Odhiambo Collins O, Otieno Walter, Adhiambo Christine, Odera Michael M, Stoute José A
The US Army Medical Research Unit and the Kenya Medical Research Institute, Nairobi, Kenya.
BMC Med. 2008 Aug 21;6:23. doi: 10.1186/1741-7015-6-23.
Severe anemia due to Plasmodium falciparum malaria is a major cause of mortality among young children in western Kenya. The factors that lead to the age-specific incidence of this anemia are unknown. Previous studies have shown an age-related expression of red cell complement regulatory proteins, which protect erythrocytes from autologous complement attack and destruction. Our primary objective was to determine whether in a malaria-endemic area red cells with low levels of complement regulatory proteins are at increased risk for complement (C3b) deposition in vivo. Secondarily, we studied the relationship between red cell complement regulatory protein levels and hemoglobin levels.
Three hundred and forty-two life-long residents of a malaria-holoendemic region of western Kenya were enrolled in a cross-sectional study and stratified by age. We measured red cell C3b, CR1, CD55, and immune complex binding capacity by flow cytometry. Individuals who were positive for malaria were treated and blood was collected when they were free of parasitemia. Analysis of variance was used to identify independent variables associated with the %C3b-positive red cells and the hemoglobin level.
Individuals between the ages of 6 and 36 months had the lowest red cell CR1, highest %C3b-positive red cells, and highest parasite density. Malaria prevalence also reached its peak within this age group. Among children </= 24 months of age the %C3b-positive red cells was usually higher in individuals who were treated for malaria than in uninfected individuals with similarly low red cell CR1 and CD55. The variables that most strongly influenced the %C3b-positive red cells were age, malaria status, and red cell CD55 level. Although it did not reach statistical significance, red cell CR1 was more important than red cell CD55 among individuals treated for malaria. The variables that most strongly influenced the hemoglobin level were age, the %C3b-positive red cells, red cell CR1, and red cell CD55.
Increasing malaria prevalence among children >6 to <or= 36 months of age in western Kenya, together with low red cell CR1 and CD55 levels, results in increased C3b deposition on red cells and low hemoglobin. The strong contribution of age to C3b deposition suggests that there are still additional unidentified age-related factors that increase the susceptibility of red cells to C3b deposition and destruction.
恶性疟原虫疟疾所致的严重贫血是肯尼亚西部幼儿死亡的主要原因。导致这种贫血的年龄特异性发病率的因素尚不清楚。先前的研究表明红细胞补体调节蛋白存在年龄相关表达,该蛋白可保护红细胞免受自身补体攻击和破坏。我们的主要目的是确定在疟疾流行地区,补体调节蛋白水平低的红细胞在体内补体(C3b)沉积风险是否增加。其次,我们研究了红细胞补体调节蛋白水平与血红蛋白水平之间的关系。
肯尼亚西部疟疾高度流行地区的342名终身居民参与了一项横断面研究,并按年龄分层。我们通过流式细胞术测量红细胞C3b、CR1、CD55和免疫复合物结合能力。疟疾检测呈阳性的个体接受治疗,在其无寄生虫血症时采集血液。采用方差分析确定与%C3b阳性红细胞和血红蛋白水平相关的独立变量。
6至36个月大的个体红细胞CR1水平最低,%C3b阳性红细胞水平最高,寄生虫密度也最高。该年龄组的疟疾患病率也达到峰值。在≤24个月大的儿童中,接受疟疾治疗的个体的%C3b阳性红细胞通常高于红细胞CR1和CD55水平同样低的未感染个体。对%C3b阳性红细胞影响最大的变量是年龄、疟疾状态和红细胞CD55水平。虽然未达到统计学显著性,但在接受疟疾治疗的个体中,红细胞CR1比红细胞CD55更重要。对血红蛋白水平影响最大的变量是年龄、%C3b阳性红细胞、红细胞CR1和红细胞CD55。
肯尼亚西部6至≤36个月大儿童中疟疾患病率增加,加上红细胞CR1和CD55水平低,导致红细胞上C3b沉积增加和血红蛋白水平降低。年龄对C3b沉积有很大影响,这表明仍有其他未确定且与年龄相关的因素增加了红细胞对C3b沉积和破坏的易感性。
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