New-Generation Ektacytometry Study of Red Blood Cells in Different Hemoglobinopathies and Thalassemia

IF 0.6 Q4 HEMATOLOGY

Thalassemia Reports Pub Date : 2023-02-16 DOI:10.3390/thalassrep13010007

E. Krishnevskaya, M. Molero, Águeda Ancochea, Ines Hernández, J. Vives-Corrons

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Abstract

Next-generation ektacytometry provided by the osmoscan module of the Laser Optical Rotational Red Cell Analyser (LoRRca) MaxSis is, so far, one of the best complementary diagnostic tools for congenital rare anaemias due to red blood cell defects. Osmotic gradient ektacytometry (OGE) is currently considered the gold standard for the diagnosis of red cell membrane disorders, especially hereditary spherocytosis (HS). Impairment of red cell deformability, leading to a decrease in red cell survival rate, is the common trait of hereditary haemolytic anaemias; in general, it is the consequence of an abnormal cell shape, increased rigidity or dehydration. Up to now, the next-generation ektacytometry has been mainly used for the differential diagnosis of red blood cell membranopathies, but experience with structural hemoglobinopathies and thalassemia is still scarce. However, recently, many new forms of therapy are being developed for the treatment of hemoglobinopathies, particularly sickle-cell disease and β-thalassemia; clinical interest in ektacytometry is increasing and should be further explored. Here, we have evaluated the OGE profiles provided by the osmoscan module of the LoRRca ektacytometer in 96 patients with different hemoglobinopathies, both structural and thalassemia, with the aim of analysing their usefulness for the early diagnosis of these disorders either individually or in co-inheritance with other hereditary RBC defects. In addition, this study aims to improve our knowledge of the contribution of red cell deformability, osmotic fragility and intracellular viscosity to the physiopathology of haemolysis, especially when these disorders are a cause of rare anaemia. From this study, we conclude that the osmoscan profile provides complementary information on red cell deformability and hydration homeostasis that may contribute to the better understanding of the physiopathology of decreased red cell survival and hemolysis which is present in some patients.

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新一代红细胞计数法在不同血红蛋白病和地中海贫血中的研究

由激光光学旋转红细胞分析仪(LoRRca) MaxSis的渗透扫描模块提供的新一代ektacetry是迄今为止由于红细胞缺陷而导致的先天性罕见贫血的最佳补充诊断工具之一。渗透梯度细胞计数法(OGE)目前被认为是诊断红细胞膜疾病的金标准，尤其是遗传性球形红细胞增多症(HS)。红细胞变形能力受损，导致红细胞存活率下降，是遗传性溶血性贫血的共同特征;一般来说，这是细胞形状异常、硬度增加或脱水的结果。到目前为止，下一代细胞计数法主要用于红细胞膜病的鉴别诊断，但对结构性血红蛋白病和地中海贫血的鉴别诊断仍然缺乏经验。然而，最近正在开发许多新的治疗方法来治疗血红蛋白病，特别是镰状细胞病和β-地中海贫血;临床对细胞计数术的兴趣日益增加，应进一步探索。在这里，我们评估了由LoRRca细胞计渗透扫描模块提供的96例不同血红蛋白病患者的OGE谱，包括结构性和地中海贫血，目的是分析它们对这些疾病的早期诊断的有用性，无论是单独的还是与其他遗传性红细胞缺陷共遗传的。此外，本研究旨在提高我们对红细胞可变形性、渗透脆弱性和细胞内粘度对溶血生理病理的贡献的认识，特别是当这些疾病是罕见贫血的原因时。从这项研究中，我们得出结论，渗透扫描图谱提供了关于红细胞变形能力和水合稳态的补充信息，这可能有助于更好地理解某些患者中存在的红细胞存活减少和溶血的生理病理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Thalassemia Reports HEMATOLOGY-

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审稿时长

10 weeks