bone cavity

简明释义

骨腔

英英释义

例句

1.The dentist explained that the infection was located in the bone cavity 骨腔 of my jaw.

牙医解释说感染位于我下颌的骨腔 bone cavity。

2.The MRI showed a significant increase in fluid within the bone cavity 骨腔.

MRI显示骨腔 bone cavity内的液体显著增加。

3.A fracture can sometimes expose the bone cavity 骨腔 to infection.

骨折有时会使得骨腔 bone cavity暴露在感染之下。

4.During the surgery, the doctor had to remove the damaged tissue from the bone cavity 骨腔.

手术期间，医生不得不从骨腔 bone cavity中去除受损组织。

5.They found a tumor in the bone cavity 骨腔 during the biopsy.

在活检过程中，他们发现了骨腔 bone cavity中的肿瘤。

作文

The human body is a complex structure composed of various systems that work in harmony. Among these systems, the skeletal system plays a crucial role in providing support and protection to vital organs. One of the fascinating aspects of bones is their internal structure, particularly the concept of the bone cavity. The bone cavity (骨腔) refers to the hollow spaces within bones that serve multiple essential functions. Understanding the significance of these cavities can enhance our appreciation of human anatomy and health.Firstly, the bone cavity is primarily filled with bone marrow, which is critical for the production of blood cells. The bone marrow located in the bone cavity (骨腔) is responsible for generating red blood cells, white blood cells, and platelets. This process is vital for maintaining a healthy immune system and ensuring that oxygen is transported throughout the body. Without the proper functioning of the bone cavity, our bodies would struggle to produce the necessary components for sustaining life.Moreover, the bone cavity also plays a significant role in storing fats. The yellow bone marrow found in the bone cavity (骨腔) serves as an energy reserve, which can be mobilized when the body requires extra energy. This storage function is particularly important during periods of fasting or intense physical activity, where the body needs to draw on its fat reserves for fuel. Thus, the bone cavity contributes not only to cellular production but also to energy management in the body.In addition to these functions, the bone cavity provides a structural advantage to bones. The hollow nature of the bone cavity (骨腔) allows bones to remain lightweight while still being strong enough to support the body’s weight. This unique design is crucial for our mobility and overall physical performance. Engineers often look to biological structures like bones for inspiration in creating lightweight yet strong materials for various applications.Furthermore, understanding the bone cavity is essential in the field of medicine. Conditions such as osteoporosis can lead to a decrease in bone density and compromise the integrity of the bone cavity (骨腔). This makes bones more susceptible to fractures and other injuries. By studying the bone cavity, researchers can develop better treatments and interventions to strengthen bones and promote overall skeletal health.Lastly, the bone cavity is also a focal point in various medical imaging techniques. X-rays, MRIs, and CT scans often highlight the bone cavity (骨腔) to diagnose conditions related to bone health. These imaging technologies allow healthcare professionals to visualize the internal structures of bones, enabling them to identify abnormalities or diseases effectively.In conclusion, the bone cavity (骨腔) is a remarkable feature of the skeletal system that serves multiple crucial functions, from blood cell production and fat storage to providing structural integrity and aiding in medical diagnoses. A deeper understanding of the bone cavity can lead to advancements in medical science and a greater appreciation for the intricate design of the human body. As we continue to explore and learn about our anatomy, the significance of the bone cavity will undoubtedly remain a vital topic in both health and science.

人体是一个复杂的结构，由各种系统组成，这些系统和谐地运作。在这些系统中，骨骼系统在为重要器官提供支持和保护方面发挥着至关重要的作用。骨头的一个迷人方面是它们的内部结构，特别是骨腔的概念。骨腔（bone cavity）指的是骨内的空腔，这些空腔具有多重重要功能。理解这些腔体的重要性可以增强我们对人体解剖学和健康的欣赏。首先，骨腔主要充满了骨髓，骨髓对血细胞的生成至关重要。位于骨腔（bone cavity）中的骨髓负责生成红细胞、白细胞和血小板。这一过程对于维持健康的免疫系统和确保氧气在全身运输至关重要。如果骨腔不能正常运作，我们的身体将难以产生维持生命所需的必要成分。此外，骨腔还在储存脂肪方面发挥着重要作用。位于骨腔（bone cavity）中的黄色骨髓作为能量储备，可以在身体需要额外能量时动员使用。这一储存功能在禁食或剧烈运动期间尤为重要，因为身体需要调动脂肪储备以获取燃料。因此，骨腔不仅有助于细胞生成，还有助于身体的能量管理。除了这些功能外，骨腔还为骨骼提供了结构优势。骨腔（bone cavity）的空心特性使得骨骼能够保持轻量，同时又足够强大，以支撑身体的重量。这种独特的设计对于我们的活动能力和整体身体表现至关重要。工程师们常常借鉴生物结构，如骨骼，来创造轻便而强大的材料，以用于各种应用。此外，了解骨腔在医学领域也至关重要。像骨质疏松症这样的疾病可能导致骨密度下降，从而损害骨腔（bone cavity）的完整性。这使得骨骼更容易发生骨折和其他伤害。通过研究骨腔，研究人员可以开发出更好的治疗和干预措施，以增强骨骼并促进整体骨骼健康。最后，骨腔也是各种医学成像技术的重点。X光、MRI和CT扫描通常会突出显示骨腔（bone cavity），以诊断与骨骼健康相关的疾病。这些成像技术使医疗专业人员能够可视化骨骼的内部结构，从而有效识别异常或疾病。总之，骨腔（bone cavity）是骨骼系统一个显著的特征，具有多重重要功能，从血细胞生成和脂肪储存到提供结构完整性和帮助医学诊断。深入了解骨腔可以推动医学科学的进步，并增强我们对人体精妙设计的欣赏。随着我们继续探索和学习我们的解剖学，骨腔的重要性无疑将继续成为健康和科学领域的一个重要话题。