stereology

简明释义

英[ˌsterɪˈɒlədʒi]美[ˌsteriˈɑːlədʒi]

n. 体视学，立体测量学

英英释义

单词用法

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例句

1.In this paper, we discusses the computer analysis methods of some gestalt parameters prescribed in quantitative metallography and stereology, and the algorithms of computer image processing.

本文就定量金相学和体视学中所规定的几个重要的完形参数的计算机分析加以描述，并且对图像处理计算机算法进行了探讨。

2.Methods: Blood vessels of spinal cord were stained with alkaline phosphatase and then observed with stereology method.

方法：应用碱性磷酸酶血管染色法，对脊髓内部血管，用体视学方法作计量和观察。

3.The system USES the stereology that deduces the 3d information of structure from 2d information of structure and provides the method to study quantitatively the 3d information of a biological shape.

系统应用了体视学由二维结构信息定量推论出三维结构信息，为生物形态三维定量研究提供了方法。

4.ObjectivesTo study the effect of iodine excess on thyroid stereology at rats.

目的观察大鼠长期摄入过量碘时甲状腺的形态和体视学变化。

5.Isotropic, uniformly random sections were cut from theisolated LV, and the total number of myocyte nuclei and the average number of nuclei per myocyte were estimated using unbiased stereology.

在分离的LV上以相同方向、均匀的切片，使用无偏倚的立体学方法，评估心肌细胞核总数、每个心肌细胞的细胞核数。

6.The capillary density on the human medulla oblongata and pons was analysed using stereology method.

采用立体学方法对5例人延髓脑桥毛细血管密度作了观测。

7.The system USES the stereology that deduces the 3d information of structure from 2d information of structure and provides the method to study quantitatively the 3d information of a biological shape.

系统应用了体视学由二维结构信息定量推论出三维结构信息，为生物形态三维定量研究提供了方法。

8.Researchers used stereology to quantify the volume of neurons in the brain.

研究人员使用立体学来量化大脑中神经元的体积。

9.In pathology, stereology helps in estimating the number of cells in a tissue sample.

在病理学中，立体学有助于估计组织样本中的细胞数量。

10.Using stereology, scientists can create accurate models of complex shapes.

通过使用立体学，科学家可以创建复杂形状的准确模型。

11.The application of stereology in material science allows for better understanding of microstructures.

在材料科学中应用立体学可以更好地理解微观结构。

12.The field of stereology focuses on the three-dimensional structure of biological tissues.

领域的立体学专注于生物组织的三维结构。

作文

Stereology is a scientific discipline that deals with the three-dimensional structure of materials based on two-dimensional images. It has applications in various fields, including biology, materials science, and medicine. By analyzing the spatial distribution and organization of components within a sample, researchers can gain insights into the properties and functions of that material. For instance, in biology, stereology (立体测量学) is used to study the architecture of tissues and organs, allowing scientists to understand how cells are organized and how they interact with each other. This understanding is crucial for advancements in medical research and treatment strategies.One of the primary techniques in stereology (立体测量学) is the use of systematic sampling methods to estimate the volume and surface area of different structures within a specimen. These methods help in quantifying the number of cells, the size of organelles, and the spatial relationships between various tissue components. By employing these techniques, researchers can create accurate models of biological systems that reflect their true three-dimensional nature.In materials science, stereology (立体测量学) plays a vital role in characterizing the microstructure of materials such as metals, ceramics, and polymers. Understanding the microstructural features, like grain size and phase distribution, is essential for predicting the mechanical properties of materials. For example, in the production of stronger and more durable alloys, stereology (立体测量学) helps engineers optimize the composition and processing conditions to achieve desired characteristics.Moreover, the application of stereology (立体测量学) extends to environmental science, where it is utilized to assess the structure of ecosystems. By examining the spatial arrangement of flora and fauna, ecologists can better understand biodiversity and the health of ecosystems. This information is critical for conservation efforts and for developing strategies to mitigate the impact of human activities on the environment.The importance of stereology (立体测量学) cannot be overstated, as it provides a bridge between two-dimensional observations and three-dimensional realities. In an era where advanced imaging techniques, such as electron microscopy and MRI, are becoming increasingly sophisticated, the role of stereology (立体测量学) remains indispensable. These techniques allow for the visualization of samples at unprecedented resolutions, but without the principles of stereology (立体测量学), the interpretation of these images would be limited.In conclusion, stereology (立体测量学) is a powerful tool that enhances our understanding of the complex structures that make up the world around us. Whether in the realm of biology, materials science, or environmental studies, the insights gained through stereology (立体测量学) contribute significantly to scientific knowledge and technological advancements. As research continues to evolve, the applications of stereology (立体测量学) will undoubtedly expand, leading to new discoveries and innovations that could transform various fields of study.