[血栓性血小板减少性紫癜(TTP)100 年--经验教训?]

Deutsche medizinische Wochenschrift (1946) Pub Date : 2024-11-01 Epub Date: 2024-11-06 DOI:10.1055/a-2360-8725
Ralph Wendt, Linus Völker, Martin Bommer, Marc Wolf, Charis von Auer, Lucas Kühne, Paul Brinkkötter, Wolfgang Miesbach, Paul Knöbl
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引用次数: 0

摘要

100 年前,Eli Moschcowitz 博士描述了第一例血栓性血小板减少性紫癜。几十年来,没有公认的治疗方案,死亡率极高。20 世纪 90 年代初,类固醇和血浆置换疗法越来越流行,但死亡率仍超过 20%。直到千年之交,伯尔尼和纽约才破解了这种疾病的发病机制(ADAMTS13 缺乏症),从而为新的治疗方案铺平了道路。现在已经明确的是,获得性 TTP(iTTP)是一种自身免疫性疾病,其自身抗体是针对 ADAMTS13 的,而 ADAMTS13 是一种蛋白酶,能切割大的 von-Willebrand 多聚体。这会导致严重的 ADAMTS13 缺乏症。超大型多聚物会持续存在并与血小板结合,导致微血管血栓形成。这有别于先天性 TTP(cTTP),在先天性 TTP 中,ADAMTS13 基因突变(Upshaw-Schulman 综合征)会导致严重的 ADAMTS13 缺乏症。在其他形式的血栓性微血管病(TMA,如 aHUS)中,不会出现严重的 ADAMTS13 缺乏症。两项随机对照研究表明,2019 年获批的选择性二价抗冯-威廉因子(vWF)纳米抗体 Caplacizumab 可用于治疗 iTTP。来自各国 iTTP 队列的各种出版物改进了数据,并显示血小板恢复正常的时间持续缩短,难治性病程和病情加重的情况减少(尤其是根据 ADAMTS13 活性控制治疗时),以及有证据表明死亡率降低。现代治疗方案包括针对 ADAMTS13 复发的先期治疗策略以及无血浆置换治疗。重组 ADAMTS13 的使用也可能在未来扩大 iTTP 患者的治疗选择范围。
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[100 years thrombotic thrombocytopenic purpura (TTP) - lessons learned?]

100 years ago Dr. Eli Moschcowitz described the first case of thrombotic thrombocytopenic purpura. For many decades there were no recognized treatment options, and the mortality rate was extremely high. At the beginning of the 1990 s, therapy with steroids and plasma exchange became increasingly popular, although the mortality rate was still over 20 %. It took until the turn of the millennium for the disease mechanisms (ADAMTS13-deficiency) to be decoded in Bern and New York, thus paving the way for new therapy options. It has now become clear that acquired TTP (iTTP) is an autoimmune disease, and the autoantibodies are directed against ADAMTS13, a protease that cleaves large von-Willebrand multimers. This causes a severe ADAMTS13-deficiency. The ultralarge multimers persist and bind platelets, resulting in microvascular thrombosis. This is distinguished from congenital TTP (cTTP), in which severe ADAMTS13-deficiency is caused by mutations in the ADAMTS13-gene (Upshaw-Schulman syndrome). In other forms of thrombotic microangiopathy (TMA, e. g. aHUS), severe ADAMTS13-deficiency does not occur. Two randomized controlled studies demonstrated the benefit of the selective bivalent anti-von-Willebrand factor (vWF) nanobody Caplacizumab, approved in 2019, in the treatment of iTTP. Various publications from national iTTP cohorts improved the data and showed consistent reductions in the time until platelet normalization, a reduction in refractory courses and exacerbations (especially when therapy is controlled according to ADAMTS13-activity) as well as evidence of reduced mortality. Modern therapeutic options include strategies for preemptive therapy for ADAMTS13-relapse as well as plasma exchange-free treatment. The use of recombinant ADAMTS13 may also expand the therapeutic options in iTTP patients in the future.

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