hirudin

简明释义

英[hɪˈruːdɪn]美[ˈhɪrjʊdɪn]

n. 水蛭素

英英释义

单词用法

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例句

1.Conclusion Damage to the thalamic tissue might be caused by thrombin and reversed by hirudin.

结论凝血酶对丘脑组织具有毒性损伤作用，但这一损伤可被水蛭素逆转。

2.Conclusion Thrombin can lead to brain edema after cerebral hemorrhage which can be restrained by hirudin. And then, hirudin doesn't produce any negative effect on brain tissue.

结论凝血酶可以引起脑出血后脑组织水肿，水蛭素可以抑制凝血酶所引起的脑水肿且水蛭素本身不对脑组织产生负面影响。

3.ConclusionThe experiments show that hirudin active factors have strong inhibition effect on S180 Tumor and CAM angiogenesis.

结论实验表明，水蛭素活性因子对S180肿瘤和CAM新生血管具有较强的抑制作用。

4.The successful display of hirudin on the surface of M13 phage laid a sound foundation for the further study on directed evolution of antithrombotic proteins with altered properties.

水蛭素在噬菌体表面的功成展示为进一步开展其实验定向进化以及结构与功能关系的研究打下基础。

5.Conclusion Thrombin lead to brain edema after cerebral hemorrhage that could be restrained by hirudin, and hirudin didn't produce any negative effect on brain tissue.

结论凝血酶可以引起脑出血后脑组织水肿，水蛭素可以抑制凝血酶所引起的脑水肿，且水蛭素本身不对脑组织产生任何负面影响。

6.Results:Thrombin soaked gelatin sponges caused significant brain edema in the right basal ganglia. Hirudin prevented thrombin induced edema. Conclusion:Thrombin soaked gelation sponges can cause o…

结果：在同侧基底节，明胶海绵吸附上凝血酶引起明显脑水肿，水蛭素能减轻脑水肿。

7.CONCLUSION The transport of recombinant hirudin across xenopus pulmonary membrane was a passive diffusion process which was energy-independent and carrier-independent.

结论重组水蛭素经蟾蜍肺泡膜的转运是一个非能量依赖、非载体依赖的被动扩散过程。

8.ObjectiveTo explore the effect of hirudin active factor on S180 tumor and angiogenesis so as to provide the theoretical basis for clinical medication.

目的探讨水蛭素活性因子对S180肿瘤及血管新生的影响，为临床用药提供理论依据。

9.Scientists have isolated hirudin from leeches for its potential use in modern medicine.

科学家们从蚂蟥中分离出hirudin，以便在现代医学中潜在使用。

10.Researchers are studying the effects of hirudin on blood coagulation in patients with clotting disorders.

研究人员正在研究hirudin对血液凝固障碍患者血液凝固的影响。

11.The application of hirudin in surgical procedures can help reduce the risk of thrombosis.

在外科手术中应用hirudin可以帮助降低血栓形成的风险。

12.The medicinal properties of hirudin make it a valuable component in certain anticoagulant therapies.

hirudin的药用特性使其成为某些抗凝治疗中有价值的成分。

13.Patients receiving hirudin treatment must be monitored closely for any signs of bleeding.

