Design and Quality for Biomedical Technologies IX
Proceedings Volume 9700 is from: Logo
13-18 February 2016
San Francisco, California, United States
Front Matter: Volume 9700
Proc. SPIE 9700, Front Matter: Volume 9700, 970001 (29 June 2016);
Phantom Development and Characterization
Proc. SPIE 9700, National Institute of Standards and Technology measurement service of the optical properties of biomedical phantoms: current status, 970002 (24 March 2016);
Proc. SPIE 9700, Development of breast cancer tissue phantoms for terahertz imaging, 970003 (18 March 2016);
Proc. SPIE 9700, Characterization of homogeneous tissue phantoms for performance tests in diffuse optics, 970004 (18 March 2016);
Proc. SPIE 9700, Low-cost tissue simulating phantoms with tunable, wavelength-dependent scattering properties (Conference Presentation), 970005 ();
Printed Phantoms
Proc. SPIE 9700, Performance evaluation of CCD- and mobile-phone-based near-infrared fluorescence imaging systems with molded and 3D-printed phantoms, 970006 (18 March 2016);
Proc. SPIE 9700, 3D-printed phantom for the characterization of non-uniform rotational distortion (Conference Presentation), 970007 ();
Proc. SPIE 9700, Customized three-dimensional printed optical phantoms with user defined absorption and scattering, 970008 (18 March 2016);
Proc. SPIE 9700, Freeform fabrication of tissue-simulating phantoms by combining three-dimensional printing and casting, 970009 (18 March 2016);
Proc. SPIE 9700, Optical characterization of tissue mimicking phantoms by a vertical double integrating sphere system, 97000A (18 March 2016);
Quality of Biomedical Technologies
Proc. SPIE 9700, Eye safety analysis for non-uniform retinal scanning laser trajectories, 97000B (18 March 2016);
Proc. SPIE 9700, New solutions for standardization, monitoring and quality management of fluorescence-based imaging systems (Conference Presentation), 97000C ();
Proc. SPIE 9700, Quantitative assessment of hyperspectral imaging in detection of plasmonic nanoparticles: a modified contrast-detail analysis approach, 97000D (18 March 2016);
Proc. SPIE 9700, The component validation of direct diode 488nm lasers in BD Accuri C6 flow cytometers, 97000E (18 March 2016);
Proc. SPIE 9700, Dynamic thermal effects of epidermal melanin and plasmonic nanoparticles during photoacoustic breast imaging, 97000F (18 March 2016);
Phantom Technologies
Proc. SPIE 9700, From theory to practice: the broadening role of polydimethylsiloxane phantoms as an intermediary between model validation and instrument performance testing (Conference Presentation), 97000G ();
Proc. SPIE 9700, Novel organosilicon phantoms as testing material for photoacoustic imaging, 97000I (18 March 2016);
Proc. SPIE 9700, Margin assessment of three-dimensional breast cancer phantoms using terahertz imaging, 97000J (18 March 2016);
Biomedical Imaging Technologies I
Proc. SPIE 9700, Biological lasers for BIOS (Conference Presentation), 97000K ();
Proc. SPIE 9700, Label-free hyperspectral microscopy for scatter imaging of biological processes in cells (Conference Presentation), 97000L ();
Proc. SPIE 9700, Sub-diffusive scatter imaging using high frequency structured light (Conference Presentation), 97000M ();
Proc. SPIE 9700, Spatially resolved diffuse reflectance spectroscopy of two-layer turbid media by densely packed multi-pixel photodiode reflectance probe, 97000O (18 March 2016);
Proc. SPIE 9700, Reflective Fourier ptychography (Conference Presentation), 97000P ();
Design of Biomedical Imaging Technologies
Proc. SPIE 9700, Fiber optic microprobes with rare-earth-based phosphor tips for proton beam characterization, 97000Q (18 March 2016);
Proc. SPIE 9700, A wearable infrared video pupillography with multi-stimulation of consistent illumination for binocular pupil response, 97000R (18 March 2016);
Proc. SPIE 9700, Illumination-parameter adjustable and illumination-distribution visible LED helmet for low-level light therapy on brain injury, 97000S (18 March 2016);
Proc. SPIE 9700, Modelling and design of modified Wollaston prisms and the application in differential interference contrast microscopy, 97000T (18 March 2016);
Proc. SPIE 9700, High resolution multiplexed functional imaging in live embyros (Conference Presentation), 97000U ();
Biomedical Imaging Technologies II
Proc. SPIE 9700, Handheld reflectance confocal endomicroscope for imaging of the oral cavity (Conference Presentation), 97000V ();
Proc. SPIE 9700, LED induced autofluorescence (LIAF) imager with eight multi-filters for oral cancer diagnosis, 97000W (18 March 2016);
Proc. SPIE 9700, Excitation-resolved wide-field fluorescence imaging of indocyanine green visualizes the microenvironment properties in vivo via solvatochromic shift (Conference Presentation), 97000X ();
Translational Technology
Proc. SPIE 9700, Translation of integrated OCT technology from bench to clinical applications (Conference Presentation), 970011 ();
Proc. SPIE 9700, Clinical utility of endoscopic OCT: recent advances and future directions (Conference Presentation), 970012 ();
Proc. SPIE 9700, Spectral domain optical coherence tomography with dual-balanced detection, 970013 (18 March 2016);
Proc. SPIE 9700, Fast full 4x4 Mueller polarimeter for endoscopic applications, 970014 (18 March 2016);
Poster Session
Proc. SPIE 9700, The role of cerebral spinal fluid in light propagation through the mouse head: improving fluorescence tomography with Monte Carlo modeling, 970015 (18 March 2016);
Proc. SPIE 9700, Towards improved image reconstruction in breast diffuse optical tomography using compressed sensing: a comparative study among Lp (0≤p≤2)sparsity regularizations, 970016 (18 March 2016);
Proc. SPIE 9700, Validation of MTF measurement for CBCT system using Monte Carlo simulations, 970017 (18 March 2016);
Proc. SPIE 9700, Non-contact ECG monitoring, 970018 (18 March 2016);
Proc. SPIE 9700, Multi-wavelength fluorescence tomography, 97001A (18 March 2016);
Proc. SPIE 9700, A modified laminar optical tomography system with small dip-angle and the initial validation, 97001B (18 March 2016);
Proc. SPIE 9700, Single-channel stereoscopic ophthalmology microscope based on TRD, 97001C (18 March 2016);
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