Massachusettes Institute of Technology (美国)麻省理工学院


  • 1.This research was conducted in collaboration with researchers at the Dana-Farber Cancer Institute and the David Koch Institute for Integrative Cancer Research at Massachusetts Institute of Technology (MIT).

    该研究是与来自麻神理工学院 (MIT) Dana-Farber癌症研究所和David Koch肿瘤研究中心的研究人员合作完成的。

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  • 2.The discovery has been made with the help of experts from the Massachusetts Institute of Technology (MIT) - who initially developed the process by which thousands of unique polymers can now be screened simultaneously.


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  • 3.Professor Alexander said: "This is a major scientific breakthrough - we have discovered a new group of structurally related materials that dramatically reduce the attachment of pathogenic bacteria (Pseudomonas aeruginosa, Staphylococcus aureus and Escherichia coli). We could not have found these materials using the current understanding of bacteria-surface interactions. The technology developed with the help of MIT means that hundreds of materials could be screened simultaneously to reveal new structure-property relationships. In total thousands of materials were investigated using this high throughput materials discovery approach leading to the identification of novel materials resisting bacterial attachment. This could not have been achieved using conventional techniques."


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  • 4.ScienceDaily (Aug. 4, 2011) — Researchers at the Massachusetts Institute of Technology (MIT) have developed a new imaging system that enables high-speed, three-dimensional (3-D) imaging of microscopic pre-cancerous changes in the esophagus or colon. The new system, described in the Optical Society's (OSA) open access journal Biomedical Optics Express生物光学表达, is based on an emerging technology called optical coherence tomography (OCT), which offers a way to see below the surface with 3-D, microscopic detail in ways that traditional screening methods can't.


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  • 5.The new endoscopic OCT imaging system reported by OCT pioneer James G. Fujimoto of MIT and his colleagues, works at record speeds, capturing data at a rate of 980 frames (equivalent to 480,000 axial scans) per second -- nearly 10 times faster than previous devices -- while imaging microscopic features less than 8 millionths of a meter in size.

    麻省理工学院断层扫描术先驱者James G. Fujimoto和他的同事报道了新的内镜断层扫描成像系统,该系统以980幀没秒的速度记录并捕获数据(相当于480,000纵向扫描),比以前设备快了相近10倍,而显微成像特征却只在不到8/1000000公尺的大小扫描。

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