sagittally

简明释义

英[/ˈsædʒɪtəli/]美[/ˈsædʒɪtəli/]

弧矢地，矢状地，径向地

英英释义

单词用法

同义词

反义词

例句

1.This may be due to the result of differences in resultant neurological compression due to displacement mechanics compared with sagittally displaced injuries.

可能是由于移位导致神经受压的机制不同于矢状位移位的损伤。

2.This may be due to the result of differences in resultant neurological compression due to displacement mechanics compared with sagittally displaced injuries.

可能是由于移位导致神经受压的机制不同于矢状位移位的损伤。

3.The lumbar facets are generally sagittally oriented (Fig. 2).

腰椎的关节面通常是矢状位方向的（图2）。

4.The MRI scan showed the brain viewed sagittally (矢状面), revealing the left and right hemispheres.

MRI扫描显示大脑从sagittally（矢状面）视角查看，揭示了左右半球。

5.In anatomical studies, structures are often examined sagittally (矢状地) to understand their relationships.

在解剖学研究中，结构通常以sagittally（矢状地）进行检查，以理解它们的关系。

6.The surgeon made an incision sagittally (矢状地) to access the internal organs more easily.

外科医生做了一个sagittally（矢状地）的切口，以更容易地进入内部器官。

7.The ultrasound image was taken sagittally (矢状面) to visualize the fetus's development.

超声图像是从sagittally（矢状面）拍摄的，以可视化胎儿的发展。

8.When studying the spine, it is important to analyze it sagittally (矢状地) for proper alignment.

在研究脊柱时，分析其sagittally（矢状地）对于正确对齐非常重要。

作文

The human body is often studied in various planes to understand its structure and function better. One of the most important anatomical planes is the sagittal plane, which divides the body into left and right halves. When we describe movements or positions in relation to this plane, we use the term sagittally (在矢状面上). For example, when performing exercises that require lateral movements, such as side lunges or lateral raises, it is essential to maintain proper alignment sagittally (在矢状面上) to prevent injuries and ensure maximum effectiveness. In physical therapy, understanding how to move sagittally (在矢状面上) can significantly impact a patient's recovery process. Therapists often instruct patients to perform certain stretches or strengthening exercises that emphasize movement along this plane. For instance, a therapist might ask a patient to bend forward and backward while keeping their torso aligned sagittally (在矢状面上) to improve flexibility and strength in the spine. Moreover, athletes must also be aware of sagittal (矢状面) movements during training. Sports like running, swimming, and cycling primarily occur in the sagittal plane. Coaches often emphasize drills that enhance performance sagittally (在矢状面上), focusing on the forward and backward motions that are crucial for these activities. By training sagittally (在矢状面上), athletes can develop better coordination and efficiency in their movements, leading to improved performance. In addition to sports and rehabilitation, the concept of sagittal (矢状面) alignment plays a significant role in ergonomics. For those who spend long hours sitting at a desk, maintaining a sagittally (在矢状面上) aligned posture is vital for preventing back pain and other musculoskeletal issues. Ergonomists often recommend specific chair designs and desk setups that encourage individuals to keep their bodies aligned sagittally (在矢状面上), reducing strain on the spine and promoting overall health. Furthermore, understanding sagittal (矢状面) movements extends beyond physical activities; it also applies to various fields, including anatomy, kinesiology, and even robotics. In robotics, engineers design robotic arms and other devices that can move sagittally (在矢状面上) to perform tasks that mimic human actions. This understanding of movement planes allows for the development of more sophisticated and efficient robotic systems. In conclusion, the term sagittally (在矢状面上) encompasses a fundamental aspect of human movement and anatomy. Whether in the context of exercise, rehabilitation, sports training, ergonomics, or robotics, recognizing the importance of sagittal (矢状面) alignment and movement can lead to improved performance, better health outcomes, and innovative advancements in technology. By integrating this knowledge into various practices, we can enhance our understanding of the body and its capabilities, ultimately leading to a healthier and more active lifestyle.

人类身体常常在不同的平面上进行研究，以更好地理解其结构和功能。其中一个最重要的解剖平面是矢状面，它将身体分为左右两半。当我们描述与此平面相关的运动或位置时，我们使用术语sagittally（在矢状面上）。例如，在进行需要侧向运动的锻炼时，如侧弓步或侧平举，保持适当的对齐方式sagittally（在矢状面上）至关重要，以防止受伤并确保最大效果。 在物理治疗中，理解如何sagittally（在矢状面上）移动可以显著影响患者的康复过程。治疗师经常指导患者进行某些拉伸或增强练习，强调沿着这一平面的运动。例如，治疗师可能会要求患者前后弯曲，同时保持躯干在sagittally（在矢状面上）对齐，以改善脊柱的灵活性和力量。 此外，运动员在训练时也必须意识到sagittal（矢状面）运动。跑步、游泳和骑自行车等运动主要发生在矢状面上。教练通常强调增强在sagittally（在矢状面上）性能的训练，专注于这些活动至关重要的前后运动。通过在sagittally（在矢状面上）训练，运动员可以提高协调性和运动效率，从而提升表现。 除了运动和康复，sagittal（矢状面）对齐的概念在人体工学中也扮演着重要角色。对于那些长时间坐在桌子前的人来说，保持sagittally（在矢状面上）对齐的姿势对预防背痛和其他肌肉骨骼问题至关重要。人体工学专家通常推荐特定的椅子设计和桌面设置，以鼓励个人保持身体在sagittally（在矢状面上）对齐，从而减少脊柱的压力，促进整体健康。 此外，理解sagittal（矢状面）运动不仅限于体育活动；它还适用于解剖学、运动学甚至机器人技术等各个领域。在机器人技术中，工程师设计能够sagittally（在矢状面上）移动的机器人手臂和其他设备，以执行模拟人类动作的任务。这种对运动平面的理解使得开发出更复杂、更高效的机器人系统成为可能。 总之，术语sagittally（在矢状面上）涵盖了人类运动和解剖学的基本方面。无论是在锻炼、康复、运动训练、人体工学还是机器人技术的背景下，认识到sagittal（矢状面）对齐和运动的重要性都可以导致更好的表现、更好的健康结果以及技术的创新进步。通过将这一知识融入各种实践中，我们可以增强对身体及其能力的理解，最终过上更健康、更积极的生活方式。