otolithic

简明释义

英[əʊtəˈlɪθɪk]美[oʊtəˈlɪθɪk]

位觉砂的

耳石的

英英释义

单词用法

同义词

反义词

例句

1.By physiological analyze, freehand exercise for anti-sea-sickness is surely proved it can irritate and train otolithic organ system, so the body can adapt the stimulate to the surf gradually.

通过生理学分析，指出抗眩晕操确有刺激、锻炼耳石器官系统，使之逐渐适应海浪刺激的作用。

2.The macula lagena is another otolithic organ in the inner ear of non-mammals, and the lagena of more advaced birds develops better than that of lower animals.

哺乳动物只含有球囊和椭圆囊两种耳石器官，而非哺乳动物中还存在另外一种耳石器官——瓶状囊。

3.By physiological analyze, freehand exercise for anti-sea-sickness is surely proved it can irritate and train otolithic organ system, so the body can adapt the stimulate to the surf gradually.

通过生理学分析，指出抗眩晕操确有刺激、锻炼耳石器官系统，使之逐渐适应海浪刺激的作用。

4.VEMP recording could become an attractive method for testing otolithic receptors and vestibulospinal pathways.

VEMP可能成为一种检测前庭终器及其传导通路完整性的方法。

5.The otolithic 耳石的 membrane is sensitive to gravity and acceleration.

耳石膜对重力和加速度非常敏感。

6.The otolithic 耳石的 organs help maintain balance in the human body.

耳石器官帮助维持人体的平衡。

7.In a study, researchers examined how otolithic 耳石的 responses affect spatial orientation.

在一项研究中，研究人员检查了耳石反应如何影响空间定向。

8.Disruption of the otolithic 耳石的 function can lead to dizziness.

耳石功能的干扰可能导致头晕。

9.Patients with otolithic 耳石的 disorders often experience balance issues.

患有耳石疾病的患者通常会经历平衡问题。

作文

The human body is a marvel of biological engineering, with various systems working in harmony to maintain balance and coordination. One of the key components in this intricate system is the vestibular system, which is responsible for our sense of balance and spatial orientation. At the heart of this system are structures known as the otoliths, which are critical for detecting gravity and linear acceleration. The term otolithic refers to anything related to these otoliths, which are small calcium carbonate crystals located within the inner ear. Understanding the role of these otolithic organs can help us appreciate how our bodies interact with the environment around us.Otoliths function primarily in two ways: they help us perceive head position relative to gravity and assist in the detection of motion. When we move our heads or change our posture, the otolithic organs respond to these changes by sending signals to the brain about our body's orientation. This information is crucial for maintaining balance, especially during activities such as walking, running, or even standing still. Without the proper functioning of the otolithic system, individuals may experience dizziness, vertigo, or other balance disorders that can severely impact their daily lives.Moreover, the otolithic system works in conjunction with other sensory systems, including vision and proprioception, to create a comprehensive understanding of our body's position in space. For example, when we walk on uneven surfaces, our otolithic organs detect changes in our head position while our eyes provide visual cues about the terrain. This integration of sensory information allows us to make quick adjustments to maintain our balance, demonstrating the sophisticated nature of our body's coordination mechanisms.In addition to their role in balance, otolithic organs are also involved in the processing of sound. The inner ear contains structures that convert sound vibrations into neural signals, and the otolithic organs play a part in this auditory process. This dual function highlights the importance of the otolithic system not only in equilibrium but also in our ability to perceive and interpret sound, further emphasizing its significance in our everyday experiences.However, certain conditions can affect the functionality of the otolithic system, leading to various health issues. For instance, benign paroxysmal positional vertigo (BPPV) is a common disorder caused by the displacement of otolithic debris within the inner ear, resulting in episodes of intense dizziness triggered by changes in head position. Treatment often involves specific maneuvers designed to reposition the displaced otolithic particles, illustrating the clinical relevance of understanding these structures.In conclusion, the term otolithic encapsulates a vital aspect of our vestibular system, highlighting the importance of otoliths in maintaining balance, spatial awareness, and even auditory processing. As we continue to explore the complexities of the human body, it becomes increasingly evident that the otolithic organs play an indispensable role in our daily lives. By acknowledging and understanding the functions of these remarkable structures, we can better appreciate the intricate systems that allow us to navigate the world with grace and stability.

人类身体是生物工程的一项奇迹，各种系统和谐地协同工作，以维持平衡和协调。在这个复杂系统的核心是前庭系统，它负责我们的平衡感和空间定位。这个系统的关键组成部分是称为耳石的结构，它们对重力和线性加速度的检测至关重要。术语otolithic指与这些耳石相关的任何事物，这些耳石是位于内耳的小钙碳酸晶体。理解这些otolithic器官的作用可以帮助我们欣赏身体如何与周围环境互动。耳石主要以两种方式发挥作用：它们帮助我们感知头部相对于重力的位置，并协助检测运动。当我们移动头部或改变姿势时，otolithic器官通过向大脑发送关于我们身体方向的信号来响应这些变化。这些信息对于维持平衡至关重要，尤其是在走路、跑步甚至静止站立等活动中。如果otolithic系统功能不正常，个体可能会经历头晕、眩晕或其他平衡障碍，这会严重影响他们的日常生活。此外，otolithic系统与其他感官系统（包括视觉和本体感觉）协同工作，以创建对我们身体在空间中位置的全面理解。例如，当我们在不平坦的表面上行走时，我们的otolithic器官检测到头部位置的变化，而我们的眼睛提供关于地形的视觉线索。这种感官信息的整合使我们能够快速调整以保持平衡，展示了我们身体协调机制的复杂性。除了在平衡中的作用外，otolithic器官还参与声音的处理。内耳包含将声音振动转化为神经信号的结构，而otolithic器官在这一听觉过程中也起着一定作用。这一双重功能突显了otolithic系统在平衡和感知声音方面的重要性，进一步强调了它在我们日常体验中的重要性。然而，某些疾病可能影响otolithic系统的功能，导致各种健康问题。例如，良性阵发性位置性眩晕（BPPV）是一种常见疾病，由于耳内otolithic碎片的位移引起，导致因头部位置变化而触发的剧烈眩晕发作。治疗通常涉及特定的操作，旨在重新定位位移的otolithic颗粒，说明了解这些结构的临床相关性。总之，术语otolithic概括了我们前庭系统的一个重要方面，突显了耳石在维持平衡、空间意识甚至听觉处理中的重要性。随着我们继续探索人体的复杂性，越来越明显的是，otolithic器官在我们日常生活中发挥着不可或缺的作用。通过承认和理解这些非凡结构的功能，我们可以更好地欣赏允许我们优雅稳定地导航世界的复杂系统。