1,738,085 research outputs found
Shang han ming li lun
No full text張仲景述 ; 王叔和撰次 ; 成無己注解.綫裝.框17.6x12.8公分, 10行20字, 小字雙行同. 白口, 左右雙邊, 單黑魚尾. 版心上鐫題名, 中鐫卷次, 下鐫葉次.書名頁刻"傷寒論, 張仲景先生著, 成無己先生註解, 光緖庚辰重鐫, 附明理論, 埽葉山房藏板"《中國中醫古籍總目》(00671)著錄.附: 傷寒明理論 : 四卷 / 成無己撰 ; 卷前附"論圖"鈐"莊兆祥印", "莊兆祥"Xian zhuang.Kuang 17.6 x 12.8 gong fen, 10 hang 20 zi, xiao zi shuang hang tong. Bai kou, zuo you shuang bian, dan hei yu wei. Ban xin shang juan ti ming, zhong juan juan ci, xia juan ye ci.Detailed notes in vernacular field only.Detailed notes in vernacular field only.Zhang Zhongjing shu ; Wang Shuhe zhuan ci ; Cheng Wuji zhu jie.Fu: Shang han ming li lun : si juan / Cheng Wuji zhuan ; juan qian fu "Lun tu"Qian "Zhuang Zhaoxiang yin", "Zhuang Zhaoxiang
Shang han ming li lun
No full text張仲景述 ; 王叔和撰次 ; 成無己注解 ; 吳勉學閱 ; 徐鎔校. 傷寒明理論 : 四卷 / 成無己撰 ; 吳勉學閱 ; 徐鎔校.綫裝.框20x13.5公分, 10行20字, 小字雙行同. 白口, 四周單邊(間或左右雙邊), 單黑魚尾. 版心上鐫題名, 中鐫卷次, 下鐫葉次.書名頁刻"張仲景著傷寒論, 張卿子先生手定, 成無己註, 附諸名家, 大文堂藏板"《中國中醫古籍總目》(00671)著錄清廣州大文堂刻本.卷前附附: 醫林列傳 -- 論圖.鈐"莊兆祥印", "莊兆祥"Xian zhuang.Kuang 20 x 13.5 gong fen, 10 hang 20 zi, xiao zi shuang hang tong. Bai kou, si zhou dan bian (jian huo zuo you shuang bian), dan hei yu wei. Ban xin shang juan ti ming, zhong juan juan ci, xia juan ye ci.Detailed notes in vernacular field only.Detailed notes in vernacular field only.Zhang Zhongjing shu ; Wang Shuhe zhuan ci ; Cheng Wuji zhu jie ; Wu Mianxue yue ; Xu Rong jiao. Shang han ming li lun : si juan / Cheng Wuji zhuan ; Wu Mianxue yue ; Xu Rong jiao.Juan qian fu fu: Yi lin lie zhuan -- Lun tu.Qian "Zhuang Zhaoxiang yin", "Zhuang Zhaoxiang
Analysis of watersheds and river systems: short course
Full text linkShort course: Analysis of Watersheds and River Systems, Session I and II, held on May 28-June 1, 1979 and June 4-June 8, 1979 at Colorado State University, Fort Collins, Colorado.Speakers: Dr. E. V. Richardson, Dr. David Duttweiller, Mr. Lee Mulkey, Dr. Stanley A. Schumm, Dr. Daryl B. Simons, Dr. Ross Carder.Includes bibliographical references.This short course is designed for individuals dealing with the analysis of watersheds and rivers. Practical applications concerning physical processes will be emphasized.Chapter 1. General introduction / Daryl B. Simons and Ruh-Ming Li -- Chapter 2. Introduction to watershed and river analysis / Daryl B. Simons and Ruh-Ming Li -- Chapter 3. Physical processes governing response of watersheds and rivers / Daryl B. Simons, Timothy J. Ward and Ruh-Ming Li -- Chapter 4. Sediment transport / H. W. Shen -- Chapter 5. Alluvial bed roughness / H. W. Shen -- Chapter 6. Overview of flood routing methods / Ruh-Ming Li and V. Miguel Ponce -- Chapter 7. Water routing and yield from watersheds, Part I and II / Ruh-Ming Li, Daryl B. Simons, and Kenneth G. Eggert -- Chapter 8. Water routing in rivers / Yung-Hai Chen -- Chapter 9. Stage discharge relations / Robert K. Simons, Ruh-Ming Li, and Daryl B. Simons -- Chapter 10. Watershed sediment yield / Ruh-Ming Li, Daryl B. Simons, and Timothy J. Ward -- Chapter 11. Unsteady sediment routing models in rivers / Yung-Hai Chen and Daryl B. Simons -- Chapter 12. Known discharge sediment routing / Glenn O. Brown and Ruh-Ming Li -- Chapter 13. Landslide potential delineation / Timothy J. Ward, Ruh-Ming Li, and Daryl B. Simons -- Chapter 14. Application of Kalman filtering in watershed and river analysis / Nguyen Duong -- Chapter 15. Handheld calculator programs for analysis / Kenneth G. Eggert, Ruh-Ming Li, and Daryl B. Simons -- Chapter 16. Overview of case studies and data management / Daryl B. Simons, Ruh-Ming Li, and Nguyen Duong -- Chapter 17. Canal and channel design and river response analysis / Daryl B. Simons, Ruh-Ming Li, and Yung-Hai Chen -- Chapter 18. Degradation and aggradation analysis / Ruh-Ming Li and Daryl B. Simons -- Chapter 19. Watershed best management analysis / Ruh-Ming Li, Timothy J. Ward, and Daryl B. Simons -- Chapter 20. Large river basin analysis: Yazoo River Sedimentation Study / Daryl B. Simons and Ruh-Ming Li
Retraction: Light-controlled resistive switching memory of multiferroic BiMnO<sub>3</sub> nanowire arrays
No full textRetraction of ‘Light-controlled resistive switching memory of multiferroic BiMnO3 nanowire arrays’ by Bai Sun and Chang Ming Li, Phys. Chem. Chem. Phys., 2015, 17, 6718–6721.</p
[[alternative]]The Transmission and Translation of Important Terms of Western Catefories in Late Ming: From Ricci's The True Meaning of the Lord to Ming Li Tan
No full text[[abstract]]ABSTRACT
In late Ming, while Jesuits came to propagate Christianity in China, they also transmitted western learning, including Ming Li Tan (名理探), a work concerning Aristotelian Categories published in 1631. This paper aims at investigating the transmission and translation of important terms of western categories related to the Ming Li Tan from a cross-cultural viewpoint.
