reticular
简明释义
英[rɪˈtɪkjʊlə(r)]美[rɪˈtɪkjələr]
adj. 网状的;错综的
英英释义
与网络或网状结构相关或相似。 | |
Characterized by a mesh-like arrangement of interconnected elements. | 以相互连接的元素形成网状排列为特征。 |
单词用法
网状结构 |
同义词
反义词
| 固体 | The solid structure of the material provides better support. | 这种材料的固体结构提供了更好的支撑。 | |
| 密集的 | 这片密集的森林难以穿越。 |
例句
1.Conclusion: the reticular titanium implant is better than the other kinds of internal fixation.
结论:钛制网状接骨板比其它类型内固定有优越之处。
2.Objective to explore the ability of grafted Schwann cells to promote restore of injured brain stem reticular structure in rats.
目的探讨雪旺氏细胞移植对电针损伤的大鼠中脑网状结构的修复作用。
3.However, his new cell mate told him that he got a neuroanatomic lesion affecting his reticular activating system.
然而,他的新狱友告诉他,他的神经系统受到了损伤,影响了他的网状神经激活系统。
4.Which of the following statements concerning the brainstem reticular formation is NOT true?
下列关于脑干网状构造的叙述何者不正确?
5.This tissue is composed of stellate reticular cells.
此组织由星形的网状细胞组成。
6.Results: Sections are more bright and colourful in comparison with other tissues and tenuous reticular fiber appear clearer.
结果:切片色彩鲜丽,与其它组织对比色强烈,较纤细的网状纤维也能显示清晰。
7.The scientist observed a reticular structure in the cell, which is essential for its function.
科学家观察到细胞中有一个网状的结构,这对其功能至关重要。
8.The reticular fibers in the connective tissue provide support and elasticity.
结缔组织中的网状的纤维提供支持和弹性。
9.The artist used a reticular pattern in her design to create depth and interest.
艺术家在她的设计中使用了一个网状的图案,以创造深度和趣味。
10.In biology, the reticular formation plays a crucial role in regulating wakefulness.
在生物学中,网状的结构在调节清醒状态中起着至关重要的作用。
11.The architect designed a reticular facade that allows natural light to filter through.
建筑师设计了一个网状的外立面,使自然光能够透过。
作文
The human body is a complex system made up of various structures and functions that work together to maintain health and vitality. One of the fascinating aspects of our anatomy is the presence of a network of tissues and cells that can be described as reticular. The term reticular refers to something that is net-like or formed in a network. This characteristic is particularly evident in various biological systems, such as the lymphatic system and the connective tissues of the body.For instance, the lymphatic system plays a crucial role in our immune response. It consists of a vast network of vessels and nodes that filter lymph fluid and help the body fight infections. The structure of these lymph nodes is reticular, allowing them to trap pathogens effectively. This reticular architecture not only provides a framework for the cells involved in immune responses but also facilitates the movement of lymph fluid through the system.In addition to the lymphatic system, the reticular connective tissue is another example where this term applies. This type of tissue is composed of a network of reticular fibers that provide support to various organs, such as the spleen and liver. These fibers create a three-dimensional structure that allows for flexibility while providing essential support. The reticular fibers are made of collagen and elastin, which contribute to the strength and resilience of the tissue.Moreover, the reticular formation in the brain is a critical component of the central nervous system. This network of neurons plays a vital role in regulating arousal, attention, and consciousness. The reticular formation acts as a filter for sensory information, determining what reaches our conscious awareness. This filtering system helps us focus on important stimuli while ignoring distractions, showcasing the importance of reticular structures in cognitive processes.Understanding the significance of reticular structures in our body can lead to a greater appreciation for the complexity of human biology. These networks are not just random arrangements; they serve specific functions that are crucial for our survival. As we dive deeper into the study of anatomy and physiology, we uncover the intricate relationships between different systems and how they rely on reticular formations to function optimally.In conclusion, the term reticular encapsulates the essence of interconnectedness within biological systems. Whether it is in the lymphatic system, connective tissues, or the brain, reticular structures play an indispensable role in maintaining the health and functionality of our bodies. By recognizing the importance of these networks, we can better understand the complexities of life and the remarkable ways in which our bodies work to keep us alive and well.
人类身体是一个复杂的系统,由各种结构和功能组成,这些结构和功能共同工作以维持健康和活力。我们解剖学中一个迷人的方面是存在一种组织和细胞的网络,可以用reticular来描述。reticular这个术语指的是网状或以网络形式形成的东西。这一特征在各种生物系统中尤为明显,例如淋巴系统和身体的结缔组织。例如,淋巴系统在我们的免疫反应中发挥着至关重要的作用。它由一个庞大的血管和淋巴结网络组成,过滤淋巴液并帮助身体抵抗感染。这些淋巴结的结构是reticular的,使其能够有效地捕获病原体。这种reticular结构不仅为参与免疫反应的细胞提供了框架,还促进了淋巴液在系统中的流动。除了淋巴系统,reticular结缔组织是另一个适用该术语的例子。这种类型的组织由一系列reticular纤维组成,为脾脏和肝脏等各种器官提供支持。这些纤维创建了一个三维结构,允许灵活性,同时提供必要的支持。reticular纤维由胶原蛋白和弹性蛋白组成,这些成分有助于组织的强度和韧性。此外,大脑中的reticular形成是中枢神经系统的一个关键组成部分。这种神经元网络在调节唤醒、注意力和意识方面发挥着重要作用。reticular形成充当感官信息的过滤器,决定哪些信息进入我们的意识。这个过滤系统帮助我们专注于重要的刺激,同时忽略干扰,展示了reticular结构在认知过程中的重要性。理解reticular结构在我们身体中的重要性,可以使我们更加欣赏人类生物学的复杂性。这些网络并非随机排列;它们服务于特定的功能,对我们的生存至关重要。当我们深入研究解剖学和生理学时,我们发现不同系统之间的复杂关系,以及它们如何依赖于reticular结构以最佳方式运作。总之,reticular这个术语概括了生物系统中相互联系的本质。无论是在淋巴系统、结缔组织还是大脑中,reticular结构在维持我们身体的健康和功能方面都发挥着不可或缺的作用。通过认识到这些网络的重要性,我们可以更好地理解生命的复杂性以及我们身体保持生命和健康的惊人方式。
