Objective To investigate the value of continuous blood purification (CBP)in early treatment of patients with ARDSexp (ARDS caused by extrapulmonary causes),especially in reducing inflammation mediators and extravascular lung water (EVLW).Methods According the hospital admission sequence,the patients with APACHEⅡ scores from 15 to 20 and PaO2/FiO2 from 100 to 200 were recruited.The ARDSexp patients were divide into an intervention group treated with CBP (Mode:CVVHDF,rate of displacement liquid and dialysate:1.5 L/h,rate of blood:100-200 mL/h,and the time of CBP:72 hours),and a control group without CBP treatment. The NICO and PICCO monitoring data and the survival rates were recorded and analyzed using the SPSS software. Results The mortality rate of the intervention group was lower than that of the control group (6.3% vs. 36.8%,P=0.032). In the 72 h monitoring dada of NICO and PICCO,the time of improving PCBF,Pm,Cdyn,VCO2,MValv,Pm,PIP,Raw,RSBI,Vd/Vt,and PaO2/FiO2 of the intervention group was severer than those in the control group,and the severety was also more than that of control group which was was significantly different at 72 h(Plt;0.05). In the PICCO data,the time of decreasing EVWL and PVPI was shorter than the control group,and the decreasing extent was more than the control group,with significant difference at 72 h. But the changes of Apm,CI,and CVP were not significant (Pgt;0.05). Conclusions In treatment of ARDSexp patients,CBP therapy can induce the PCBC and EVLW,improve pulmonary compliance and MValv,and reduce the mortality rate,while doesn’t influence heart function and the stability of circulation.
ObjectiveTo investigate the effect of pulsed colloid infusion combined with continuous blood purification (CBP) for treatment of severe capillary leak syndrome (CLS). MethodsAccording to random principle,61 patients were divided into a control group(n=21),a CBP1 group(n=18) and a CBP2 group(n=22). All patients of three groups received routine treatment according to international guidelines 2008 for management of severe sepsis. The patients in the control group also received pulsed infusion colloid combined lasix. The patients in the CBP1 and CBP2 groups also received continuous veno-venous hemofiltration(CVVH) for 72 hours. The patients in the CBP1 group received concentrated colloid infusion combined lasix,and the patients in the CBP2 group received concentrated colloid infusion combined removing fluid. Blood gas analysis and Impedance Cardiography was performed before and 24,48 and 72 hours after therapy. The angiopoietin-2(Ang-2) was measured. Also the length of ICU stay,duration of mechanical ventilation,and death rate of patients in 28 days were observed. ResultsCompared with the control group and the CBP1 group,the length of ICU stay(days) and duration of mechanical ventilation (days) in the CBP2 group were significantly shorter(P<0.05),and the death rate in 28 days was lower(P<0.05). The patients in the CBP2 group showed more reduction in the APACHEⅡ score compared with the CBP1 group after therapy(P<0.05). The oxygenation index in the CBP2 group respectively increased at 24,48 and 72 hours after therapy(P<0.05). Compared with the control group and the CBP1 group,the oxygenation index in the CBP2 group respectively increased at the same time(P<0.05). The thoracic fluid content (TFC) in the CBP2 group respectively decreased at 24,48 and 72 hours(P<0.05) after therapy,and decreased compared with the control group and the CBP1 group at the same time(P<0.05). The serum levels of Ang-2 in the CBP2 group respectively decreased at 24,48 and 72 hours after therapy(P<0.05),and decreased compared with the control group and the CBP1 group at the same time(P<0.05). ConclusionPulsed colloid infusion combined with continuous blood purification can reduce the severity of capillary leak and improves the outcome of patients with severe sepsis.
This article reviews Chinese nomenclature of renal replacement therapy and extracorporeal blood purification currently utilized to manage acute kidney injury and other organ dysfunction syndromes in critically ill patients, based on the recent reports of a consensus expert conference of Nomenclature Standardization Initiative Alliance. We provide a detailed description of the performance characteristics of membranes, filters, transmembrane transport of solutes and fluid, flows, and methods of measurement of delivered treatment, common definitions, components, techniques, and operations of the machines and platforms as well as the renal replacement therapy techniques in detail with the relevant technologies, procedures, operations, and recent developments in other extracorporeal therapies, including therapeutic plasma exchange, multiple organ support therapy, liver support, lung support, and blood purification in sepsis. We believe this nomenclature review will serve future use of terminology in publications, research, clinical operations and therapy platforms to enable consistent data collection and comparison.