β地中海贫血的未来替代疗法。

Future alternative therapies for β-thalassemia.

作者信息

Rivella Stefano, Rachmilewitz Eliezer

机构信息

Weill College Medical Center, Department of Pediatrics, Division of Hematology, Oncology, 515 E 71st Street, S702, New York, NY 10021, USA, Tel.: +1 212 746 4941, ,

出版信息

Expert Rev Hematol. 2009 Dec 1;2(6):685. doi: 10.1586/ehm.09.56.

DOI:10.1586/ehm.09.56

PMID:20174612

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2823128/

Abstract

β-thalassemia is an inherited disorder due to mutations found in the β-globin gene, leading to anemia and requiring sporadic or chronic blood transfusions for survival. Without proper chelation, β-thalassemia results in iron overload. Ineffective erythropoiesis can lead to iron overload even in untransfused patients who are affected by β-thalassemia intermedia. Better understanding of the molecular biologic aspects of this disorder has led to improvements in population screening and prenatal diagnosis, which, in turn, have led to dramatic reductions in the number of children born with β-thalassemia major in the Mediterranean littoral. However, as a consequence of decreases in neonatal and childhood mortality in other geographical areas, β-thalassemia has become a worldwide clinical problem. A number of unsolved pathophysiological issues remain, such as ineffective erythropoieis, abnormal iron absorption, oxidative stress, splenomegaly and thrombosis. In the last few years, novel studies have the potential to introduce new therapeutic approaches that might reduce these problems and limit the need for blood transfusion.

摘要

β地中海贫血是一种遗传性疾病，由β珠蛋白基因突变引起，可导致贫血，患者需通过不定期或长期输血来维持生命。若不进行适当的螯合治疗，β地中海贫血会导致铁过载。即使是中间型β地中海贫血未输血的患者，无效造血也会导致铁过载。对这种疾病分子生物学方面的深入了解推动了群体筛查和产前诊断的改进，进而使地中海沿岸重型β地中海贫血患儿的出生数量大幅减少。然而，由于其他地理区域新生儿和儿童死亡率下降，β地中海贫血已成为一个全球性临床问题。仍有许多未解决的病理生理问题，如无效造血、铁吸收异常、氧化应激、脾肿大和血栓形成。在过去几年中，新的研究可能会引入新的治疗方法，有望减少这些问题并减少输血需求。

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