carpi

简明释义

[ˈkɑːpaɪ][ˈkɑrˌpaɪ]

n. 腕

英英释义

The plural form of 'carpus', referring to the group of bones in the wrist.

‘carpus’的复数形式,指的是手腕中的一组骨头。

单词用法

flexor carpi

屈腕肌

extensor carpi

伸腕肌

carpi ulnaris

尺侧腕肌

carpi radialis

桡侧腕肌

carpi syndrome

腕管综合症

carpi fractures

腕骨骨折

carpi joint

腕关节

同义词

wrist

手腕

The carpi are a group of bones in the wrist.

腕骨是一组位于手腕的骨头。

carpal

腕骨的

Carpal tunnel syndrome affects the wrist area.

腕管综合症影响手腕区域。

反义词

dorsum

背部

The dorsum of the hand is often examined for injuries.

手背常常被检查以寻找伤害。

palmar

掌侧的

Palmar flexion refers to bending the wrist towards the palm.

掌屈指的是将手腕向掌心弯曲。

例句

1.Objective To investigate the extensor carpi ulnaris extensor pollicis displacement of a rebuilding of thumb opposing function and effect of treatment.

目的探讨尺侧腕伸肌一拇短伸肌位移重建拇指对掌功能的治疗方法及疗效。

2.Objective: to provide anatomic materials for reconstruction of function of flexing elbow joint by the transposition of flexor carpi ulnaris for clinical practices.

目的:为临床应用尺侧腕屈肌转位重建屈肘功能提供解剖学依据。

3.Objective: to provide anatomic materials for reconstruction of function of flexing elbow joint by the transposition of flexor carpi ulnaris for clinical practices.

目的:为临床应用尺侧腕屈肌转位重建屈肘功能提供解剖学依据。

4.In the forearm, the ulnar artery passed deep to the flexor carpi ulnaris muscle.

前臂的尺动脉通过深入尺侧腕屈肌肌。

5.Injuries to the carpi can lead to limited range of motion in the wrist.

腕骨的损伤可能导致手腕活动范围受限。

6.The carpi are divided into two rows: proximal and distal.

腕骨分为两排:近侧和远侧。

7.In anatomy, the term carpi refers to the group of bones that form the wrist.

在解剖学中,术语腕骨指的是构成手腕的一组骨头。

8.The wrist consists of several bones, including the radius and ulna, and the eight carpal bones, known as carpi.

手腕由几块骨头组成,包括桡骨和尺骨,以及八块腕骨,称为腕骨

9.The carpi are essential for the flexibility and movement of the hand.

腕骨对于手的灵活性和运动至关重要。

作文

The human body is a marvel of engineering, with each part working in harmony to create movement and function. One of the most fascinating aspects of our anatomy is the structure of our hands and wrists. The wrist contains a group of bones known as the carpal bones, which are crucial for our dexterity and ability to perform various tasks. These bones, collectively referred to as the carpi (腕骨), allow for a wide range of motion and flexibility. The carpi (腕骨) consist of eight small bones arranged in two rows. The proximal row includes the scaphoid, lunate, triquetrum, and pisiform, while the distal row comprises the trapezium, trapezoid, capitate, and hamate. Each of these bones plays a specific role in the overall function of the wrist. For instance, the scaphoid is particularly important as it is the most commonly fractured bone in the wrist due to its position and the forces exerted on it during activities such as falling or sports. Understanding the anatomy of the carpi (腕骨) is essential for medical professionals, especially those specializing in orthopedics and rehabilitation. Injuries to the wrist can lead to significant impairments in hand function, affecting daily activities and quality of life. Conditions such as carpal tunnel syndrome, which occurs when the median nerve is compressed at the wrist, highlight the importance of the carpi (腕骨) in maintaining proper hand function. In addition to injuries, the carpi (腕骨) can also be affected by degenerative diseases such as arthritis. Osteoarthritis can cause pain and stiffness in the wrist, making it difficult to perform simple tasks like typing or gripping objects. Understanding the mechanics of the carpi (腕骨) can help in developing effective treatment plans to alleviate pain and restore function. Moreover, the study of the carpi (腕骨) extends beyond medicine. In the field of biomechanics, researchers examine how these bones contribute to the overall movement and functionality of the upper extremities. By analyzing the motions and forces involved, scientists can develop better ergonomic tools and practices that minimize strain on the wrist during repetitive tasks. In conclusion, the carpi (腕骨) are not just a collection of bones; they are integral to our ability to interact with the world around us. From performing intricate tasks to engaging in sports, the functionality of our hands relies heavily on the health and integrity of the carpi (腕骨). As we continue to study and understand these bones, we can improve treatments for injuries and conditions that affect them, ultimately enhancing the quality of life for many individuals. The importance of the carpi (腕骨) in both health and everyday functionality cannot be overstated, making it a vital area of study in both medicine and biomechanics.

人体是工程的奇迹,每个部分都协调工作以创造运动和功能。我们解剖学中最迷人的方面之一是我们手和手腕的结构。手腕包含一组被称为腕骨的骨骼,它们对我们的灵活性和执行各种任务的能力至关重要。这些骨骼统称为carpi(腕骨),允许我们进行广泛的运动和灵活性。carpi(腕骨)由八块小骨头排列成两排组成。近侧排包括舟骨、月骨、三角骨和豆骨,而远侧排则包括大多角骨、小多角骨、头状骨和钩骨。这些骨头中的每一个在手腕的整体功能中发挥着特定的作用。例如,舟骨尤其重要,因为它是手腕中最常见的骨折骨头,因其位置和在活动中施加的力量(如摔倒或运动)而受到影响。了解carpi(腕骨)的解剖结构对医疗专业人员至关重要,尤其是那些专门研究骨科和康复的人。手腕受伤会导致手功能的显著损害,影响日常活动和生活质量。诸如腕管综合症等疾病发生在手腕的正中神经受到压迫,突显了carpi(腕骨)在维持正常手功能中的重要性。除了受伤之外,carpi(腕骨)也可能受到退行性疾病的影响,例如关节炎。骨关节炎可能导致手腕疼痛和僵硬,使得执行简单任务(如打字或抓握物体)变得困难。了解carpi(腕骨)的机制有助于制定有效的治疗计划,以缓解疼痛并恢复功能。此外,carpi(腕骨)的研究超越了医学。在生物力学领域,研究人员研究这些骨骼如何促进上肢的整体运动和功能。通过分析涉及的运动和力量,科学家可以开发出更好的符合人体工程学的工具和实践,以最小化重复任务期间对手腕的压力。总之,carpi(腕骨)不仅仅是一组骨头;它们对于我们与周围世界互动的能力至关重要。从执行复杂任务到参与运动,我们的手的功能在很大程度上依赖于carpi(腕骨)的健康和完整性。随着我们继续研究和理解这些骨头,我们可以改善对影响它们的伤害和疾病的治疗,最终提高许多人的生活质量。carpi(腕骨)在健康和日常功能中的重要性不容小觑,使其成为医学和生物力学研究的重要领域。