endocranial

简明释义

英[ˌɛndəʊˈkreɪniəl]美[ˌɛndəˈkreɪniəl]

颅内的

英英释义

单词用法

同义词

反义词

例句

1.Objective: To explore the methods of early diagnosis on endocranial hemorrhage in newborns.

目的：探讨新生儿颅内出血早期诊断手段。

2.Objective: To explore the methods of early diagnosis on endocranial hemorrhage in newborns.

目的：探讨新生儿颅内出血早期诊断手段。

3.The study focused on the effects of stress on endocranial 颅内 pressure in patients.

这项研究集中于压力对患者的endocranial 颅内 压力的影响。

4.Researchers discovered a correlation between hormonal changes and endocranial 颅内 development.

研究人员发现激素变化与endocranial 颅内 发展之间存在相关性。

5.The endocranial 颅内 structures were analyzed using advanced imaging techniques.

使用先进的成像技术分析了endocranial 颅内 结构。

6.Understanding endocranial 颅内 anatomy is crucial for neurosurgeons.

了解endocranial 颅内 解剖学对神经外科医生至关重要。

7.The endocranial 颅内 fluid dynamics can affect brain function significantly.

endocranial 颅内 液体动力学可能显著影响大脑功能。

作文

The human body is a complex and fascinating system, with various components that work together to maintain health and functionality. One of the most intriguing aspects of human anatomy is the brain, which is not only the center of our thoughts and emotions but also plays a critical role in regulating numerous bodily functions. When discussing the brain, one term that often arises is endocranial, which refers to anything located within the cranial cavity, particularly concerning the structures surrounding the brain itself. Understanding the significance of endocranial elements can provide insights into how our brain interacts with other systems in the body. The endocranial space contains various important structures, including the meninges, cerebrospinal fluid, and blood vessels. The meninges are protective membranes that envelop the brain and spinal cord, providing essential support and protection against physical impacts. Additionally, cerebrospinal fluid circulates within the endocranial cavity, acting as a cushion that absorbs shocks and helps maintain a stable environment for the brain. This fluid is crucial for the brain's overall health, as it removes waste products and delivers nutrients. Moreover, the endocranial region houses several vital blood vessels that supply oxygen and nutrients to the brain. The brain consumes a significant portion of the body's energy, and without a proper blood supply, its functions would be severely impaired. Therefore, understanding the endocranial vascular system is essential for comprehending how the brain maintains its functions and responds to various challenges, such as injury or disease. In medical research, the endocranial area is a focal point for studies related to neurodegenerative diseases, traumatic brain injuries, and other conditions affecting the central nervous system. For instance, researchers often examine changes in the endocranial structures to identify potential biomarkers for diseases like Alzheimer's or Parkinson's. By investigating the relationships between endocranial features and neurological disorders, scientists hope to develop more effective treatments and preventive measures. Furthermore, advancements in imaging technologies have allowed for better visualization of the endocranial space. Techniques such as MRI and CT scans enable healthcare professionals to assess the condition of the brain and its surrounding structures non-invasively. This has revolutionized the diagnosis and management of various neurological conditions, making it easier to detect abnormalities within the endocranial cavity. In conclusion, the term endocranial encapsulates a vital aspect of human anatomy that is crucial for understanding the brain's structure and function. The endocranial space houses essential components that protect and nourish the brain, playing a significant role in our overall health. As research continues to advance, the importance of studying endocranial elements will only grow, leading to new discoveries that could enhance our understanding of the brain and its complexities. By appreciating the intricacies of the endocranial region, we can gain a deeper understanding of how our bodies function and how to maintain our neurological health.

人体是一个复杂而迷人的系统，各种组成部分共同作用，以维持健康和功能。人类解剖学中最引人入胜的一个方面是大脑，它不仅是我们思想和情感的中心，还在调节许多身体功能中发挥着关键作用。在讨论大脑时，常常会提到一个术语——endocranial，它指的是位于颅腔内的任何东西，特别是与大脑本身周围的结构有关。理解endocranial元素的意义可以提供关于我们大脑如何与身体其他系统相互作用的见解。endocranial空间包含各种重要结构，包括脑膜、脑脊液和血管。脑膜是包裹大脑和脊髓的保护膜，提供重要的支持和保护，以防止物理冲击。此外，脑脊液在endocranial腔内循环，作为缓冲剂，吸收冲击并帮助维持大脑的稳定环境。这种液体对大脑的整体健康至关重要，因为它清除废物并输送营养。此外，endocranial区域还容纳着几条重要的血管，为大脑提供氧气和营养。大脑消耗了身体相当大一部分的能量，如果没有适当的血液供应，其功能将受到严重损害。因此，理解endocranial血管系统对于理解大脑如何维持其功能以及如何应对各种挑战（如伤害或疾病）至关重要。在医学研究中，endocranial区域是与神经退行性疾病、创伤性脑损伤和影响中枢神经系统的其他疾病相关研究的重点。例如，研究人员经常检查endocranial结构的变化，以识别阿尔茨海默病或帕金森病等疾病的潜在生物标志物。通过调查endocranial特征与神经疾病之间的关系，科学家们希望开发出更有效的治疗和预防措施。此外，成像技术的进步使得更好地可视化endocranial空间成为可能。MRI和CT扫描等技术使医疗专业人员能够非侵入性地评估大脑及其周围结构的状况。这一进展彻底改变了各种神经病症的诊断和管理，使得检测endocranial腔内异常变得更加容易。总之，endocranial这个术语概括了人类解剖学的一个重要方面，对于理解大脑的结构和功能至关重要。endocranial空间容纳着保护和滋养大脑的基本组成部分，在我们的整体健康中发挥着重要作用。随着研究的不断进展，研究endocranial元素的重要性只会增加，导致新的发现，这些发现可能会增强我们对大脑及其复杂性的理解。通过欣赏endocranial区域的复杂性，我们可以更深入地理解我们的身体如何运作以及如何维持我们的神经健康。