biparietal
简明释义
英[ˌbaɪpəˈraɪɪtəl]美[ˌbaɪpəˈraɪətəl]
adj. 二顶的;二顶骨的
英英释义
与头骨的两个顶骨相关或影响的。 |
单词用法
双顶径,通常用于描述胎儿头部的宽度 | |
双顶测量,通常用于超声检查中 | |
双顶视图,通常用于影像学检查 | |
双顶评估,通常用于评估胎儿发育 |
同义词
| 双顶的 | The biparietal diameter is an important measurement in obstetrics. | 双顶径是产科中一个重要的测量指标。 | |
| 双侧的 | 双侧对称是生物学中的一个常见特征。 | ||
| 二分的 | 二分思维可能限制解决问题的能力。 |
反义词
| 单侧的 | The uniparietal structure is often found in certain species of fish. | 单侧结构通常在某些鱼类中发现。 | |
| 非顶骨的 | Non-parietal bones are those that do not form part of the skull's sides. | 非顶骨是指不构成头骨侧面的骨骼。 |
例句
1.Remember the birth, the baby's biparietal diameter of 103, in order to prevent accidents, I chose the C-section.
记得分娩时,孩子的双顶径为103,为防止意外,我选择了剖腹产。
2.Methods Measure the depth of the soft tissue in the back neck of fetus, Biparietal diameter(BPD) , femur length(FL) and abdominal circumference(AC), and apply linear regression equation.
方法超声测量胎儿颈后软组织厚度、双顶颈、股骨长径、腹围、应用线性回归方程求出各指标与胎儿体重的关系。
3.Methods Measure the depth of the soft tissue in the back neck of fetus, Biparietal diameter(BPD) , femur length(FL) and abdominal circumference(AC), and apply linear regression equation.
方法超声测量胎儿颈后软组织厚度、双顶颈、股骨长径、腹围、应用线性回归方程求出各指标与胎儿体重的关系。
4.The doctor measured the biparietal 双顶径 diameter of the fetus during the ultrasound.
医生在超声检查中测量了胎儿的biparietal 双顶径。
5.An abnormal biparietal 双顶径 may indicate potential complications in pregnancy.
异常的biparietal 双顶径 可能表明妊娠中的潜在并发症。
6.In anthropology, the biparietal 双顶径 width is often used to study human skull shapes.
在人类学中,biparietal 双顶径 宽度常用于研究人类头骨形状。
7.A biparietal 双顶径 measurement can help assess fetal growth.
测量biparietal 双顶径可以帮助评估胎儿的生长情况。
8.The biparietal 双顶径 measurement is an important parameter in prenatal care.
在产前护理中,biparietal 双顶径 测量是一个重要参数。
作文
The human skull is a complex structure that serves multiple purposes, including protection of the brain and support for facial features. One of the critical measurements in understanding skull anatomy is the biparietal diameter. This term refers to the distance between the two parietal bones of the skull, which are located on the sides of the head. The biparietal diameter is an important metric in various fields such as anthropology, medicine, and forensics, as it can provide insights into the growth patterns and health of individuals. In anthropology, researchers often study the biparietal diameter to understand the evolutionary changes in human skull shapes over time. By examining fossilized remains, scientists can compare the biparietal measurements of ancient humans with those of modern humans. This comparison can reveal significant information about how our ancestors adapted to their environments and how their physical traits evolved. In medical practice, the biparietal measurement is particularly important during pregnancy. Ultrasound scans are routinely performed to assess fetal development, and one of the key measurements taken is the biparietal diameter of the fetus's head. This measurement helps doctors to estimate gestational age and to identify any potential abnormalities in fetal development. A significantly larger or smaller biparietal diameter than expected can indicate conditions such as macrocephaly or microcephaly, respectively, which may require further investigation or intervention. Forensic scientists also utilize the biparietal measurement in their work. When analyzing skeletal remains, they can use the biparietal diameter to help determine the age and sex of an individual. This information is crucial in solving crimes and identifying unknown remains. By comparing the biparietal diameter with established data, forensic experts can draw conclusions about the individual's physical characteristics and potentially uncover details about their life. Furthermore, the biparietal diameter is not only relevant in human anatomy but also in the study of other primates. By comparing the biparietal dimensions across different species, researchers can gain insights into the evolutionary relationships among primates. Such studies may reveal how certain adaptations have occurred in response to environmental pressures and how these adaptations have influenced cognitive abilities and social behaviors. In conclusion, the biparietal diameter is a vital measurement that extends beyond mere anatomical interest. Its applications in anthropology, medicine, and forensics highlight its significance in understanding human development, evolution, and identity. By studying the biparietal diameter, we can uncover valuable insights into both our past and present, making it an essential aspect of various scientific disciplines. As research continues to evolve, the importance of the biparietal measurement will undoubtedly remain a focal point for scholars and practitioners alike.
人类颅骨是一个复杂的结构,具有多重功能,包括保护大脑和支撑面部特征。理解颅骨解剖学的一个关键测量是biparietal直径。这个术语指的是颅骨两侧顶骨之间的距离。biparietal直径在人类学、医学和法医学等多个领域中都是一个重要的指标,因为它可以提供有关个体生长模式和健康状况的见解。在人类学中,研究人员通常研究biparietal直径,以了解人类颅骨形状随时间的演变变化。通过检查化石遗骸,科学家可以比较古代人类与现代人类的biparietal测量。这种比较可以揭示关于我们祖先如何适应环境及其身体特征如何演变的重要信息。在医学实践中,biparietal测量在怀孕期间尤其重要。常规进行的超声扫描用于评估胎儿发育,其中一个关键的测量是胎儿头部的biparietal直径。这一测量帮助医生估计妊娠年龄,并识别胎儿发育中的潜在异常。显著大于或小于预期的biparietal直径可能表明诸如巨头症或小头症等情况,这些情况可能需要进一步调查或干预。法医科学家在工作中也利用biparietal测量。在分析骨骼遗骸时,他们可以使用biparietal直径来帮助确定个体的年龄和性别。这些信息对于解决犯罪和识别未知遗骸至关重要。通过将biparietal直径与既定数据进行比较,法医专家可以得出关于个体身体特征的结论,并可能发现有关他们生活的细节。此外,biparietal直径不仅在人体解剖学中相关,也在其他灵长类动物的研究中具有重要意义。通过比较不同物种的biparietal尺寸,研究人员可以获得关于灵长类动物进化关系的见解。这类研究可能揭示某些适应如何响应环境压力而发生,以及这些适应如何影响认知能力和社会行为。总之,biparietal直径是一个重要的测量,不仅仅是解剖学上的兴趣。它在人类学、医学和法医学中的应用突显了它在理解人类发展、进化和身份方面的重要性。通过研究biparietal直径,我们可以揭示关于我们过去和现在的宝贵见解,使其成为各科学科的重要组成部分。随着研究的不断发展,biparietal测量的重要性无疑将继续成为学者和从业者的焦点。
