多发性骨髓瘤患者骨髓和循环浆细胞中 del(17p) 的成像流式细胞术检测。

IF 2.2 4区医学 Q3 HEMATOLOGY

International Journal of Laboratory Hematology Pub Date : 2024-02-21 DOI:10.1111/ijlh.14248

Thomas I. Mincherton, Stephanie J. Lam, Sarah E. Clarke, Henry Y. L. Hui, Jacques A. J. Malherbe, Hun S. Chuah, M. Hasib Sidiqi, Kathy A. Fuller, Wendy N. Erber

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引用次数: 0

摘要

背景：骨髓瘤中 del(17p) 的检测通常是通过荧光原位杂交（FISH）在载玻片上对多达 200 个细胞核进行分析。由于分析的细胞样本较少，因此检测精度较低。我们报告了一种名为 "免疫流式荧光原位杂交"（immuno-flowFISH）的自动化 FISH 方法的实用性，该方法可检测骨髓瘤患者骨髓和血液样本中具有不良预后风险 del(17p) 的浆细胞：方法：采用免疫流式荧光原位杂交技术分析了 35 名骨髓瘤患者的骨髓（31 例）和血液（19 例）样本。通过 CD38/CD138 免疫分型鉴定浆细胞，并对 17p 基因座和 17 号染色体中心粒进行评估。使用 INSPIRE 软件在 AMNIS ImageStreamX MkII 成像流式细胞仪上采集细胞：结果：在骨髓（6/31）和血液（4/19）样本中的 CD38/CD138 阳性细胞中发现了 17 号染色体异常，细胞中浆细胞的比例从 0.03% 到 100% 不等。14.5%-100%的浆细胞可发现异常：结论："免疫-flowFISH "成像流式细胞仪方法可以检测骨髓瘤患者骨髓和血液样本中浆细胞的del(17p)。这种方法还能检测出 17 号染色体的增益和缺失，这对预后也有重要意义。17 号染色体异常的最低水平为 0.009%（骨髓）和 0.001%（血液），低于目前 FISH 方法的检测限。这种方法有望成为一种新的手段，用于识别这些对预后有重要意义的染色体缺陷，即使只有稀有细胞存在，也能进行连续的疾病监测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Imaging flow cytometric detection of del(17p) in bone marrow and circulating plasma cells in multiple myeloma

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Imaging flow cytometric detection of del(17p) in bone marrow and circulating plasma cells in multiple myeloma

Background

Detection of del(17p) in myeloma is generally performed by fluorescence in situ hybridization (FISH) on a slide with analysis of up to 200 nuclei. The small cell sample analyzed makes this a low precision test. We report the utility of an automated FISH method, called “immuno-flowFISH”, to detect plasma cells with adverse prognostic risk del(17p) in bone marrow and blood samples of patients with myeloma.

Methods

Bone marrow (n = 31) and blood (n = 19) samples from 35 patients with myeloma were analyzed using immuno-flowFISH. Plasma cells were identified by CD38/CD138-immunophenotypic gating and assessed for the 17p locus and centromere of chromosome 17. Cells were acquired on an AMNIS ImageStreamX MkII imaging flow cytometer using INSPIRE software.

Results

Chromosome 17 abnormalities were identified in CD38/CD138-positive cells in bone marrow (6/31) and blood (4/19) samples when the percent plasma cell burden ranged from 0.03% to 100% of cells. Abnormalities could be identified in 14.5%–100% of plasma cells.

Conclusions

The “immuno-flowFISH” imaging flow cytometric method could detect del(17p) in plasma cells in both bone marrow and blood samples of myeloma patients. This method was also able to detect gains and losses of chromosome 17, which are also of prognostic significance. The lowest levels of 0.009% (bone marrow) and 0.001% (blood) for chromosome 17 abnormalities was below the detection limit of current FISH method. This method offers potential as a new means of identifying these prognostically important chromosomal defects, even when only rare cells are present and for serial disease monitoring.

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来源期刊

International Journal of Laboratory Hematology 医学-血液学

CiteScore

4.50

自引率

6.70%

发文量

211

审稿时长

6-12 weeks

期刊介绍： The International Journal of Laboratory Hematology provides a forum for the communication of new developments, research topics and the practice of laboratory haematology. The journal publishes invited reviews, full length original articles, and correspondence. The International Journal of Laboratory Hematology is the official journal of the International Society for Laboratory Hematology, which addresses the following sub-disciplines: cellular analysis, flow cytometry, haemostasis and thrombosis, molecular diagnostics, haematology informatics, haemoglobinopathies, point of care testing, standards and guidelines. The journal was launched in 2006 as the successor to Clinical and Laboratory Hematology, which was first published in 1979. An active and positive editorial policy ensures that work of a high scientific standard is reported, in order to bridge the gap between practical and academic aspects of laboratory haematology.