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Objective To evaluate the accuracy of central venous-to-arterial carbon dioxide partial pressure difference (Pcv-aCO2) before and after rapid rehydration test (fluid challenge) in predicting the fluid responsiveness in patients with septic shock. Methods A prospective observation was conducted. Forty septic shock patients admitted to medical intensive care unit (ICU) of Peking Union Medical College Hospital from October 2015 to June 2017 were enrolled. All of the patients received fluid challenge in the presence of invasive hemodynamic monitoring. Heart rate (HR), blood pressure, cardiac index (CI), Pcv-aCO2 and other physiological variables were recorded at 10 minutes before and immediately after fluid challenge. Fluid responsiveness was defined as an increase in CI greater than 10% after fluid challenge, whereas fluid non-responsiveness was defined as no increase or increase in CI less than 10%. The correlation between Pcv-aCO2 and CI was explored by Pearson correlation analysis. Receiver operating characteristic (ROC) curves were established to evaluate the discriminatory abilities of baseline and the changes after fluid challenge in Pcv-aCO2 and other physiological variables to define the fluid responsiveness. The patients were separated into two groups according to the initial value of Pcv-aCO2. The cut-off value of 6 mmHg (1 mmHg = 0.133 kPa) was chosen according to previous studies. The discriminatory abilities of baseline and the change in Pcv-aCO2(ΔPcv-aCO2) were assessed in each group. Results A total of 40 patients were finally included in this study. Twenty-two patients responded to the fluid challenge (responders). Eighteen patients were fluid non-responders. There was no significant difference in baseline physiological variable between the two groups. Fluid challenge could increase CI and blood pressure significantly, decrease HR notably and had no effect on Pcv-aCO2 in fluid responders. In non-responders, blood pressure was increased significantly and CI, HR, Pcv-aCO2 showed no change after fluid challenge. Pcv-aCO2 was comparable in responders and non-responders. In 40 patients, CI and Pcv-aCO2 was inversely correlated before fluid challenge (r = -0.391, P = 0.012) and the correlation between them weakened after fluid challenge (r = -0.301, P = 0.059). There was no significant correlation between the changes in CI and Pcv-aCO2 after fluid challenge (r = -0.164, P = 0.312). The baseline Pcv-aCO2 and ΔPcv-aCO2 could not discriminate between responders and non-responders, with the area under ROC curve (AUC) of 0.50 [95% confidence interval (95%CI) =0.32-0.69] and 0.51 (95%CI = 0.33-0.70), respectively. HR and blood pressure before fluid challenge and their changes after fluid challenge showed very poor discriminative performances. Before fluid challenge, 16 patients had a Pcv-aCO2 > 6 mmHg. Their mean CI was significantly lower and Pcv-aCO2 was significantly higher than that in 24 patients whose Pcv-aCO2 ≤6 mmHg [n = 24; CI (mL·s-1·m-2): 48.3±11.7 vs. 65.0±18.3, P < 0.01; Pcv-aCO2 (mmHg): 8.4±1.9 vs. 2.9±2.8, P < 0.01]. Pcv-aCO2was decreased significantly after fluid challenge in patients with an initial Pcv-aCO2 > 6 mmHg and their ΔPcv-aCO2 was notably different as compared with the patients whose baseline Pcv-aCO2≤6 mmHg (mmHg: -3.8±3.4 vs. 0.9±2.9, P < 0.01). 68.8% (11/16) patients responded to the fluid challenge in patients with an initial Pcv-aCO2 > 6 mmHg. The AUC of the baseline Pcv-aCO2 and ΔPcv-aCO2 to define fluid responsiveness was 0.85 (95%CI = 0.66-1.00) and 0.84 (95%CI = 0.63-1.00), respectively, and the positive predictive value was 1 when the cut-off value was 8.0 mmHg and -4.2 mmHg, respectively. 45.8% (11/24) patients responded to the fluid challenge in patients whose baseline Pcv-aCO2≤6 mmHg. There was no predictive value of baseline Pcv-aCO2 and ΔPcv-aCO2 on fluid responsiveness. Conclusion Pcv-aCO2 and its change cannot serve as a surrogate of the change in cardiac output to define the response to fluid challenge in septic shock patients whose baseline Pcv-aCO2≤6 mmHg, while the predictive values of baseline Pcv-aCO2and the change in Pcv-aCO2 are presented in patients with the initial value of Pcv-aCO2 > 6 mmHg. Clinical Trial Registration Clinical Trials, NCT01941472.
