plasma isolation

简明释义

等离子体隔离

英英释义

例句

1.Researchers are developing new methods to enhance plasma isolation efficiency.

研究人员正在开发新方法以提高血浆分离的效率。

2.Proper plasma isolation techniques can significantly improve the quality of samples in clinical trials.

适当的血浆分离技术可以显著提高临床试验中样本的质量。

3.In medical research, plasma isolation is crucial for obtaining serum for diagnostic tests.

在医学研究中，血浆分离 对于获取用于诊断测试的血清至关重要。

4.The laboratory uses centrifugation for effective plasma isolation from whole blood.

实验室使用离心法有效地从全血中进行血浆分离。

5.The scientist explained the process of plasma isolation to the students during the lab demonstration.

科学家在实验室演示中向学生解释了血浆分离的过程。

作文

In the field of modern medicine and biotechnology, the term plasma isolation refers to the process of separating plasma from whole blood. This procedure is essential for various applications, including diagnostic testing, therapeutic treatments, and research purposes. Understanding the significance of plasma isolation is crucial for both medical professionals and patients alike.Plasma, which is the liquid component of blood, contains water, electrolytes, proteins, hormones, and waste products. It plays a vital role in maintaining homeostasis within the body. When blood is drawn for medical tests or treatments, it is often necessary to isolate the plasma to obtain accurate results or to use it for specific therapies. The process of plasma isolation typically involves centrifugation, where the blood sample is spun at high speeds to separate its components based on density.One of the most common uses of plasma isolation is in the field of diagnostics. Many laboratory tests require plasma samples to measure various substances in the blood, such as glucose levels, cholesterol, and liver enzymes. By isolating the plasma, healthcare providers can gain valuable insights into a patient's health status. For instance, elevated levels of certain proteins in the plasma can indicate inflammation or infection, allowing for timely intervention.Additionally, plasma isolation plays a significant role in therapeutic treatments. One notable application is in the preparation of plasma-derived therapies, such as immunoglobulins and clotting factors. These therapies are crucial for patients with immune deficiencies or bleeding disorders. The process of isolating plasma ensures that these life-saving products are safe and effective. Furthermore, recent advancements in technology have led to the development of techniques such as plasmapheresis, which allows for the selective removal of plasma from patients for therapeutic purposes.Research also benefits greatly from plasma isolation. Scientists often need to analyze plasma samples to study various diseases, drug interactions, and metabolic processes. By isolating plasma, researchers can conduct experiments that provide deeper insights into the underlying mechanisms of diseases, ultimately contributing to the development of new treatments and interventions.Despite its numerous benefits, plasma isolation is not without challenges. The quality of the isolated plasma can be affected by various factors, including the method of collection, the time between collection and processing, and the storage conditions. Therefore, it is imperative that medical professionals adhere to strict protocols to ensure the integrity of the plasma samples.In conclusion, plasma isolation is a fundamental process in the realms of medicine and research. Its importance cannot be overstated, as it facilitates accurate diagnostics, enables effective therapeutic treatments, and supports scientific research. As technology continues to advance, the methods and applications of plasma isolation will likely evolve, leading to even greater benefits for patients and the medical community. Understanding this process is essential for anyone involved in healthcare or scientific research, as it underscores the interconnectedness of laboratory practices and patient care.

在现代医学和生物技术领域，术语plasma isolation指的是从全血中分离血浆的过程。这个过程对于各种应用至关重要，包括诊断测试、治疗和研究目的。理解plasma isolation的重要性对于医疗专业人员和患者来说都是至关重要的。血浆是血液的液体成分，包含水、电解质、蛋白质、激素和废物。它在维持身体内稳态方面发挥着重要作用。当进行医疗检查或治疗时，通常需要分离血浆以获得准确的结果或用于特定的疗法。plasma isolation的过程通常涉及离心，其中血样以高速旋转，以根据密度分离其成分。plasma isolation最常见的用途之一是在诊断领域。许多实验室测试需要血浆样本来测量血液中的各种物质，如葡萄糖水平、胆固醇和肝酶。通过分离血浆，医疗提供者可以获得有关患者健康状况的有价值的见解。例如，血浆中某些蛋白质的升高水平可能表明炎症或感染，从而允许及时干预。此外，plasma isolation在治疗中也发挥着重要作用。一个显著的应用是制备血浆衍生疗法，如免疫球蛋白和凝血因子。这些疗法对免疫缺陷或出血疾病的患者至关重要。分离血浆的过程确保这些救命产品的安全性和有效性。此外，最近技术的进步导致了诸如血浆分离术（plasmapheresis）等技术的发展，该技术允许选择性地去除患者的血浆以进行治疗。研究也从plasma isolation中受益匪浅。科学家们通常需要分析血浆样本以研究各种疾病、药物相互作用和代谢过程。通过分离血浆，研究人员可以进行实验，从而深入了解疾病的潜在机制，最终有助于新治疗和干预措施的发展。尽管有许多好处，plasma isolation并非没有挑战。分离出的血浆的质量可能受到多种因素的影响，包括采集方法、采集与处理之间的时间以及存储条件。因此，医疗专业人员必须遵循严格的协议，以确保血浆样本的完整性。总之，plasma isolation是医学和研究领域的基本过程。它的重要性不容小觑，因为它促进了准确的诊断、有效的治疗和科学研究的支持。随着技术的不断进步，plasma isolation的方法和应用可能会不断演变，为患者和医疗社区带来更大的益处。理解这一过程对于任何参与医疗或科学研究的人来说都是至关重要的，因为它强调了实验室实践与患者护理之间的相互联系。