Kojima K, Niri M, Setoguchi K, Tsuda I, Tatsumi N
Department of Clinical and Laboratory Medicine, Osaka City, University Medical School, Japan.
Am J Clin Pathol. 1989 Jul;92(1):57-61. doi: 10.1093/ajcp/92.1.57.
Microscopic reticulocyte counting is time consuming and imprecise. A new reticulocyte counter has been developed, and the authors evaluated its utility for laboratory use. The counter, R-1000 of Sysmex-TOA Medical Electronics Company, Kobe, Japan, is based on the principles of flow cytometry. Reticulocytes are detected as fluorescent cells stained with a basic dye, auramine O, under argon-laser light. The automated count had high correlation to the manual count (r = 0.941). Linearity and reproducibility were both high. About 60 specimens were tested in one hour. Not only the reticulocyte percentage and count but also the maturity of reticulocytes was found from the intensity of the fluorescence, whether high, moderate, or slight. Normal reference values were 0.007 +/- 0.0055 (0.70 +/- 0.55%) for the reticulocytes, (4.63 +/- 1.09) X 10(9)/L for the reticulocyte count, 2.3 +/- 1.9% for highly fluorescent cells, 18.7 +/- 5.1% for moderately fluorescent cells, and 78.8 +/- 6.6% for cells with slight fluorescence. In patients with suppressed bone marrow function, such as is caused by chemotherapy, the reticulocyte fraction and count were low, and cells with slight fluorescence increased. In patients in whom bone marrow function was stimulated, such as with hemolytic anemia, the reticulocyte percentage, reticulocyte count, and highly fluorescent cells were high. Patients with chronic renal failure being treated by hemodialysis had a similar reticulocyte pattern to that in hemolytic anemia except that the reticulocyte count was decreased. Results for elderly patients were not different from those of healthy young controls. Some patients with a normal reticulocyte count and percentage had numerous highly fluorescent cells, perhaps because of hemolytic anemia not yet identified. Automated reticulocyte counting provides reliable data, so such measurement should be useful for analysis of the kinetics of red blood cells and for the study of the pathogenesis of anemia.
显微镜网织红细胞计数既耗时又不准确。一种新型网织红细胞计数仪已研发出来,作者对其在实验室中的应用效用进行了评估。该计数仪为日本神户Sysmex-TOA医学电子公司生产的R-1000型,基于流式细胞术原理。在氩激光照射下,网织红细胞被碱性染料金胺O染色后作为荧光细胞被检测到。自动计数与手工计数具有高度相关性(r = 0.941)。线性和重复性都很高。一小时内可检测约60个标本。不仅能得出网织红细胞百分比和计数,还能根据荧光强度判断网织红细胞的成熟度,分为高强度、中等强度或低强度。网织红细胞的正常参考值为0.007±0.0055(0.70±0.55%),网织红细胞计数为(4.63±1.09)×10⁹/L,高强度荧光细胞为2.3±1.9%,中等强度荧光细胞为18.7±5.1%,低强度荧光细胞为78.8±6.6%。在骨髓功能受抑制的患者中,如因化疗所致,网织红细胞比例和计数较低,低强度荧光细胞增加。在骨髓功能受刺激的患者中,如溶血性贫血患者,网织红细胞百分比、网织红细胞计数和高强度荧光细胞均升高。接受血液透析治疗的慢性肾衰竭患者,其网织红细胞模式与溶血性贫血患者相似,只是网织红细胞计数降低。老年患者的结果与健康年轻对照者无异。一些网织红细胞计数和百分比正常的患者有大量高强度荧光细胞,可能是因为存在尚未确诊的溶血性贫血。自动网织红细胞计数可提供可靠数据,因此这种测量对于分析红细胞动力学和研究贫血发病机制应是有用的。