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Objective To analysis the characteristics of thromboelastography and coagulation test in patients with advanced pregnancy combined with severe preeclampsia. Methods A retrospective single?center study was conducted. 35 patients with advanced pregnancy combined with se?vere preeclampsia who were admitted to hospital from January 2012 to December 2014 were analyzed compared to 43 third trimester patients with?out any complication. All the patients were treated based on the routine strategy. Blood sample were taken from the middle elbow vein to test blood cell count,serum biochemistry test,routine coagulation test and thromboelastography. All the results,including R,K,CI,α?angle and MA value, were compared between two groups. Analysis was performed to evaluate the correlation between all parameters of TEG and coagulation test. Re?sults There was no statistical significance between two groups in age ,prothrombin time and activated partial prothrombin time. In the severe pre?eclampsia group,the R value of TEG was increased(5.21±1.20 min vs 6.19±1.55 min,t=-3.144,P=0.002),α?angel was decreased(64.43°± 7.90° vs 60.37°±7.09°,t=2.367,P=0.02),and CI was decreased(0.81±2.27 vs-0.37±1.82,t=2.495,P=0.015). In blood cell count test,the platelets count was decreased in severe preeclampsia group[(217.48±65.68)×109/L vs(166.65±61.39)×109/L,t=3.500,P=0.001]. In routine coagulation test,only thrombin clotting time was increased in severe preeclampsia group(14.59±0.51 s vs 15.28±0.97 s,F=-3.800,P<0.001). In serum biochemistry test,the albumin was decreased in severe preeclampsia group(34.75±3.90 g/L vs 28.77±4.05 g/L,t=6.632,P<0.001),while serum urea nitrogen was increased(2.78±0.87 mmol/L vs 5.98±8.07 mmol/L,F=-2.333,P=0.026). In correlation analysis,thrombin clot?ting time had relationship between R(r=0.290,P=0.010),CI(r=-0.257,P=0.023)andα?angle(r=-0.243,P=0.032). Platelets count cor?related with CI(r=0.383,P=0.001),K(r=-0.409,P<0.001),α?angle(r=0.375,P=0.001)and MA(r=0.512,P<0.001). Conclusion For those who suffered from severe preeclampsia patients with advanced pregnancy,low coagulation function occurs in most of the patients com?pared to those patients without any complications. Thromboelastography may be helpful for those who have high risk factors ,especially with low platelets count and increased thrombin clotting time ,so as to reduce the incidence of bleeding or thromboembolic diseases.
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Objective To investigate the protective effect of autophagy inducer rapamycin on acute kidney injury (AKI) induced by sepsis. Methods Twenty-four Sprague-Dawley (SD) male rats were randomly divided into sham group, caecal ligation and puncture (CLP) model group, and rapamycin treatment group (Rap treatment group), with 8 rats in each group. The septic AKI model was reproduced by CLP in rats, and rats in sham group were given appendix isolation without ligation and puncture. The rats in Rap treatment group were given 1.6 mg rapamycin by intraperitoneal injection immediately after model reproduction, and the rats in CLP model group were injected with an equal amount of normal saline. The rats in all groups were sacrificed after collecting peripheral blood specimen at 24 hours after model reproduction, and the levels of blood urea nitrogen (BUN) and serum creatinine (SCr) were determined. The pathomorphology change in renal tissue was observed under light microscope after periodic acid Schiff (PAS) staining. Real-time polymerase chain reaction (real-time PCR, RT-PCR) was used to determine the mRNA expressions of renal tubular autophagy related molecules Atg-5 and Beclin-1. Western