University
of Texas 
Optical Spectroscopy Laboratory
University
of Texas 
PLEASE NOTE that the journals are listed in ALPHABETICAL ORDER with respect to author's last name.
2005 2004 2003 2002 2001 2000 1999 1998 1997 1996 1995 1994 1993 1992 1991 1990 1989 1988
Sources of scattering in cervical tissue: determination of the scattering
coefficient by confocal microscopy
Collier T; Follen M; Malpica A; Richards-Kortum
R; Applied Optics, 44(11): 2072-2081, Apr 2005.
In vivo fiber-optic confocal reflectance microscope with an injection-molded plastic miniature objective lens Carlson K; Chidley M; Sung KB; Descour M; Gillenwater A; Follen M; Richards-Kortum R; Applied Optics, 44(10): 1792-1797, Apr 2005.
Multispectral digital microscopy for in vivo detection of oral neoplasia in the hamster cheek pouch model of carcinogenesis Park SY, Sokolov K, Collier T, Aaron J, Markey M, Mackinnon N, MacAulay C, Coghlan L, Milbourne A, Follen M, Richards-Kortum R; Optics Express, 13:749-762, Feb 2005.
Analytical
Model to Describe Fluorescence Spectra of Normal and Preneoplastic
Epithelial Tissue: Comparison with Monte Carlo Simulations and Clinical
Measurements Chang
SK, Arifler D, Drezek R, Follen M, Richards-Kortum R; Journal of Biomedical
Optics, 9(3): 511-522, May/June 2004.
Detection
and Diagnosis of Oral Neoplasia with an Optical Coherence Microscope
Clark
A. L., Gillenwater A., Alizadeh-Naderi R.,El-Naggar A. K.,
Richards-Kortum R.;
Journal of Biomedical Optics 9(6):1271-1280, Nov/Dec 2004.
A
Far-red Fluorescent Contrast Agent to Image Epidermal Growth Factor Receptor
Expression Hsu E, Anslyn E,
Dharmawardhane S, Alizadeh-Naderi R, Aaron J, Sokolov K, El-Naggar A,
Gillenwater A, Richards-Kortum R; Photochemistry and Photobiology, 79(3):
272–279, 2004.
Confocal
Microscopy for Detection of Precancerous Cervical Lesions Luck
B, Carlson K, Collier T, Sung KB; IEEE Potentials, February 2004.
In
vivo pathology: microendoscopy as a new endoscopic imaging modality
MacAulay
C., Lane P., Richards-Kortum
R.; Gastrointestinal
Endoscopy Clinics of North America. 14(3): 595-620, xi, 2004
Effect
of Probe Pressure on Cervical Fluorescence Spectroscopy Measurements
Nath A., Rivoire K., Chang S., Cox D., Atkinson
E. N., Follen M., Richards-Kortum R.; Journal of Biomedical Optics, 9(3):
523-533, May/June 2004.
A
pilot study for a screening trial of cervical fluorescence spectroscopy
Nath,
A., Rivoire, K., Chang, S., West, L., Cantor, S. B., Basen-Engquist, K.,
Adler-Storthz, K., Cox, D. D., Atkinson, E. N., Staerkel, G., Macaulay, C.,
Richards-Kortum, R., Follen, M.; International Journal of Gynecological
Cancer, 14(6): 1097-1108, Nov 2004.
Ahh...The
Power of Guilt Richards-Kortum
R; SWE Magazine, Winter, 2004, pp 81-82.
The
Effects of Repeated Spectroscopic Pressure Measurements on Fluorescence
Intensity in the Cervix
Rivoire K, Nath A, Cox D, Atkinson EN,
Richards-Kortum R, Follen M; American Journal of Obstetrics and Gynecology,
191(5):1606-1617, 2004.
Vision
Enhancement System for Detection of Oral Cavity Neoplasia based on
Autofluorescence Svistun E,
Alizadeh-Naderi R, El-Naggar A, Jacob R, Gillenwater A, Richards-Kortum R;
Head & Neck, 26(3):205-15, 2004.
High
Resolution Reflectance Imaging in Optically Dense Tissue Phantoms with
Structured-Illumination Tkaczyk
T, Rahmann M, Mack V, Sokolov K, Rogers J, Richards-Kortum R, Descour M;
Optics Express, 12(16): 3745-3758, Aug
2004.
Light Scattering from Normal and Dysplastic Cervical Cells at Different Epithelial Depths: Finite Difference Time Domain Modeling with a Perfectly Matched Layer Boundary Condition Arifler D, Guillaud M, Carraro A, Malpica A, Follen M, Richards-Kortum R; Journal of Biomedical Optics, 8:484-494, 2003.
