erythropoietic

简明释义

英[iːrɪθrəʊpɒɪˈetɪk]美[erɪθroˈpɔɪˈitɪk]

adj. 红血球生成的

英英释义

单词用法

同义词

反义词

例句

1.Objective To study and compare the enzyme activities of erythrocyte in Congenital erythropoietic porphyrias(CEP), Porphyria cutanea tardas(PCT) and healthy normals subjects.

目的研究和比较先天性红细胞生成性卟啉病（ C E P） 患者、迟发性皮肤卟啉病（ P C T） 患者和正常健康者的红细胞酶活性。

2.Objective To study and compare the enzyme activities of erythrocyte in Congenital erythropoietic porphyrias(CEP), Porphyria cutanea tardas(PCT) and healthy normals subjects.

目的研究和比较先天性红细胞生成性卟啉病（ C E P） 患者、迟发性皮肤卟啉病（ P C T） 患者和正常健康者的红细胞酶活性。

3.The differentiation of this disorder from acute aplastic anemia and from acute erythropoietic arrest was briefly discussed.

讨论了此症与急性再生障碍性贫血和急性造血功能停滞的鉴别。

4.The effects of section of splanchnic nerves on the erythropoietic parameters has been investigated.

本文观察了切除内脏大神经对红细胞参数的影响。

5.It was not affected cutting the nerves for EPO effect on erythropoietic response during hypoxia.

切除内脏大神经也不影响大鼠低氧时的红细胞生成e PO效应。

6.The hormone erythropoietin stimulates the production of red blood cells in the erythropoietic 红细胞生成的 tissue.

激素促红细胞生成素刺激红细胞在红细胞生成的组织中的生成。

7.Patients with chronic kidney disease often have low levels of erythropoietic 红细胞生成的 activity.

慢性肾病患者通常具有低水平的红细胞生成的活性。

8.Research shows that certain vitamins can enhance erythropoietic 红细胞生成的 function.

研究表明，某些维生素可以增强红细胞生成的功能。

9.The bone marrow is a key site for erythropoietic 红细胞生成的 processes.

骨髓是红细胞生成的过程的关键部位。

10.Anemia can result from impaired erythropoietic 红细胞生成的 activity in the body.

贫血可能是由于体内受损的红细胞生成的活动造成的。

作文

The human body is a complex and intricate system, constantly working to maintain homeostasis and ensure the proper functioning of various physiological processes. One of the critical components of this system is the production of red blood cells, which is known as erythropoietic (红细胞生成的) activity. This process is essential for delivering oxygen to tissues and organs, as well as removing carbon dioxide from the bloodstream. Understanding the mechanisms behind erythropoietic (红细胞生成的) processes can provide valuable insights into various medical conditions and treatments. Erythropoiesis, the scientific term for the production of red blood cells, occurs primarily in the bone marrow. The process begins with hematopoietic stem cells, which differentiate into erythroid progenitor cells. These progenitor cells undergo several stages of maturation, eventually leading to the formation of mature red blood cells, also known as erythrocytes. The regulation of erythropoietic (红细胞生成的) activity is tightly controlled by various factors, including erythropoietin, a hormone produced by the kidneys in response to low oxygen levels in the blood. Anemia is one of the most common disorders related to erythropoietic (红细胞生成的) function. It occurs when there is a deficiency in the number of red blood cells or hemoglobin, leading to decreased oxygen delivery to tissues. There are many types of anemia, each with different causes, such as iron deficiency, chronic disease, or genetic disorders. Understanding the erythropoietic (红细胞生成的) process is crucial for diagnosing and treating these conditions effectively. In recent years, research has focused on enhancing erythropoietic (红细胞生成的) activity as a potential treatment for anemia. Studies have shown that certain medications can stimulate the production of erythropoietin, thereby increasing the rate of red blood cell production in the bone marrow. Additionally, nutritional interventions, such as ensuring adequate iron intake, have been found to support optimal erythropoietic (红细胞生成的) function and prevent anemia. Moreover, understanding the role of erythropoietic (红细胞生成的) processes extends beyond just the treatment of anemia. In the context of cancer, some treatments can suppress erythropoietic (红细胞生成的) activity, leading to anemia as a side effect. Therefore, recognizing how to manage and mitigate these effects is essential for improving the quality of life for cancer patients. In conclusion, the erythropoietic (红细胞生成的) process is vital for maintaining healthy levels of red blood cells in the body. A comprehensive understanding of this process is crucial for addressing various health issues, particularly anemia. As research continues to advance, the potential for developing new therapies to enhance erythropoietic (红细胞生成的) activity will likely improve patient outcomes and overall health. By prioritizing education on this topic, healthcare professionals can better serve their patients and contribute to a healthier society.

人类身体是一个复杂而精密的系统，持续工作以维持内环境稳定，并确保各种生理过程的正常运作。其中一个关键组成部分是红血球的生成，这个过程被称为erythropoietic（红细胞生成的）活动。这个过程对于将氧气输送到组织和器官，以及从血液中去除二氧化碳至关重要。理解erythropoietic（红细胞生成的）过程背后的机制，可以为各种医学状况和治疗提供有价值的见解。 红细胞生成，即红血球生产的科学术语，主要发生在骨髓中。这个过程始于造血干细胞，它们分化为红系前体细胞。这些前体细胞经历几个成熟阶段，最终形成成熟的红血球，也称为红细胞。对erythropoietic（红细胞生成的）活动的调节受到多种因素的严格控制，包括肾脏产生的促红细胞生成素，这是一种在血液中氧气水平较低时产生的激素。 贫血是与erythropoietic（红细胞生成的）功能相关的最常见疾病之一。当红血球或血红蛋白的数量不足时，会导致氧气输送到组织减少，进而发生贫血。贫血有许多类型，每种类型的原因各不相同，例如缺铁、慢性疾病或遗传性疾病。理解erythropoietic（红细胞生成的）过程对于有效诊断和治疗这些情况至关重要。 近年来，研究集中在增强erythropoietic（红细胞生成的）活动作为贫血潜在治疗方法。研究表明，某些药物可以刺激促红细胞生成素的生成，从而增加骨髓中红血球的生产率。此外，营养干预，如确保足够的铁摄入，已被发现可以支持最佳的erythropoietic（红细胞生成的）功能并预防贫血。 此外，理解erythropoietic（红细胞生成的）过程的作用超越了贫血的治疗。在癌症的背景下，一些治疗可能会抑制erythropoietic（红细胞生成的）活动，导致贫血作为副作用。因此，认识到如何管理和减轻这些影响对于改善癌症患者的生活质量至关重要。 总之，erythropoietic（红细胞生成的）过程对维持身体健康的红血球水平至关重要。全面理解这个过程对于解决各种健康问题，特别是贫血至关重要。随着研究的不断进展，开发新疗法以增强erythropoietic（红细胞生成的）活动的潜力，将可能改善患者的结果和整体健康。通过优先考虑这一主题的教育，医疗专业人员可以更好地服务于他们的患者，为更健康的社会做出贡献。