biomedicine

简明释义

[ˌbaɪəʊˈmedɪsɪn][ˌbaɪoˈmedɪsɪn]

n. 生物医学

英英释义

Biomedicine is a branch of medical science that applies biological and physiological principles to clinical practice, focusing on the understanding, diagnosis, and treatment of diseases.

生物医学是医学科学的一个分支,应用生物和生理学原理于临床实践,重点在于理解、诊断和治疗疾病。

单词用法

biomedical research

生物医学研究

biomedical engineering

生物医学工程

biomedical applications

生物医学应用

advances in biomedicine

生物医学的进展

biomedicine and health

生物医学与健康

biomedicine industry

生物医学产业

同义词

medical biology

医学生物学

Medical biology focuses on the biological aspects of health and disease.

医学生物学专注于健康和疾病的生物学方面。

health sciences

健康科学

Health sciences encompass a wide range of disciplines related to health care.

健康科学涵盖了与医疗保健相关的广泛学科。

clinical medicine

临床医学

Clinical medicine involves the diagnosis and treatment of patients.

临床医学涉及患者的诊断和治疗。

反义词

traditional medicine

传统医学

Many people still prefer traditional medicine for its holistic approach.

许多人仍然偏爱传统医学,因为它的整体性方法。

alternative medicine

替代医学

Alternative medicine includes practices like acupuncture and herbal remedies.

替代医学包括针灸和草药疗法等实践。

例句

1.I had a career I couldn't have imagined for a physicist: nuclear physics, biomedicine, toxicology.

我的工作让人很难想象我是一个物理学家:核实验、生物医学,毒物学。

2.Therefore everyone should have sufficient knowledge about the basics of biomedicine and biotechnology.

因此每个人都应该对生物制药和生物科技的基础有着足够的认识。

3.This paper has made a review on the application magnetic nano-particles in biomedicine development.

对近年来磁性纳米粒子在生物医学上的应用进行了评述。

4.Applications of free radical theory are increasing in biomedicine field.

自由基理论在生物医学领域中的应用越来越多。

5.Studies on automation and intelligentize of ECG record and analyzing are constantly followed with interest in the biomedicine field.

心电图的检测、分析的自动化、智能化一直是生物医学仪器领域关注的重点课题。

6.Hence we have uncovered a major synergy between clinical biomedicine and complementary medicine.

因此,我们发现了一个与临床生物医药和辅助医学的重大协同作用。

7.The review is about the biological characteristics of fish and the application state of fish as laboratory animal in biomedicine research.

本文阐述了鱼类实验动物的生物学特性,并综述了其作为实验动物在生物医学研究中的应用现状。

8.These and many other potential applications are made available in biomedicine as a result of the special physical properties of magnetic nanoparticles.

因磁性纳米颗粒的特殊物理性质,它们的上述以及其他的许多潜在生物医学应用已经变得可行。

9.Discuss: (1) Nursing teaching still should pay attention to the effect of biomedicine model.

讨论:(1)护理教学仍需注意祛除生物医学模式的影响。

10.Many universities now offer degrees in biomedicine 生物医学 to prepare students for careers in health sciences.

许多大学现在提供生物医学 biomedicine学位,以为学生准备健康科学职业。

11.The field of biomedicine 生物医学 combines principles of biology and medicine to improve healthcare.

生物医学 biomedicine领域,生物学和医学的原理相结合,以改善医疗保健。

12.Clinical trials are essential for testing new drugs developed through biomedicine 生物医学 research.

临床试验对于测试通过生物医学 biomedicine研究开发的新药至关重要。

13.Innovations in biomedicine 生物医学 have led to breakthroughs in personalized medicine.

生物医学 biomedicine中的创新促成了个性化医疗的突破。

14.Researchers are making significant advances in biomedicine 生物医学 to develop new therapies for chronic diseases.

