5与HMWP黏度分别提高250.0%和85.1%,黏弹复合模量分别提高36.7%和34.3%,60 d黏度保留率分别为60.9%和82.6%;静态吸附实验发现,HMWP浓度超过200 mg/L,吸附量趋于平衡,而AP-P5随着浓度的增加吸附量逐渐增加;驱油实验结果表明,AP-P5与HMWP的提高采收率幅度分别为11.0%和15.7%,因此,引入AMPS单体更有利于高温高盐油藏聚合物驱油效果提升。现场实验表明,HMWP降水增油效果显著,可以为胜利油田高温高盐油藏大幅度提高采收率提供技术支持。

预处理方法对盐效应辅助水剂法提取山桐子油的影响

为了寻找一种高效提取山桐子油的方法,拓展山桐子油的应用范围,分别采用微波和高压对山桐子进行预处理后采用盐效应辅助水剂法提取其中的油脂。探究液固比、NaCl质量浓度、提取温度、微波功率和微波时间、高压温度和高压时间对山桐子油提取率的影响;以有机溶剂提取法作为参照,研究微波和高压预处理对盐效应辅助水剂法山桐子油提取率、理化性质、色泽及DPPH自由基清除率的影响。结果表明:微波协同盐效应辅助水剂法在微波功率420 W、微波时间90 s、液固比1.2∶1、NaCl质量浓度0.15 g/mL和提取温度50℃时对山桐子油提取效果最好,山桐子油提取率为87.07%,比高压协同盐效应辅助水剂法(高压温度110℃和高压时间5 min)高2.86%;与高压预处理相比,微波预处理的山桐子油具有更高的DPPH自由基清除率(83.03%)和更低的酸值(KOH)(10.73 mg/g),但这两种方法提取的山桐子油的脂肪酸组成和过氧化值均无显著差异;与有机溶剂提取法相比,盐效应辅助水剂法山桐子油提取率降低,但具有更高的DPPH自由基清除率和更低的硫代巴比妥酸值,且透明度更高,红色更浅。综上,微波协同盐效应辅助水剂法可以有效提取山桐子油,提取率较高且油脂品质良好,可用于高品质山桐子油的生产。

高盐饮食导致小鼠卵巢组织线粒体功能异常

目的分析高盐饮食对卵巢线粒体功能的影响。方法将20只雌性ICR小鼠随机分为正常盐饮食(NSD)组和高盐饮食(HSD)组,每组10只。NSD组给予正常盐饮食,HSD组给予8%NaCl高盐饮食,持续4周。通过NaCl诱导体外培养的人卵巢颗粒细胞COV-434建立高盐处理细胞模型。采用Western blotting检测超氧化物歧化酶(SOD)和电子传递链复合物(Complex)Ⅰ~Ⅴ的表达情况,动力学法检测SOD和琥珀酸脱氢酶(SDH)的活性,化学发光法检测ATP水平。结果与NSD组相比,HSD组小鼠卵巢ComplexⅠ表达水平显著下降(P<0.01),ComplexⅤ表达水平显著升高(P<0.05),SDH活性显著降低(P<0.01),血清和卵巢中ATP含量也显著下降(P<0.01)。高盐处理后COV-434细胞中ComplexⅠ和ComplexⅡ表达水平显著下降(P<0.05),ComplexⅤ表达水平显著升高(P<0.05),SDH活性显著降低(P<0.01),ATP含量不足(P<0.01)。结论高盐可引起小鼠卵巢线粒体的氧化稳态失衡、Complex表达水平变化、三羧酸循受阻以及ATP水平不足等线粒体功能障碍。

海上高温高盐油藏深部堵水用高强度凝胶体系的制备及性能

制备了一种由非离子聚合物聚丙烯酰胺(PAM)、酚醛树脂交联剂、促凝剂氯化铵和硫脲组成的凝胶堵剂体系,考察了各组分含量、温度和矿化度等对凝胶体系的成胶情况的影响,评价了凝胶体系在多孔介质中注入、运移和选择性封堵能力。实验结果表明,聚合物凝胶体系最优配方为:0.4%(w)PAM+0.4%(w)交联剂+0.3%(w)促凝剂。聚合物凝胶体系在不同矿化度模拟地层水中老化90 d后,脱水率为5.4%,具有良好的抗盐性和热稳定性。聚合物凝胶体系对高渗岩心封堵率均高于97.0%,具有良好的选择性封堵能力。

