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.
Objective To review the general approaches in isolation and purification of pancreatic islets and progress in several aspects. Methods The latest l iterature concerning acquisition of pancreatic islets was reviewed and analyzed interms of the choice of pancreatic islet donors, the digestion and isolation of pancreas, the purification of islet and the assay of outcome. Results The profile of the isolation and purification depends on the selection of reagents and methods of operation in every step and l inkup between every step. Conclusion Pancreatic islet transplantation is the most effective method to treat type 1 diabetes, the problem of inadequate sources of pancreatic islets could be resolved by the optimal process and the establ ishment of standardized operation.
With the deepening of current study and the innovation of perioperative management concept, there have been great advances in lung transplantation in recent years. The prognosis of patients has been significantly improved. At the same time, the role of various types of blood purification in the clinical monitoring and treatment of lung transplant patients is becoming increasingly prominent. This review aims to summarize the application and latest progress of in vitro blood purification such as renal replacement therapy, plasmapheresis and hemadsorption in the perioperative period of lung transplantation, and to provide a basis for further study.
bjective To separate the SO-Rb50 cells antigen corresponding to the monoclonal antibody of anti-retinoblastoma. Methods The antigen corresponding to the monoclonal antibody of anti-retinoblastoma was separated elementarily by ion-exchange chromatography, and was identified by dot-blotting using the monoclonal antibody of anti-retinoblastoma. The target protein band of the antigen was separated in light of sodium dodecyl sulfate-polyacrylamide gelelectrophoresis. Results A special unmixed band of SO-Rb50 cells antigen was separated with the relative molecular weight of 83×103.Conclusion The antigen corresponding to the monoclonal antibody of anti-retinoblastoma could be separated from SO-Rb50cells.(Chin J Ocul Fundus Dis,2003,19:152-155)
Alpha-glycerophosphate oxidase (α-GPO) from Enterococcus casseliflavus was successfully isolated and purified by using polyethylene glycol (PEG)/(NH4)2SO4 aqueous two-phase system (ATPS). The results showed that the chosen PEG/(NH4)2SO4 ATPS could be affected by PEG molecular weight, pH, concentration of PEG and (NH4)2SO4, and inorganic salt as well as additional amount of crude enzyme. After evaluating these influencing factors, the final optimum purification strategy was formed by 16.5% (m/m) PEG2000, 13.2% (m/m) (NH4)2SO4, pH 7.5 and 30% (m/m) additive crude enzyme, respectively. The NaCl was a negative influencing factor which would lead to lower purification fold and activity recovery. These conditions eventually resulted in the activity recovery of 89% (m/m), distribution coefficient of 1.2 and purification fold of 7.0.
Blood purification is not only an effective treatment for patients with acute and chronic renal failure, but also plays an important role in the rescue of various critically ill patients. The current blood purification devices is relatively bulky and not suitable for use in daily life and disaster rescue sites. Portable blood purification devices can be divided into portable artificial kidney, wearable artificial kidney, implantable artificial kidneys and mobile continuous renal replacement therapy machine, which have not yet been widely applied in clinical practice. In recent years, with the advancement of materials science and computer science, efficient regeneration of dialysate and intelligent operation of equipment have become possible, and portable blood purification devices is also expected to experience rapid development. This article briefly reviews the development history and future research directions of portable blood purification devices.
Objective To investigate the efficacy of continuous blood purification ( CBP) in the treatment of severe sepsis, and explore the related immune regulatory mechanisms. Methods Forty-eight patients with severe sepsis were randomly divided into a control group ( n =23) and a CBP group ( n =25) .CD4 + CD25 + regulatory T cells ( Treg% ) in peripheral blood and APACHEⅡ score were measured dynamically before treatment and 12, 24, 36, 48, 60, 72 hours after treatment. Meanwhile the length of ICUstay, duration of mechanical ventilation, and 28 day mortality were determined. Results Compared with the control group, the length of ICU stay, ventilator time, incidence of multiple organ failure, and mortality decreased significantly in the CBP group ( P lt; 0. 05) . And CBP also decreased Treg% and APACHEⅡ score significantly. There was a positive correlation between Treg% and APACHEⅡ score ( r =0. 804, P lt;0. 01) .Conclusion Early CBP treatment can reduce Treg%, improve cellular immunity and improve the prognosis of sepsis.
Sepsis is a common clinical critical illness, which often leads to multiple organ damage including the kidney damage, which is difficult to treat and has a high mortality rate. In recent years, extracorporeal blood purification therapy has made some progress in the field of sepsis. There are a variety of blood purification modes to choose, but there is still no unified standard for the initiation timing of blood purification therapy. Clinicians mainly evaluate the indicators and the initiation timing of blood purification therapy according to the patient’s needs for renal function replacement and/or inflammatory mediator clearance. This article mainly summarizes and discusses the initiation timing of blood purification therapy in sepsis.
After comparative interpretation of the essentials and highlights of the expert recommendations based on European experience published in 2019 and the expert recommendations based on Asia Pacific experience published in 2021, this article summarizes the core principles of adsorptive hemofiltration for sepsis in following aspects, including patient selection, laboratory index, and key factors in the implementation of treatment (covering initiation timing and duration, choice of anticoagulant mode, discontinuation, etc) combined with the experience in West China Hospital of Sichuan University as well, to provide references for sepsis management with adsorptive hemofiltration in clinical practice.
To set up an economic and effective method for islet isolation from rat, and thereby prove a laboratory protocol of animal model for cl inical islet transplantation. Methods Twenty-five adult male SD rats weighing 230-380 g were used as organ donor. In each of 5 repeated experiments, pancreatic islets of 5 animals were isolated by intraductal infusion of compound sodium chloride injection (CSCI), and subsequently, digested with low concentration (0.5 mg/mL)of collagenase V solution. Islet purification was performed by using a discontinuous density gradient centrifugation thatwas prepared with 27.0%, 23.0%, 20.5% and 11.0% of Ficoll 400. Islet yield and purity were determined by dithizon (DTZ)stain, and propidium iodide (PI)/fluorescein diacetate (FDA) double stain was used to check viabil ity of islets. The endocrine secretory function was assessed by insul in secretion in either low (2.8 mmol/L) or high (25.0 mmol/L) glucose incubation after 3 days of culture in RPMI1640 media. Results Average islet digestion time of 5 experiments was (13.8 ± 1.6) min. Before purification, average isolated number was (5 626 ± 422) islets, and the number was significantly reduced to (2 914 ± 485) islets after purification (P lt; 0.01). The average recovery rate was 51.6% ± 6.0%, and the average yield was (583 ± 97) islets/pancreas. The average purity and viabil ity of islets were 90.2% ± 3.4% and 81.6% ± 7.0%, respectively. After 3 days of culture, insul in secretion of the islets was (116.1 ± 17.4) EU/L in high glucose incubation, which was significantly higher than that of low glucose environment [(39.7 ± 7.5) EU/L, P lt; 0.01)]. The average insul in stimulation index was 3.0 ± 0.4. Conclusion The islet isolation with the CSCI solution and digestion with low concentration of collagenase V decrease experimental cost and also have a beneficial effect on islet recovery and their function.