Contrast‐Enhanced Ultrasound Examination for the Assessment of Renal Perfusion in Cats with Chronic Kidney Disease

Background

Contrast‐enhanced ultrasound examination (CEUS) is a functional imaging technique allowing noninvasive assessment of tissue perfusion. Studies in humans show that the technique holds great potential to be used in the diagnosis of chronic kidney disease (CKD). However, data in veterinary medicine are currently lacking.

Objectives

To evaluate renal perfusion using CEUS in cats with CKD.

Animals

Fourteen client‐owned cats with CKD and 43 healthy control cats.

Methods

Prospective case‐controlled clinical trial using CEUS to evaluate renal perfusion in cats with CKD compared to healthy control cats. Time‐intensity curves were created, and perfusion parameters were calculated using off‐line software. A linear mixed model was used to examine differences between perfusion parameters of cats with CKD and healthy cats.

Results

In cats with CKD, longer time to peak and shorter mean transit times were observed for the renal cortex. In contrast, a shorter time to peak and rise time were seen for the renal medulla. The findings for the renal cortex indicate decreased blood velocity and shorter total duration of enhancement, likely caused by increased vascular resistance in CKD. Increased blood velocity in the renal medulla has not been described before and may be because of a different response to regulatory factors in cortex and medulla.

Conclusions and Clinical Importance

Contrast‐enhanced ultrasound examination was capable of detecting perfusion changes in cats with CKD. Further research is warranted to assess the diagnostic capabilities of CEUS in early stage of the disease process.     

静电凝并中荷电粒子的运动方程及近似解

本文分析静电除尘器预凝并粒子的运动情况,研究了荷电气固两相流中粒子运动与气流运动的关系,通过对荷电粒子的受力分析,在粒子运动过程中考虑了库仑力、压差力、附加质量力、Stokes阻力以及Basset力对荷电粒子的作用,而忽略其它力的影响,建立了湍流中描述粒子运动的基本方程—BBO(Basset-Boussinesq-Oseen)方程,用谱分解方法进行求解,并得到荷电粒子凝并运动方程的两组近似解,从而确定了粒子运动与气流运动的关系,αr为近似解的重要参数,随着αr的变化,粒子运动的复杂性随之变化。     

快速凝集试验与补体结合试验检测牛边缘无浆体感染的效果对比

从138份血清样品的比较试验结果显示，快速凝集试验（RCA）比补体结合试验（CF）检测边缘无浆体感染的敏感性高（88．9％：81．5％），假阴性率低（11．1％：18．5％），两者都具有良好的特异性和预测性，检测阳性符合率高，快速凝集试验对一次感染牛的持续检出阳性时间更长久（303天：92天）     

Effects of oxypolygelatin and dextran 70 on hemostatic variables in dogs

Objective To evaluate and compare coagulation variables following the administration of oxypolygelatin and dextran 70 to clinically healthy dogs. Study design Randomized cross‐over experimental study. Animals A total of eight healthy adult female Beagles aged 2–4 years old and weighing 11.8 ± 2.7 kg. Methods The dogs received a 15‐minute intravenous (IV) infusion of 5 mL kg^?1 oxypolygelatin or 10 mL kg^?1 6% dextran 70. Before (PRE) and at 2, 5, and 24 hours after administration, packed cell volume (PCV), total solids concentration (TS), prothrombin time (PT), activated partial thromboplastin time (APTT), fibrinogen concentration (FIB), platelet numbers (Plat), factor VIII coagulant activity (VIII:C), von Willebrand factor antigen concentration (vWf:Ag) and platelet function and buccal mucosal bleeding time (BMBT) were measured. Platelet function was assessed using aggregation and by measuring ATP release from aggregating platelets over 6 minutes, with 20, 10, and 5 µm ADP and 5 and 10 µg of collagen mL^?1 as platelet activation agonists. Results All baseline values were within our normal ranges, except for one dog that had low vWf:Ag PRE values prior to both dextran and oxypolygelatin administration. Following dextran and oxypolygelatin administration, the PCV and TP were significantly (p < 0.05) decreased. Plat, FIB, and vWf:Ag decreased, while BMBT and VIII:C increased following dextran administration. Dextran also caused a significant decrease in platelet aggregation in response to ADP. Oxypolygelatin caused a significant decrease in vWf:Ag, Plat, and FIB compared to PRE values. The total amount of ATP released, standardized to platelet number, did not vary significantly for either group at any sampling time from PRE values. No significant changes from PRE values were noted at any time in either group for PT or APTT. Conclusion At the doses administered, both dextran and oxypolygelatin can interfere with hemostatic variables in healthy dogs, but dextran's effect is more profound and prolonged when compared to oxypolygelatin. Clinical relevance Oxypolygelatin causes fewer hemostatic abnormalities when compared to dextran, making it a superior colloid for administration at the doses tested.     

