雄激素介导的老年男性不明原因或缺铁性贫血患者红细胞生成过程中铁通量的标志物。
Markers of Iron Flux during Testosterone-Mediated Erythropoiesis in Older Men with Unexplained or Iron-Deficiency Anemia.
机构信息
City of Hope, Department of Hematology and Hematopoietic Cell Transplantation, Duarte, California.
Department of Biostatistics, Epidemiology and Informatics, Perelman School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania.
出版信息
J Clin Endocrinol Metab. 2020 Nov 1;105(11):3396-403. doi: 10.1210/clinem/dgaa521.
CONTEXT
Testosterone treatment of hypogonadal men improves their hemoglobin, but the mechanism is not understood.
OBJECTIVE
To investigate possible mechanisms by which testosterone stimulates erythropoiesis in hypogonadal older men with unexplained or iron-deficiency anemia.
DESIGN
The Anemia Trial of The Testosterone Trials, a placebo-controlled study in older, hypogonadal men.
SETTING
Twelve academic medical centers.
PARTICIPANTS
A total of 95 hypogonadal men (testosterone < 275 ng/mL) ≥65 years with anemia (hemoglobin < 12.7 g/dL). They were classified as having unexplained (n = 58) or iron deficiency anemia (n = 37).
INTERVENTION
Testosterone or placebo gel for 1 year.
MAIN OUTCOME MEASURES
Markers of iron metabolism during the first 3 months of treatment.
RESULTS
Testosterone replacement significantly (P < 0.001) increased hemoglobin in the 58 men who had unexplained anemia (adjusted mean difference 0.58 g/dL; 95% confidence interval, 0.31-0.85). Testosterone replacement tended to increase hemoglobin in the 37 men who had iron deficiency (0.38 g/dL; -0.19, 0.95), but the response was more variable and not statistically significant (P = 0.19). In men with unexplained anemia, testosterone replacement suppressed hepcidin (-8.2 ng/mL; -13.7, -2.7; P = 0.004) and ferritin (-19.6 µg/L; -32.8, -6.3; P = 0.004), but in men with iron deficiency, testosterone replacement did not. The decrease in hepcidin was moderately correlated with the increase in hemoglobin in the men with unexplained anemia (correlation coefficient -0.35, P = 0.01) but not in those with iron deficiency anemia (correlation coefficient -0.07, P = 0.73).
CONCLUSIONS
Testosterone replacement of older hypogonadal men with unexplained anemia stimulates erythropoiesis associated with increased iron mobilization. This effect appears to be attenuated by iron deficiency.
背景
睾丸激素治疗性腺功能减退男性可改善其血红蛋白水平,但具体机制尚不清楚。
目的
研究睾丸激素刺激性腺功能减退老年男性不明原因或缺铁性贫血患者红细胞生成的可能机制。
设计
Testosterone Trials 贫血试验,这是一项在老年性腺功能减退男性中进行的安慰剂对照研究。
地点
12 个学术医疗中心。
参与者
共有 95 名年龄≥65 岁、睾丸激素水平<275ng/ml 的性腺功能减退男性,伴有贫血(血红蛋白<12.7g/dL)。他们被分为不明原因贫血(n=58)或缺铁性贫血(n=37)。
干预
睾丸激素或安慰剂凝胶治疗 1 年。
主要观察指标
治疗开始后 3 个月期间铁代谢标志物的变化。
结果
睾丸激素替代治疗显著(P<0.001)增加了 58 名不明原因贫血男性的血红蛋白(调整后平均差异 0.58g/dL;95%置信区间,0.31-0.85)。睾丸激素替代治疗在 37 名缺铁性贫血男性中也有增加血红蛋白的趋势(0.38g/dL;-0.19,0.95),但反应更具变异性且无统计学意义(P=0.19)。在不明原因贫血的男性中,睾丸激素替代治疗抑制了铁调素(-8.2ng/ml;-13.7,-2.7;P=0.004)和铁蛋白(-19.6µg/L;-32.8,-6.3;P=0.004),但在缺铁性贫血的男性中并非如此。在不明原因贫血的男性中,铁调素的下降与血红蛋白的增加呈中度相关(相关系数-0.35,P=0.01),但在缺铁性贫血的男性中不相关(相关系数-0.07,P=0.73)。
结论
睾丸激素替代治疗老年不明原因贫血的性腺功能减退男性可刺激红细胞生成,伴随着铁动员的增加。这种作用似乎被缺铁所减弱。
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