高盐低渗透油藏CO_(2)泡沫微观尺度耐盐性及调驱效果

针对高盐低渗透油藏CO_(2)驱存在的气窜问题,以长庆油田H3区块为研究对象,构建SiO_(2)纳米颗粒强化CO_(2)泡沫体系,从泡沫流变性、气液界面张力、气泡液膜厚度与渗透性、泡沫微观结构4个方面评价泡沫体系耐盐性;通过开展SiO_(2)纳米颗粒强化CO_(2)泡沫体系并联岩心调驱实验,研究该体系调驱效果。根据实验结果,在油藏条件下,构建出配方为质量分数0.20%(OW-1)+0.30%(OW-4)+0.05%(SiO_(2))纳米颗粒强化CO_(2)泡沫体系,该泡沫体系的综合指数为36834 mL·min;该泡沫体系的微观尺度耐盐性评价结果表明,矿化度46357 mg/L与矿化度500 mg/L的配液相比,泡沫流变性更好,气液界面张力在10 MPa时仅增加1 mN/m,液膜渗透性增加了0.14 cm/s,但仍具有良好的泡沫骨架结构,该泡沫体系具有良好的耐盐性。此外,在并联岩心渗透率级差为15.55的条件下,该SiO_(2)纳米颗粒强化CO_(2)泡沫体系对岩心剖面改善率达到了97.28%,采收率显著提升,展现出良好的调驱能力。

一种耐高温高盐水溶性纳米流体的分散稳定性和界面活性

以一种水溶性纳米复合材料(SiO_(2)-PAMPS NPs)为研究对象,系统研究了质量分数、温度、盐度对纳米流体的分散稳定性及界面活性的影响规律。研究结果表明,SiO_(2)-PAMPS NPs流体具有良好的耐温耐盐性和降低界面张力的能力,90℃时在API盐水中最佳使用质量分数为0.7%,界面张力值从20.80 mN/m降低至11.38 mN/m,且在高质量分数NaCl盐水中,比高质量分数CaCl_(2)盐水降低油水界面张力的能力更强。该流体能与煤油形成稳定的O/W型乳状液,显示出优异的驱油性能,表明该类纳米流体在高温高盐油藏提高采收率领域具有巨大应用潜力。

耐温抗盐强乳化聚-表二元复合驱油体系研究及应用

针对高温高盐油藏采用常规聚合物和表面活性剂驱油效果较差的问题,将耐温抗盐型聚合物SPAM-1和阴-非离子复合型表面活性剂YANC-E进行复配,研制了一种适合高温高盐油藏的耐温抗盐强乳化聚-表二元复合驱油体系,并通过室内实验评价了驱油体系的综合性能。结果表明:该二元复合驱油体系的耐温性能较强,在115℃下老化后,体系的黏度保留率仍能达到90%以上,界面张力仍能达到10^(-3)mN/m数量级;体系具有良好的抗盐性能,当矿化度大于100000 mg/L时,体系仍能保持较高的黏度和较低的界面张力;体系具有良好的长时间老化稳定性能,在储层温度和矿化度条件下老化60 d后的黏度保留率在85%以上,界面张力始终维持在10^(-3)mN/m范围内;驱油体系与原油形成的乳状液稳定性较强,放置120 min后乳状液的分水率小于20%,具有较强的乳化性能;驱油体系在地层条件下吸附6次后仍能保持较高的黏度和较低的界面张力,具有良好的抗吸附性能。另外,岩心水驱结束后注入0.5 PV二元复合驱油体系,能使采收率继续提高25%以上,驱油效果较好。A区块内5口采油井在实施耐温抗盐强乳化聚-表二元复合驱油措施后,日产油量显著提高,含水率明显降低,取得了良好的现场应用效果。