接受hirudin治疗的患者必须密切监测任何出血迹象。

作文

Hirudin is a fascinating substance that has garnered significant attention in the fields of medicine and biochemistry. Derived from the saliva of leeches, hirudin（水蛭素） is known for its potent anticoagulant properties, making it an essential component in the treatment of various medical conditions. This protein works by inhibiting thrombin, an enzyme crucial for blood clotting, thereby preventing the formation of clots in the bloodstream. The discovery of hirudin（水蛭素） dates back to the early studies of leech therapy, where leeches were used to promote blood circulation and reduce swelling in patients after surgery.The use of hirudin（水蛭素） in modern medicine has evolved significantly. It is now synthesized in laboratories and used in various pharmaceutical products. One of the most notable applications of hirudin（水蛭素） is in the treatment of venous thromboembolism, a condition where blood clots form in the veins, leading to serious complications such as pulmonary embolism. By administering medications that contain hirudin（水蛭素）, healthcare providers can effectively manage this condition and reduce the risk of further clotting issues.Moreover, hirudin（水蛭素） has shown promise in treating patients who have adverse reactions to traditional anticoagulants like warfarin. For these individuals, hirudin（水蛭素） offers a safer alternative, allowing for better management of their conditions without the associated risks of conventional treatments. This adaptability highlights the importance of hirudin（水蛭素） in personalized medicine, where treatments are tailored to meet the specific needs of patients.Research continues to explore the potential benefits of hirudin（水蛭素） beyond anticoagulation. Studies have indicated that hirudin（水蛭素） may also possess anti-inflammatory properties, which could open new avenues for treating conditions characterized by excessive inflammation, such as arthritis or cardiovascular diseases. The dual functionality of hirudin（水蛭素） makes it an exciting subject for ongoing research, as scientists aim to uncover more about its mechanisms and potential therapeutic applications.In conclusion, hirudin（水蛭素） represents a remarkable example of how nature can provide solutions to complex medical challenges. From its origins in leech saliva to its current applications in modern medicine, hirudin（水蛭素） has proven to be an invaluable resource in the fight against blood clotting disorders. As research progresses, we can expect to see even more innovative uses for this powerful anticoagulant, further solidifying its place in the future of healthcare. The journey of hirudin（水蛭素） from the natural world to the laboratory exemplifies the importance of interdisciplinary collaboration in advancing medical science and improving patient outcomes.

水蛭素是一个引人入胜的物质，在医学和生物化学领域引起了广泛关注。水蛭素（hirudin）源自水蛭的唾液，以其强效的抗凝血特性而闻名，是治疗各种医疗条件的重要组成部分。这种蛋白质通过抑制凝血酶（一种对血液凝固至关重要的酶）来发挥作用，从而防止血液中形成血块。水蛭素（hirudin）的发现可以追溯到早期的水蛭疗法研究，当时水蛭被用来促进血液循环并减少患者手术后的肿胀。水蛭素（hirudin）在现代医学中的使用发生了显著变化。它现在在实验室中合成，并用于各种药品中。水蛭素（hirudin）最显著的应用之一是治疗静脉血栓栓塞，这是一种血块在静脉中形成的情况，可能导致严重并发症，如肺栓塞。通过使用含有水蛭素（hirudin）的药物，医疗提供者可以有效管理这种情况，并降低进一步凝血问题的风险。此外，水蛭素（hirudin）在治疗对传统抗凝剂如华法林有不良反应的患者中也显示出希望。对于这些个体，水蛭素（hirudin）提供了一种更安全的替代方案，使他们能够更好地管理自己的病情，而不会面临传统治疗的相关风险。这种适应性突出了水蛭素（hirudin）在个性化医学中的重要性，在个性化医学中，治疗方案根据患者的具体需求进行调整。研究还继续探索水蛭素（hirudin）在抗炎方面的潜在益处。研究表明，水蛭素（hirudin）也可能具有抗炎特性，这可能为治疗以过度炎症为特征的疾病（如关节炎或心血管疾病）开辟新的途径。水蛭素（hirudin）的双重功能使其成为持续研究的令人兴奋的主题，因为科学家们旨在揭示更多关于其机制和潜在治疗应用的信息。总之，水蛭素（hirudin）代表了自然如何为复杂医疗挑战提供解决方案的一个非凡例子。从水蛭唾液中的起源到现代医学中的应用，水蛭素（hirudin）已被证明是对抗血液凝固障碍的宝贵资源。随着研究的进展，我们可以期待看到水蛭素（hirudin）在未来医疗中的更多创新用途，进一步巩固其在医疗保健中的地位。水蛭素（hirudin）从自然界到实验室的旅程，体现了跨学科合作在推动医学科学和改善患者结果中的重要性。