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Full-Text Articles in Medicine and Health Sciences
Logarithmic Intensity Compression In Fluorescence Guided Surgery Applications, Alisha V. Dsouza, Huiyun Lin, Jason Gunn, Brian W. Pogue
Logarithmic Intensity Compression In Fluorescence Guided Surgery Applications, Alisha V. Dsouza, Huiyun Lin, Jason Gunn, Brian W. Pogue
Dartmouth Scholarship
The use of fluorescence video imaging to guide surgery is rapidly expanding, and improvements in camera readout dynamic range have not matched display capabilities. Logarithmic intensity compression is a fast, single-step mapping technique that can map the useable dynamic range of high-bit fluorescence images onto the typical 8-bit display and potentially be a variable dynamic contrast enhancement tool. We demonstrate a ∼4.6 times improvement in image quality quantified by image entropy and a dynamic range reduction by a factor of ∼380 by the use of log-compression tools in processing in vivo fluorescence images.
Molecular Dyes Used For Surgical Specimen Margin Orientation Allow For Intraoperative Optical Assessment During Breast Conserving Surgery, David M. Mcclatchy, Venkataramanan Krishnaswamy, Stephen C. Kanick, Jonathan T. Elliott, Wendy A. Wells, Richard J. Barth Jr., Keith D. Paulsen, Brian W. Pogue
Molecular Dyes Used For Surgical Specimen Margin Orientation Allow For Intraoperative Optical Assessment During Breast Conserving Surgery, David M. Mcclatchy, Venkataramanan Krishnaswamy, Stephen C. Kanick, Jonathan T. Elliott, Wendy A. Wells, Richard J. Barth Jr., Keith D. Paulsen, Brian W. Pogue
Dartmouth Scholarship
A variety of optical techniques utilizing near-infrared (NIR) light are being proposed for intraoperative breast tumor margin assessment. However, immediately following a lumpectomy excision, the margins are inked, which preserves the orientation of the specimen but prevents optical interrogation of the tissue margins. Here, a workflow is proposed that allows for both NIR optical assessment following full specimen marking using molecular dyes which have negligible absorption and scattering in the NIR. The effect of standard surgical inks in contrast to molecular dyes for an NIR signal is shown. Further, the proposed workflow is demonstrated with full specimen intraoperative imaging on …
Macroscopic Optical Imaging Technique For Wide-Field Estimation Of Fluorescence Depth In Optically Turbid Media For Application In Brain Tumor Surgical Guidance, Kolbein K. Kolste, Stephen C. Kanick, Pablo A. Valdés, Michael Jermyn, Brian C. Wilson, David W. Roberts, Keith D. Paulsen, Frederic Leblond
Macroscopic Optical Imaging Technique For Wide-Field Estimation Of Fluorescence Depth In Optically Turbid Media For Application In Brain Tumor Surgical Guidance, Kolbein K. Kolste, Stephen C. Kanick, Pablo A. Valdés, Michael Jermyn, Brian C. Wilson, David W. Roberts, Keith D. Paulsen, Frederic Leblond
Dartmouth Scholarship
A diffuse imaging method is presented that enables wide-field estimation of the depth of fluorescent molecular markers in turbid media by quantifying the deformation of the detected fluorescence spectra due to the wavelength-dependent light attenuation by overlying tissue. This is achieved by measuring the ratio of the fluorescence at two wavelengths in combination with normalization techniques based on diffuse reflectance measurements to evaluate tissue attenuation variations for different depths. It is demonstrated that fluorescence topography can be achieved up to a 5 mm depth using a near-infrared dye with millimeter depth accuracy in turbid media having optical properties representative of …