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Full-Text Articles in Biomedical Engineering and Bioengineering
Preclinical Evaluation Of Spatial Frequency Domain-Enabled Wide-Field Quantitative Imaging For Enhanced Glioma Resection, Mira Sibai, Carl Fisher, Israel Veilleux, Jonathan T. Elliot, Frederic Leblond, David W. Roberts, Brian Wilson
Preclinical Evaluation Of Spatial Frequency Domain-Enabled Wide-Field Quantitative Imaging For Enhanced Glioma Resection, Mira Sibai, Carl Fisher, Israel Veilleux, Jonathan T. Elliot, Frederic Leblond, David W. Roberts, Brian Wilson
Dartmouth Scholarship
5-Aminolevelunic acid-induced protoporphyrin IX (PpIX) fluorescence-guided resection (FGR) enables maximum safe resection of glioma by providing real-time tumor contrast. However, the subjective visual assessment and the variable intrinsic optical attenuation of tissue limit this technique to reliably delineating only high-grade tumors that display strong fluorescence. We have previously shown, using a fiber-optic probe, that quantitative assessment using noninvasive point spectroscopic measurements of the absolute PpIX concentration in tissue further improves the accuracy of FGR, extending it to surgically curable low-grade glioma. More recently, we have shown that implementing spatial frequency domain imaging with a fluorescent-light transport model enables recovery of …