Acute kidney injury (AKI) presents as a sharp decline in renal function caused by a variety of reasons. It is a severe clinical challenge affecting multiple organs and multiple systems, with high mortality. Continuous renal replacement therapy (CRRT) plays an important role in the treatment of AKI. Limited by the lack of evidence, the timing of CRRT for AKI remains ambiguous. This article reviews the definition and grading of AKI, the indication and the timing of initiation/termination of CRRT for AKI .
Acute kidney injury (AKI) is characterized by a rapid decrease in renal function caused by different etiologies and can involve multiple organs and systems. AKI is a potentially reversible disease. However, it can also progress to chronic kidney disease (CKD) without proper treatment. The concept of acute kidney disease (AKD) is recently recommended as a derivative between AKI and CKD. At present, AKI still lacks specific drug treatment; therefore prevention and early diagnosis are crucial in AKI management. Due to the heterogeneity of the pathogenesis, the epidemiological features of AKI vary across nations and regions, so the strategies for prevention and control are different. This papers reports new progress of epidemiological features of AKI in different countries, so as to provide reference for assessing the disease burden and formulating public health policies.
Continuous renal replacement therapy (CRRT) is one of the major treatments for critically ill patients. With the development of information technology, the informatization and artificial intelligent of CRRT has received wide attention, which has promoted the optimization of CRRT in terms of workflow, teaching method as well as scientific research. Benefiting from the big data generated, artificial intelligence is expected to be applied in the precision treatment, quality control, timing of intervention, as well as prognosis assessment in severe AKI, so as to ultimately improve the therapeutic effect of CRRT among critically ill patients. This paper summarizes the information construction of CRRT and the research progress of artificial intelligence, which can be used as a reference for practitioners in kidney disease, critical medicine, emergency medicine and other related fields.
Continuous renal replacement therapy (CRRT) is an important therapy for patients with severe acute kidney injury. With the development of blood purification, the application of CRRT has been beyond the scope of kidney disease and developed into a comprehensive and integrated organ support platform, providing a hybrid treatment of different blood purification techniques. With the advancement of informatization, it is possible to improve the quality of CRRT treatment to formulate individualized and precise treatment based on the specific information of patients. This article will discuss the precise prescription and development prospective of CRRT from three dimensions: anticoagulation, dosage and volume management.
Blood purification, as a critical medical intervention for renal function replacement, metabolic waste clearance, and homeostasis maintenance, relies heavily on the optimization of therapeutic solutions to ensure clinical efficacy. In recent years, significant advancements have been made in the formulation design, biocompatibility, and clinical outcomes of blood purification solutions, driven by progress in clinical medicine and biomedical engineering. This article systematically elaborates on the latest research developments in key therapeutic solutions, including continuous renal replacement therapy replacement fluids, hemodialysis dialysate, hemodialysis catheter lock solutions, and peritoneal dialysate. By synthesizing current evidence, the aim is to offer scientific guidance for clinicians in selecting optimal treatment regimens while exploring future directions and emerging trends in the development of blood purification solutions.
Non-anticoagulated continuous renal replacement therapy (CRRT) is usually the main treatment choice for high-risk bleeding patients due to its good safety. The coagulation and shortened lifespan of extracorporeal circulation circuits are the main challenges faced by non-anticoagulated CRRT, and it is particularly important to explore the factors that affect the lifespan of non-anticoagulated CRRT extracorporeal circulation circuits. This article reviews the optimization strategies for extending the lifespan of non-anticoagulated CRRT extracorporeal circulation circuits, including the selection of vascular access and catheter, as well as the setting of CRRT mode, blood flow rate, circuit flush, and replacement fluid dilution methods. The aim is to provide a reference for practitioners in the field of kidney disease and critical care medicine.
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.