持续高盐饮食通过调节转录因子C/EBPβ促进阿尔兹海默病小鼠认知障碍

目的:探讨转录因子C/EBPβ参与高盐饮食加重阿尔茨海默病(AD)模型小鼠学习记忆损伤的机制。方法:实验小鼠分为APP/PS1-ND组、APP/PS1-HSD组、APP/PS1/C/EBPβ+/--ND组、APP/PS1/C/EBPβ+/--HSD组、APP/PS1/C/EBPβ-HDO-ND组、APP/PS1/C/EBPβ-HDO-HSD组,每组各15只,分别给予正常饮食或高盐饮食,通过新物体识别实验(NOR)、关联条件恐惧、暗示条件恐惧实验检测其学习记忆水平。荧光定量PCR检测海马脑区C/EBPβ mRNA水平,特定酶活试剂盒检测C/EBPβ活性。结果:APP/PS1-HSD组小鼠在NOR的T2实验中的区分指数与APP/PS1-ND组小鼠差异无统计学意义(P>0.05),APP/PS1-HSD组小鼠在NOR的T3实验中的区分指数、关联条件恐惧实验的僵直时间百分比以及暗示条件恐惧实验的僵直时间百分比均明显低于APP/PS1-ND组(P均<0.01)。APP/PS1/C/EBPβ+/--ND组与APP/PS1/C/EBPβ+/--HSD组小鼠在NOR的T2和T3实验中的区分指数以及关联条件恐惧实验的僵直时间百分比和暗示条件恐惧实验的僵直时间百分比的差异均无统计学意义(P>0.05)。APP/PS1/C/EBPβ-HDO-ND组与APP/PS1/C/EBPβ-HDO-HSD组小鼠在NOR的T2和T3实验中的区分指数、关联条件恐惧实验的僵直时间百分比以及暗示条件恐惧实验的僵直时间百分比的差异均无统计学意义(P>0.05)。与APP/PS1-ND组比较,APP/PS1-HSD组小鼠海马组织C/EBPβ mRNA水平和C/EBPβ活性均明显升高(P<0.01),APP/PS1小鼠海马组织C/EBPβ活性与其认知功能之间存在明显的负相关(r=-0.6215,P<0.05)。结论:C/EBPβ参与高盐饮食所介导的阿尔茨海默病的认知障碍,或可成为阿尔茨海默病的治疗新靶点。

哺乳动物雷帕霉素靶蛋白与运动、高脂肪/高盐饮食和衰老的关系

背景:衰老是一个不可逆的过程,其特征与基因、饮食和环境有关。哺乳动物雷帕霉素靶蛋白(mammalian target of rapamycin,mTor)作为生长发育的中心调节剂对衰老、运动及不良饮食导致的负面影响具有调节作用,这些作用与mTor及其复合物的活性相互关联。然而各因素间的相互联系仍不十分清楚,如mTor、运动对衰老的影响。目的:拟通过研究运动、高脂/高盐饮食和mTor在衰老中的关系,从而对衰老的防治机制有更加全面的认识。方法:①文献资料法,通过在CNKI及Web of Science核心合集数据库中进行检索,围绕“mTor基因(mammalian target of rapamycin/mTor)、运动(exercise)、高脂肪/高盐饮食(high-fat diet/high-salt diet)及衰老(aging)”等关键词进行关键词的组合搜索,对相关文献进行检索、查阅和筛选,为文章提供理论支撑。②对比分析法,通过对所得到的有效文献进行仔细阅读,比较各文献间的差异,为文章论点提供理论基础。③通过对比分析文献间的异同点,明确各指标的定义及关系,从而理清文章思路。结果与结论:mTor与衰老密切相关,通过分析文献,认为mTor的2个复合物mTorC1和mTorC2在衰老、运动和骨骼肌的生长发育中起着重要作用。此外,mTor介导的S6K1、Akt、FOXO和4E-BP1信号通路与运动、高脂饮食、高盐饮食和骨骼肌/心脏衰老密切相关。

PM2.5和高盐饮食联合暴露对小鼠肝炎症细胞因子和淋巴生成的影响

目的研究大气PM2.5和高盐饮食联合暴露对小鼠肝炎症和淋巴生成的影响。方法将32只C57BL/6J小鼠随机分为:对照组,PM2.5组,高盐(HSD)组和PM2.5+高盐组。高盐组和PM2.5+高盐组小鼠连续8周给予8%高盐饲料,其余两组连续8周给予含盐0.4%的对照饲料;PM2.5组和PM2.5+高盐组小鼠采用气管滴注法进行PM2.5染毒(每周2次);其余两组小鼠通过气管滴注法滴注等体积生理盐水(每周2次)。在PM2.5染毒结束24 h后,将全部小鼠处死。测定小鼠肝炎性细胞因子TNF-α和IL-6水平;用免疫荧光染色法观察肝LYVE1表达水平;用蛋白免疫印迹法测定肝淋巴生成标志蛋白PROX1和LYVE1以及淋巴生成调节蛋白VEGFR-3和VEGF-C蛋白质表达水平。结果与对照组相比,高盐组小鼠肝组织TNF-α和IL-6水平以及肝组织PROX1、LYVE1、VEGFR-3和VEGF-C蛋白表达水平显著增加(P<0.05)。与高盐组相比,PM2.5+高盐组肝组织TNF-α和IL-6水平以及肝组织PROX1、LYVE1、VEGFR-3和VEGF-C蛋白表达水平显著增加(P<0.05);并且PM2.5和高盐饮食对以上指标的影响具有交互作用。结论大气PM2.5和高盐饮食联合暴露显著加重了小鼠肝炎症,并且可能通过上调肝VEGFR-3/VEGF-C蛋白质表达增加淋巴生成。