Patient Distress and Satisfaction Associated with Optical Spectroscopy of the Cervix Basen-Engquist K, Shinn EH, Warneke C, de Moor C, Le T, Richards-Kortum R, and Follen M;Am J Obstet Gynecol. 2003 Oct;189(4):1136-42
Multispectral Digital Colposcopy for in vivo Detection of Cervical Cancer Benavides JM, Chang S, Park SY, MacKinnon N, MacAulay C, Milbourne A, Malpica A, Follen M, and Richards-Kortum R; Optics Express, 11:1223-36, 2003
Effects of Biographical Variables on Cervical Fluorescence Emission Spectra Brookner C, Utzinger U, Follen M, Richards-Kortum R, and Atkinson EN; Journal of Biomedical Optics, 8:479-83, 2003.
Confocal Microscopy for Real Time Detection of Oral Cavity Neoplasia Clark AL, Gillenwater A, Collier T, Alizadeh-Naderia R, El-Naggar A, Richards-Kortum R; Clinical Cancer Research, 9(13):4714-4721, 2003.
Determination of Epithelial Tissue Scattering Coefficient using Confocal Microscopy Collier T, Arifler D, Malpica A, Follen M, Richards-Kortum R; IEEE Journal of Quantum Electronics, 9(2): 307-313, 2003.
Detecting a signal from the menstrual cycle in fluorescence spectroscopy of the cervix Cox D, Chang SK, Dawood MY, Staerkel G, Utzinger U, Richards-Kortum R, and Follen M; Journal of Applied Spectroscopy,57:67-72, 2003
Light scattering from cervical cells throughout neoplastic progression: influence of nuclear morphology, DNA content, and chromatin texture Drezek R, Guillaud M, Collier T, Boiko I, Malpica A, Macaulay C, Follen M, Richards-Kortum R; Journal of Biomedical Optics, 8(1):7-16, 2003
Optical Imaging for the Detection of Cervical Precancers In Vivo Drezek R, Faupel M, Pitris C, Feld M, Brewer M, Richards-Kortum R, and Follen M; Cancer – Supplement, 98/9:2015-2027, 2003
Relationship Between Collagen Autofluorescence of the Human Cervix and Menopausal Status Gill E, Malpica A, Alford R, Nath AR, Follen M, Richards-Kortum R, and Ramanujam N; Photochemistry and Photobiology, 77:653-658, 2003
Formative and Summative Assessment of the IGERT Program in Optical Biomolecular Bio-Engineering at UT Austin Richards-Kortum R, Dailey M, Harris C; Journal of Engineering Education, 92(4):345-350, 2003.
Imaging Quality Assessment of Multi-modal Miniature Microscope Lee J, Rogers JD, Descour MR, Hsu E, Aaron JS, Sokolov K, and Richards-Kortum R; Optics Express, Vol. 11:1436 – 1451, 2003.
Anatomical and Biochemical Origins of Normal and Precancerous Cervical Autofluorescence Using Laser Scanning Fluorescence Confocal Microscopy Pavlova I, Sokolov K, Drezek R, Malpica A, Follen M, and Richards-Kortum R; Photochemistry and Photobiology, 77(5):550-5, 2003.
Optical Systems for In Vivo Molecular Imaging of Cancer Sokolov K, Aaron J, Hsu B, Nida D, Gillenwater A, Follen M, MacAulay C, Adler-Storthz K, KOrgel B, Descour M, Pasqualini R, Arap W, Lam A, Richards-Kortum R; Technology in Cancer Research and Treatment, 2(5):491-504, 2003.
Real-Time Vital Optical Imaging of Precancer Using Anti-Epidermal Growth Factor Receptor Antibodies Conjugated to Gold Nanoparticles Sokolov K., Follen M., Aaron J., Pavlova I., Malpica A., Lotan R., and Richards-Kortum R.; Cancer Research, 63:1999–2004, May 1, 2003.
Fiber optic confocal reflectance microscopy: a new real-time technique to view nuclear morphology in cervical squamous epithelium in vivo Sung KB, Liang C, Descour M, Follen M, Malpica A, Richards-Kortum R; 11(24):3171-3181, Optics Express, 2003.
Optimal Visual Perception and Detection of Oral Cavity Neoplasia Utzinger U, Bueeler M, Oh S, Heintzelman D.L. Svistun E, Abd-El-Barr M, Gillenwater A, and Richards-Kortum R; IEEE Trans Biomed Eng, 50(3):396-9, 2003.
Fiber optic probes for biomedical optical spectroscopy Utzinger U, Richards-Kortum R; Journal of Biomedical Optics, 8(1):121-147, 2003.
Fluorescence spectroscopy as biomarker in a cell culture and in a nonhuman primate model for ovarian cancer chemopreventive agents Brewer M, Utzinger U, Yang L, Atkinson EN, Satterfield W, Auersperg N, Richards-Kortum R, Follen M, and Bast R; Journal of Biomedical Optics, 7:20-26, 2002.
