translational

简明释义

英[trænz'leɪʃnəl]美[trænz'leʃənl]

adj. 平移的，直移的

英英释义

单词用法

同义词

反义词

例句

1.Act returns a pair of velocities - translational and rotational (in that order) - that show the action it wants the motor to take.

act返回两个速度(依次为平移速度和旋转速度)，表示希望发动机执行的动作。

2.The work was published in the journal of Science Translational Medicine.

这一工作在《科学转化医学》的一份期刊上发表。

3.our molecular translational energy, we'll just set it to zero.

我们的能量，我们分子的平移能量。

4.The system translational energy is equal to zero.

系统的平动动能就是零。

5.Translational degrees of freedom.

平动自由度。

6.It means that without doing anything, I know the average translational energy of the molecules in this room.

它意味着不用做任何事，我知道，这个房间里分子的平均平动能。

7.Christopher Brown, from the university of Manchester's School of Translational Medicine, said in a university news release.

来自曼彻斯特大学转化医学学院的克里斯托弗·布朗教授在一次大学新闻发布会上说。

8.We need more funding for translational 转化的 research to turn discoveries into real-world solutions.

我们需要更多资金用于转化的研究，以将发现转化为现实世界的解决方案。

9.Her work in translational 转化的 research aims to bridge the gap between laboratory findings and clinical applications.

她在转化的研究中的工作旨在弥合实验室发现与临床应用之间的差距。

10.The conference will highlight advancements in translational 转化的 research methodologies.

会议将重点介绍转化的研究方法的进展。

11.The university has a dedicated program for translational 转化的 science to foster innovation in healthcare.

该大学设有专门的转化的科学项目，以促进医疗保健领域的创新。

12.The research team is focused on translational 转化的 medicine to bring new therapies to patients faster.

研究团队专注于转化的医学，以更快地将新疗法带给患者。

作文

In recent years, the term translational research has gained significant traction in the scientific community. This approach aims to bridge the gap between laboratory discoveries and their practical applications in clinical settings. The essence of translational research lies in its ability to convert basic scientific findings into tangible health solutions that can improve patient outcomes. For instance, researchers may discover a new biomarker for a disease in a lab setting, but it takes translational efforts to develop a diagnostic test that can be used in hospitals.The importance of translational research cannot be overstated. It serves as a critical link in the continuum of medical research, ensuring that innovations are not only theoretical but also applicable in real-world scenarios. A prime example of successful translational research is the development of targeted therapies for cancer treatment. Initially, scientists identified specific genetic mutations that drive cancer growth. Through translational efforts, these findings were transformed into targeted drugs that significantly improve survival rates for patients with certain types of cancer.Moreover, translational research fosters collaboration among various disciplines, including basic science, clinical medicine, and public health. Such interdisciplinary cooperation is essential because it allows for a comprehensive understanding of diseases and their impact on populations. By integrating knowledge from different fields, translational research can address complex health challenges more effectively.However, the path from discovery to application is fraught with challenges. One of the main obstacles in translational research is the lengthy process of clinical trials, which are necessary to ensure the safety and efficacy of new treatments. These trials can take years, if not decades, to complete, often leading to frustration among researchers and patients alike. Furthermore, funding for translational research can be limited, as it often requires substantial investment to move from bench to bedside.Despite these challenges, the potential benefits of translational research are immense. It not only has the power to save lives but also to reduce healthcare costs by promoting preventive measures and early interventions. For example, identifying risk factors for diseases through translational studies can lead to public health initiatives aimed at reducing the incidence of conditions such as diabetes or heart disease.In conclusion, translational research plays a pivotal role in modern medicine. By transforming scientific discoveries into practical applications, it enhances the quality of healthcare and ultimately improves patient outcomes. As we continue to advance our understanding of biology and disease, the importance of translational research will only grow, reminding us that the ultimate goal of scientific inquiry is to benefit humanity. Therefore, investing in translational research is not just an option; it is a necessity for the future of medicine and public health.

近年来，术语转化性研究在科学界获得了显著的关注。这种方法旨在弥合实验室发现与其在临床环境中实际应用之间的差距。转化性研究的本质在于其能够将基础科学发现转化为可以改善患者结果的切实健康解决方案。例如，研究人员可能在实验室环境中发现了一种新的疾病生物标志物，但需要通过转化性努力开发出可以在医院使用的诊断测试。转化性研究的重要性不容小觑。它作为医学研究连续体中的关键环节，确保创新不仅是理论上的，而且在现实场景中具有可应用性。成功的转化性研究的一个典范是针对癌症治疗的靶向疗法的开发。最初，科学家们识别出了驱动癌症生长的特定基因突变。通过转化性努力，这些发现被转化为靶向药物，显著提高了某些类型癌症患者的生存率。此外，转化性研究促进了各个学科之间的合作，包括基础科学、临床医学和公共卫生。这种跨学科的合作至关重要，因为它允许对疾病及其对人群影响的全面理解。通过整合来自不同领域的知识，转化性研究能够更有效地应对复杂的健康挑战。然而，从发现到应用的道路充满挑战。转化性研究的主要障碍之一是临床试验的漫长过程，这对于确保新治疗的安全性和有效性是必要的。这些试验可能需要数年甚至数十年的时间才能完成，常常导致研究人员和患者的沮丧。此外，转化性研究的资金可能有限，因为它通常需要大量投资才能从实验室走向临床。尽管面临这些挑战，转化性研究的潜在好处是巨大的。它不仅有能力挽救生命，还能通过促进预防措施和早期干预来降低医疗成本。例如，通过转化性研究确定疾病的风险因素，可以推动公共卫生倡议，以减少糖尿病或心脏病等疾病的发生率。总之，转化性研究在现代医学中发挥着关键作用。通过将科学发现转化为实际应用，它提高了医疗质量，并最终改善了患者的结果。随着我们继续加深对生物学和疾病的理解，转化性研究的重要性只会增加，提醒我们科学探究的最终目标是造福人类。因此，投资于转化性研究不仅是一个选择，而是医学和公共卫生未来的必要条件。