aponeurotic

简明释义

英[ˌæpəˈnʊərɑtɪk]美[ˌæpəˈnʊərɑtɪk]

adj. 腱膜的

英英释义

单词用法

同义词

反义词

例句

1.Initially, the approach involved a simple ring closure, but this technique failed because the deeper aponeurotic tissues could not be approximated without tension in the repair.

最初是用一种单环闭合，但因深层腱膜组织在修补中不能无张力拉拢而失败。

2.Initially, the approach involved a simple ring closure, but this technique failed because the deeper aponeurotic tissues could not be approximated without tension in the repair.

最初是用一种单环闭合，但因深层腱膜组织在修补中不能无张力拉拢而失败。

3.Therefore, deeper study of the essence of the aponeurotic channel is very necessary.

因此，对经筋实质进行更深一步的研究是十分必要的。

4.After the injury, the doctor noted damage to the aponeurotic 腱膜的 area of the leg.

受伤后，医生注意到腿部的aponeurotic 腱膜的 区域受到了损伤。

5.The surgeon carefully examined the aponeurotic 腱膜的 layer during the operation.

外科医生在手术过程中仔细检查了aponeurotic 腱膜的 层。

6.In anatomy class, we learned that the aponeurotic 腱膜的 tissue connects muscles to bones.

在解剖课上，我们了解到aponeurotic 腱膜的 组织将肌肉与骨骼连接起来。

7.The aponeurotic 腱膜的 structure plays a crucial role in muscle function.

该aponeurotic 腱膜的 结构在肌肉功能中起着至关重要的作用。

8.Rehabilitation exercises often focus on strengthening the aponeurotic 腱膜的 connections.

康复锻炼通常侧重于增强aponeurotic 腱膜的 连接。

作文

The human body is a marvel of biological engineering, composed of various tissues that work together to facilitate movement, support, and protection. Among these tissues, there are muscles, tendons, ligaments, and fascia, each playing a unique role in our anatomy. One often overlooked component is the aponeurosis, which serves as a critical connective tissue structure. The term aponeurotic refers to anything related to or resembling an aponeurosis. An aponeurosis is a flat, broad sheet of connective tissue that connects muscles to the parts they move. Unlike tendons, which are cord-like structures, aponeuroses spread out over a larger area, providing a wide attachment for muscles, allowing for greater force distribution across the surface it covers.In the context of human anatomy, the aponeurotic layer plays a vital role in the functioning of various muscle groups. For instance, the abdominal muscles are connected to the linea alba by an aponeurotic sheet. This connection not only aids in the movement of the torso but also provides stability to the abdominal wall. Similarly, the aponeurotic connections in the lower back and pelvis help to distribute forces during activities such as walking, running, and lifting.The importance of the aponeurotic structures extends beyond mere muscle attachment; they also contribute to the overall biomechanics of the body. When a muscle contracts, the tension generated is transmitted through the aponeurotic tissue, allowing for efficient movement and force transmission. This is particularly evident in the case of the latissimus dorsi, a large muscle in the back that has a broad aponeurotic attachment, facilitating powerful movements of the arms while maintaining stability in the core.In addition to their functional significance, aponeurotic tissues can also be involved in various medical conditions. For example, injuries to the aponeurotic layers can lead to pain and dysfunction, particularly in athletes who put excessive strain on their bodies. Conditions such as diastasis recti, where the abdominal muscles separate, involve the weakening of the aponeurotic tissue, leading to instability and discomfort. Understanding the role of these structures can aid in developing effective rehabilitation strategies.Moreover, surgical procedures often take into account the integrity of aponeurotic tissues. Surgeons must carefully navigate these layers to minimize damage and ensure proper healing. In reconstructive surgeries, the restoration of aponeurotic integrity is crucial for the successful outcome of the procedure. Therefore, knowledge of aponeurotic anatomy is essential for healthcare professionals working in fields such as orthopedics, sports medicine, and physical therapy.In conclusion, the term aponeurotic encapsulates a significant aspect of human anatomy that is essential for movement, stability, and overall function. By understanding the role of aponeurotic tissues, we can appreciate the complexity of our body's design and the importance of maintaining these structures for optimal health and performance. Whether in the context of athletic training, rehabilitation, or surgical intervention, the study of aponeurotic tissues remains a critical area of focus in the field of medicine and anatomy.

人体是生物工程的奇迹，由各种组织组成，这些组织共同作用以促进运动、支持和保护。在这些组织中，有肌肉、肌腱、韧带和筋膜，每种组织在我们的解剖结构中都发挥着独特的作用。其中一个常被忽视的组成部分是腱膜，它作为一种关键的结缔组织结构。术语aponeurotic指的是与腱膜相关或类似的任何事物。腱膜是一种平坦、宽广的结缔组织片，连接肌肉与它们所移动的部位。与肌腱这种绳索状结构不同，腱膜在更大的区域上展开，为肌肉提供了广泛的附着点，从而允许力量在其覆盖的表面上得到更好的分配。在人体解剖学的背景下，aponeurotic层在各种肌群的功能中发挥着至关重要的作用。例如，腹肌通过腱膜连接到白线。这种连接不仅有助于躯干的运动，还为腹壁提供了稳定性。同样，腰部和骨盆的aponeurotic连接有助于在走路、跑步和举重等活动中分配力量。aponeurotic结构的重要性超越了单纯的肌肉附着；它们还对身体的整体生物力学做出贡献。当肌肉收缩时，产生的张力通过aponeurotic组织传递，从而实现高效的运动和力量传递。这在背部的大肌肉——背阔肌的情况下尤为明显，该肌肉具有宽广的aponeurotic附着点，便于在保持核心稳定的同时进行强有力的手臂运动。除了功能意义外，aponeurotic组织在各种医学条件中也可能涉及。例如，aponeurotic层的损伤可能导致疼痛和功能障碍，特别是在对身体施加过大压力的运动员中。像腹直肌分离这样的情况涉及aponeurotic组织的弱化，导致不稳定和不适。了解这些结构的作用可以帮助制定有效的康复策略。此外，外科手术通常会考虑aponeurotic组织的完整性。外科医生必须小心地穿过这些层，以最小化损伤并确保正确愈合。在重建手术中，恢复aponeurotic的完整性对于手术成功的结果至关重要。因此，对aponeurotic解剖学的知识对于在骨科、运动医学和物理治疗等领域工作的医疗专业人员至关重要。总之，术语aponeurotic概括了人体解剖学中一个重要的方面，这对于运动、稳定性和整体功能至关重要。通过理解aponeurotic组织的作用，我们可以欣赏我们身体设计的复杂性，以及维持这些结构以获得最佳健康和表现的重要性。无论是在运动训练、康复还是外科干预的背景下，研究aponeurotic组织仍然是医学和解剖学领域的一个关键关注点。