Fluorescence Spectroscopy for Cervical Pre-Cancer Detection: Is There Variance Across the Menstrual Cycle? Chang SK, Dawood MY, Staerkel G, Utzinger U, Richards-Kortum R, and Follen M; Journal of Biomedical Optics, in press, 2002.
Optimal Excitation Wavelengths for Discrimination of Cervical Neoplasia Chang SK, Follen M, Malpica A, Utzinger U, Staerkel G, Cox D, Atkinson EN, MacAulay C, and Richards-Kortum R; IEEE Trans BME, 49(10):1102-1111, 2002.
Near Real Time Confocal Microscopy of Amelanotic Tissue: Detection of Dysplasia in Ex-Vivo Cervical Tissue Collier T, Lacy A, Malpica A, Follen M, and Richards-Kortum R; Academic Radiology, 9:504-512, 2002.
Towards the development of miniaturized imaging systems for detection of pre-cancer Descour MR, Kärkkäinen AHO, Rogers JD, Liang C, Kilic B, Madenci E, Rantala JT, Weinstein RS, Richards-Kortum RR, Anslyn EV, and Dupuis RD; IEEE Journal of Quantum Electronics 38:122-130, 2002.
Near real-time in vivo confocal imaging of mouse mammary tumors Lacy AA, Collier T, Price JE, Dharmawardhane S, and Richards-Kortum R; Frontiers in Bioscience. 7. January 2002. f1-7.
Design of a high-numerical-aperature miniature microscope objective for endoscopic fiber confocal reflectance microscope Liang C, Sung KB, Richards-Kortum R, and Descour MR; Applied Optics, 41:4603-4610, 2002.
Variation of Fluorescence Spectroscopy during the Menstrual Cycle MacAulay C, Richards-Kortum R, Atkinson EN, Cox D, and Follen M; submitted to Optics Express, 2002.
Reflectance spectroscopy for in vivo detection of cervical precancer Mirabal YN, Chang SK, Atkinson EN, Malpica A, Follen M, and Richards-Kortum R; Journal of Biomedical Optics 7(4):587-594, 2002.
Fiber optic probe for polarized reflectance spectroscopy in vivo: Design and performance Myakov A, Nieman L, Wicky L, Utzinger U, Richards-Kortum R, and Sokolov K; Journal of Biomedical Optics, 7(3):388-97, 2002.
Endoscopic Microscopy Sokolov K, Sung KB, Collier T, Clark A, Arifler D, Lacy A, Descour M, Richards-Kortum R; Disease Markers, 18(5,6): 269-292, 2002.
Optical spectroscopy for detection of neoplasia Sokolov K, Follen M, and Richards-Kortum R; Current Opinion in Chemical Biology 6:651-658, 2002.
Realistic three-dimensional epithelial tissue phantoms for biomedical optics Sokolov K, Galvan J, Myakov A, Lacy A, Lotan R, and Richards-Kortum R; The Journal of Biomedical Optics, 7:148-156, 2002.
Fiber-Optic Confocal Reflectance Microscope with Miniature Objective for In Vivo Imaging of Human Tissues Sung K, Liang C, Descour M, Collier T, Follen M, and Richards-Kortum R; IEEE Trans BME, 49:1168-1172, 2002.
Near real time in vivo fiber optic confocal microscopy: sub-cellular structure resolved Sung KB, Liang C, Descour M, Collier T, Follen M, and Richards-Kortum R; J Micros, 207(2):137-145, 2002.
Contrast agents for confocal microscopy: how simple chemicals affect confocal images of normal and cancer cells in suspension Zuluaga AF, Drezek R, Collier T, Lotan R, Follen M, and Richards-Kortum R; The Journal of Biomedical Optics, 7:398-403, 2002.
Biomarker Modulation in a Nonhuman Rhesus Primate Model for Ovarian Cancer Chemoprevention Brewer M, Utzinger U, Satterfield W, Gershensen D, Bast R, Richards-Kortum R, and Follen M; Cancer Epidemiology, Biomakers & Prevention, 10(8):889-93, 2001.
Fluorescence Spectroscopy for In Vivo Characterization of Ovarian Tissue Brewer M, Utzinger U, Silva E, Gershenson D, Bast RC, Follen M, and Richards-Kortum R; Lasers in Surgery and Medicine, 29:128-135, 2001.
Fluorescence Spectroscopy of Epithelial Tissue Throughout the Dysplasia-Carcinoma Sequence in an Animal Model: Spectroscopic Changes Precede Morphologic Changes Coghlan L, Utzinger U, Richards-Kortum R, Brookner C, Zuluaga A, Gimeniz-Conti I, Follen M; Lasers in Surgery and Medicine 29:1-10, 2001.
