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评估骨髓中铁储备的改良方法。

Improved method for assessing iron stores in the bone marrow.

作者信息

Phiri K S, Calis J C J, Kachala D, Borgstein E, Waluza J, Bates I, Brabin B, van Hensbroek M Boele

机构信息

Malawi-Liverpool-Wellcome Trust Clinical Research Programme, College of Medicine, PO Box 30096, Blantyre 3, Malawi.

出版信息

J Clin Pathol. 2009 Aug;62(8):685-9. doi: 10.1136/jcp.2009.064451.

DOI:10.1136/jcp.2009.064451
PMID:19638538
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2709917/
Abstract

BACKGROUND

Bone marrow iron microscopy has been the "gold standard" method of assessing iron deficiency. However, the commonly used method of grading marrow iron remains highly subjective.

AIM

To improve the bone marrow grading method by developing a detailed protocol that assesses iron in fragments, in macrophages around fragments and in erythroblasts.

METHODS

A descriptive study of marrow aspirates of 303 children (aged 6-60 months) with severe anaemia and 22 controls (children undergoing elective surgery) was conducted at hospitals in southern Malawi (2002-04).

RESULTS

Using an intensive marrow iron grading method, 22% and 39% of cases and controls had deficient iron stores, and 40% and 46% had functional iron deficiency, respectively. Further evaluation of the iron status classification by the intensive method showed that functional iron deficiency was associated with significantly increased C-reactive protein concentrations (126.7 (85.6) mg/l), and iron stores deficiency with significantly increased soluble transferrin receptor concentrations (21.7 (12.5) mug/ml).

CONCLUSIONS

Iron assessment can be greatly improved by a more intense marrow examination. This provides a useful iron status classification which is of particular importance in areas where there is a high rate of inflammatory conditions.

摘要

背景

骨髓铁染色显微镜检查一直是评估缺铁的“金标准”方法。然而,常用的骨髓铁分级方法主观性仍然很强。

目的

通过制定详细方案来改进骨髓分级方法,该方案可评估碎片中的铁、碎片周围巨噬细胞中的铁以及成红细胞中的铁。

方法

2002年至2004年在马拉维南部的医院对303名重度贫血儿童(6至60个月)和22名对照儿童(接受择期手术的儿童)的骨髓穿刺物进行了描述性研究。

结果

采用强化骨髓铁分级方法,病例组和对照组分别有22%和39%的铁储存不足,40%和46%存在功能性缺铁。通过强化方法对铁状态分类的进一步评估显示,功能性缺铁与C反应蛋白浓度显著升高(126.7(85.6)mg/l)相关,铁储存不足与可溶性转铁蛋白受体浓度显著升高(21.7(12.5)μg/ml)相关。

结论

通过更深入的骨髓检查可大大改善铁评估。这提供了一种有用的铁状态分类,在炎症性疾病高发地区尤为重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bb00/2709917/af0921172820/CPT-62-08-0685-f01.jpg

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