化学强化初沉污泥厌氧消化产甲烷潜力研究

该试验以化学强化初沉污泥为研究对象,采用中温/高温(35℃/55℃)厌氧消化方法,研究采用化学一级强化处理工艺(CEPT)产生的化学强化初沉污泥厌氧消化产甲烷效果,并对比化学强化初沉污泥在中温、高温工况的厌氧消化产甲烷性能,明确适合化学强化初沉污泥的处理工艺.研究结果表明,化学强化初沉污泥单位VSS累积产甲烷量和VSS...     

拟态弧菌的绿色荧光蛋白标记及其在感染草鱼体内的动态分布

为了示踪研究拟态弧菌感染草鱼的动态过程,将增强型绿色荧光蛋白编码基因EGFP克隆至质粒pBAD24,并转化到拟态弧菌04-14菌株构建荧光标记重组菌.重组菌经阿拉伯糖诱导后,能高效表达EGFP蛋白;荧光显微镜观察和流式细胞仪检测均发现重组菌能够发出明显的绿色荧光信号,且传至30代后质粒稳定率仍为100％;生物学特性检测结果显示,与野生株相比,重组菌的形态、生长特性和细胞黏附性均未发生明显改变.用标记重组菌浸泡感染草鱼,定点采集鳃、肠道、肌肉、头肾、脾脏和肝脏,借助荧光信号检测4d内细菌在不同组织脏器中的动态分布.结果发现感染4h后即可在肠道和鳃中检测到绿色荧光信号,标记菌检出量分别为3.60×108和2.36×106 CFU/g,直至10 h,其含量无明显变化,12 h后含菌量逐渐下降,但持续存在直至鱼死亡.标记菌在肌肉、头肾、脾脏和肝脏中呈现相似的动力学,感染24 h后才检测到荧光信号,24～ 85 h时间段含菌量呈现先增加后下降的变化,48 h达到峰值,检出量分别为9.58×104(肌肉)、8.75×104(头肾)、1.50×104(脾脏)和4.50×104 CFU/g(肝脏),但均低于肠道中的检出量,结果表明肠道是拟态弧菌黏附定植与繁殖的主要靶器官.     

鲜胶乳生物凝固液的制备工艺研究

以凝固液的pH值及鲜胶乳的凝固效果为考核指标,研究了生物凝固液的制备工艺,第1次培养生物凝固液其清水∶菌种∶糖蜜比例为100∶0.5∶5,对鲜胶乳进行凝固后所得乳清加糖蜜继续培养生物凝固液,其乳清∶糖蜜比例为100∶5。结果表明,采用乳清制备的凝固液比用清水、菌种、糖蜜制备的凝固液其凝固效果更好,胶乳每次生物凝固所得乳清只加糖蜜重复培养生物凝固液,至少可循环利用20次以上。而温度越高,生物凝固液pH值降低越快,当pH值降至4.0以下,即可用以凝固胶乳。     

One-stage prothrombin time, activated partial thromboplastin time, thrombin time, fibrin degradation product concentration, and antithrombin activity in healthy adult alpacas

Background: Alpacas are increasingly presented to veterinarians for evaluation and care. Reports of alpaca reference intervals for one‐stage prothrombin time (PT), activated partial thromboplastin time (aPTT), thrombin time (TT), concentration of fibrin degradation products (FDP), and antithrombin (AT) activities are scarce or nonexistent. Objective: The aim of this study was to determine values for blood coagulation times (PT, aPTT, and TT), FDP concentrations, and AT activities in healthy adult alpacas. Methods: Of blood samples collected from 35 clinically healthy adult alpacas via jugular venipuncture and placed into sodium citrate and FDP tubes, 29 samples were assayable for coagulation testing. PT, aPTT, and TT were determined by physical (mechanical) clot detection; AT activity was determined using a thrombin‐specific chromogenic substrate end‐point assay; and FDP concentrations were determined by the slide agglutination method. Results: Median values and ranges (minimum–maximum) were determined for PT (8.7 seconds, 6.6–11.2 seconds), aPTT (17.3 seconds, 11.9–22.5 seconds), TT (10.2 seconds, 5.4–16.0 seconds), and AT activity (123.3%, 104.8–144.2%). The mean concentration of FDP was <8 μg/mL. Conclusion: These values for coagulation times, FDP concentration, and AT activity will provide a useful starting point in the diagnostic evaluation of ill adult alpacas.