Near Real-Time Confocal Microscopy of Amelanotic Tissue: Detection of Dysplasia in ex Vivo Cervical Tissue Collier T, Lacy A, Malpica A, Follen M, and Richards-Kortum R; Academic Radiology, 9:504-512, 2001.
Autofluorescence Microscopy of Fresh Cervical-Tissue Sections Reveals Alterations in Tissue Biochemistry with Dysplasia Drezek R, Brookner C, Pavlova I, Boiko I, Malpica A, Lotan R, Follen M, and Richards-Kortum R; Photochemistry and Photobiology, 73(6):636-41, 2001.
Understanding the Contributions of NADH and collagen to cervical tissue fluorescence spectra: Modeling, measurements, and implications Drezek R, Sokolov K, Utzinger U, Boiko I, Malpica A, Follen M, and Richards-Kortum R; Journal Biomedical Optics, 6(4): 385-396, 2001.
Near Real-Time In Vivo Confocal Imaging of Mouse Mammary Tumors Lacy Alicia A, Collier Tom, Price Janet E, Dharmawardhane Su, and Richards-Kortum Rebecca.
Fiber confocal reflectance microscope (FCRM) for in-vivo imaging Liang C, Sung K, Richards-Kortum R, and Descour MR; Optics Express, 9(13):821-830, 2001.
Fast and Noninvasive Fluorescence Imaging of Biologic Tissues In Vivo Using a Flying-Spot Scanner Ramanujam N, Chen J, Gossage K, Richards-Kortum R, and Chance B; IEEE Transactions on Biomedical Engineering, 48(9):1034-,1041 2001.
Low temperature fluorescence imaging of freeze-trapped human cervical tissues Ramanujam N, Richards-Kortum R, Thomsen S, Mahadevan-Jansen A, Follen M, and Chance B; Optics Express. Vol. 8, No. 6, 335-343, 2001
Near real time in vivo fiber optic confocal microscopy: sub-cellular structure resolved Sung KB, Liang C, Descour M, Collier T, Follen M, and Richards-Kortum R; Journal of Microscopy, 207(2):137-145, 2001.
Near-Infrared Raman Spectroscopy for in Vivo Detection of Cervical Precancers Utzinger U, Heintzelman DL, Mahadevan-Jansen A, Malpica A, Follen M, and Richards-Kortum R; Applied Spectroscopy, 55(8):955-959, 2001.
Reflectance Spectroscopy for In Vivo Characterization of Ovarian Tissue Utzinger U, Brewer M, Silva E, Gershensen D, Bast R, Follen Mitchell M, and Richards-Kortum R; Lasers in Surgery and Medicine, Vol. 28, 56-66, 2001.
Autofluorescence Patterns in Short-Term Cultures of Normal Cervical Tissue. Brookner CK, Follen M, Boiko L, Galvan J, Thomsen S, Malpica A, Suzuki S, Lotan R, and Richards-Kortum R; Photochemistry and Photobiology, 71(6): 730-736, 2000.
Optimal fluorescence excitation wavelengths for detection of squamous intra-epithelial neoplasia: results from an animal model Coghlan L, Utzinger U, Drezek R, Heintzelman D, Zuluaga A, Brookner C, Richards-Kortum R, Gimenez-Conti I, Follen M, Optics Express, 7(12):436-446, 2000.
Near Real Time Confocal Microscopy of Amelanotic Tissue: Dynamics of Aceto-whitening Enable Nuclear Segmentation. Collier T, Shen P, de Pradier B, Sung KB, Malpica A, Follen M, and Richards-Kortum R; Optics Express, Vol. 6, No. 2, 40-48, 2000.
A Pulsed Finite-Difference Time-Domain (FDTD) Method for Calculating Light Scattering from Cells Over Broad Wavelength Ranges. Drezek R, Dunn A, and Richards-Kortum R; Optics Express, Vol. 6, No. 7, 147-157, 2000.
Laser scanning confocal microscopy of cervical tissue before and after application of acetic acid Drezek R, Collier T, Brookner C, Malpica A, Lotan R, Richards-Kortum R, AM J Obstet Gynecol, 182:1135-39, 2000.
Characterization of the Autofluorescence of Polymorphnuclear Leukocytes, Mononuclear Leukocytes and Cervical Epithelial Cancer Cells for Improved Spectroscopic Discrimination of Inflammation from Dysplasia. Heintzelman DL, Lotan R, and Richards-Kortum R; Photochemistry and Photobiology, Vol. 71, No.3, 327-332, 2000.
Optimal Excitation Wavelengths for In Vivo Detection of Oral Neoplasia Using Fluorescence Spectroscopy. Heintzelman DL, Utzinger U, Fuchs H, Zuluga A, Gossage K, Gillenwater AM, Jacob R, Kemp B, and Richards-Kortum R; Photochemistry and Photobiology, 72(1): 103-113, 2000.
