prosthetic

简明释义

英[prɒsˈθetɪk]美[prɑːsˈθetɪk]

adj. 假体的；非朊基的

英英释义

单词用法

同义词

反义词

例句

1.Dr Herr plans to add regenerative capabilities to his prosthetic devices, such as the PowerFoot One.

赫尔博士准备为他的假肢设备——如PowerFoot One——添加可再生功能。

2.With most prosthetic devices, including the Rheo Knee, much of the energy put into them by the body is lost, rather than being recovered.

大多数的义肢装置——包括磁流变智能膝关节——人体施于其上的多数能量都流失了，而不是被重新利用。

3.These muscle movements are detected by electromyography (EMG) sensors on the skin, and the signals are translated into movements by the prosthetic.

皮肤上的肌电图扫描感受器检测这些肌肉运动，然后信号通过假肢转换成运动。

4.He has undergone 25 operations and wears a prosthetic leg.

他已经做过二十五次手术，现在装了一只假腿。

5.Until the prosthetic was attached, Beauty relied on human handlers to feed her, but thanks to the new beak she can again grasp her own food.

在装上义喙前，“丽人”一直靠饲养员喂食，但有了这副新嘴巴之后，她就又能自己叼着食物了。

6.And the arm underneath? A prosthetic — controlled by brain implant.

至于手臂——那是由大脑植入系统所控制的假肢。

7.The aim is to create a prosthetic that is as close a match as possible.

这一系统的目的就是为了创造出(与患者肢体)尽量匹配的假肢。

8.He was fitted with a prosthetic 假肢 arm that greatly improved his quality of life.

他配备了一个假肢手臂，这大大改善了他的生活质量。

9.After the accident, she received a new prosthetic 义肢 that allowed her to walk again.

事故后，她得到了一个新的义肢，使她能够再次行走。

10.The latest prosthetic 假肢 technology uses sensors to mimic natural movement.

最新的假肢技术使用传感器来模拟自然运动。

11.The athlete trained hard to compete with others who also had prosthetic 义肢.

这位运动员努力训练，以与其他拥有义肢的人竞争。

12.Advancements in prosthetic 假肢 design have made them lighter and more functional.

在假肢设计方面的进步使它们更加轻便和实用。

作文

The advancement of technology has brought about remarkable changes in various fields, especially in medicine. One of the most significant innovations is the development of prosthetic limbs. These artificial devices have transformed the lives of many individuals who have suffered from limb loss due to accidents, diseases, or congenital conditions. The word prosthetic refers to an artificial device that replaces a missing body part, and its impact on society cannot be overstated.In the past, individuals with amputations faced numerous challenges, both physically and emotionally. Traditional prosthetics were often uncomfortable, heavy, and limited in functionality. However, modern prosthetic technology has evolved to create lighter, more adaptable, and user-friendly devices. For instance, advancements in materials such as carbon fiber and advanced polymers have made it possible to produce prosthetic limbs that are not only durable but also lightweight. This has allowed users to regain mobility and engage in activities they once enjoyed, such as running, cycling, and even dancing.Moreover, the integration of technology into prosthetic devices has opened up new possibilities. The advent of bionic limbs, which use sensors and motors to mimic natural movement, represents a significant leap forward. These high-tech prosthetic limbs can respond to the user's muscle signals, allowing for a more natural and fluid range of motion. For example, a person wearing a bionic arm can perform tasks such as grasping objects or typing on a keyboard with ease, thereby enhancing their independence and quality of life.The psychological impact of prosthetic limbs is equally important. Many individuals who have lost limbs experience feelings of loss and grief. The ability to use a prosthetic limb can significantly improve their self-esteem and help them reintegrate into society. Support groups and rehabilitation programs play a crucial role in this process, providing emotional support and practical training to help users adapt to their new devices. This holistic approach to recovery emphasizes not just physical healing but also mental well-being.Furthermore, the field of prosthetic research continues to grow, with scientists and engineers working tirelessly to develop even more advanced solutions. Innovations such as 3D printing have made it possible to create custom-fitted prosthetic devices at a fraction of the cost and time of traditional methods. This democratization of prosthetic technology means that more individuals around the world can access these life-changing devices, regardless of their socio-economic status.In conclusion, the evolution of prosthetic technology has had a profound impact on the lives of many individuals. From improved mobility to enhanced emotional well-being, prosthetic limbs have become symbols of resilience and hope. As we look to the future, it is essential to continue supporting research and development in this field, ensuring that everyone who needs a prosthetic limb can benefit from the latest advancements. The journey of those who wear prosthetic devices is a testament to human ingenuity and the relentless pursuit of a better quality of life.

科技的进步给各个领域带来了显著的变化，尤其是在医学方面。其中最重要的创新之一就是假肢的开发。这些人工装置改变了许多因事故、疾病或先天性条件而失去肢体的人的生活。假肢一词指的是替代缺失身体部位的人工装置，其对社会的影响不可小觑。在过去，截肢者面临着许多身体和情感上的挑战。传统的假肢往往不舒适、笨重且功能有限。然而，现代假肢技术已经发展出更轻便、更适应用户需求且更易于使用的设备。例如，碳纤维和先进聚合物等材料的进步使得生产出不仅耐用而且轻便的假肢成为可能。这使得用户能够重新获得移动能力，参与他们曾经喜爱的活动，如跑步、骑自行车甚至跳舞。此外，技术与假肢设备的结合开辟了新的可能性。仿生肢体的出现，利用传感器和电机模拟自然运动，代表了一个重大进步。这些高科技假肢可以响应用户的肌肉信号，从而实现更自然、流畅的运动范围。例如，佩戴仿生手臂的人可以轻松进行抓取物体或在键盘上打字等任务，从而增强他们的独立性和生活质量。假肢对心理的影响同样重要。许多失去肢体的人经历失落和悲伤的感觉。能够使用假肢可以显著改善他们的自尊心，并帮助他们重新融入社会。支持小组和康复项目在这个过程中发挥了至关重要的作用，提供情感支持和实际培训，以帮助用户适应他们的新设备。这种整体的恢复方法强调的不仅是身体的愈合，还有心理的健康。此外，假肢研究领域持续发展，科学家和工程师们不断努力开发更先进的解决方案。3D打印等创新使得以传统方法的几分之一的成本和时间制作定制的假肢成为可能。这种假肢技术的民主化意味着世界上更多的人可以获得这些改变生活的设备，无论他们的社会经济地位如何。总之，假肢技术的演变对许多人的生活产生了深远的影响。从改善移动性到增强情感幸福感，假肢已成为韧性和希望的象征。展望未来，继续支持这一领域的研究和发展至关重要，确保每一个需要假肢的人都能受益于最新的进展。那些佩戴假肢的人的旅程是人类创造力和不懈追求更好生活质量的见证。