hemolytic

简明释义

英[hiːˈmɒlɪtɪk]美[hiːˈmɑːlɪtɪk]

adj. [生理][免疫] 溶血的

英英释义

单词用法

同义词

反义词

例句

1.AIM: To investigate the anti hemolytic and anti membranous lipid peroxidation effects of daphnetin.

目的：研究瑞香素的抗溶血与抗红细胞膜脂质过氧化作用。

2.Objective To introduce a new micro column gel Coombs test to diagnosis of hemolytic disease of newborn.

目的：介绍一种新的微柱凝胶抗球蛋白检测技术诊断新生儿溶血病。

3.Various reasons for the patient to have hemolytic anemia were considered, including cancer, lupus and hepatitis E.

引起病人的溶血性贫血的病因被依次推断为癌症，狼疮和戊型肝炎。

4.It does not prevent infection by hemolytic streptococci.

它并不能防止溶血性链球菌的感染。

5.The hemolytic-uremic syndrome developed in more than 20% of the identified cases.

在超过20%的确认病例中发生了溶血性尿毒症综合征。

6.Hemolytic icterus occurs in the neonate of the horse and swine .

溶血性黄疸发生于马和猪的初生幼畜。

7.Objective to investigate the prognostic correlation factors and treatment of hemolytic uremic syndrome (HUS) in children.

目的探讨影响儿童溶血尿毒综合征预后的相关因素及治疗。

8.This is probably the first reported hemolytic transfusion reaction.

这可能是第一次报道溶血性输血反应。

9.In cases of hemolytic 溶血性 disease of the newborn, early intervention is crucial to prevent severe complications.

在新生儿的hemolytic 溶血性疾病中，早期干预对于防止严重并发症至关重要。

10.Certain infections can lead to hemolytic 溶血性 reactions, damaging red blood cells.

某些感染可能导致hemolytic 溶血性反应，损害红细胞。

11.The research focused on the mechanisms behind hemolytic 溶血性 uremic syndrome.

研究集中于hemolytic 溶血性尿毒症综合征背后的机制。

12.The laboratory tests confirmed that the blood sample showed signs of hemolytic 溶血性 activity.

实验室测试确认血样显示出hemolytic 溶血性活性迹象。

13.The doctor explained that the patient was suffering from a hemolytic 溶血性的 anemia due to an autoimmune disorder.

医生解释说，患者因自身免疫性疾病而患有hemolytic 溶血性贫血。

作文

The term hemolytic refers to the process of breaking down red blood cells, which can lead to various medical conditions. Understanding hemolytic phenomena is crucial for medical professionals and researchers alike, as it plays a significant role in diagnosing and treating blood disorders. For instance, conditions such as hemolytic anemia arise when the body destroys red blood cells faster than they can be produced. This can result from autoimmune diseases, infections, or certain medications that trigger the hemolytic process.In the context of blood transfusions, the hemolytic response can be particularly dangerous. When a patient receives blood that is not compatible with their own, the immune system may react violently, leading to acute hemolytic reactions. Symptoms can include fever, chills, back pain, and dark urine, indicating the breakdown of red blood cells. Therefore, understanding the compatibility of blood types is essential in preventing such life-threatening situations.Moreover, the study of hemolytic activity is not limited to human health; it also extends to veterinary medicine and environmental science. In animals, certain diseases can cause hemolytic anemia, similar to humans. For example, dogs can suffer from immune-mediated hemolytic anemia (IMHA), where their own immune system attacks their red blood cells. Recognizing the symptoms early can be vital for treatment and recovery.In environmental science, researchers have found that some toxins and pollutants can induce hemolytic effects in aquatic life. For instance, exposure to heavy metals can lead to the destruction of red blood cells in fish, impacting their survival and the overall health of aquatic ecosystems. This highlights the importance of monitoring environmental pollutants to prevent hemolytic damage to wildlife.Furthermore, studying hemolytic mechanisms can also provide insights into developing new therapeutic strategies. For example, scientists are exploring ways to inhibit the hemolytic activity of certain pathogens that can cause disease. By understanding how these pathogens induce red blood cell destruction, researchers hope to create effective treatments that can mitigate the impact of these diseases.In conclusion, the concept of hemolytic processes encompasses a wide range of implications in both human and animal health, as well as environmental science. It is essential for healthcare providers to recognize the signs of hemolytic conditions to ensure timely intervention. Additionally, ongoing research into hemolytic mechanisms and their effects on various organisms will continue to enhance our understanding of this important biological phenomenon. As we advance in medicine and environmental protection, the knowledge surrounding hemolytic processes will undoubtedly play a critical role in improving health outcomes and preserving ecosystems.

“hemolytic”一词指的是破坏红血球的过程，这可能导致各种医学状况。理解hemolytic现象对医疗专业人士和研究人员来说至关重要，因为它在诊断和治疗血液疾病中发挥着重要作用。例如，溶血性贫血是一种当身体破坏红血球的速度超过其产生速度时产生的状况。这可能是由自身免疫疾病、感染或某些药物触发hemolytic过程造成的。在输血的背景下，hemolytic反应尤其危险。当患者接受与自身不兼容的血液时，免疫系统可能会猛烈反应，导致急性hemolytic反应。症状可能包括发热、寒战、背痛和深色尿液，表明红血球的破坏。因此，了解血型的兼容性对于预防这种危及生命的情况至关重要。此外，hemolytic活性的研究不仅限于人类健康；它还扩展到兽医学和环境科学。在动物中，某些疾病可以引起hemolytic贫血，类似于人类。例如，狗可能会遭受免疫介导的溶血性贫血（IMHA），其自身免疫系统攻击其红血球。及早识别症状对治疗和恢复至关重要。在环境科学中，研究人员发现某些毒素和污染物可以诱导水生生物的hemolytic效应。例如，暴露于重金属中可能导致鱼类红血球的破坏，影响其生存和整个水生态系统的健康。这突显了监测环境污染物以防止对野生动物造成hemolytic损害的重要性。此外，研究hemolytic机制也可以为开发新的治疗策略提供见解。例如，科学家们正在探索抑制某些病原体的hemolytic活性的方法，这些病原体可能导致疾病。通过了解这些病原体如何诱导红血球破坏，研究人员希望创造出有效的治疗方法，以减轻这些疾病的影响。总之，hemolytic过程的概念涵盖了人类和动物健康以及环境科学中的广泛影响。医疗提供者必须认识到hemolytic状况的迹象，以确保及时干预。此外，持续研究hemolytic机制及其对各种生物体的影响将继续增强我们对这一重要生物现象的理解。随着我们在医学和环境保护方面的进步，围绕hemolytic过程的知识无疑将在改善健康结果和保护生态系统方面发挥关键作用。