Qualitative and quantitative assessment of cartilage degeneration using full-field optical coherence tomography ex vivo, Pailhé, R. et al., Osteoarthritis and Cartilage, DOI: 10.1016/j.joca.2017.11.008 (2017).
Validation of full-field optical coherence tomography in distinguishing malignant and benign tissue in resected pancreatic cancer specimens, van Manen, L. et al., PLOS one, DOI: 10.1371/journal.pone.0175862 (2017).
Freeze artifact on full-field optical coherence tomography skin imaging,Durkin, J.D. et al., Skin Research and Technology, DOI: 10.1111/srt.12389(2017).
Cell Motility as Contrast Agent in Retinal Explant Imaging With Full-Field Optical Coherence Tomography, Thouvenin, O. et al., Investigative Ophtalmology and Visual Science 58(11), 4605-4615 (2017).
Targeted intracorneal delivery—Biodistribution of triamcinolone acetonide following topical iontophoresis of cationic amino acid ester prodrugs,Santer, V. et al., International Journal of Pharmaceutics 525(1), 53-53 (2017).
Quality control and primo-diagnosis of transurethral bladder resections with full-field OCT, Montagne, P. et al., SPIE proceedings 10038-1003805 (2017).
Fast subsurface fingerprint imaging with full-field optical coherence tomography system equipped with a silicon camera, Auksorius, E. et al., Journal of Biomedical Optics 22(9), 096002 (2017).
New parameters in assessment of human donor corneal stroma, Borderie, M. et al., Acta Ophthalmologica, 95(4): e297–e306 (2016).
Multimodal imaging of a humanized orthotopic model of hepatocellular carcinoma in immunodeficient mice, Wu, T. et al., Scientific Reports, published online (2016).
Imaging microscopic features of keratoconic corneal morphology, Grieve, K. et al., Cornea, 35(12):1621-1630 (2016).
Non-contact full-field optical coherence tomography: a step towards in vivo cellular-level imaging of the human cornea, Mazlin, V. et al., Imaging Systems and Applications p. IM3F.3, Optical Society of America (2016).
Non-invasive detection of metastases and follicle density in ovarian tissue using full-field optical coherence tomography, Peters, I. et al., Clinical Cancer Research: clincanres-0288 (2016).
Appearance of the retina with full-field optical coherence tomography, Grieve, K. et al., Investigative Ophthalomology and Visual Science, 57(9):OCT96-OCT104 (2016).
High efficiency for prostate biopsy qualification with full-field OCT after training, Yang, C. et al., SPIE proceedings 9689-96891J (2016).
Real-time cancer diagnosis during prostate biopsy: ex vivo evaluation of full-field optical coherence tomography (FFOCT) imaging on biopsy cores, Lopater, J et al. World Journal of Urology, 34(2):237-43 (2016).
Assessment of sentinel node biopsies with full-field optical coherence tomography, Grieve, K et al. Technology in Cancer Research and Treatment, 15(2):266-274 (2016).
Elastography of multicellular aggregates submitted to osmo-mechanical stress, Leroux, C-E. et al. New Journal of Physics, 17:073035 (2015).
Three-dimensional structure of the mammalian limbal stem cell niche, Grieve, K. et al. Experimental Eye Research, 140:75-84 (2015).
Rapid evaluation of fresh ex vivo kidney tissue with full-field optical coherence tomography, Jain, M et al. Journal of pathology informatics, 6 (1): 53 (2015).
Advanced imaging techniques for the pathologist. Fine, J. Surgical Pathology Clinics 8(2):213-221 (2015).
Full-field optical coherence tomography (FFOCT) for evaluation of endometrial cancer, Bruhat A et al. Proceedings of SPIE 9303-93032Y (2015).
Full-field OCT for fast diagnostic of head and neck cancer, De Leeuw F et al. Proceedings of SPIE 8303-93031Z (2015).
A feasibility study of full-field optical coherence tomography for rapid evaluation of EUS-guided microbiopsy specimens, Grieve, K et al. Gastrointestinal Endoscopy, 81(2):342-350 (2015).
Full-field optical coherence tomography of human donor and pathological cornea, Ghouali, W et al. Current Eye Research 40(5):526-34 (2015).
Synergy of Silver Nanoparticles and Aztreonam against Pseudomonas aeruginosa PAO1 Biofilms, Habash, M et al. Antimicrobial Agents and Chemotherapy, 58(10):5818-5830 (2014).
Differential diagnosis between keloid and hypertrophic scars: A new approach by full-field optical coherence tomography, Eraud, J et al. Annales de Chirurgie Plastique Esthétique, 59(4):253-260 (2014).
Human adipocyte function is impacted by mechanical cues, Pellegrinelli, V et al. The Journal of Pathology, 233(2):183-195 (2014).
Imaging of Mohs Micrographic Surgery Sections Using Full-Field Optical Coherence Tomography: A Pilot Study, Durkin, J et al. Dermatologic Surgery, 40(3):266-274 (2014).
Optical biopsy on Head&Neck tissue using Full-Field OCT: a pilot study, De Leeuw, F et al. Proceedings of SPIE 8926-892626 (2014).
High resolution in-vivo imaging of skin with full-field optical coherence tomography, Dalimier, E et al. Proceedings of SPIE 8926-89260P (2014).
Full-field optical coherence tomography of prostate biopsies: a step towards pre-histological diagnosis?, Beuvon, F et al. Progrès en Urologie, 24(1):22-30 (2014).
