bridging laminae

简明释义

1. 桥状层; 2. 檐突层;

英英释义

例句

1.The study focused on the role of bridging laminae in enhancing structural integrity in biological tissues.

这项研究集中于桥接层在增强生物组织结构完整性中的作用。

2.In architecture, bridging laminae are used to connect different structural elements for better load distribution.

在建筑中，桥接层用于连接不同的结构元素，以实现更好的载荷分配。

3.Understanding the function of bridging laminae can lead to advancements in tissue engineering.

理解桥接层的功能可以推动组织工程的进步。

4.Researchers found that the presence of bridging laminae can significantly affect the mechanical properties of the material.

研究人员发现，桥接层的存在可以显著影响材料的机械性能。

5.The bridging laminae in the spinal column provide essential support for the vertebrae.

脊柱中的桥接层为椎骨提供了必要的支撑。

作文

In the field of biology, particularly in the study of cellular structures, the term bridging laminae refers to thin layers of tissue that connect different parts of an organism's anatomy. These structures play a crucial role in maintaining the integrity and functionality of various organs and systems. Understanding the significance of bridging laminae is essential for researchers and medical professionals alike, as they contribute to the overall health and stability of biological systems.The concept of bridging laminae can be observed in many organisms, from simple multicellular life forms to complex mammals. For instance, in the human body, these layers can be found in connective tissues that link muscles to bones, or in the membranes that separate different organs. They serve not only as physical connectors but also as communication pathways that facilitate the exchange of signals and nutrients between cells.One of the most fascinating aspects of bridging laminae is their ability to adapt and respond to changes in the environment. When an organism undergoes stress, such as injury or disease, these layers can remodel themselves to provide better support and protection. This dynamic nature highlights the importance of bridging laminae in the healing process, as they help to restore function and promote recovery.Research into bridging laminae has also revealed their involvement in various diseases. For example, in conditions like fibrosis, the excessive formation of these layers can lead to the stiffening of tissues, which impairs organ function. Understanding how bridging laminae contribute to such pathological states can open new avenues for therapeutic interventions, allowing scientists to develop targeted treatments that address the underlying issues.Moreover, the study of bridging laminae extends beyond human biology. In plants, similar structures can be found that serve critical roles in supporting plant tissue and facilitating nutrient transport. By comparing the functions of bridging laminae across different species, researchers can gain insights into evolutionary adaptations and the fundamental principles that govern life.In conclusion, the term bridging laminae encompasses a vital aspect of biological structure and function. Their roles in connecting tissues, facilitating communication, and adapting to environmental changes underscore their importance in both health and disease. As research continues to unveil the complexities of these structures, we can expect to see advancements in our understanding of biology and medicine, ultimately leading to improved treatments and outcomes for various conditions. The exploration of bridging laminae not only enhances our knowledge of life sciences but also emphasizes the intricate connections that sustain living organisms.

在生物学领域，尤其是在细胞结构的研究中，术语bridging laminae指的是连接生物体解剖不同部分的薄层组织。这些结构在维持各种器官和系统的完整性和功能方面起着至关重要的作用。理解bridging laminae的重要性对研究人员和医疗专业人员来说都是必不可少的，因为它们有助于生物系统的整体健康和稳定。bridging laminae的概念可以在许多生物体中观察到，从简单的多细胞生物到复杂的哺乳动物。例如，在人体中，这些层可以在连接肌肉和骨骼的结缔组织中找到，或在分隔不同器官的膜中找到。它们不仅作为物理连接者，还作为促进细胞之间信号和营养物质交换的沟通通道。bridging laminae最迷人的一个方面是它们适应和应对环境变化的能力。当生物体经历压力，如受伤或疾病时，这些层可以重塑自己，以提供更好的支持和保护。这种动态特性突显了bridging laminae在愈合过程中的重要性，因为它们帮助恢复功能并促进康复。对bridging laminae的研究还揭示了它们在各种疾病中的参与。例如，在纤维化等病症中，这些层的过度形成可能导致组织硬化，从而损害器官功能。理解bridging laminae如何促成这种病理状态，可以为治疗干预开辟新的途径，使科学家能够开发针对根本问题的靶向治疗。此外，bridging laminae的研究超越了人类生物学。在植物中，也可以发现类似的结构，它们在支持植物组织和促进养分运输方面发挥着关键作用。通过比较不同物种中bridging laminae的功能，研究人员可以深入了解进化适应以及支配生命的基本原则。总之，术语bridging laminae涵盖了生物结构和功能的一个重要方面。它们在连接组织、促进沟通和适应环境变化中的作用强调了它们在健康与疾病中的重要性。随着研究不断揭示这些结构的复杂性，我们可以期待看到对生物学和医学理解的进步，最终将改善各种疾病的治疗和结果。对bridging laminae的探索不仅增强了我们对生命科学的知识，还强调了维持生物体的微妙联系。