cochlear

简明释义

英[/ˈkɑːklɪər/]美[/ˈkɑːklɪər/]

adj. 耳蜗的

英英释义

单词用法

同义词

反义词

例句

1.Some electronic circuits have also made their way into the bodies of people in the form of heart pacemakers and cochlear implants.

电路也广泛应用于人体，比如心脏起搏器，人工耳蜗装置。

2.Objective: to observe the effect of furosemide on the cochlear microphonic potential (CM) and auditory nerve potential (AP).

目的观察速尿对豚鼠耳蜗微音器电位(CM)和听神经动作电位(AP)的影响。

3.Now I have a cochlear implant in each ear.

现在，我每只耳朵里都植入了一个耳蜗。

4.In 2004, Mr. Huffman had a magnet surgically inserted into his fingertip to study the utility of cochlear implants for the hearing-impaired.

2004年，Huffman先生将一块磁铁外科手术般地植入他的指尖里，来学习了解对于耳障患者人工耳蜗植入技术的应用。

5.It has been tested on patients needing cochlear implants.

它被应用于需要耳蜗植入的患者来进行检验。

6.But as cochlear implants have shown, the technology that first reaches the market is very different from what is available 20 years later.

但是，就像耳蜗植入设备一样，刚刚推向市场的技术和20年后被广泛使用的技术是完全不同的。

7.She received a cochlear implant to help her hear better.

她接受了一个耳蜗植入手术，以帮助她更好地听到声音。

8.The doctor explained how the cochlear system works.

医生解释了耳蜗系统的工作原理。

9.After the cochlear surgery, he was able to hear sounds he hadn't heard in years.

在耳蜗手术后，他能够听到多年来未曾听到的声音。

10.The cochlear implant has revolutionized the treatment of hearing loss.

这款耳蜗植入物彻底改变了听力损失的治疗方式。

11.Many children benefit from cochlear implants at a young age.

许多儿童在年轻时受益于耳蜗植入物。

作文

The human ear is a remarkable organ that plays a crucial role in our ability to perceive sound. Among its various components, the cochlea is particularly significant. The term cochlear refers to anything related to the cochlea, which is a spiral-shaped structure located in the inner ear. This fascinating part of the auditory system is responsible for converting sound waves into electrical signals that the brain can interpret. Understanding the function of the cochlear system is essential for appreciating how we hear and process sounds in our environment.The cochlea contains hair cells that act as sensory receptors. When sound waves enter the ear, they cause the fluid within the cochlea to move, which in turn stimulates these hair cells. The bending of the hair cells generates electrical impulses that travel along the auditory nerve to the brain, where they are interpreted as sound. This intricate process highlights the importance of the cochlear structure in our daily lives, as it allows us to enjoy music, communicate with others, and be aware of our surroundings.Unfortunately, many individuals suffer from hearing loss due to damage to the cochlear system. Conditions such as age-related hearing loss, exposure to loud noises, and genetic factors can lead to the deterioration of hair cells, resulting in diminished auditory perception. In recent years, advancements in medical technology have led to the development of cochlear implants, which are devices designed to bypass damaged portions of the ear and directly stimulate the auditory nerve. These implants have revolutionized the treatment of hearing loss, providing many individuals with the opportunity to regain their sense of hearing.Cochlear implants work by converting sound into electrical signals, similar to the natural function of the cochlear system. The device consists of an external microphone that picks up sound, a processor that analyzes the sound, and electrodes that are implanted in the cochlea. This innovative technology has enabled countless people to experience sound again, significantly improving their quality of life.In addition to medical applications, research on the cochlear system has also enhanced our understanding of the auditory processing in the brain. Scientists are continually exploring how the brain interprets the signals received from the cochlea, leading to new insights into auditory perception and potential treatments for hearing disorders. This ongoing research emphasizes the importance of the cochlear structure not only in hearing but also in understanding the complexities of the human brain.In conclusion, the cochlear system is a vital component of our auditory experience. Its ability to convert sound waves into electrical signals is essential for communication and interaction with the world around us. As technology advances, the potential for restoring hearing through cochlear implants and other innovations continues to grow. By understanding the significance of the cochlear structure, we can better appreciate the intricacies of hearing and the importance of preserving our auditory health.

人耳是一个非凡的器官，它在我们感知声音的能力中发挥着至关重要的作用。在其各个组成部分中，耳蜗特别重要。术语耳蜗指的是与耳蜗有关的任何事物，耳蜗是位于内耳的螺旋状结构。这个迷人的听觉系统的一部分负责将声波转化为大脑可以解读的电信号。理解耳蜗系统的功能对于欣赏我们如何听到和处理周围声音至关重要。耳蜗包含作为感官接收器的毛细胞。当声波进入耳朵时，它们会导致耳蜗内的液体运动，从而刺激这些毛细胞。毛细胞的弯曲会产生电冲动，这些电冲动沿着听神经传递到大脑，在那里被解释为声音。这个复杂的过程突显了耳蜗结构在我们日常生活中的重要性，因为它使我们能够享受音乐、与他人沟通以及意识到我们的周围环境。不幸的是，许多人由于耳蜗系统的损伤而遭受听力损失。年龄相关的听力损失、暴露于噪音和遗传因素等情况可能导致毛细胞的退化，从而导致听觉感知的减弱。近年来，医学技术的进步导致了耳蜗植入物的发展，这是一种旨在绕过受损耳朵部分并直接刺激听神经的设备。这些植入物革命性地改变了听力损失的治疗，为许多人提供了恢复听力的机会。耳蜗植入物通过将声音转换为电信号来工作，类似于耳蜗系统的自然功能。该设备由一个外部麦克风组成，拾取声音，一个处理器分析声音，以及植入耳蜗的电极。这项创新技术使无数人再次体验声音，显著改善了他们的生活质量。除了医学应用之外，对耳蜗系统的研究还增强了我们对大脑听觉处理的理解。科学家们不断探索大脑如何解释来自耳蜗的信号，从而带来了对听觉感知和潜在治疗听力障碍的新见解。这项持续的研究强调了耳蜗结构在听力和理解人类大脑复杂性方面的重要性。总之，耳蜗系统是我们听觉体验的重要组成部分。它将声波转化为电信号的能力对于与周围世界的交流和互动至关重要。随着技术的进步，通过耳蜗植入物和其他创新恢复听力的潜力不断增长。通过理解耳蜗结构的重要性，我们可以更好地欣赏听力的复杂性以及保护我们听觉健康的重要性。