artificial organ

简明释义

人工瀑

英英释义

例句

1.Researchers are experimenting with a new type of artificial organ 人工器官 that can mimic natural functions.

研究人员正在试验一种新型的人工器官，可以模拟自然功能。

2.The development of the artificial organ 人工器官 is revolutionizing the field of medicine.

人工器官的开发正在革新医学领域。

3.An artificial organ 人工器官 could potentially save thousands of lives each year.

人工器官可能每年拯救成千上万的生命。

4.Patients waiting for transplants may benefit from an artificial organ 人工器官 while they wait.

等待移植的患者在等待期间可能会受益于人工器官。

5.The artificial organ 人工器官 market is expected to grow significantly in the next decade.

预计人工器官市场将在未来十年显著增长。

作文

The advancement of medical technology has led to the development of various innovative solutions aimed at improving human health. One of the most significant breakthroughs in this field is the creation of the artificial organ, or in Chinese, '人工器官'. These devices are designed to replicate the functions of natural organs, providing critical support to patients suffering from organ failure or severe medical conditions. The significance of artificial organs cannot be overstated, as they offer hope and a better quality of life for individuals who would otherwise face dire health consequences.Historically, organ transplantation has been the primary solution for patients with failing organs. However, the demand for donor organs far exceeds the supply, leading to long waiting lists and, unfortunately, many preventable deaths. This scarcity has prompted researchers and engineers to explore alternatives, resulting in the development of artificial organs. These synthetic devices can be made from biocompatible materials that minimize the risk of rejection by the body, making them a viable option for many patients.One of the most well-known examples of an artificial organ is the heart-lung machine, which temporarily takes over the functions of the heart and lungs during surgery. This device allows surgeons to perform complex procedures while ensuring that the patient continues to receive oxygen and blood circulation. More advanced iterations include total artificial hearts, which are used for patients awaiting heart transplants. These devices can sustain life for extended periods, giving patients a chance to recover or find a suitable donor.Another remarkable innovation is the development of artificial kidneys. Traditional dialysis machines have long been the standard treatment for patients with kidney failure, but they come with limitations and require frequent visits to medical facilities. Researchers are now working on creating wearable artificial kidneys that can be used at home, allowing patients greater freedom and improving their quality of life.The field of artificial organ technology is not without challenges. Ethical concerns arise regarding the use of synthetic organs, particularly when it comes to issues of accessibility and cost. As these technologies advance, it is crucial to ensure that they are available to all patients in need, regardless of their socioeconomic status. Additionally, there are technical challenges to overcome, such as ensuring that these organs function reliably over time and integrating them seamlessly with the body’s biological systems.Despite these hurdles, the potential benefits of artificial organs are immense. They not only provide life-saving solutions for patients but also pave the way for future advancements in regenerative medicine. Scientists are exploring ways to combine artificial organ technology with stem cell research, potentially leading to the growth of bioengineered organs that could one day replace damaged ones entirely.In conclusion, the emergence of artificial organs represents a monumental leap forward in medical science. As technology continues to evolve, the hope is that these innovations will become more refined, accessible, and widely used, ultimately transforming the landscape of healthcare. For patients with organ failure, artificial organs offer not just a second chance at life, but also a promise of a healthier and more fulfilling existence.

医学技术的进步导致了各种创新解决方案的发展，旨在改善人类健康。其中一个最重要的突破是创建人工器官。这些设备旨在复制自然器官的功能，为遭受器官衰竭或严重医疗状况的患者提供关键支持。人工器官的重要性不容小觑，因为它们为那些否则将面临严重健康后果的个体提供了希望和更好的生活质量。从历史上看，器官移植一直是患有衰竭器官的患者的主要解决方案。然而，供体器官的需求远远超过供应，导致了漫长的等待名单，不幸的是，还有许多可预防的死亡。这种稀缺促使研究人员和工程师探索替代方案，最终导致了人工器官的发展。这些合成设备可以由生物相容材料制成，最大限度地减少被身体排斥的风险，使它们成为许多患者的可行选择。人工器官中最著名的例子之一是心肺机，它在手术期间暂时接管心脏和肺的功能。该设备使外科医生能够进行复杂的手术，同时确保患者继续获得氧气和血液循环。更先进的版本包括全人工心脏，供等待心脏移植的患者使用。这些设备可以维持生命较长时间，让患者有机会恢复或找到合适的供体。另一个显著的创新是开发人工肾脏。传统的透析机长期以来一直是肾功能衰竭患者的标准治疗，但它们存在局限性，需要频繁访问医疗设施。研究人员现在正在努力创建可穿戴的人工肾脏，可以在家中使用，从而让患者获得更大的自由并改善他们的生活质量。人工器官技术领域并非没有挑战。关于使用合成器官的伦理问题引发了争议，特别是在可及性和成本问题上。随着这些技术的进步，确保所有需要的患者都能获得这些技术至关重要，无论他们的社会经济状况如何。此外，还有技术挑战需要克服，例如确保这些器官在时间上可靠运行，并与身体的生物系统无缝集成。尽管面临这些障碍，人工器官的潜在好处是巨大的。它们不仅为患者提供了拯救生命的解决方案，还为再生医学的未来进步铺平了道路。科学家们正在探索将人工器官技术与干细胞研究结合的方法，可能导致生长生物工程器官，最终可能完全替代受损器官。总之，人工器官的出现代表了医学科学的一次重大飞跃。随着技术的不断发展，希望这些创新将变得更加精细、可及和广泛应用，最终改变医疗保健的格局。对于器官衰竭的患者来说，人工器官不仅提供了重获新生的机会，也承诺了更健康、更充实的生活。