| In vivo continuous‐wave optical breast imaging enhanced with Indocyanine Green X Intes, J Ripoll, Y Chen, S Nioka, AG Yodh, B Chance Medical physics 30 (6), 1039-1047, 2003 | 319 | 2003 |
| Diffuse optical tomography with a priori anatomical information M Guven, B Yazici, X Intes, B Chance Physics in Medicine & Biology 50 (12), 2837, 2005 | 209 | 2005 |
| Time-domain optical mammography SoftScan: Initial Results1 X Intes Academic radiology 12 (8), 934-947, 2005 | 192 | 2005 |
| The integration of 3-D cell printing and mesoscopic fluorescence molecular tomography of vascular constructs within thick hydrogel scaffolds L Zhao, VK Lee, SS Yoo, G Dai, X Intes Biomaterials 33 (21), 5325-5332, 2012 | 144 | 2012 |
| Diffuse optical tomography with physiological and spatial a priori constraints X Intes, C Maloux, M Guven, B Yazici, B Chance Physics in Medicine & Biology 49 (12), N155, 2004 | 134 | 2004 |
| Time domain fluorescent diffuse optical tomography: analytical expressions S Lam, F Lesage, X Intes Optics Express 13 (7), 2263-2275, 2005 | 132 | 2005 |
| Projection access order in algebraic reconstruction technique for diffuse optical tomography X Intes, V Ntziachristos, JP Culver, A Yodh, B Chance Physics in Medicine & Biology 47 (1), N1, 2001 | 126 | 2001 |
| Real-time diffuse optical tomography based on structured illumination S Bélanger, M Abran, X Intes, C Casanova, F Lesage Journal of biomedical optics 15 (1), 016006, 2010 | 119 | 2010 |
| Full-field time-resolved fluorescence tomography of small animals V Venugopal, J Chen, F Lesage, X Intes Optics letters 35 (19), 3189-3191, 2010 | 111 | 2010 |
| Monte Carlo based method for fluorescence tomographic imaging with lifetime multiplexing using time gates J Chen, V Venugopal, X Intes Biomedical optics express 2 (4), 871-886, 2011 | 106 | 2011 |
| Pharmacokinetic-rate images of indocyanine green for breast tumors using near-infrared optical methods B Alacam, B Yazici, X Intes, S Nioka, B Chance Physics in Medicine & Biology 53 (4), 837, 2008 | 97 | 2008 |
| Comparison of Monte Carlo methods for fluorescence molecular tomography—computational efficiency J Chen, X Intes Medical physics 38 (10), 5788-5798, 2011 | 92 | 2011 |
| Development of an optical imaging platform for functional imaging of small animals using wide-field excitation V Venugopal, J Chen, X Intes Biomedical optics express 1 (1), 143, 2010 | 88 | 2010 |
| Noninvasive, low-noise, fast imaging of blood volume and deoxygenation changes in muscles using light-emitting diode continuous-wave imager Y Lin, G Lech, S Nioka, X Intes, B Chance Review of Scientific Instruments 73 (8), 3065-3074, 2002 | 84 | 2002 |
| Non-invasive in vivo imaging of near infrared-labeled transferrin in breast cancer cells and tumors using fluorescence lifetime FRET K Abe, L Zhao, A Periasamy, X Intes, M Barroso PloS one 8 (11), e80269, 2013 | 79 | 2013 |
| Metabolism-enhanced tumor localization by fluorescence imaging: in vivo animal studies Y Chen, G Zheng, ZH Zhang, D Blessington, M Zhang, H Li, Q Liu, L Zhou, ... Optics letters 28 (21), 2070-2072, 2003 | 79 | 2003 |
| Time-resolved diffuse optical tomography with patterned-light illumination and detection J Chen, V Venugopal, F Lesage, X Intes Optics letters 35 (13), 2121-2123, 2010 | 78 | 2010 |
| Compressive hyperspectral time-resolved wide-field fluorescence lifetime imaging Q Pian, R Yao, N Sinsuebphon, X Intes Nature photonics 11 (7), 411, 2017 | 73 | 2017 |
| Hyperspectral time-resolved wide-field fluorescence molecular tomography based on structured light and single-pixel detection Q Pian, R Yao, L Zhao, X Intes Optics letters 40 (3), 431-434, 2015 | 69 | 2015 |
| Quantitative tomographic imaging of intermolecular FRET in small animals V Venugopal, J Chen, M Barroso, X Intes Biomedical optics express 3 (12), 3161-3175, 2012 | 68 | 2012 |
Margarida BarrosoMolecular and Cellular Physiology, Albany Medical College, Albany, NYVerified email at amc.edu
