geniculate

简明释义

英[dʒɪˈnɪkjʊlɪt]美[dʒəˈnɪkjuleɪt]

adj. 膝状弯曲的；有膝状关节的

英英释义

单词用法

同义词

反义词

例句

1.Objective To study the effects of strabismus on the development of the neurons in lateral geniculate nuclei (LGN) and visual cortex in cats.

目的观察斜视对猫外侧膝状体神经元和视皮层神经元发育的影响。

2.Conclusion It is important for otologists to know the anatomic structure of AER and its relationship with facial nerve and geniculate ganglion.

结论熟悉上鼓室前隐窝的解剖特征及其重要内容如膝状神经节、匙突、面神经水平段之间的关系至关重要。

3.Refers to a collection of axons coursing from the lateral geniculate body to the visual cortex.

收集从侧膝状体到视觉皮质的轴突传递。

4.Results:(1)The geniculate ganglion (GG) was in the layer of lateral semicircular canal .

结果：（1）面神经膝状神经节（GG）多位于外半规管层面。

5.Conclusion: There is synchronous development in the microvascular of the homologous region between infant lateral geniculate body and visual cortex.

结论：幼儿外侧膝状体及视皮质相对应区域微血管同步发育。

6.Although the ontogeny of the optic system to the lateral geniculate body, superior colliculus have been well studied.

虽然视神经的发育已有报告，但对于到副视神经系统的内终核之研究却未有了解。

7.Result: It is demonstrated that 8.3 % geniculate ganglion and labyrinth segment of facial nerve Variation which distance from hiatus of facial nerve to geniculate ganglion is distinct.

结果：8.3%面神经迷路段和膝状神经节骨管型缺如，面神经裂孔到膝神经节的距离变异较大。

8.The experimental results indicated neuronic morphology and structure of grafts were as same as normal medial geniculate body's on the whole, but neuronic development of grafts had certain delay.

结果显示移植物神经元的形态结构与正常内侧膝状体基本一致，但在发育过程上有一定的延迟。

9.The experimental results indicated neuronic morphology and structure of grafts were as same as normal medial geniculate body's on the whole, but neuronic development of grafts had certain delay.

结果显示移植物神经元的形态结构与正常内侧膝状体基本一致，但在发育过程上有一定的延迟。

10.Retinal ganglion cells carry signals out of the eye to the lateral geniculate nuclei.

视网膜神经节细胞运载信号在眼睛外面对侧向膝状的神经核。

11.The geniculate nucleus in the brain plays a crucial role in visual processing.

大脑中的geniculate核在视觉处理过程中起着关键作用。

12.In botany, some plants have geniculate branches that allow them to adapt better to their environment.

在植物学中，一些植物具有geniculate的分支，使它们能更好地适应环境。

13.The architect designed a geniculate arch that added an elegant touch to the building.

建筑师设计了一个geniculate拱门，为建筑增添了优雅的气息。

14.The doctor explained that the term geniculate refers to structures that are bent or angled, particularly in the knee joint.

医生解释说，术语geniculate指的是弯曲或倾斜的结构，特别是在膝关节中。

15.During the anatomy class, we studied the geniculate ligaments of the knee.

在解剖课上，我们学习了膝关节的geniculate韧带。

作文

The human body is a marvel of engineering, with each part working in harmony to create the complex system that sustains life. One of the fascinating aspects of our anatomy is the way certain structures are designed to bend or curve, allowing for greater flexibility and function. A prime example of this can be seen in the knee joint, which is often described as a 膝关节 due to its unique shape. This term, derived from the Latin word 'geniculate,' means 'bent' or 'knee-like.' The 膝关节 allows for both stability and mobility, enabling us to walk, run, and jump with ease.In addition to the 膝关节, the concept of bending or curving can also be found in other areas of the body. For instance, the elbow joint is another 膝关节-like structure that facilitates movement in our arms. These joints are not only crucial for physical activity but also play a significant role in our daily lives. Without them, simple tasks such as lifting objects or reaching for something would become incredibly challenging.Moreover, the term 膝关节 can also be applied metaphorically in various fields. In architecture, for example, the design of buildings often incorporates curves and bends to create aesthetically pleasing structures. Just as the 膝关节 enhances our ability to move, these architectural features can enhance the functionality and beauty of a space.In the realm of technology, engineers often draw inspiration from biological systems, a field known as biomimicry. The 膝关节 serves as an excellent model for creating robotic joints that mimic human movement. By studying how these joints work, engineers can develop more efficient and effective machines that can perform tasks similar to those of humans.Understanding the importance of the 膝关节 extends beyond just biology; it invites us to appreciate the interconnectedness of various disciplines. Whether in medicine, engineering, or art, the principles of bending and curving can lead to innovative solutions to complex problems. For instance, in medicine, recognizing the significance of 膝关节 can help healthcare professionals better understand injuries and develop rehabilitation programs tailored to restore function.In conclusion, the term 膝关节 encapsulates the beauty of design in both nature and human-made structures. It serves as a reminder of the elegance and efficiency found in bending forms, whether in our bodies, buildings, or machines. As we continue to explore the intricacies of our world, let us remain curious about the connections between different fields and the lessons we can learn from them. The 膝关节 is just one example of how understanding the mechanics of bending can enrich our knowledge and inspire innovation across various domains.

人体是工程的奇迹，每个部分都和谐地运作，创造出维持生命的复杂系统。我们解剖学的一个迷人方面是某些结构的设计方式，使其能够弯曲或曲折，从而允许更大的灵活性和功能。一个典型的例子可以在膝关节中看到，它常常被描述为膝关节，因为它独特的形状。这个词源于拉丁语'geniculate'，意思是'弯曲的'或'像膝盖的'。膝关节既允许稳定性又允许活动，使我们能够轻松地行走、奔跑和跳跃。除了膝关节，弯曲或曲折的概念还可以在身体的其他部位找到。例如，肘关节是另一个类似于膝关节的结构，促进我们手臂的运动。这些关节不仅对身体活动至关重要，而且在我们的日常生活中也发挥着重要作用。如果没有它们，简单的任务如提起物体或伸手去拿东西将变得非常具有挑战性。此外，膝关节这个术语在各个领域也可以隐喻性地应用。在建筑学中，例如，建筑的设计通常包含曲线和弯曲，以创造美观的结构。正如膝关节增强了我们的运动能力，这些建筑特征也可以增强空间的功能性和美感。在技术领域，工程师经常从生物系统中汲取灵感，这一领域被称为仿生学。膝关节作为创建模仿人类运动的机器人关节的优秀模型。通过研究这些关节的工作原理，工程师可以开发出更高效、更有效的机器，能够执行类似于人类的任务。理解膝关节的重要性超越了生物学；它邀请我们欣赏各种学科之间的相互联系。无论是在医学、工程还是艺术中，弯曲和曲折的原则都可以为复杂问题提供创新的解决方案。例如，在医学中，认识到膝关节的重要性可以帮助医疗专业人员更好地理解损伤，并制定针对恢复功能的康复计划。总之，膝关节这一术语概括了自然和人造结构设计的美。它提醒我们在弯曲形式中发现的优雅和效率，无论是在我们的身体、建筑还是机器中。随着我们继续探索世界的复杂性，让我们保持对不同领域之间联系的好奇，以及我们可以从中学习的经验教训。膝关节只是一个例子，说明理解弯曲的机制如何丰富我们的知识并激励各个领域的创新。