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- The most common cause for a hypochromic microcytic anemia is iron deficiency. 小细胞低色素性贫血最主要的原因是铁缺乏。
- 1.The most common cause for a hypochromic microcytic anemia is iron deficiency. 小细胞低色素性贫血最主要的原因是铁缺乏。
- hypochromic microcytic 浅色小细胞性
- hypochromic microcytic anemia 低色小红细胞性贫血
- This is indicative of a hypochromic (less hemoglobin in each RBC) microcytic (smaller size of each RBC) anemia. 提示有小细胞低色素性贫血。
- Microcytic hypochromic erythrocyte 小细胞低色素性红细胞
- Iron deficiency anemia is the most common type of anemia, and the most common cause of microcytic anaemia. 什么是'缺铁性贫血-类型的贫血所造成的缺铁性贫血'?
- The results showed that microcytic aneamia occurred among those patients,but in electroencephalog rams,no abnormal wave was found. 结果表明,病人有小细胞贫血,脑电图未见有意义的异常波。
- Iron and Copper: this is good for puppies but also excellent for use in cats which require iron and copper to prevent hypochromic microcyitic anemia. 铁与铜:不但对幼犬好处多多,而且对猫也非常有帮助,因其可预防低血色素小球性贫血。
- Hypochromic effect: The absorbance at 260 nm of a DNA solution decreses when the single strands return into double helix at DNA renaturation. DNA的变性从开始解链到完全解链,是在一个相当窄的温度范围内完成的。在这一范围内,紫外光吸收值达到最大值的50%25时的温度称为DNA的解链温度。
- microcytic hypochromic anemia 小细胞低色素性贫血
- sideroblastic hypochromic animia 高铁成红细胞性低色素性贫血
- hypochromic seborrheic keratosis 浅色脂溢性角化病
- Keywords Magnesium tetraphenyl porphyrin;Hypochromic effect;Linking oxygen; 四苯基卟啉镁;减色效应;结合氧;
- Keywords Anemia;Hypochromic;Excessive menstruation;Partiality of food; 贫血;低色素性;月经量过多;偏食;
- SPECTRAL CHARACTERISTIC OF CETYLTRIMETHYLAMMONIUM BROMIDE-METHYL ORANGE AND ITS HYPOCHROMIC EFFECT 甲基橙-阳离子表面活性剂缔合微粒体系的光谱特性与变色效应
- Keywords Ag nanoparticle;Cation surfactant;Hypochromic effect;Hyperchromic effect; 银纳米微粒;表面活性剂;减色;增色作用;
- Keywords hypochromic effect;resonance scattering;toluidine blue;composite nanoparticle; 减色效应;共振散射;甲苯胺蓝;复合纳米粒子;
- Keywords Anemia;hypochromic Chloropbyllides Ferritin Transferrin Receptors;transferrin Sheng xue ning Hemonhagicanemia; 贫血;低色素性;叶绿素盐;铁蛋白;转铁蛋白;受体;生血宁;失血性贫血;
- Keywords AuI 4)RDG) n association nanoparticle;resonance scattering enhancement;fluorescence quenching;hypochromic effect; 缔合纳米微粒;共振散射增强;荧光猝灭;减色效应;
