2023 Chemical Imaging Gordon Research Conferences

2023 年化学成像戈登研究会议

• 批准号: 10605394
• 负责人: Ji-Xin Cheng
• 金额: $ 0.99万
• 依托单位: GORDON RESEARCH CONFERENCES
• 依托单位国家: 美国
• 财政年份: 2023
• 资助国家: 美国
• 起止时间: 2023-03-01 至 2024-02-29
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10605394
• 关键词: Acceleration; Address; Basic Science; Big Data; Biological Sciences; Biology; Biomedical Engineering; Biomedical Technology; Brain; Breathing; Caring; Cells; Chemicals; Clinic; Collaborations; Communities; Data; Data Science; Data Set; Dedications; Detection; Development; Diagnosis; Drug resistance; Educational workshop; Electrochemistry; Endoscopy; Engineering; Faculty; Fluorescence; Fostering; Goals; Growth; Health; Human; Image; Imaging Device; Imaging technology; Industrialization; Knowledge; Label; Malignant Neoplasms; Maps; Mass Spectrum Analysis; Measurement; Medical; Medicine; Mentors; Mentorship; Methods; Microscope; Microscopy; Miniaturization; Mission; Modality; Molecular; National Institute of Biomedical Imaging and Bioengineering; Noise; Organelles; Organism; Participant; Performance; Postdoctoral Fellow; Research; Research Personnel; Resolution; Science; Scientist; Shapes; Signal Transduction; Specimen; Spectroscopy, Fourier Transform Infrared; Spectrum Analysis; Speed; Students; System; Technology; Time; Tissues; Translating; Translations; United States National Institutes of Health; Visualization; absorption; biomarker discovery; biomedical imaging; clinical investigation; clinical research site; clinical translation; college; commercialization; design; detection sensitivity; disorder prevention; experience; graduate student; imaging modality; imaging platform; improved; in vivo; innovation; instrumentation; ionization technique; meetings; molecular dynamics; molecular imaging; posters; programs; research and development; single molecule; spectroscopic imaging; superresolution imaging; superresolution microscopy; supervised learning; symposium; unsupervised learning

Project Summary Over the past two decades, a number of advanced chemical imaging platforms have emerged, including coherent Raman scattering microscopy, transient absorption microscopy, photothermal microscopy, single molecule imaging, ambient ionization methods for mass spectrometry, electrochemical microscopy, and imaging with advanced chemical probes. These advances are enabling high speed, high-resolution spectroscopic imaging of living systems. Applications of these modalities have led to discoveries of biomarkers defining cancer aggressiveness, drug resistance, and other conditions. Miniaturization of chemical imaging platforms are enabling on-site clinical investigation of human specimens and in vivo measurements by endoscopy. Commercialization of various chemical imaging modalities allows broader use of the technologies. With the mission of bringing together experts in engineering, life science, medicine, data science, and industrial leaders to foster the growth of this exciting field, the inaugural Gordon Research Conference (GRC) on Chemical Imaging is to be held at the Stonehill College, Easton, MA from July 30th to Aug 4th, 2023. A maximum of 175 participants is expected, including discussion leaders, invited speakers, junior faculty, postdoc and students. Specific aims of the GRC are: (1) Pushing the physical limits and inspire far-reaching goals. (2) Addressing the most significant problems in biology, materials and medicine. (3) Promoting fusion of various modalities. (4) Moving the field into new directions and stimulating new horizons. (5) Engaging and educating young scientists. The chemical imaging GRC aligns well with the mission of the National Institute of Biomedical Imaging and Bioengineering (NIBIB).

项目摘要 在过去的二十年里，出现了许多先进的化学成像平台，包括 相干拉曼散射显微镜，瞬态吸收显微镜，光热显微镜，单 分子成像，质谱分析的环境电离方法，电化学显微镜，和 用先进的化学探针成像这些进步使高速、高分辨率 生命系统的光谱成像这些模式的应用导致了以下发现： 定义癌症侵袭性、耐药性和其他病症的生物标志物。小型化 化学成像平台使人体标本和体内的现场临床研究成为可能。 通过内窥镜检查进行测量。各种化学成像模式的商业化允许更广泛的使用 的技术。其使命是将工程、生命科学、医学、数据 科学和工业领袖，以促进这一令人兴奋的领域的发展，就职戈登研究 化学成像会议（GRC）将于7月30日至10日在马萨诸塞州伊斯顿的斯通希尔学院举行。 2023年8月4日预计最多有175名与会者，包括讨论负责人、特邀发言人、 初级教员、博士后和学生。GRC的具体目标是：（1）推动物理极限，激发 深远的目标。(2)解决生物学、材料学和医学中最重要的问题。（三） 促进各种模式的融合。(4)将该领域推向新的方向并激发新的视野。 (5)鼓励和教育青年科学家。该化学成像GRC与该系统的使命一致， 国家生物医学成像和生物工程研究所（NIBIB）。