高盐饮食通过激活盐皮质受体引发Dahl SS大鼠肾损伤和高血压的新机制

盐敏感高血压作为一种顽固性高血压,其发病机制十分复杂。虽然盐皮质激素受体激活和肾损伤在盐敏感高血压的发展中起关键作用,但具体的病理机制目前并不明确。通过高盐饮食诱导建立达尔盐敏感(Dahl SS)大鼠高血压模型,探究盐敏感高血压及肾损伤产生的病理机制。与盐不敏感的SS-13BN大鼠相比,长期高盐饮食会造成Dahl SS大鼠肾脏中交感神经和肾素-血管紧张素-醛固酮系统(RAAS)的局部激活,最终激活盐皮质激素受体(MR),导致上皮钠通道(ENaC)表达增加、氧化应激与炎症反应增强,从而发生肾纤维化病变,并引发肾脏中磷酸化肌动蛋白(P-Cofilin)与足蛋白(Podocin)表达增加,造成足细胞损伤,最终引发肾损伤与高血压症状。

准饱和盐水基免配缔合交联压裂液的研究及应用

玛湖风城组含有大量可溶性碱盐,特殊储层压后压降快、堵塞井筒严重影响试油。为了验证入井压裂液对储层盐矿溶蚀是否会造成影响,基于风城组储层典型碱盐矿组成特点,模拟不同配液水对储层盐矿溶蚀影响,构建了一套耐温(120℃)、抗高盐(30×10^(4)mg/L)免配聚合物交联压裂液体系,并进行现场试验。结果表明:高盐水较自来水对典型模拟盐的抑溶率达到60%以上;以悬浮基疏水缔合聚合物溶液“链间缠结+缔合作用+盐效应”协同作用实现增稠剂速溶、高效增黏,并与多元络合离子为核心的有机硼锆铝缓交联剂以化学交联原理形成了耐温耐高盐的免配交联压裂液体系,最优配方为1.8%稠化剂GAF-TE+0.4%交联剂JL-3+0.3%增效剂GF15B+0.04%破胶剂APS,在120℃、170 s^(-1)下剪切1 h后的黏度大于100 mPa·s,具有良好的悬砂和携砂能力。现场M井压裂施工3层,成功率为100%,压后顺利完成试油,最高日产油4.4 m~3。采用高盐压裂液体系在抑制储层溶蚀减缓地层压降快具有一定效果。

活性维生素D改善高盐饮食引起的钙稳态和骨代谢异常作用的动物实验研究

目的观察高盐饮食后钙调控网络的整体变化,探讨补充活性维生素D对高盐饮食引起的钙稳态失衡和骨代谢异常的作用。方法24只3月龄雄性SD大鼠随机分对照组(Con)、高盐饮食组(HN)、对照+活性维生素D组(Con+VD)和高盐+活性维生素D组(HN+VD),每组6只。干预4周后,观察并比较各组大鼠的体质量、收缩压、24 h尿量、血尿电解质、肾功能、血管紧张素-Ⅱ、醛固酮、心房钠尿肽、甲状旁腺激素(PTH)、成纤维细胞生长因子23、25-羟化维生素D、Ⅰ型原胶原前肽(PINP)及Ⅱ型胶原交联C-末端肽(CTX-Ⅱ)水平。采用Masson、PAS染色评估肾脏病理,免疫组化染色分析肾脏1α-羟化酶(CYP27B1)和24-羟化酶(CYP24A1)表达。结果与Con组相比,HN组尿钙/肌酐、血PTH、血PINP和血CTX-Ⅱ水平较高,差异有统计学意义(P<0.05);HN组CYP27B1表达下调,CYP24A1表达上调,骨小梁减少。与HN组相比,HN+VD组血PTH、血PINP和血CTX-Ⅱ水平较低,差异有统计学意义(P<0.05);HN+VD组骨小梁增多。结论高盐饮食可以抑制活性维生素D合成,升高PTH水平,影响钙稳态和骨代谢,补充活性维生素D一定程度改善这些影响。