Emerging Technologies and Cervical Cancer. Follen M, and Richards-Kortum R; Journal of the National Cancer Institute, Vol. 92, No. 5, 363-365, March 2000.
Fiber-optic confocal microscopy using a spatial light modulator Lane PM, Dlugan ALP, Richards-Kortum R, and MacAulay CE; Optics Letters, 25(24): 1780-1782, 2000.
Fluorescence Spectroscopy of the Cervix: Influence of Acetic Acid, Cervical Mucus, and Vaginal Medications Agrawal A, Utzinger U, Brookner C, Pitris C, Mitchell MF, and Richards-Kortum R; Lasers in Surgery and Medicine, Vol. 25, 237-249, 1999.
Report of the Advisory Council on Optical Technologies Bigio I, Shtern F, Ascher S, Andrews R, Bohorfush A, Brezinski M, Fujimoto J, Lam S, Mulshine J, Richards-Kortum R, Svanberg K, Tadir Y, and Tromberg B; Academic Radiology, Volume 6, Supplement 3, S157-S191, 1999.
Cervical Fluorescence of Normal Women Brookner CK, Utzinger U, Staerkel G, Ricahrds-Kortum R, and Mitchell MF; Lasers in Surgery and Medicine, Vol.24, 29-37, 1999.
A Comparison of C/B Ratios from Studies Using Receiver Operating Characteristic Curve Analysis. Cantor SB, Sun CC, Tortolero-Luna G, Richards-Kortum R, and Follen M; J Clin Epidemiol, Vol. 52, No. 9, 885-892, 1999.
Light scattering from cells: finite-difference time-domain simulations and goniometric measurements. Drezek R, Dunn A, and Ricahrds-Kortum R; Appliced Optics, Vol. 38, No. 16, 3651-3661, 1999.
Fluorescence Spectroscopy for Diagnosis of Squamous Intraepithelial Lesions of the Cervix. Mitchell MF, Cantor SB, Ramanujam N, Tortolero-Luna G, and Richards-Kortum R; Obstetrics & Gynecology, Vol. 93, No. 3, 462-470, 1999.
Screening for Squamous Intraepithelial Lesions with Fluorescence Spectroscopy. Mitchell MF, Cantor SB, Brookner C, Utzinger U, Schottenfeld D, and Richards-Kortum R; Obstetrics & Gynecology, Vol. 94, No. 5, Part 2, 889-896, 1999.
Reflectance spectroscopy with polarized light: is it sensitive to cellular and nuclear morpholoy? Sokolov K, Drezek R, Gossage K, and Richards-Kortum R; Optics Express, 5(13):302-317, 1999.
Performance Estimation of Diagnostic Tests for Cervical Precancer Based on Fluorescence Spectroscopy: Effects of Tissue Type, Sample Size, Population, and Signal-to-Noise Ratio Utzinger U, Trujillo EV, Atkinson EN, Mitchell MF, Cantor SB, and Richards-Kortum R; IEEE Transctions on Biomedical Engineering, Vol. 46, No. 11, 1293-1303, 1999.
Resonance Raman Spectroscopy at 257 nm Excitation of Nomal an Malignant Cultured Breast and Cervical Cells. Yazdi Y, Ramanujam N, Lotan R, Mitchell MF, Hittelman W, and Richards-Kortum R; Applied Spectroscopy, Vol. 53, No. 1, 82-85, 1999.
Fluorescence Excitation Emission Matrices of Human Tissue: A System for in Vivo Measurement an Method of Data Analysis. Zuluga AF, Utzinger U, Durkin A, Fuchs H, Gillenwater A, Jacob R, Kemp B, Fan J, and Richards-Kortum R; Applied Spectroscopy, Vol. 53, No. 3, 302-311, 1999.
Spatially resolved spectral interferometry for determination of subsurface structure Zuluaga AF, and Richards-Kortum R; Optics Letters, Vol. 24, No. 8, 519-521, 1999.
Cost-Effectiveness Analysis of Diagnosis and Management of Cervical Squamous Intraepithelial Lesions Cantor SB, Mitchell MF, Tortolero-Luna G, Bratka CS, Bodurka DC, and Richards-Kortum R; Obstet & Gynecology, Vol. 91, 270-277, 1998.
Noninvasive Diagnosis of Oral Neoplasia Based on Fluorescence Spectroscopy and Native Tissue Autofluorescene Gillenwater A, Jacob R, Ganeshappa R, Kemp B, El-Naggar AK, Palmer JL, Clayman G, Mitchell MF, and Richards-Kortum R; Arch Otolaryngol Head Neck Surgery, Vol. 124, 1251-1258, 1998.
Fluorescence Spectroscopy: A Technique with Potential to Improve the Early Detection of Aerodigestive Tract Neoplasia Gillenwater A, Jacob R, Richards-Kortum R; Head & Neck, Vol. 20, 556-562, 1998.
