aponeuroses
简明释义
英[ˌæpəˈnʊəroʊsiz]美[ˌæpəˈnʊəroʊsiz]
n. 腱膜(aponeurosis 的复数)
英英释义
Aponeuroses are fibrous tissue structures that connect muscles to the parts they move, serving as a flat and broad tendon. | 腱膜是一种纤维组织结构,连接肌肉与其所移动的部分,作为一种扁平而宽广的腱。 |
单词用法
同义词
反义词
| 肌肉 | 肌肉收缩以产生运动。 | ||
| 腱 | 腱将肌肉与骨骼连接。 |
例句
1.Among the superficial facial muscles there were not only fasciae but also aponeuroses. The muscles, fasciae and aponeuroses composed a three-dimensional reticular structure.
面部表浅肌肉之间不但存在腱膜,还由筋膜、肌肉、腱膜共同构成一个立体网状结构。
2.Among the superficial facial muscles there were not only fasciae but also aponeuroses. The muscles, fasciae and aponeuroses composed a three-dimensional reticular structure.
面部表浅肌肉之间不但存在腱膜,还由筋膜、肌肉、腱膜共同构成一个立体网状结构。
3.The surgeon explained that the repair of the damaged aponeuroses 腱膜 is crucial for restoring function to the affected area.
外科医生解释说,修复受损的aponeuroses 腱膜 对于恢复受影响区域的功能至关重要。
4.During the dissection, we observed the aponeuroses 腱膜 connecting various muscle groups in the abdomen.
在解剖过程中,我们观察到连接腹部多个肌肉群的aponeuroses 腱膜。
5.Physical therapy often focuses on strengthening the muscles around the aponeuroses 腱膜 to improve stability.
物理治疗通常侧重于增强围绕aponeuroses 腱膜 的肌肉,以改善稳定性。
6.The aponeuroses 腱膜 play a significant role in transmitting forces from muscles to bones.
在将力量从肌肉传递到骨骼时,aponeuroses 腱膜 起着重要作用。
7.In some injuries, the aponeuroses 腱膜 can become inflamed, leading to pain and limited movement.
在某些受伤中,aponeuroses 腱膜 可能会发炎,导致疼痛和活动受限。
作文
The human body is a remarkable structure composed of various tissues and organs that work together to perform essential functions. Among these structures, muscles play a crucial role in facilitating movement and maintaining posture. However, the connection between muscles and bones is not solely dependent on tendons; another important anatomical feature is the aponeuroses, which are specialized connective tissues that serve as a bridge between muscles and the skeletal system. Understanding aponeuroses is vital for anyone interested in anatomy, physiology, or physical fitness.To begin with, aponeuroses can be defined as flat sheets of fibrous tissue that serve a similar purpose to tendons but are broader and flatter in shape. They are composed primarily of collagen fibers, which provide strength and flexibility. This unique structure allows aponeuroses to distribute the force generated by muscle contractions over a larger area, thereby reducing the risk of injury and improving efficiency during movement.One of the most well-known examples of aponeuroses in the human body is the epicranial aponeurosis, which connects the frontalis muscle at the forehead with the occipitalis muscle at the back of the head. This structure plays a significant role in facial expressions, allowing for movements such as raising the eyebrows or frowning. Another example is the abdominal aponeuroses, which form the rectus sheath surrounding the rectus abdominis muscles. These structures help stabilize the core and support various movements, including bending and twisting.In addition to their structural importance, aponeuroses also play a role in injury prevention and rehabilitation. When a muscle contracts, the force generated needs to be transmitted effectively to the bones to create movement. If this force is not distributed evenly, it could lead to strains or tears in the muscle or tendon. The broad, flat nature of aponeuroses helps mitigate this risk by providing a larger surface area for force distribution.Moreover, understanding aponeuroses is essential for athletes and fitness enthusiasts. Knowledge of these structures can aid in designing effective training programs that enhance performance while minimizing the risk of injuries. For instance, exercises that strengthen the core can improve the functionality of the abdominal aponeuroses, ultimately leading to better overall stability and power during athletic activities.In conclusion, aponeuroses are integral components of the musculoskeletal system that facilitate movement and provide stability. Their unique structure allows for effective force distribution, which is crucial for both everyday activities and athletic performance. By understanding the role of aponeuroses, individuals can gain deeper insights into human anatomy and physiology, as well as improve their physical training regimens. As we continue to explore the complexities of the human body, it becomes increasingly clear that structures like aponeuroses deserve recognition for their contributions to our overall health and functionality.
人体是一个由各种组织和器官组成的非凡结构,这些组织和器官共同协作以执行基本功能。在这些结构中,肌肉在促进运动和维持姿势方面发挥着至关重要的作用。然而,肌肉与骨骼之间的连接不仅仅依赖于肌腱;另一个重要的解剖特征是腱膜,它是专门的结缔组织,充当肌肉与骨骼系统之间的桥梁。理解腱膜对任何对解剖学、生理学或身体健康感兴趣的人来说都是至关重要的。首先,腱膜可以定义为扁平的纤维组织片,具有与肌腱相似的功能,但形状更宽、更扁平。它们主要由胶原纤维组成,提供强度和灵活性。这种独特的结构使得腱膜能够将肌肉收缩产生的力量分布到更大的区域,从而降低受伤风险,提高运动效率。人体中最著名的腱膜例子之一是头顶腱膜,它连接额头的额肌和后脑的枕肌。这个结构在面部表情中起着重要作用,使得抬起眉毛或皱眉等动作成为可能。另一个例子是腹部腱膜,它形成包围腹直肌的直肌鞘。这些结构有助于稳定核心,支持弯曲和扭转等多种运动。除了结构上的重要性,腱膜在预防和康复伤害方面也发挥着作用。当肌肉收缩时,产生的力量需要有效地传递到骨骼上以产生运动。如果这种力量没有均匀分配,可能会导致肌肉或肌腱的拉伤或撕裂。腱膜的宽扁特性通过提供更大的力量分布表面积来帮助减轻这种风险。此外,了解腱膜对运动员和健身爱好者至关重要。对这些结构的了解可以帮助设计有效的训练计划,增强表现,同时最大程度地减少受伤风险。例如,加强核心的锻炼可以改善腹部腱膜的功能,最终提高运动活动中的整体稳定性和力量。总之,腱膜是肌肉骨骼系统的重要组成部分,促进运动并提供稳定性。它们独特的结构允许有效的力量分布,这对日常活动和运动表现至关重要。通过理解腱膜的作用,个人可以更深入地了解人体解剖学和生理学,并改善他们的身体训练方案。随着我们继续探索人体的复杂性,像腱膜这样的结构越来越清楚地表明,它们在我们的整体健康和功能中贡献巨大,值得认可。