The author finds that in late Ming, when Jesuit Christianized Aristotelian worldview encountered Zhu Xi's Neo-Confucianism, Matteo Ricci opened two aspects of the transmission of western categories in The True Meaning of the Lord (天主實義). In the broad aspect, he redefined "gewu qiongli" (the investigation of things and fathoming of principles) in terms of scholastic philosophy, and transmitted western learning in the name of "gewu qiongli." In the Xixue Fan (西學凡 A General Account of the Western Learning), Giulio Aleni included most of western learning in the domain of "gewu qiongli," including logic. Ming Li Tan is also translated in this context for the purpose of reasoning the existence of the first cause, i.e., the Creator. In the narrow aspect, in order to criticize 'li' or 'the Supreme Ultimate' which cannot be regarded as the origin of Heaven, Earth and myriad things, Ricci introduced the Aristotelian ten categories and translated them by means of Chinese classic terms. He is the pioneer of connecting Chinese classics with western logic. Later, on the basis founded by Ricci, Aleni, Fur-tado and Li Zhi-zhao made their own modifications of important terms of western categories. Key words: Late Ming, Aristotle, Porphyry, Categories, Matteo Ricci, The True Meaning of the Lord, gewu qiongli, classics and logic, Giulio Aleni, Xixue Fan, Francois Furtado, Li Zhi-zhao, Ming Li Tan[[fileno]]JA01_2005_p24
About the importance of the research question: a response to Ming Li et al.'s comments
No full textA reponse to Ming Li et al.'s comments on the use of the Cohen's kappa statistic in our paper : SEBOE, Paul, DE LUCIA, Sylvain. Evaluation of the productivity of hospital-based researchers: comparative study between the h-index and the h(fa)-index. In: Scientometrics, 2021, vol. 126, p. 7087-7096. doi: 10.1007/s11192-021-04040-8 https://archive-ouverte.unige.ch/unige:155783</p
Development of tools to facilitate correlative 2D light microscopy and 3D x-ray histology for biomedical applications
No full textHistology is the study of the microscopic structure of biological tissues, where thin (4 Histology is the study of the microscopic structure of biological tissues, where thin (4 μm) sections of tissues such as lung, skin, or brain are examined under the light microscope (LM). These methods have underpinned many discoveries in biology and are widely used in research and clinical diagnoses. However, classical histology only provides a two dimensional (2D) view of tissue features that are inherently three-dimensional (3D). X-ray micro-computed tomography (μCT) generates 3D images of biological tissues in the millimetre down to micrometre (μm) scale. Examples of biological structures in this range include capillaries, lung alveoli, and even whole organs of small animals. As μCT imaging does not destroy the sample, the same specimen can subsequently be imaged with LM, extending current 2D methods with 3D visualisation of tissue microstructure. This project develops a method for correlative LM and μCT of formalin-fixed paraffin-embedded (FFPE) specimens, which is compatible with routine histology workflows. Firstly, protocols for μCT imaging of FFPE tissues without additional sample preparation were developed, providing the equivalent of hundreds of histology slides within hours. An objective and user-friendly image quality measurement tool (GaussQuality) was developed to quantitatively optimise these protocols. Image analysis tools for semi-automatically integrating correlative images were developed using open-source software, saving hours of researcher time. The developed workflow guides the user through co-registering their correlative image datasets to obtain interactive visualisations of their data. This workflow preserves the high spatial resolution of LM, which is not currently possible with equivalent methods in literature. Notably, a tool was developed to transfer expert annotations made on gold standard LM images to the μCT images, bringing 3D context to established methods of visualising biological structures. In the future, these transferred annotations can provide validated training data for 3D segmentation of biological features from μCT images. The developed acquisition and integration workflows were applied to three case studies in collaboration with clinical partners: assessment of COVID-19-related lung damage patterns, classification of lung adenocarcinoma subtypes, and detection of lymph node metastasis in head and neck cancers. Integration of the correlative images for these studies