Talbot holographic illumination nonscanning (THIN) fluorescence microscopy

Optical sectioning techniques offer the ability to acquire three-dimensional information from various organ tissues by discriminating between the desired in-focus and out-of-focus (background) signals. Alternative techniques to confocal, such as active structured illumination, exist for fast optically sectioned images, but they require individual axial planes to be imaged consecutively. In this article, an imaging technique (THIN), by utilizing active Talbot illumination in 3D and multiplexed holographic Bragg filters for depth discrimination, is demonstrated for imaging in vivo 3D biopsy without mechanical or optical axial scanning.

[1]  Ting-Chung Poon,et al.  Scanning holography and two-dimensional image processing by acousto-optic two-pupil synthesis , 1985 .

[2]  Jerome Mertz,et al.  Optical sectioning microscopy with planar or structured illumination , 2011, Nature Methods.

[3]  R. Piestun,et al.  Aperiodic Volume Optics , 2010 .

[4]  Peter Klages,et al.  Digital in-line holographic microscopy. , 2006 .

[5]  E. Leith,et al.  Optical sectioning by holographic coherence imaging: a generalized analysis. , 2003, Journal of the Optical Society of America. A, Optics, image science, and vision.

[6]  Jerome Mertz,et al.  Optically sectioned fluorescence endomicroscopy with hybrid-illumination imaging through a flexible fiber bundle. , 2009, Journal of biomedical optics.

[7]  George Barbastathis,et al.  Silicon oxide nanoparticles doped PQ-PMMA for volume holographic imaging filters. , 2010, Optics Letters.

[8]  Joseph Rosen,et al.  Fluorescence incoherent color holography. , 2007, Optics express.

[9]  P. Blanche,et al.  Holographic three-dimensional telepresence using large-area photorefractive polymer , 2010, Nature.

[10]  Alexander Y Katsov,et al.  Fast and sensitive multi-color 3D imaging using aberration-corrected multi-focus microscopy , 2012, Nature Methods.

[11]  G. Barbastathis,et al.  Three dimensional HiLo-based structured illumination for a digital scanned laser sheet microscopy (DSLM) in thick tissue imaging. , 2012, Optics Express.

[12]  Joseph Rosen,et al.  Non-scanning motionless fluorescence three-dimensional holographic microscopy , 2008 .

[13]  D. Gabor A New Microscopic Principle , 1948, Nature.

[14]  Sergio Fantini,et al.  Improvement of axial resolution and contrast in temporally focused widefield two-photon microscopy with structured light illumination , 2013, Biomedical optics express.

[15]  J. Lichtman,et al.  Optical sectioning microscopy , 2005, Nature Methods.

[16]  L. Tian,et al.  Quantitative measurement of size and three-dimensional position of fast-moving bubbles in air-water mixture flows using digital holography. , 2010, Applied optics.

[17]  Yuan Luo,et al.  Optimization of multiplexed holographic gratings in PQ-PMMA for spectral-spatial imaging filters. , 2008, Optics letters.

[18]  Demetri Psaltis,et al.  Real-time spectral imaging in three spatial dimensions. , 2002, Optics letters.

[19]  Bryant B. Chhun,et al.  Super-Resolution Video Microscopy of Live Cells by Structured Illumination , 2009, Nature Methods.

[20]  Se Baek Oh,et al.  Wavelength-coded multifocal microscopy. , 2010, Optics letters.

[21]  T. Wilson,et al.  Method of obtaining optical sectioning by using structured light in a conventional microscope. , 1997, Optics letters.

[22]  Chen-Yuan Dong,et al.  Visualization of hepatobiliary excretory function by intravital multiphoton microscopy. , 2007, Journal of biomedical optics.

[23]  Philipp J. Keller,et al.  Reconstruction of Zebrafish Early Embryonic Development by Scanned Light Sheet Microscopy , 2008, Science.

[24]  C. Sheppard,et al.  Image Formation in the Scanning Microscope , 1977 .

[25]  B. Bouma,et al.  Three-dimensional miniature endoscopy , 2006, Nature.

[26]  C Moser,et al.  Diffraction efficiency of localized holograms in doubly doped LiNbO(3) crystals. , 2000, Optics letters.

[27]  J. Conchello,et al.  Three-dimensional imaging by deconvolution microscopy. , 1999, Methods.

[28]  T. Wilson,et al.  Image formation in structured illumination wide-field fluorescence microscopy. , 2008, Micron.

[29]  Philipp J. Keller,et al.  Fast, high-contrast imaging of animal development with scanned light sheet–based structured-illumination microscopy , 2010, Nature Methods.