Non-bioartificial liver support system in the treatment of pediatric acute liver failure
- PMID: 40523769
- DOI: 10.11817/j.issn.1672-7347.2025.240184
Non-bioartificial liver support system in the treatment of pediatric acute liver failure
Abstract
Pediatric acute liver failure (PALF) is a severe and rare clinical syndrome characterized by rapid progression and high mortality. Current main treatment strategies include medical therapy, artificial liver support, and liver transplantation. Given the limited efficacy of medical treatment and the challenges of liver transplantation, such as donor scarcity and high costs, the non-biological artificial liver (NBAL) support system has become a widely used and effective alternative in clinical practice. It provides critical time for liver function recovery or as a bridging therapy to transplantation. Common NBAL modalities include plasma exchange (PE), plasma adsorption (PA), albumin dialysis (AD), and various combination therapies. Therapeutic PE removes toxins by replacing plasma and is suitable as adjuvant therapy in liver failure; high-volume PE is used in acute liver failure but is costly. PA and double plasma molecular adsorption systems remove specific toxins while reducing plasma consumption. AD systems eliminate macromolecular toxins through different mechanisms. Hybrid blood purification therapies combine multiple modes to enhance solute clearance efficiency. Elucidating the clinical characteristics and applications of various NBAL techniques in pediatric acute liver failure may provide valuable guidance for the use of NBAL support systems in pediatric clinical practice.
儿童急性肝衰竭(pediatric acute liver failure,PALF)是一种严重、罕见的临床综合征,病情进展快,病死率高。目前主要的治疗手段包括内科药物治疗、人工肝治疗及肝移植3种。其中内科药物治疗的疗效欠佳,肝移植疗效确切,但供体来源紧张且费用昂贵,因此非生物型人工肝(non-bioartificial liver,NBAL)支持系统作为一种有效的替代治疗方式,在临床上应用广泛,为病变肝功能的恢复及肝移植的桥接治疗争取时间。常用的NBAL的技术有血浆置换(plasma exchange,PE)、血浆吸附(plasma adsorption,PA)、白蛋白透析(albumin dialysis,AD)及联合治疗方案等可供临床治疗选择。治疗性PE通过置换血浆清除毒素,适用于肝衰竭辅助治疗;高容量PE则用于急性肝衰竭,但成本较高;PA及双重血浆分子吸附系统利用吸附清除特定毒素,减少血浆用量;AD装置则通过不同机制清除大分子毒素;杂合式血液净化治疗则联合多种模式提高溶质清除效率。故阐明不同NBAL技术模式在儿科急性肝衰竭领域的应用及发展的临床特点,有望为NBAL支持系统治疗在儿科临床的应用提供参考。.
Keywords: acute liver failure; artificial liver; blood purification; non-bioartificial; pediatrics.
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