Development of a Fiber Optic Probe to Measure NIR Raman Spectra of Cervical Tissue In Vivo Mahadevan-Jansen A, Mitchell MF, Ramanujam N, Utzinger U, and Ricahrds-Kortum R; Photochemistry and Photobiology, Vol. 68, No. 3, 427-431, 1998.
Near-Infrared Raman Spectroscopy for In Vitro Detection of Cervical Precancers Mahadevan-Jansen A, Mitchell MF, Ramanujam N, Malpica A, Thomsen S, Utzinger U, and Richards-Kortum R; Photochemistry and Photobiology, Vol. 68, No. 1, 123-132, 1998.
Colposcopy for the Diagnosis of Squamous Intraepithelial Lesions: A Meta-Analysis Mitchell MF, Schottenfeld D, Tortolero-Luna G, Cantor SB, and Richards-Kortum R; Obstetrics & Gynecology, Vol. 91, No. 4, 626-632, 1998.
Penetration depth limits of in vivo confocal reflectance imaging Smithpeter CL, Dunn AK, Welch AJ, and Richards-Kortum R; Applied Optics, Vol. 37, No. 13, 2749-2754, 1998.
Near Real Time Confocal Microscopy of Cultured Amelanotic Cells: Sources of Signal, Contrast Agents and Limits of Contrast Smithpeter CL, Dunn AK, Drezek R, Collier T, and Richards-Kortum R; Journal of Biomedical Optics, Vol. 3, No. 4, 429-436, 1998.
Method to Determine Tissue Fluorescence Efficiency in Vivo and Predict Signal-to-Noise Ratio for Spectrometers Trujillo EV, Sandison DR, Utzinger U, Ramanujam N, Mitchell MF, and Richards-Kortum R; Applied Spectroscopy, Vol. 52, No. 7, 943-951, 1998.
Ensembles of Radial Basis Function Networks for Spectroscopic Detection of Cervical Precancer Tumer K, Ramanujam N, Ghosh J, and Richards-Kortum R; IEEE Transctions on Biomedical Engineering, Vol. 45, No. 8, 953-961, 1998.
Safety Analysis: Relative Risks of Ultraviolet Exposure from Fluorescence Spectroscopy and Colposcopy Are Comparable Brookner CK, Agrawal A, Trujillo EV, Mitchell MF, and Richards-Kortum R; Photochemistry and Photobiology, Vol. 65, No. 6, 1020-1025, 1997.
Finite-Difference Time-Domain Simulation of Light Scattering from Single Cells Dunn A, Smithpeter C, Welch AJ, and Richards-Kortum R; Journal of Biomedical Optics, Vol. 2, No. 3, 262-266, 1997.
Raman Spectroscopy for Cancer Detection: A Review Mahadevan-Jansen A, and Richards-Kortum R; 19th International Conference- IEEE/EMBS, Oct. 30-Nov. 2, 1997.
Propagation of Fluorescent Light Welch AJ, Gardner C, Richards-Kortum R, Chan E, Criswell G, Pfefer J, and Warren S; Lasers in Surgery and Medicine, Vol. 21, 166-178, 1997.
Sources of contrast in confocal reflectance imaging Dunn AK, Smithpeter C, Welch AJ, and Richards-Kortum R; Applied Optics, Vol. 35, No. 19, 3441-3446, 1996.
Three-Dimensional Computation of Light Scattering From Cells Dunn A and Richards-Kortum R; IEEE Journal of Selected Topics in Quantum Electronics, Vol. 2, No. 4, 898-905, 1996.
Application of The Method of Partial Least Squares to Determine Chromophore Concentrations from Fluorescence Spectra of Turbid Samples Drukin AJ and Richards-Kortum R; SPIE, Vol. 2678, 475-484, 1996.
Comparison of Methods to Determine Chromophore Concentrations From Fluorescence Spectra of Turbid Samples Durkin AJ and Richards-Kortum R; Lasers in Surgery and Medicine, Vol. 19, 75-89, 1996.
Raman Spectroscopy for the Detection of Cancers and Precancers Mahadevan-Jansen A and Richards-Kortum R; Journal of Biomedical Optics, Vol. 1, No. 1, 31-70, January 1996.
Cervical Human Papillomavirus Infection and Intraepithelial Neoplasia: a Review Mitchell MF, Tortolero-Luna G, Wrtight T, Sarkar A, Richards-Kortum R, Hong WK, Schottenfeld D; Journal of the National Cancer Institute Monographs, Vol. 21, 17-25, 1996.
Cervical Precancer Detection Using a Multivariate Statistical Algorithm Based on Laser-Induced Fluorescence Spectra at Multiple Excitation Wavelengths Ramanujam N, Mitchell MF, Mahadevan-Jansen A, Thomsen SL, Staerkel G, Malpica A, Wright T, Atkinson N, and Richards-Kortum R; Photochemistry and Photobiology, Vol. 64, No. 4, 720-735, 1996.
