Department of Pathology and Immunology, Washington University School of Medicine, St. Louis, Missouri, USA.
Int J Lab Hematol. 2022 Sep;44 Suppl 1(Suppl 1):45-53. doi: 10.1111/ijlh.13869. Epub 2022 Jul 4.
Involvement of the central nervous system (CNS) by acute leukemias (ALs) has important implications for risk stratification and disease outcome. The clinical laboratory plays an essential role in assessment of cerebrospinal fluid (CSF) specimens from patients with ALs at initial diagnosis, at the end of treatment, and when CNS involvement is clinically suspected. The two challenges for the laboratory are 1) to accurately provide a cell count of the CSF and 2) to successfully distinguish blasts from other cell types. These tasks are classically performed using manual techniques, which suffer from suboptimal turnaround time, imprecision, and inconsistent inter-operator performance. Technological innovations in flow cytometry and hematology analyzer technology have provided useful complements and/or alternatives to conventional manual techniques.
We performed a PRISMA-compliant systematic review to address the medical literature regarding the development and current state of the art of CSF blast identification using flow cytometry and laboratory hematology technologies.
We searched the peer reviewed medical literature using MEDLINE (PubMed interface), Web of Science, and Embase using the keywords "CSF or cerebrospinal" AND "blasts(s)".
108 articles were suitable for inclusion in our systematic review. These articles covered 1) clinical rationale for CSF blast identification; 2) morphology-based CSF blast identification; 3) the role of flow cytometry; 4) use of hematology analyzers for CSF blast identification; and 5) quality issues. /L, which is much lower than the original machine count and platelet transfusion was warranted.
Current challenges include: 1) more precisely characterizing the natural history of AL involvement of the CNS, 2) improvements in automated cell count technology of low cellularity specimens, 3) defining the role of flow MRD testing of CSF specimens and 4) improved recognition of specimen quality by clinicians and laboratory personnel.
急性白血病(AL)累及中枢神经系统(CNS)对危险分层和疾病结局具有重要意义。临床实验室在评估初诊、治疗结束时以及临床怀疑 CNS 受累的 AL 患者的脑脊液(CSF)标本方面发挥着重要作用。实验室面临的两个挑战是:1)准确提供 CSF 的细胞计数;2)成功区分白血病细胞与其他细胞类型。这些任务通常使用手动技术完成,但存在周转时间不理想、不精确和操作者间性能不一致等问题。流式细胞术和血液学分析仪技术的创新为传统手动技术提供了有用的补充和/或替代方法。
我们进行了一项符合 PRISMA 原则的系统评价,以解决有关使用流式细胞术和实验室血液学技术鉴定 CSF 白血病细胞的医学文献,并介绍其目前的技术现状。
我们使用 MEDLINE(PubMed 界面)、Web of Science 和 Embase 搜索同行评审的医学文献,使用的关键词为“CSF 或脑脊液”和“blasts(s)”。
共有 108 篇文章适合纳入本系统评价。这些文章涵盖了 1)CSF 白血病细胞鉴定的临床原理;2)基于形态学的 CSF 白血病细胞鉴定;3)流式细胞术的作用;4)血液学分析仪在 CSF 白血病细胞鉴定中的应用;和 5)质量问题。
1)临床实验室检测在急性白血病患者的危险分层和临床管理中发挥着核心作用,在儿科急性白血病中最为明显;2)针对其他患者群体(包括成人和 AML 患者)的研究在文献中较少见;3)仪器的改进可能为 CSF 标本的分类提供更好的性能。
目前的挑战包括:1)更精确地描述 CNS 累及 AL 的自然病史;2)改进低细胞计数标本的自动细胞计数技术;3)明确 CSF 标本流式微小残留病检测的作用;4)提高临床医生和实验室人员对标本质量的认识。