Blot was used to detect the expressions of renal tubular autophagy associated protein microtubule labeled protein 1 light chain 3-Ⅱ (LC3-Ⅱ) and Beclin-1 as well as apoptosis protein cytochrome C (Cyt C), Bax and Bcl-2. TdT-mediated dUTP nick-end labeling (TUNEL) assay was used to determine the renal tubular epithelial cell apoptosis. Results Rapamycin could alleviate pathomorphology changes in rats with septic AKI, and decrease the levels of BUN and SCr. Compared with sham group, the expressions of Atg-5, Beclin-1 and LC3-Ⅱ in CLP model group were significantly increased [Atg-5 mRNA (2-ΔΔCt): 2.34±0.04 vs. 1.00±0.03, Beclin-1 mRNA (2-ΔΔCt): 1.40±0.02 vs. 1.00±0.03, LC3-Ⅱ protein (gray value): 0.82±0.03 vs. 0.45±0.04, Beclin-1 protein (gray value): 0.59±0.06 vs. 0.29±0.03, all P < 0.01]. Rapamycin could further up-regulate the expressions of Atg-5, Beclin-1, and LC3 Ⅱ [Atg-5 mRNA (2-ΔΔCt): 3.28±0.19 vs. 2.34±0.04, Beclin-1 mRNA (2-ΔΔCt): 2.38±0.08 vs. 1.40±0.02, LC3-Ⅱ protein (gray value): 1.11±0.07 vs. 0.82±0.03, Beclin-1 protein (gray value): 0.85±0.05 vs. 0.59±0.06, all P < 0.01]. Compared with sham group, the apoptotic cells in CLP model group were increased significantly [(34.49±10.45)% vs. (2.78±1.40)%, P < 0.01], Cyt C and Bax protein expressions were significantly up-regulated (gray value: 0.87±0.02 vs. 0.46±0.03, 1.20±0.06 vs. 0.46±0.01, both P < 0.01), and Bcl-2 expression was significantly down-regulated (gray value: 0.64±0.02 vs. 1.33±0.09, P < 0.01). Rapamycin could effectively inhibit cell apoptosis [(15.44±5.50)% vs. (34.49±10.45)%, P < 0.01] and the protein expressions of Cyt C and Bax (gray value: 0.72±0.03 vs. 0.87±0.02, 0.84±0.03 vs. 1.20±0.06, both P < 0.01), and up-regulate the protein expression of Bcl-2 (gray value: 0.77±0.04 vs. 0.64±0.02, P < 0.01). Conclusion The protective effect of rapamycin on renal tissue of rat with AKI induced by sepsis was depended on cell apoptosis inhibition through inducing and promoting cell autophagy.
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Objective To investigate the impact ofα?lipoic acid(ALA)treatment on sepsis?induced acute kidney injury in rats and explore the mechanisms. Methods A total of 32 male SD rats were randomized into 4 groups:normal control group(group A),ALA?treated control group (group B),sepsis group(group C)and sepsis with ALA treated group(group D). Group A and B underwent sham operation,while CLP operations were conducted in group C and D. Rats in both group B and group D were then administered with 200 mg/kg ALA by oral gavage immediately after the surgical procedure. Twenty?four hours after the surgical procedure blood samples were obtained for the evaluation of creatinine,BUN,TNF?α,IL?6 and IL?1β. Rat kidneys were rapidly removed for PAS stain. Western blot was employed to determine the expression of NF?κB. Results Pathologi?cal changes of kidney were induced by sepsis and the level of creatinine,BUN,TNF?α,IL?6 and IL?1βwere significantly increased by 178%,66%, 55%,114%and 110%(P<0.01). respectively;simultaneously the phosphorylation and nuclear expression of NF?κB p65 in kidney tissues were significantly increased by 144%and 102%(P<0.01). Sepsis?induced acute kidney injury also significantly reduced the expression of IκBαby 61%(P<0.01). These changes were significantly suppressed by early ALA treatment. Compared with C group,the level of creatinine,BUN,TNF?α,IL?6 and IL?1βwere significantly decreased by 48%,26%,25%,37%and 40%(P<0.05),respectively,and the relative expression of IκBαwas increased by 103%(P<0.05). Conclusion The present study demonstrated that ALA can suppress the activation of NF?κB,thus ameliorat?ing sepsis?related acute kidney injury.