Development of a Multivatirate Statistical Algorithm to Analyze Human Cervical Tisue Fluorescence Spectra AcquiredIn Vivo Ramanujam N, Mitchell MF, Mahadevan A, Thomsen S, Malpica A, Wright T, Atkinson N, and Richards-Kortum R; Lasers in Surgery and Medicine Vol. 19, 46-62, 1996.
Optical Spectroscopy vs. the Surgical Suite Richards-Kortum R, Mahadevan-Jansen A, and Ramanjam N; Circuits & Devices, 34-40, 1996.
Spectroscopic Diagnosis of Cervical Intraepithelial Neoplasia (CIN) In Vivo Using Laser-Induced Fluorescence Spectra at Multiple Excitation Wavelengths Ramanujam N, Mitchell MF, Mahadevan A, Thomsen S, Malpica A, Wright T, Atkinson N, and Richards-Kortum R; Lasers in Surgery and Medicine Vol. 19, 63-74, 1996.
Development of A Cost-effective Optical System for Detection of Cervical Pre-cancer Trujilo EV, Sandison D, Ramanujam N, Follen-Mitchell M, Cantor S, and Richards-Kortum R; Dept. of Electrical and Computer Engineering.
Statistical Techniques for Diagnosing CIN Using Fluorescence Spectroscopy: SVD an CART Atkinson EN, Mitchell MF, Ramanujam N, and Richards-Kortum R; Journal of Cellular Biochemistry, Supplement Vol. 23, 125-130. 1995.
Optical Techniques for the Diagnosis of Cervical Precancers: A Comparison of Raman and Fluorescence Spectroscopies. Mahadevan A, Ramanujam N, Mitchell MF, Malpica A, Thomsen S, and Richards-Kortum R; SPIE, Vol. 2388, 110-120, 1995.
Chemoprevention Trials and Surrogate End Point Biomarkers in the Cervix Mitchell MF, Hittelman WK, Lotan R, Nishioka K, Tortolero-Luna G, Richards-Kortum R, Wharton JT, and Hong WK; Supplement to Cancer, Vol. 76, No. 10, 1956-1977, 1995.
Chemoprevention trials in the cervix: design, feasibility, and recruitment Mitchell MF, Hittelman WN, Lotan R, Nishioka K, Tortolero-Luna G, Richards-Kortum R, Hong WK; Journal of Cellular Biochemistry - Supplement. 23:104-12, 1995
Prophylaxie Du Cancer Du Col Uterin: Essais De Chimioprevention Et Indicateurs Biologiques De Pronostic Mitchell MF, Hittelman WK, Nishioka K, Tortolero-Luna G, and Richards-Kortum R, Wharton JT, Hong WK; Jobgyn, Vol. 3, No. 6, 1995.
Laser-induced Fluorescence Microscopy of Normal Colon and Dysplasia in Colonic Adenomas: Implications for Spectroscopic Diagnosis Romer TJ, Fitzmaurice MM, Cothren RM, Richards-Kortum R, Petras R, Sivak MV, and Kramer JR; American Journal of Gastroenterology, Vol. 90, No. 1, 81-87, 1995.
Combined Ultrasound and Fluorescence Spectroscopy for Physico-Chemical Imaging of Atherosclerosis Warren S, Pope K, Yazdi Y, Welch AJ, Tomsen S, Johnston AL, Davis MJ, and Richards-Kortum R; IEEE Transctions on Biomedical Engineering, Vol. 42, No. 2, 121-132, 1995.
Relation between flurescence spectra of dilute and turbid samples Drukin AJ, Jaikumar S, Ramanujam N, and Richards-Kortum R; Applied Optics, Vol. 33, No. 3, 414-423, 1994.
Fluorescence Spectroscopy of the Cervix Ramanujam N, Mahadevan A, Mitchell MF, Thomsen S, Silva E, and Richards-Kortum R; Clinical Consultations in Obstetrics and Gynecology, Vol. 6, No. 1, 62-69, 1994.
Fluorescence Spectroscopy: A Diagnostic Tool for Cervical Intraepithelial Neoplasia (CIN) Ramanujam N, Mitchell MF, Mahadevan A, Thomensen S, Silva E, and Richards-Kortum R; Gynecologic Oncology, Vol.52, 31-38, 1994.
In vivo diagnosis of cervical intraepithelial neoplasia using 337-nm-excited laser-induced fluorescence Ramanujam N, Mitchell MF, Mahadevan A, Warren S, Thomsen S, Silva E, and Richards-Kortum R; Proc. natl. Acad. USA, Vol. 91, 10193-10197, 1994.
