synarthrosis

简明释义

英[/ˌsɪn.ɑːrˈθroʊ.sɪs/]美[/ˌsɪn.ɑːrˈθroʊ.sɪs/]

n. [解剖] 不动关节

复 数 s y n a r t h r o s e s

英英释义

单词用法

同义词

反义词

例句

1.The term synarthrosis refers to a joint that allows for little to no movement, also known as 不动关节.

术语synarthrosis指的是一种允许几乎没有运动的关节，也称为不动关节。

2.The skull is made up of several bones that are connected by a type of joint called synarthrosis, which means 不动关节.

颅骨由几块骨头组成，这些骨头通过一种叫做synarthrosis的关节连接，这种关节意味着不动关节。

3.In human anatomy, the sutures of the skull are examples of synarthrosis, or 不动关节.

在人体解剖学中，颅缝是synarthrosis或不动关节的例子。

4.Certain joints in the body, like those found in the pelvis, are classified as synarthrosis, meaning they are 不动关节.

身体中的某些关节，如骨盆中的关节，被归类为synarthrosis，这意味着它们是不动关节。

5.Understanding synarthrosis can help students learn about the structure of the human skeleton, specifically 不动关节.

理解synarthrosis可以帮助学生了解人类骨骼的结构，特别是不动关节。

作文

The human body is a complex structure composed of various systems that work together to maintain functionality and mobility. One of the critical aspects of this structure is the skeletal system, which provides support and protection for our organs. Within the skeletal system, there are different types of joints that allow for varying degrees of movement. Among these joints, one particularly interesting type is known as synarthrosis, which refers to an immovable joint. This term comes from the Greek words 'syn', meaning 'together', and 'arthrosis', meaning 'joint'. In essence, synarthrosis represents a connection between bones that does not permit any significant movement. Understanding synarthrosis is crucial for comprehending how our bodies function. These joints are typically found in areas where stability is more important than flexibility. For example, the sutures in the skull are classic examples of synarthrosis. These fibrous joints fuse the bones of the skull together, providing a protective casing for the brain while allowing for growth during childhood. As we age, these sutures become even more rigid, further enhancing the protective properties of the skull.Another example of synarthrosis can be found in the joints between the teeth and the jawbone, known as gomphoses. This type of joint allows the teeth to remain securely anchored in place, ensuring that they can perform their function effectively without any risk of dislocation or movement. The immobility provided by synarthrosis is essential for maintaining the integrity of these structures, as any movement could lead to damage or dysfunction.In contrast to synarthrosis, there are other types of joints, such as diarthroses, which are freely movable joints that allow for a wide range of motion. Examples of diarthroses include the knee and elbow joints, which facilitate activities such as walking, running, and throwing. Understanding the differences between these types of joints helps us appreciate the balance between mobility and stability within the skeletal system.Moreover, the study of synarthrosis extends beyond just anatomy; it also plays a role in fields such as biomechanics and physical therapy. Professionals in these areas must understand how immovable joints contribute to overall body mechanics. For instance, when rehabilitating an injury, therapists often consider the stability provided by synarthrosis joints to develop effective treatment plans that promote healing while minimizing strain on other parts of the body.In conclusion, synarthrosis is a vital concept within the study of human anatomy and physiology. By recognizing the significance of immovable joints, we can better understand the intricate design of our skeletal system. The stability offered by synarthrosis is essential for protecting vital organs and maintaining structural integrity. As we continue to explore the complexities of the human body, the role of synarthrosis will undoubtedly remain a topic of interest for both medical professionals and students alike. Through this understanding, we can appreciate the delicate balance between movement and stability that defines our physical existence.

人类身体是一个复杂的结构，由各种系统组成，这些系统共同工作以维持功能和活动能力。这个结构的一个关键方面是骨骼系统，它为我们的器官提供支持和保护。在骨骼系统内，有不同类型的关节，允许不同程度的运动。在这些关节中，有一种特别有趣的类型被称为synarthrosis，它指的是一个不可移动的关节。这个术语来源于希腊语单词'syn'，意为'together'，以及'arthrosis'，意为'joint'。从本质上讲，synarthrosis表示骨骼之间的连接，不允许任何显著的运动。理解synarthrosis对于理解我们身体的功能至关重要。这些关节通常位于稳定性比灵活性更重要的区域。例如，颅骨中的缝合线就是synarthrosis的经典例子。这些纤维关节将颅骨的骨骼结合在一起，为大脑提供保护性的外壳，同时允许儿童时期的生长。随着年龄的增长，这些缝合线变得更加坚固，进一步增强了颅骨的保护特性。另一个例子是牙齿与下颌骨之间的关节，称为牙槽关节（gomphoses）。这种关节允许牙齿牢牢固定在适当的位置，确保它们能够有效地执行其功能，而没有脱位或运动的风险。synarthrosis所提供的不可动性对于维持这些结构的完整性至关重要，因为任何运动都可能导致损伤或功能障碍。与synarthrosis相对的是其他类型的关节，如关节（diarthroses），它们是自由活动的关节，允许广泛的运动范围。关节的例子包括膝关节和肘关节，它们促进行走、奔跑和投掷等活动。理解这些关节类型之间的差异帮助我们欣赏骨骼系统内运动与稳定之间的平衡。此外，synarthrosis的研究不仅限于解剖学；它还在生物力学和物理治疗等领域发挥作用。这些领域的专业人员必须了解不可动关节如何影响整体身体机制。例如，在康复伤害时，治疗师通常考虑synarthrosis关节提供的稳定性，以制定有效的治疗计划，促进愈合，同时最小化对身体其他部分的压力。总之，synarthrosis是人类解剖学和生理学研究中的一个重要概念。通过认识到不可动关节的重要性，我们可以更好地理解我们骨骼系统的复杂设计。synarthrosis所提供的稳定性对于保护重要器官和维持结构完整性至关重要。随着我们继续探索人类身体的复杂性，synarthrosis的角色无疑将继续成为医学专业人员和学生共同关注的话题。通过这种理解，我们可以欣赏定义我们身体存在的运动与稳定之间的微妙平衡。