Full-field optical coherence tomography for the analysis of fresh unstained lobectomy specimens, Jain, M et al. Journal of Pathology Informatics, 4(1):26-33 (2013).
Imaging of non tumorous and tumorous human brain tissue with full-field optical coherence tomography. Assayag, O et al. Neuroimage Clinical 2; 549–557 (2013)
Large Field, High Resolution Full Field Optical Coherence Tomography: A Pre-clinical study of human breast tissue and cancer assessment. Assayag, A et al. Technology in Cancer Research and Treatment Express, 1 (1): 21-34 (2013)
Full-Field Optical Coherence Tomography: A new technology for 3D high-resolution skin imaging. Dalimier, E and Salomon, D. Dermatology, 224:84-92 (2012)
Full field optical coherence tomography can identify spermatogenesis in a rodent sertoli cell only model. Ramasamy, R. et al. Journal of Pathology Informatics, 3(1):4-8 (2012)
Modified full-field optical coherence tomography: A novel tool for rapid histology of tissues. Jain, M et al. Journal of pathology informatics, 2 (1): 28 (2011)
Full-field OCT approaches clinical application. Boccara, AC. Laser Focus World, 45 (4): 69-71 (2009)
From cell to organ: optical imagery. Boccara, AC et al. Biofutur, (285): 45-48 (2008)
Early chloroplastic alterations analysed by optical coherence tomography during a hairpin-induced hypersensitive response. Boccara, M et al. Plant Journal, 50 (2): 338-346 (2007)
Ultrahigh resolution ex vivo ocular imaging using ultrashort acquisition time en face optical coherence tomography. Grieve, K et al. Journal of Optics A – Pure and Applied Optics, 7 (8): 368-373 (2005)
In vivo anterior segment imaging in the rat eye with high speed white light full-field optical coherence tomography,Grieve, K et al. Optics Express 13, 6286-6295 (2005).
Ocular tissue imaging using ultrahigh-resolution, full-field optical coherence tomography. Grieve, K et al. Investigative Ophthalmology and Visual Science, 45 (11): 4126-4131 (2004)
Initiation of gastrulation in the mouse embryo is preceded by an apparent shift in the orientation of the anterior-posterior axis, Perea-Gomez, A et al. Current Biology, 14:3 197-207, (2004)
Imagery of local defects in multilayer components by short coherence length interferometry. Vabre, L et al. Optics Letters, 27 (21): 1899-1901 (2002)
Extracting relevant information for cancer diagnosis from dynamic full field OCT through image processing and learning, Apelian, C. et al, Proceedings of SPIE BIOS 2017, 100531 H (2017).
Full-Field Optical Coherence Tomography as a Diagnosis Tool: Recent Progress with Multimodal Imaging, Thouvenin, O. et al. Applied Science 7(3):236 (2017).
En face coherence microscopy, Thouvenin, O. et al. Biomedical Optics Express 8(2):622-639 (2017).
Dynamic full field optical coherence tomography: subcellular metabolic contrast revealed in tissues by interferometric signals temporal analysis, Apelian, E. et al. Biomedical Optics Express 7(4):1511-1524 (2016).
High-resolution handheld rigid endomicroscope based on full-field optical coherence tomography, Benoit à la Guillaume, E. et al. Journal of Biomedical Optics, 21(2):026005 (2016).
From supersonic shear wave imaging to full-field optical coherence shear wave elastography, Nahas, A. et al. Journal of Biomedical Optics, 18(12): 121514 (2013).
3D static elastography at the micrometer scale using Full Field OCT, Nahas, A. et al. Biomedical Optics Express, 4(10): 2138-2149 (2013).
Multimodal full-field optical coherence tomography on biological tissue: toward all optical digital pathology. Harms, F et al, A.C.Proceedings of SPIE 8216-821609 (2012)
In vivo and in situ cellular imaging Full-Field Optical Coherence Tomography with a rigid endoscopic probe. Latrive, A and Boccara, AC. Biomedical Optics Express, 2 (10): 2897-2904 (2011)
Defocus test and defocus correction in full-field optical coherence tomography. Labiau, S et al. Optics Letters, 34 (10): 1576-1578 (2009)
Spectroscopic ultrahigh-resolution full-field optical coherence microscopy. Dubois, A et al.Optics Express, 16 (21): 17082-17091 (2008)
Polarization-sensitive full-field optical coherence tomography. Moneron, G et al.Optics Letters, 32 (14): 2058-2060 (2007)
Full-field OCT. Dubois, A and Boccara, AC.M S-MEDECINE SCIENCES, 22 (10): 859-864 (2006)
Thermal-light full-field optical coherence tomography in the 1.2 µm wavelength region. Dubois, A et al. Optics Communications, 266 (2): 738-743 (2006)
Ultrahigh-resolution full-field optical coherence tomography. Dubois, A et al.Applied Optics, 43 (14): 2874-2883 (2004)
Three-dimensional cellular-level imaging using full-field optical coherence tomography Dubois, A et al. Physics in Medicine and Biology, 49 (7): 1227-1234 (2004)
Thermal-light full-field optical coherence tomography Vabre, L et al. Optics Letters, 27 (7): 530-532 (2002)
High-resolution full-field optical coherence tomography with a Linnik microscope Dubois, A et al. Applied Optics, 41 (4): 805-812 (2002)
Full-field optical coherence microscopy Beaurepaire, E et al. Optics Letters, 23 (4): 244-246 (1998)