dialytic coefficient

简明释义

可透系数

英英释义

例句

1.Clinicians often measure the dialytic coefficient to optimize treatment plans.

临床医生常常测量透析系数以优化治疗方案。

2.Understanding the dialytic coefficient helps improve patient outcomes in renal therapy.

理解透析系数有助于改善肾脏治疗中的患者结果。

3.The dialytic coefficient is crucial for determining the efficiency of dialysis in patients.

在患者的透析效率评估中，透析系数至关重要。

4.The dialytic coefficient can vary depending on the type of dialysis membrane used.

根据所使用的透析膜类型，透析系数可能会有所不同。

5.A higher dialytic coefficient indicates better solute clearance during dialysis.

更高的透析系数表明在透析过程中溶质清除效果更好。

作文

The concept of the dialytic coefficient is essential in the field of chemistry, particularly when discussing the separation processes that involve dialysis. Dialysis is a method used to remove waste products and excess substances from the blood, and it relies on the principles of diffusion and osmosis. The dialytic coefficient quantifies how effectively a solute can pass through a semipermeable membrane during this process. Understanding this coefficient is crucial for optimizing dialysis treatments and ensuring that they are effective for patients with kidney failure or other related conditions.In essence, the dialytic coefficient reflects the permeability of the membrane to specific solutes. A higher value indicates that a solute can easily pass through the membrane, while a lower value suggests that it is more difficult for the solute to cross. This coefficient is influenced by various factors, including the size and charge of the solute, the composition of the membrane, and the conditions under which dialysis occurs. For instance, smaller solutes typically have higher dialytic coefficients, allowing them to diffuse more readily than larger molecules.One of the primary applications of the dialytic coefficient is in the design and optimization of dialysis machines. Engineers and medical professionals must consider this coefficient when selecting materials for membranes used in these machines. By choosing membranes with appropriate dialytic coefficients, they can ensure that harmful substances are effectively removed from the blood while retaining essential components like proteins and red blood cells.Moreover, the dialytic coefficient plays a significant role in determining the efficiency of dialysis sessions. If the coefficient is too low for certain solutes, patients may require longer treatment times or more frequent sessions to achieve the desired results. Conversely, if the coefficient is optimal, the dialysis process can be completed more quickly, improving patient comfort and quality of life.Research into the dialytic coefficient continues to evolve, with scientists exploring new materials and methods to enhance dialysis efficiency. Innovations in membrane technology, such as the development of nanofiber membranes, aim to increase the dialytic coefficient for a wider range of solutes. These advancements could lead to more effective treatments for patients, reducing the burden of chronic kidney disease.In conclusion, the dialytic coefficient is a fundamental parameter in the realm of dialysis and solute separation. Its importance cannot be overstated, as it directly impacts the effectiveness of dialysis treatments and the overall health outcomes for patients. As research progresses, we can expect to see improvements in dialysis technology that will utilize the dialytic coefficient to enhance patient care and treatment efficacy. Understanding and mastering the implications of the dialytic coefficient will not only benefit healthcare providers but also offer hope to individuals relying on dialysis for their survival.

‘透析系数’的概念在化学领域中至关重要，尤其是在讨论涉及透析的分离过程时。透析是一种用于从血液中去除废物和多余物质的方法，它依赖于扩散和渗透的原理。‘透析系数’量化了在这一过程中溶质通过半透膜的有效性。理解这个系数对于优化透析治疗并确保其对肾衰竭或其他相关疾病患者的有效性至关重要。本质上，‘透析系数’反映了膜对特定溶质的渗透性。较高的值表明溶质能够轻松穿过膜，而较低的值则表明溶质更难以穿越。这个系数受到多种因素的影响，包括溶质的大小和电荷、膜的组成以及透析发生的条件。例如，较小的溶质通常具有较高的‘透析系数’，使它们比大分子更容易扩散。‘透析系数’的主要应用之一是在透析机的设计和优化中。工程师和医疗专业人员在选择这些机器中使用的膜材料时必须考虑这个系数。通过选择具有适当‘透析系数’的膜，他们可以确保有害物质有效地从血液中去除，同时保留蛋白质和红细胞等必需成分。此外，‘透析系数’在确定透析会话的效率方面也发挥着重要作用。如果某些溶质的系数过低，患者可能需要更长的治疗时间或更频繁的会话才能达到预期效果。相反，如果系数最佳，则透析过程可以更快完成，提高患者的舒适度和生活质量。对‘透析系数’的研究仍在不断发展，科学家们正在探索新材料和方法来增强透析效率。膜技术的创新，例如纳米纤维膜的发展，旨在增加更广泛溶质的‘透析系数’。这些进展可能为患者提供更有效的治疗，减少慢性肾病的负担。总之，‘透析系数’是透析和溶质分离领域中的一个基本参数。它的重要性不容忽视，因为它直接影响透析治疗的有效性和患者的整体健康结果。随着研究的进展，我们可以期待看到利用‘透析系数’来增强患者护理和治疗效果的透析技术的改进。理解和掌握‘透析系数’的含义不仅将使医疗服务提供者受益，也将为依赖透析生存的个人带来希望。