arthromeric

简明释义

英[ˌɑːθrəˈmerɪk]美[ˌɑrθrəˈmerɪk]

adj. 体节的

英英释义

单词用法

同义词

反义词

例句

1.During the workshop, we learned how to identify arthromeric 关节相关的 conditions in different patients.

在研讨会上，我们学习了如何识别不同患者中的arthromeric 关节相关的 病症。

2.She specialized in arthromeric 关节相关的 diseases and offered insightful advice to her patients.

她专注于arthromeric 关节相关的 疾病，并为她的患者提供了深刻的建议。

3.The researcher discovered that the new treatment had an arthromeric 关节相关的 effect on patients with arthritis.

研究人员发现新疗法对关节炎患者有一种arthromeric 关节相关的 效果。

4.The doctor explained that arthromeric 关节相关的 pain could be alleviated with proper medication.

医生解释说，适当的药物可以缓解arthromeric 关节相关的 疼痛。

5.The study focused on the arthromeric 关节相关的 impacts of aging on mobility.

这项研究集中在衰老对活动能力的arthromeric 关节相关的 影响上。

作文

In the realm of biology and anatomy, the term arthromeric refers to a specific characteristic related to joints and their structural organization. Understanding this term is crucial for students and professionals in fields such as medicine, physiotherapy, and sports science. The prefix 'arthro-' comes from the Greek word 'arthron,' meaning joint, while the suffix '-meric' relates to parts or segments. Therefore, arthromeric essentially describes the segmented nature of joints within certain organisms, particularly in the context of their evolutionary adaptations.The study of arthromeric structures can provide insights into how different species have evolved to optimize their movement and efficiency. For instance, in many arthropods, the joints are highly specialized, allowing for a range of motion that is essential for survival. These adaptations enable them to navigate through various environments, hunt for food, and escape from predators. By examining the arthromeric features of these creatures, researchers can better understand the evolutionary pressures that shape anatomical structures over time.Moreover, the concept of arthromeric organization is not limited to the animal kingdom. In plants, certain joint-like structures can also be observed, which allow for flexibility and resilience against environmental stresses. This cross-disciplinary relevance highlights the importance of understanding arthromeric characteristics beyond just one field of study.When it comes to human anatomy, the arthromeric nature of our joints plays a vital role in our mobility. The human skeleton consists of numerous joints that connect bones and allow for movement. Each joint has a unique arthromeric structure, which determines its range of motion and stability. For example, the knee joint is a hinge joint that permits flexion and extension, while the shoulder joint is a ball-and-socket joint that allows for a greater range of motion. Understanding the arthromeric properties of these joints is essential for diagnosing and treating musculoskeletal disorders.In physical therapy, knowledge of arthromeric mechanics is applied to develop rehabilitation programs tailored to individual needs. Therapists often analyze the arthromeric characteristics of a patient's joints to create targeted exercises that enhance strength, flexibility, and overall functionality. This personalized approach not only aids recovery but also helps prevent future injuries by ensuring that the joints are functioning optimally.In conclusion, the term arthromeric encapsulates an essential aspect of joint structure and function across various biological systems. Its significance extends from evolutionary biology to practical applications in healthcare, emphasizing the interconnectedness of life sciences. By deepening our understanding of arthromeric characteristics, we can appreciate the complexity of movement and the intricate designs that nature has developed over millions of years. Whether in studying ancient fossils or treating modern-day patients, the implications of arthromeric research are vast and impactful, reminding us of the elegance of biological design.

在生物学和解剖学领域，术语arthromeric指的是与关节及其结构组织相关的特定特征。理解这个术语对医学、物理治疗和运动科学等领域的学生和专业人士至关重要。前缀“arthro-”来源于希腊词“arthron”，意为关节，而后缀“-meric”则与部分或段落有关。因此，arthromeric本质上描述了某些生物体内关节的分段性质，特别是在其进化适应的背景下。研究arthromeric结构可以提供关于不同物种如何进化以优化其运动和效率的见解。例如，在许多节肢动物中，关节高度专业化，允许进行生存所必需的运动范围。这些适应性使它们能够在各种环境中导航、捕猎食物并逃避捕食者。通过检查这些生物的arthromeric特征，研究人员可以更好地理解塑造解剖结构的进化压力。此外，arthromeric组织的概念不仅限于动物王国。在植物中，也可以观察到某些类似关节的结构，这些结构允许植物在环境压力下保持灵活性和韧性。这种跨学科的相关性突显了超越单一研究领域理解arthromeric特征的重要性。在人体解剖学方面，我们关节的arthromeric性质在我们的移动性中发挥着至关重要的作用。人类骨骼由许多关节组成，这些关节连接骨骼并允许运动。每个关节都有独特的arthromeric结构，这决定了其运动范围和稳定性。例如，膝关节是一个铰链关节，允许屈伸运动，而肩关节是一个球窝关节，允许更大的运动范围。理解这些关节的arthromeric特性对于诊断和治疗肌肉骨骼疾病至关重要。在物理治疗中，了解arthromeric力学被应用于制定针对个人需求的康复计划。治疗师通常会分析患者关节的arthromeric特征，以创建增强力量、灵活性和整体功能的针对性练习。这种个性化的方法不仅有助于恢复，还通过确保关节的最佳功能来预防未来的伤害。总之，术语arthromeric概括了各个生物系统中关节结构和功能的一个重要方面。它的意义从进化生物学延伸到医疗保健的实际应用，强调了生命科学之间的相互联系。通过加深我们对arthromeric特征的理解，我们可以欣赏运动的复杂性以及自然在数百万年中发展出的精妙设计。无论是在研究古老化石还是治疗现代患者，arthromeric研究的影响都是广泛而深远的，提醒我们生物设计的优雅。