研究人员在生物医学 biomedicine领域取得了重大进展,以开发慢性疾病的新疗法。

作文

In recent years, the field of biomedicine has gained significant attention and importance in the realm of healthcare and medical research. Biomedicine refers to the application of biological and physiological principles to clinical practice, which aims to improve patient care and health outcomes. This interdisciplinary approach combines elements of biology, chemistry, physics, and engineering to develop innovative solutions for diagnosing, treating, and preventing diseases. As our understanding of human biology deepens, the role of biomedicine becomes increasingly vital in addressing complex health challenges.One of the most remarkable advancements in biomedicine is the development of personalized medicine. This concept revolves around tailoring medical treatment to the individual characteristics of each patient. By analyzing genetic information, physicians can identify specific biomarkers that indicate how a patient will respond to certain treatments. This shift from a one-size-fits-all approach to a more customized strategy not only enhances the effectiveness of therapies but also minimizes adverse effects, leading to better patient outcomes.Moreover, biomedicine plays a crucial role in the advancement of regenerative medicine. This area focuses on repairing or replacing damaged tissues and organs through techniques such as stem cell therapy and tissue engineering. For instance, researchers are exploring the potential of using stem cells to regenerate heart tissue after a heart attack, which could dramatically change the prognosis for patients with cardiovascular diseases. The implications of these breakthroughs are profound, as they offer hope for conditions that were previously deemed untreatable.Another significant aspect of biomedicine is its contribution to vaccine development. The COVID-19 pandemic highlighted the importance of rapid vaccine innovation and deployment. Through the application of biomedicine, scientists were able to develop mRNA vaccines at an unprecedented speed. This technology not only proved effective against COVID-19 but also opened doors for future vaccine development against other infectious diseases. The ability to quickly adapt and respond to emerging health threats showcases the power of biomedicine in safeguarding public health.Furthermore, the integration of artificial intelligence (AI) and machine learning into biomedicine is revolutionizing the way we approach healthcare. These technologies enable the analysis of vast amounts of data, leading to more accurate diagnostics and treatment plans. For example, AI algorithms can analyze medical images to detect anomalies that may be missed by the human eye, allowing for earlier intervention and improved patient outcomes. This synergy between technology and biomedicine holds great promise for the future of healthcare.Despite the many advancements, the field of biomedicine also faces ethical considerations. Issues such as genetic privacy, access to advanced treatments, and the implications of modifying human genetics raise important questions that society must address. As we continue to push the boundaries of what is possible in biomedicine, it is essential to ensure that ethical standards are upheld and that all individuals have equitable access to these innovations.In conclusion, biomedicine represents a transformative force in modern medicine, with the potential to redefine how we understand and treat diseases. From personalized medicine to regenerative therapies and AI integration, the advancements in biomedicine are paving the way for a healthier future. However, as we navigate these new frontiers, we must remain vigilant about the ethical implications and strive to make these breakthroughs accessible to all. The journey of biomedicine is just beginning, and its impact on human health will undoubtedly be profound in the years to come.

近年来,生物医学领域在医疗保健和医学研究中获得了显著的关注和重要性。生物医学是指将生物学和生理学原理应用于临床实践,旨在改善患者护理和健康结果。这种跨学科的方法结合了生物学、化学、物理学和工程学的元素,以开发用于诊断、治疗和预防疾病的创新解决方案。随着我们对人类生物学理解的加深,生物医学在应对复杂健康挑战中的作用变得愈加重要。生物医学中最显著的进展之一是个性化医学的发展。这个概念围绕着根据每位患者的个体特征量身定制医疗治疗。通过分析遗传信息,医生可以识别出指示患者对某些治疗反应的特定生物标志物。这种从一刀切的方法转向更为定制的策略不仅提高了治疗的有效性,还减少了不良反应,从而带来更好的患者结果。此外,生物医学在再生医学的进展中扮演着至关重要的角色。该领域专注于通过干细胞疗法和组织工程等技术修复或替代受损的组织和器官。例如,研究人员正在探索使用干细胞再生心脏组织的潜力,这可能会极大改变心血管疾病患者的预后。这些突破的影响深远,因为它们为以前被认为无法治疗的病症带来了希望。生物医学的另一个重要方面是其对疫苗开发的贡献。新冠疫情突显了快速疫苗创新和部署的重要性。通过生物医学的应用,科学家能够以空前的速度开发mRNA疫苗。这项技术不仅在新冠病毒中证明了有效性,还为未来针对其他传染病的疫苗开发打开了大门。迅速适应和应对新兴健康威胁的能力展示了生物医学在保护公共健康方面的力量。此外,将人工智能(AI)和机器学习整合到生物医学中正在彻底改变我们对医疗保健的方式。这些技术使得分析大量数据成为可能,从而导致更准确的诊断和治疗方案。例如,AI算法可以分析医学图像以检测人眼可能遗漏的异常,从而允许更早的干预和改善患者结果。这种技术与生物医学之间的协同作用对未来医疗保健充满希望。尽管有许多进展,生物医学领域也面临伦理考量。遗传隐私、高级治疗的可获取性以及修改人类遗传学的影响等问题提出了社会必须解决的重要问题。随着我们继续推动生物医学的可能性边界,确保遵守伦理标准并确保所有人都能平等获取这些创新至关重要。总之,生物医学代表了现代医学中的一种变革力量,具有重新定义我们理解和治疗疾病的潜力。从个性化医学到再生疗法,再到人工智能的整合,生物医学的进步正在为更健康的未来铺平道路。然而,在我们探索这些新前沿时,必须保持对伦理影响的警惕,并努力使这些突破对所有人都可及。生物医学的旅程才刚刚开始,其对人类健康的影响无疑将在未来几年中深远。