epimysium

简明释义

英[ˌepɪˈmɪziəm]美[ˌepəˈmɪzɪəm]

n. [解剖] 肌外膜；肌外衣；外肌束膜

复 数 e p i m y s i a

英英释义

单词用法

同义词

反义词

例句

1.Incision of the epimysium was not required to lower the anterior deltoid compartment pressure, which is often necessary and unique to the deltoid.

这并不要求切开到肌外膜以减低压力，虽然这对于三角肌是需要的和独特的。

2.Incision of the epimysium was not required to lower the anterior deltoid compartment pressure, which is often necessary and unique to the deltoid.

这并不要求切开到肌外膜以减低压力，虽然这对于三角肌是需要的和独特的。

3.The epimysium 肌外膜 surrounds the entire muscle, providing a protective layer.

肌外膜包裹着整个肌肉，提供保护层。

4.During dissection, we observed how the epimysium 肌外膜 helps maintain the structure of the muscle.

在解剖过程中，我们观察到肌外膜如何维持肌肉的结构。

5.The epimysium 肌外膜 is essential for muscle attachment to tendons.

肌外膜对于肌肉与肌腱的连接至关重要。

6.In sports medicine, understanding the role of the epimysium 肌外膜 can help in treating muscle injuries.

在运动医学中，理解肌外膜的作用可以帮助治疗肌肉损伤。

7.The epimysium 肌外膜 contains blood vessels and nerves that supply the muscle.

肌外膜包含供应肌肉的血管和神经。

作文

The human body is an intricate masterpiece of biological engineering, composed of various tissues that work in harmony to facilitate movement and maintain stability. One of the key components of this remarkable system is muscle tissue, which is essential for all forms of physical activity. Within muscle tissue, there exists a unique structure known as the epimysium, which plays a critical role in muscle function and organization. The epimysium is a layer of connective tissue that surrounds the entire muscle, providing both protection and support. It serves as a barrier that helps to keep the muscle fibers organized, allowing them to contract effectively during movement. Understanding the epimysium is vital for anyone interested in anatomy or physiology. This structure not only contributes to the mechanical properties of muscles but also plays a significant role in the overall health of the muscular system. The epimysium is composed of collagen and elastin fibers, which give it both strength and flexibility. This unique composition allows the epimysium to withstand the stresses placed on muscles during exercise, while also enabling the muscle to stretch and return to its original shape. In addition to its structural functions, the epimysium is also involved in the repair and regeneration of muscle tissue. When a muscle is injured, the epimysium helps to guide the healing process by providing a scaffold for new muscle fibers to grow. This regenerative capability is crucial for athletes and active individuals who often put their muscles under significant strain. Understanding how the epimysium contributes to muscle recovery can help in developing better rehabilitation strategies for those recovering from injuries. Moreover, the epimysium has implications beyond just muscle function. It is also involved in the communication between muscles and the nervous system. Nerve fibers run through the epimysium, allowing for the transmission of signals that initiate muscle contractions. This connection is essential for coordinated movements and overall motor control. Without a properly functioning epimysium, the efficiency of muscle contractions could be compromised, leading to reduced performance in physical activities. In summary, the epimysium is a vital component of muscle tissue that serves multiple functions, including protection, organization, and communication. Its role in muscle health and recovery cannot be overstated, making it an important area of study for those interested in human anatomy and physiology. By gaining a deeper understanding of the epimysium, we can appreciate the complexity of our muscular system and the intricate ways in which our bodies are designed to move and adapt. As we continue to explore the wonders of human biology, the epimysium stands out as a testament to the sophistication of our physiological structures, reminding us of the delicate balance that sustains our physical capabilities.

人体是生物工程的复杂杰作，由多种组织组成，这些组织和谐地协同工作，以促进运动和维持稳定。其中一个关键组成部分是肌肉组织，它对所有形式的身体活动至关重要。在肌肉组织中，存在一种独特的结构，称为肌外膜，它在肌肉功能和组织中发挥着至关重要的作用。肌外膜是一层结缔组织，包围整个肌肉，为其提供保护和支持。它作为一种屏障，有助于保持肌肉纤维的有序排列，使其在运动过程中能够有效收缩。 理解肌外膜对于任何对解剖学或生理学感兴趣的人来说都是至关重要的。这一结构不仅有助于肌肉的机械属性，还在肌肉系统的整体健康中发挥了重要作用。肌外膜由胶原蛋白和弹性蛋白纤维组成，使其既坚固又灵活。这种独特的组成使得肌外膜能够承受运动过程中施加于肌肉的压力，同时也能够使肌肉伸展并恢复到其原始形状。 除了其结构功能外，肌外膜还参与肌肉组织的修复和再生。当肌肉受伤时，肌外膜通过为新的肌肉纤维生长提供支架来帮助引导愈合过程。这种再生能力对运动员和活跃个体至关重要，因为他们常常给肌肉施加显著的压力。理解肌外膜如何促进肌肉恢复，可以帮助制定更好的康复策略，以便那些正在从伤害中恢复的人使用。 此外，肌外膜不仅与肌肉功能相关，还涉及肌肉与神经系统之间的沟通。神经纤维穿过肌外膜，允许传递启动肌肉收缩的信号。这种连接对于协调运动和整体运动控制至关重要。如果肌外膜不能正常工作，肌肉收缩的效率可能会受到影响，从而导致身体活动中的表现下降。 总之，肌外膜是肌肉组织的重要组成部分，具有多重功能，包括保护、组织和沟通。它在肌肉健康和恢复中的作用不容小觑，使其成为人类解剖学和生理学研究的重要领域。通过深入了解肌外膜，我们可以欣赏到我们肌肉系统的复杂性以及身体在运动和适应方面的精巧设计。当我们继续探索人类生物学的奇迹时，肌外膜作为我们生理结构精密性的见证，提醒我们维持身体能力的微妙平衡。