was achieved within hours, compared to the several days it would have taken to manually process these images. This provides proof that correlative LM and μCT has huge potential to facilitate imaging studies that were previously inaccessible, adding a new dimension to our understanding of biological structure. (μm) sections of tissues such as lung, skin, or brain are examined under the light microscope (LM). These methods have underpinned many discoveries in biology and are widely used in research and clinical diagnoses. However, classical histology only provides a twodimensional (2D) view of tissue features that are inherently three-dimensional (3D). X-ray micro-computed tomography (CT) generates 3D images of biological tissues in the millimetre down to micrometre (μm) scale. Examples of biological structures in this range include capillaries, lung alveoli, and even whole organs of small animals. As μCT imaging does not destroy the sample, the same specimen can subsequently be imaged with LM, extending current 2D methods with 3D visualisation of tissue microstructure. This project develops a method for correlative LM and μCT of formalin-fixed paraffin-embedded (FFPE) specimens, which is compatible with routine histology workflows. Firstly, protocols for μCT imaging of FFPE tissues without additional sample preparation were developed, providing the equivalent of hundreds of histology slides within hours. An objective and user-friendly image quality measurement tool (GaussQuality) was developed to quantitatively optimise these protocols. Image analysis tools for semi-automatically integrating correlative images were developed using open-source software, saving hours of researcher time. The developed workflow guides the user through co-registering their correlative image datasets to obtain interactive visualisations of their data. This workflow preserves the high spatial resolution of LM, which is not currently possible with equivalent methods in literature. Notably, a tool was developed to transfer expert annotations made on gold standard LM images to the μCT images, bringing 3D context to established methods of visualising biological structures. In the future, these transferred annotations can provide validated training data for 3D segmentation of biological features from μCT images. The developed acquisition and integration workflows were applied to three case studies in collaboration with clinical partners: assessment of COVID-19-related lung damage patterns, classification of lung adenocarcinoma subtypes, and detection of lymph node metastasis in head and neck cancers. Integration of the correlative images for these studies was achieved within hours, compared to the several days it would have taken to manually process these images. This provides proof that correlative LM and μCT has huge potential to facilitate imaging studies that were previously inaccessible, adding a new dimension to our understanding of biological structure
Going Beyond Counting First Authors in Author Co-citation Analysis
Full text linkThe present study examines one of the fundamental aspects of author co-citation analysis (ACA) - the way co-citation
counts are defined. Co-citation counting provides the data on which all subsequent statistical analyses and mappings
are based, and we compare ACA results based on two different types of co-citation counting - the traditional type that
only counts the first one among a cited work's authors on the one hand and a non-traditional type that takes into
account the first 5 authors of a cited work on the other hand. Results indicate that the picture produced through this non-traditional author co-citation counting contains more coherent author groups and is therefore considerably clearer. However, this picture represents fewer specialties in the research field being studied than that produced through the traditional first-author co-citation counting when the same number of top-ranked authors is selected and analyzed. Reasons for these effects are discussed
sj-tif-4-jet-10.1177_15266028211061267 – Supplemental material for Similar Midterm Clinical Outcomes and Aortic Remodeling in Bifurcated and Straight Aortic Stent Grafts Used to Treat Isolated Abdominal Aortic Dissection
No full textSupplemental material, sj-tif-4-jet-10.1177_15266028211061267 for Similar Midterm Clinical Outcomes and Aortic Remodeling in Bifurcated and Straight Aortic Stent Grafts Used to Treat Isolated Abdominal Aortic Dissection by Tun Wang, Chang Shu, Quan-ming Li, Ming Li, Xin Li, Hao He, Ming-yao Luo, Kun Fang, Alan Dardik and Jing-cheng Shi in Journal of Endovascular Therapy</p
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