interlobe space

简明释义

叶片间空间

英英释义

例句

1.Surgeons must be careful not to damage the interlobe space during the procedure.

外科医生在手术过程中必须小心不要损伤间叶空间。

2.The interlobe space is critical for the proper functioning of the lung lobes.

间叶空间对肺叶的正常功能至关重要。

3.The MRI scan revealed fluid accumulation in the interlobe space, indicating potential complications.

MRI扫描显示在间叶空间内有液体积聚，表明可能存在并发症。

4.In imaging studies, the interlobe space can provide insights into lung diseases.

在影像学研究中，间叶空间可以提供对肺部疾病的见解。

5.A blockage in the interlobe space may lead to respiratory issues.

间叶空间的阻塞可能导致呼吸问题。

作文

The concept of interlobe space is significant in various fields, particularly in anatomy and biology. It refers to the regions found between lobes of an organ or structure, which play crucial roles in both function and structure. Understanding the interlobe space can provide insights into how different parts of an organ work together and interact with one another. For instance, in the human brain, the interlobe space facilitates communication between different lobes, allowing for complex cognitive functions. This intricate network is essential for activities such as memory, reasoning, and sensory processing.In the respiratory system, the lungs are divided into lobes, and the interlobe space is the area that separates these lobes. This space is critical for the efficient functioning of the lungs, as it allows for proper airflow and gas exchange. When we inhale, the air travels through the bronchi and enters the lobes, where the alveoli are located. The interlobe space helps in maintaining the structural integrity of the lungs while ensuring that each lobe can expand and contract effectively during respiration.Furthermore, in the context of plant biology, the term interlobe space can also be relevant when discussing the anatomy of leaves. Leaves are often divided into lobes to increase their surface area for photosynthesis. The interlobe space between these lobes allows for better light penetration and air circulation, enhancing the overall efficiency of the leaf in capturing sunlight and exchanging gases. In addition to its biological significance, the interlobe space has applications in engineering and architecture. For example, when designing buildings or machinery, engineers must consider the spaces between different components or sections. These interlobe spaces can affect airflow, heat distribution, and even structural stability. By understanding the principles behind these spaces, architects can create more efficient and effective designs that meet the needs of their users.Moreover, the study of interlobe space can lead to advancements in medical science. For instance, imaging techniques like MRI and CT scans often reveal the interlobe space in various organs, helping doctors diagnose conditions related to these areas. Understanding the normal anatomy of the interlobe space allows healthcare professionals to identify abnormalities, such as tumors or inflammation, that may affect organ function.In conclusion, the interlobe space is a critical concept across multiple disciplines. Whether in human anatomy, plant biology, engineering, or medicine, recognizing the importance of these spaces can lead to a deeper understanding of how systems operate. As we continue to explore the complexities of life and design, the interlobe space will undoubtedly remain a focal point of study and innovation. By appreciating the role of these spaces, we can enhance our knowledge and improve our approaches in various scientific and practical fields.

“interlobe space”这个概念在多个领域中具有重要意义，特别是在解剖学和生物学中。它指的是器官或结构的叶片之间的区域，这些区域在功能和结构上起着至关重要的作用。理解interlobe space可以提供关于器官不同部分如何协同工作和相互作用的见解。例如，在人脑中，interlobe space促进了不同叶片之间的沟通，使复杂的认知功能得以实现。这种复杂的网络对于记忆、推理和感官处理等活动至关重要。在呼吸系统中，肺部分为多个叶片，interlobe space是分隔这些叶片的区域。这个空间对于肺的有效功能至关重要，因为它允许适当的气流和气体交换。当我们吸气时，空气通过支气管进入叶片，那里有肺泡。interlobe space帮助维持肺的结构完整性，同时确保每个叶片在呼吸过程中能够有效地扩张和收缩。此外，在植物生物学的背景下，当讨论叶子的解剖结构时，interlobe space一词也可能相关。叶子通常被分成多个叶片，以增加其光合作用的表面积。叶片之间的interlobe space允许更好的光线穿透和空气循环，从而增强叶子捕获阳光和交换气体的整体效率。除了生物学上的重要性，interlobe space在工程和建筑中也有应用。例如，在设计建筑或机械时，工程师必须考虑不同组件或部分之间的空间。这些interlobe spaces可能会影响气流、热量分布，甚至结构稳定性。通过理解这些空间背后的原理，建筑师可以创造出更高效、更有效的设计，满足用户的需求。此外，研究interlobe space可以推动医学科学的发展。例如，MRI和CT扫描等成像技术通常揭示各种器官中的interlobe space，帮助医生诊断与这些区域相关的疾病。了解interlobe space的正常解剖结构使医疗专业人员能够识别可能影响器官功能的异常情况，如肿瘤或炎症。总之，interlobe space是多个学科中的关键概念。无论是在人体解剖学、植物生物学、工程还是医学中，认识到这些空间的重要性都可以深化我们对系统运作的理解。随着我们继续探索生命和设计的复杂性，interlobe space无疑将继续成为研究和创新的焦点。通过欣赏这些空间的作用，我们可以增强我们的知识，并改善我们在各个科学和实践领域的方法。