tectorial

简明释义

[tekˈtɔːrɪəl][tekˈtorɪəl]

adj. 覆膜的;顶盖的;构成覆盖物的

英英释义

Relating to a structure that covers or protects something, especially in biological contexts.

与覆盖或保护某物的结构相关,尤其是在生物学上下文中。

单词用法

tectorial membrane

顶膜

tectorial plate

顶板

tectorial structure

顶结构

tectorial layer

顶层

tectorial function

顶功能

同义词

protective

保护性的

The tectorial membrane serves a protective function in the cochlea.

膜在耳蜗中起到保护作用。

covering

覆盖的

The covering layer of the structure is essential for its durability.

结构的覆盖层对其耐久性至关重要。

shielding

屏蔽的

Shielding materials are used to prevent damage from external forces.

屏蔽材料用于防止外力造成的损害。

反义词

exposed

暴露的

The exposed area of the roof needs repair.

屋顶的暴露区域需要修理。

uncovered

未覆盖的

The uncovered parts of the building are vulnerable to weather damage.

建筑物的未覆盖部分容易受到天气损害。

例句

1.The tectorial filter material is a new kind of filter material and it makes up the defects of the traditional filter materials in the process of flue dust treatment.

覆膜滤料是新型的过滤材料,弥补了普通滤料在烟尘处理过程中的不足。

2.This machine is composed by three parts: automatic paper feeding tectorial pre-coating film and cutting recycle.

该机由自动送纸、预涂膜覆合和裁断回收三部份组成。

3.The tectorial membrane part is arranged partially at the circumferential direction of the stent body, and the end part of one side of the tectorial membrane is provided with a protrudent marker.

覆膜部分在支架体圆周方向是部分设置的,在覆膜一侧端部设有凸出的标记。

4.The tectorial membrane part is arranged partially at the circumferential direction of the stent body, and the end part of one side of the tectorial membrane is provided with a protrudent marker.

覆膜部分在支架体圆周方向是部分设置的,在覆膜一侧端部设有凸出的标记。

5.Damage to the tectorial membrane can lead to significant auditory impairment.

tectorial 膜的损伤可能导致显著的听力障碍。

6.Researchers are studying the properties of the tectorial membrane to understand hearing loss better.

研究人员正在研究tectorial 膜的特性,以更好地理解听力损失。

7.The tectorial membrane plays a crucial role in the auditory system by responding to sound vibrations.

tectorial 膜在听觉系统中起着至关重要的作用,通过响应声音振动。

8.In the cochlea, the movement of the fluid causes the tectorial membrane to shift, stimulating hair cells.

在耳蜗中,液体的运动导致tectorial 膜移动,从而刺激毛细胞。

9.The tectorial membrane is essential for the transduction of sound waves into neural signals.

tectorial 膜对于将声波转化为神经信号至关重要。

作文

The concept of the tectorial membrane is often overlooked in discussions about the auditory system, yet it plays a crucial role in our ability to hear. The tectorial membrane is a structure located in the cochlea of the inner ear, and it interacts with hair cells to facilitate the process of converting sound waves into neural signals. Understanding the function and importance of the tectorial membrane can enhance our appreciation for the complexity of human hearing.When sound waves enter the ear, they cause vibrations in the tympanic membrane, which then transfer these vibrations to the ossicles. This mechanical energy is transmitted to the oval window, creating waves in the fluid-filled cochlea. As the fluid moves, it causes the tectorial membrane to shift, which in turn stimulates the hair cells that are embedded within it. These hair cells are responsible for detecting the movement and converting it into electrical signals that travel to the brain, where they are interpreted as sound.The unique structure of the tectorial membrane is essential for its function. It is a gelatinous layer that is connected to the hair cells, allowing it to move in response to fluid waves. The interaction between the tectorial membrane and hair cells is a delicate balance; if the membrane is too stiff or too flexible, it can impair hearing. This highlights the importance of maintaining the health of the inner ear structures, including the tectorial membrane, to ensure proper auditory function.Moreover, the tectorial membrane is also involved in the process of frequency discrimination. Different frequencies of sound cause different parts of the tectorial membrane to vibrate, allowing the auditory system to distinguish between high and low pitches. This ability is crucial for understanding speech and enjoying music, making the tectorial membrane an integral part of our daily lives.Research into the tectorial membrane has implications beyond just understanding hearing. Scientists are exploring how damage to this membrane can lead to hearing loss and what treatments might be available to restore its function. Innovations in biotechnology and regenerative medicine may one day allow for the repair or replacement of damaged inner ear structures, including the tectorial membrane.In conclusion, the tectorial membrane is a vital component of the auditory system. Its role in transducing sound waves into neural signals is fundamental to our ability to hear. By studying the tectorial membrane and its interactions with hair cells, we can gain insights into the complexities of hearing and potentially develop new therapies for hearing loss. The next time we enjoy a piece of music or engage in conversation, we should take a moment to appreciate the intricate workings of the tectorial membrane and the remarkable process that allows us to experience sound.

tectorial”膜的概念在讨论听觉系统时常常被忽视,但它在我们听到声音的能力中发挥着至关重要的作用。“tectorial”膜是位于内耳耳蜗中的一种结构,它与毛细胞相互作用,以促进将声波转化为神经信号的过程。理解“tectorial”膜的功能和重要性可以增强我们对人类听力复杂性的欣赏。当声波进入耳朵时,会引起鼓膜的振动,然后将这些振动传递给听小骨。这种机械能传递到椭圆窗,产生波动在充满液体的耳蜗中。当液体移动时,会导致“tectorial”膜发生位移,从而刺激嵌入其中的毛细胞。这些毛细胞负责检测运动并将其转化为电信号,这些信号会传递到大脑,在那里被解释为声音。“tectorial”膜独特的结构对于其功能至关重要。它是一种胶状层,与毛细胞相连,使其能够响应液体波动而移动。“tectorial”膜与毛细胞之间的相互作用是一种微妙的平衡;如果膜太僵硬或太柔软,都会影响听力。这突显了保持内耳结构健康的重要性,包括“tectorial”膜,以确保正常的听觉功能。此外,“tectorial”膜还参与频率辨别的过程。不同频率的声音会导致“tectorial”膜的不同部分振动,使听觉系统能够区分高低音。这种能力对于理解语言和享受音乐至关重要,使“tectorial”膜成为我们日常生活中不可或缺的一部分。对“tectorial”膜的研究不仅仅局限于理解听力。科学家们正在探索损伤此膜如何导致听力丧失,以及可能有哪些治疗方法来恢复其功能。生物技术和再生医学的创新可能有一天会使修复或替换受损的内耳结构,包括“tectorial”膜成为可能。总之,“tectorial”膜是听觉系统的重要组成部分。它在将声波转化为神经信号中的作用是我们听到声音能力的基础。通过研究“tectorial”膜及其与毛细胞的相互作用,我们可以深入了解听力的复杂性,并可能开发新的治疗听力损失的方法。下次我们享受一段音乐或进行交谈时,应该花一点时间来欣赏“tectorial”膜的精妙运作以及让我们体验声音的非凡过程。