Website of PIBM2010: www.pibm.cn
Chairs:
Qingming Luo, Wuhan National Laboratory for Optoelectronics (China);
Lihong Wang, Washington University in St. Louis (USA);
Valery V. Tuchin, Saratov State University (Russia)
Local Organization Committee Chairs:
Ling Fu, Wuhan National Laboratory for Optoelectronics (China)
Pengcheng Li, Wuhan National Laboratory for Optoelectronics (China);
Invited Speakers:
Dennis Matthews, University of California, Davis, (USA); Frank Chuang, University of California, Davis (USA); Andrew K. Dunn, The University of Texas at Austin (USA); Sergio Fantini, Tufts University (USA); Min Gu, Swinburne University of Technology (Australia); Steven L. Jacques, Oregon Health & Science University (USA);Xingde Li, Johns Hopkins University (USA); Avraham Mayevsky, Bar-Ilan University (Israel); Junle Qu, Shenzhen University (China); Peter Saggau, Baylor College of Medicine (USA); Valery V. Tuchin, Saratov State University (Russia); Lihong Wang, Washington University in St. Louis (USA); Liping Wang, Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences (China);Xunbin Wei, Fudan University (China);Habib Zaidi, Geneva University Hospital (Switzerland); Gang Zheng, University of Toronto (Canada); Dongping Zhong, The Ohio State University (USA); Linhong Deng, Chongqing University (China)
Papers are being accepted in these areas:
● Photonic Therapeutics, Diagnostics and Instrumentations
·Lasers in Medicine
·Optical Biopsy
·Optical Coherence Tomography in Biomedicine
·Optical Techniques in Neurosurgery and Brain Imaging
·Optical Methods for Tumor Treatment and Detection: Mechanisms and Techniques in Photodynamic Therapy
·Optical Sensors and Systems for Medical Diagnostics and Treatment
·Mechanisms for Low-Intensity-Light Therapy
·Novel Endoscopic Technologies
● Tissue Optics and Laser Tissue Interaction
·Diffuse Optical and Spectroscopic Imaging
·Functional Brain Imaging and Mammography
·Image Reconstruction Methods
·Optical Interaction with Tissue and Cells: Theory and Applications
·Thermal Treatment of Tissue
·Control of Tissue Optical Properties
● Biomedical Spectroscopy and microscopy
·Single Molecule Spectroscopy
·3-D and Multidimensional Microscopy
·Multiphoton Microscopy (MP) Theory and System Development
·Second Harmonic Generation Microscopy (SHG)
·Fluorescence Resonance Energy Transfer Imaging (FRET)
·Fluorescence Lifetime Imaging (frequency- and time- domain) (FLIM)
·Fluorescence Correlation Spectroscopy (FCS)
·Fluorescence Recovery after Photobleaching (FRAP)
● Multimodal and Hybrid Biomedical Imaging
·Multimodal Imaging Integrating Structural and Functional Information
·Photoacoustic/Thermoacoustic Imaging
·2D, 3D, 4D Tomographic and /or Multi-spectral Imaging
·Combination of Optical Imaging with Other Modalities (MR, X-ray, PET¼)
·Image Analysis, Computational Methods and Reconstruction Approaches
·Visualization, Segmentation and Registration for Optical Imaging
·Biomedical Image Display and Human Perception
·Digital Radiography, Digital Fluoroscopy and Digital Mammography
·Teleradiology and Telemedicine, Picture Archiving and Communication Systems
·Other Novel Imaging Techniques
● Optical Molecular Imaging
·Molecular Beacons, Probes and Dyes for Biomedical Applications
·Tissue-targeting or Tumor-seeking Agents
·Nanoparticles, Colloidal Quantum Dots for Biomedical Applications
·Nano/Biophotonics and Biomedical Applications
·Optical Probes for Molecular and Cellular Imaging
·Functional Imaging and Optical Manipulation of Biomolecules, Live Cells and Tissues
·Molecular Optical Coherence Tomography
·Fluorescence Molecular Tomography
·Optical Imaging of Gene Expression and Protein-Protein Interaction
·Functional Monitoring and Drug-tissue Interaction
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