Description and Performance of a Fiber-Optic Confocal Fluorescence Spectrometer Richards-Kortum R, Durkin A, and Zeng J; Applied Spectroscopy, Vol. 48, No. 3, 350-355, 1994.
In Vivo Fluorescence Spectroscopy: Potential for Non-Ivasive, Automated Diagnosis of Cervical Intraepithelial Neoplasia and Use as a Surrogate Endpoint Biomarker. Richards-Kotrum R, Mitchell MF, Ramanujam N, Mahadevan A, and Thomsen S; Journal of Cellular Biochemistry, Vol. 19, 111-119, 1994.
A Characterization of The Fluorescent Properties of Circulating Human Eosinophils Barnes D, Aggarwal S, Thomsen S, Fitzmaurice M, and Richards-Kortum R; Photochemistry and Photobiology, Vol. 58, No. 2, 297-303, 1993.
Optically Dilute, Absorbing, and Turbid Phantoms for Fluorescence Spectroscopy of Homogeneous and Inhomogeneous Samples Durkin AJ, Jaikumar S, and Richards-Kortum R; Applied Spectroscopy, Vol. 47, No. 12, 2114-2121, 1993.
Detecting Cervical Cancer. Richards-Kortum R and Follen M; pp. 38-41.
Study of the Fluorescence Properties of Normal and Neoplastic Human Cervical Tissue Mahadevan A, Mitchell MF, Silva E, Thomsen S, and Richards-Kortum R; Lasers in Surgery and Medicine, Vol. 13, 647-655, 1993.
476 nm Excited Laser-Induced Fluorescence Spectroscopy of Human Coronary Arteries: Applications in Cardiology Richards-Kortum R, Rava RP, Fitzmaurice M, Kramer JR, and Feld MS; American Heart Journal, Vol. 122, No. 4, 1141-1150, 1991.
Spectroscopic Diagnosis of Colonic Dysplasia Richards-Kortum R, Rava RP, Petras RE, Fitzmaurice M, Sivak M, and Feld MS; Photochemistry and Photobiology, Vol. 53, No. 6, 777-786, 1991.
Gastrointestinal Tissue Diagnosis by Laser Induced Fluorescence Spectroscopy at Endoscopy Cothren RM, Richards-Kortum RR, Sivak MV, Fitzmaurice M, Rava RP, Boyce GA, Hayes GB, Doxtader M, Blackman R, Ivanc T, Feld MS, Petras RE; 36:105-111, Gastrointestinal Endoscopy, 1990
A model for extraction of diagnostic information from laser induced fluorescence spectra of human artery wall Richards-Kortum R, Rava RP, Cothren R, Mehta A, Fitzmaurice M, Ratliff NB, Kramer JR, Kittrell C, Feld MS; Spectrochimica. Acta, Vol. 45, No.1:87, 1989.
Spectral diagnosis of atherosclerosis using an uptical fiber laser catheter Richards-Kortum R, Mehta A, Hayes G, Cothren R, Kolubayev T, Kittrell C, Ratliff NB, Kramer JR, Feld MS; American Heart Journal, Vol. 118, No. 2, pp. 381-391, 1989.
Alteration of Spectral Characteristics of Human Artery Wall Caused by 476-nm Laser Irradiation Chaudhry HW, Richards-Kortum R, Kolubayev T, Kittrell C, Partovi F, Kramer JR, Feld MS; Lasers in Surgery and Medicine, Vol.9, pp. 572-580, 1989.
Argon ion laser-excited autofluorescence in normal and atherosclerotic aorta and coronary artery: Morphologic studies Fitzmaurice M, Bordagaray JO, Engelmann G, Richards-Kortum R, Kolubayev T, Feld MS, Ratliff NB, Kramer JR; American Heart Journal, Vol. 118, pp. 1028-38, 1989.
An Overview of Activities at the Laser Biomedical Research Center Dasari R, Izatt J, Richards-Kortum R, Rava R, Feld M; IEEE Engineering in Medicine and Biogy Magazine, December, 1989.
Fluorescence spectroscopy of turbid media: Autofluorescence of the human aorta Keijzer M, Richards-Kortum R, Jacques SL, and Feld MS; Applied Optics, Vol. 28, No. 20, 4286-4292, 1989.
A One-Layer Model of Laser-Induced Fluorescence for Diagnosis of Disease in Human Tissue: Applications to Atherosclerosis Richards-Kortum R, Rava RP, Fitzmaurice M, Tong LL, Ratliff NB, Kramer JR, and Feld MS; IEEE Transactions of Biomedical Engineering, Vol. 36, No. 12, 1222-1232, 1989.
Remote Biomedical Spectroscopic Imaging of Human Artery Wall Hoyt CC, Richards-Kortum RR, Costello B, Sacks B, Kittrell C, Ratliff NB, Kramer JR, Feld MS; Lasers in Surgery and Medicine, Vol. 8, 1-9, 1988.