biomedical

简明释义

英[ˌbaɪəʊˈmedɪk(ə)l]美[ˌbaɪoʊˈmedɪkl]

adj. 生物医学的

英英释义

单词用法

同义词

反义词

例句

1.He noted that biomedical journals such as Annals of Internal Medicine, the Journal of the American Medical Association and The Lancet pay strong attention to statistical review.

他指出，《内科医学年鉴》、《美国医学会杂志》和《柳叶刀》等生物医学期刊非常重视数据审查。

2.It serves as an introduction to the fundamental science and engineering on which biomedical engineering is based.

它作为一种基础科学和基于生物医学工程的工程学介绍。

3.What Is Biomedical Engineering?

什么是生物医学工程？

4.The course covers basic concepts of biomedical engineering and their connection with the spectrum of human activity.

课程内容包括生物医学工程及其与人类活动的范围方面的基本概念。

5.It takes in streams of biomedical data, such as heart rate and respiration, and alerts doctors if the babies' condition worsens.

该系统接收诸如心率和呼吸等生物医学数据流，一旦婴儿状况恶化，它便会向医生发出警报。

6.Biomedical research will enable many individuals infected with HIV to live longer, more comfortable lives.

生物医学研究将使许多感染艾滋病病毒的人们能够活得时间更长、更舒适。

7.She’s with the Whitehead Institute for Biomedical Research in Cambridge, Massachusetts.

她是2010年7月发布的一项研究的主要作者，在马萨诸塞州坎布里奇的怀特海德生物医学研究所工作。

8.The biomedical field is rapidly evolving with advancements in genetics.

随着基因技术的发展，生物医学领域正在快速演变。

9.The conference focused on biomedical innovations and their applications.

会议专注于生物医学创新及其应用。

10.The research team is developing a new biomedical technology to improve patient outcomes.

研究团队正在开发一种新的生物医学技术，以改善患者的治疗结果。

11.Many universities offer degrees in biomedical engineering.

许多大学提供生物医学工程学位课程。

12.Researchers are studying the biomedical implications of artificial intelligence in healthcare.

研究人员正在研究人工智能在医疗保健中的生物医学影响。

作文

The field of biomedical science has revolutionized the way we approach health and medicine. It combines principles from both biology and medicine to develop new technologies and therapies that can improve human health. The term biomedical refers to the application of the natural sciences, especially biology and physiology, to clinical medicine. This interdisciplinary approach has led to significant advancements in our understanding of diseases and the development of innovative treatments.One of the most notable contributions of biomedical science is the development of medical devices. These devices range from simple tools like thermometers to complex machines such as MRI scanners. Each of these innovations relies on biomedical research to ensure they are safe and effective for patient use. For example, MRI technology was developed through a deep understanding of both physics and biological processes, allowing doctors to visualize the internal structures of the body without invasive procedures.Moreover, biomedical research plays a crucial role in drug development. The process of discovering and testing new medications involves extensive research to understand how drugs interact with the body at a molecular level. This is where biomedical scientists come into play, conducting experiments to determine the efficacy and safety of new compounds. Their work is essential in bringing new treatments to market, which can save countless lives.In addition to medical devices and pharmaceuticals, biomedical science also encompasses the study of genetics and genomics. Understanding the genetic basis of diseases has opened up new avenues for treatment and prevention. For instance, gene therapy is an emerging field within biomedical science that aims to treat or prevent diseases by altering the genes inside a patient's cells. This innovative approach has the potential to cure genetic disorders that were previously thought to be untreatable.Furthermore, biomedical engineers are at the forefront of developing new technologies that can enhance patient care. They design and create equipment that can assist in surgeries, rehabilitation, and diagnostics. The integration of engineering principles with medical knowledge allows for the creation of sophisticated systems that can monitor patients' vital signs in real-time, improving outcomes and efficiency in healthcare settings.The importance of biomedical science cannot be overstated, especially in light of global health challenges such as pandemics and chronic diseases. The COVID-19 pandemic highlighted the need for rapid advancements in biomedical research, leading to the swift development of vaccines and treatments. This urgency showcased the critical role that biomedical scientists play in protecting public health and responding to health emergencies.In conclusion, biomedical science is a vital field that bridges the gap between biology and medicine. Its contributions to medical technology, drug development, genetics, and patient care have transformed healthcare as we know it. As we continue to face new health challenges, the need for continued investment in biomedical research and innovation will be paramount to ensuring a healthier future for all. The integration of various scientific disciplines within biomedical science not only enhances our understanding of human health but also paves the way for groundbreaking advancements that can improve the quality of life for individuals around the world.

生物医学科学领域彻底改变了我们对健康和医学的看法。它结合了生物学和医学的原则，以开发可以改善人类健康的新技术和疗法。术语biomedical指的是自然科学，特别是生物学和生理学在临床医学中的应用。这种跨学科的方法使我们对疾病的理解和创新治疗的发展取得了重大进展。生物医学科学最显著的贡献之一是医疗设备的发展。这些设备从简单的工具如温度计到复杂的机器如MRI扫描仪不等。每一项创新都依赖于biomedical研究，以确保它们对患者使用是安全和有效的。例如，MRI技术通过深入理解物理学和生物过程而开发出来，使医生能够在没有侵入性程序的情况下可视化身体内部结构。此外，biomedical研究在药物开发中也发挥着至关重要的作用。发现和测试新药物的过程涉及广泛的研究，以了解药物与体内分子水平的相互作用。这就是biomedical科学家的作用，他们进行实验以确定新化合物的有效性和安全性。他们的工作对于将新治疗方法推向市场至关重要，这可以拯救无数生命。除了医疗设备和药品之外，biomedical科学还包括对遗传学和基因组学的研究。理解疾病的遗传基础为治疗和预防开辟了新的途径。例如，基因治疗是在biomedical科学中出现的一个新领域，旨在通过改变患者细胞内的基因来治疗或预防疾病。这种创新的方法有潜力治愈以前被认为无法治疗的遗传疾病。此外，biomedical工程师处于开发新技术的前沿，这些技术可以增强患者护理。他们设计和创建可以协助手术、康复和诊断的设备。将工程原理与医学知识相结合，使得可以创建复杂的系统，实时监测患者的生命体征，提高医疗环境中的结果和效率。biomedical科学的重要性不容小觑，尤其是在全球健康挑战如流行病和慢性疾病面前。COVID-19大流行突显了生物医学研究快速进展的必要性，导致疫苗和治疗的迅速开发。这种紧迫性展示了biomedical科学家在保护公共健康和应对健康紧急情况中的关键作用。总之，biomedical科学是一个重要的领域，弥合了生物学和医学之间的差距。它在医疗技术、药物开发、遗传学和患者护理方面的贡献已经改变了我们所知的医疗保健。随着我们继续面临新的健康挑战，持续投资于biomedical研究和创新的必要性将是确保所有人更健康未来的关键。在biomedical科学中各种科学学科的整合不仅增强了我们对人类健康的理解，而且为可以改善世界各地个人生活质量的突破性进展铺平了道路。