Maskless imaging of dense samples using pixel super-resolution based multi-height lensfree on-chip microscopy

Lensfree in-line holographic microscopy offers sub-micron resolution over a large field-of-view (e.g., ~24 mm2) with a cost-effective and compact design suitable for field use. However, it is limited to relatively low-density samples. To mitigate this limitation, we demonstrate an on-chip imaging approach based on pixel super-resolution and phase recovery, which iterates among multiple lensfree intensity measurements, each having a slightly different sample-to-sensor distance. By digitally aligning and registering these lensfree intensity measurements, phase and amplitude images of dense and connected specimens can be iteratively reconstructed over a large field-of-view of ~24 mm2 without the use of any spatial masks. We demonstrate the success of this multi-height in-line holographic approach by imaging dense Papanicolaou smears (i.e., Pap smears) and blood samples.

[1]  Zhuo Wang,et al.  Spatial light interference tomography (SLIT) , 2011, Optics express.

[2]  Aydogan Ozcan,et al.  Field-portable reflection and transmission microscopy based on lensless holography , 2011, Biomedical optics express.

[3]  Derek Tseng,et al.  Combined reflection and transmission microscope for telemedicine applications in field settings. , 2011, Lab on a chip.

[4]  Aydogan Ozcan,et al.  Lensfree super-resolution holographic microscopy using wetting films on a chip , 2011, Optics express.

[5]  Christoph Vannahme,et al.  Plastic lab-on-a-chip for fluorescence excitation with integrated organic semiconductor lasers. , 2011, Optics express.

[6]  W. Bishara,et al.  Lens-free optical tomographic microscope with a large imaging volume on a chip , 2011, Proceedings of the National Academy of Sciences.

[7]  D. Brady,et al.  Video-rate compressive holographic microscopic tomography. , 2011, Optics express.

[8]  A. Ozcan,et al.  Holographic pixel super-resolution in portable lensless on-chip microscopy using a fiber-optic array. , 2011, Lab on a chip.

[9]  Yordan Kostov,et al.  Lensless CCD-based fluorometer using a micromachined optical Söller collimator. , 2011, Lab on a chip.

[10]  Sameera S. Ponda,et al.  Phase and amplitude imaging from noisy images by Kalman filtering. , 2011, Optics express.

[11]  D. Desai,et al.  Tackling HIV through robust diagnostics in the developing world: current status and future opportunities. , 2011, Lab on a chip.

[12]  Hongying Zhu,et al.  Cost-effective and compact wide-field fluorescent imaging on a cell-phone. , 2011, Lab on a chip.

[13]  J. Rogers,et al.  Spatial light interference microscopy (SLIM) , 2011, IEEE Photonic Society 24th Annual Meeting.

[14]  Bhargab Das,et al.  Dual plane in-line digital holographic microscopy. , 2010, Optics letters.

[15]  Derek K. Tseng,et al.  Detection of waterborne parasites using field-portable and cost-effective lensfree microscopy. , 2010, Lab on a chip.

[16]  Mark C. Pierce,et al.  Portable, Battery-Operated, Low-Cost, Bright Field and Fluorescence Microscope , 2010, PloS one.

[17]  J. Rodenburg,et al.  Optical ptychography: a practical implementation with useful resolution. , 2010, Optics letters.

[18]  M. Anastasio,et al.  Transport of intensity and spectrum for partially coherent fields. , 2010, Optics letters.

[19]  L. Tian,et al.  Transport of Intensity phase-amplitude imaging with higher order intensity derivatives. , 2010, Optics express.

[20]  Derek Tseng,et al.  Compact, light-weight and cost-effective microscope based on lensless incoherent holography for telemedicine applications. , 2010, Lab on a chip.

[21]  T. Yatagai,et al.  Doppler phase-shifting digital holography and its application to surface shape measurement. , 2010, Optics letters.

[22]  A. Ozcan,et al.  Lensfree on-chip microscopy over a wide field-of-view using pixel super-resolution , 2010, Optics express.

[23]  Aydogan Ozcan,et al.  Color and monochrome lensless on-chip imaging of Caenorhabditis elegans over a wide field-of-view. , 2010, Lab on a chip.

[24]  N. Hooper,et al.  Usefulness of the Paralens™ Fluorescent Microscope Adaptor for the Identification of Mycobacteria in Both Field and Laboratory Settings , 2010, The open microbiology journal.

[25]  Darren Roblyer,et al.  Evaluation of a low-cost, portable imaging system for early detection of oral cancer , 2010, Head & neck oncology.

[26]  Tanya S. Hauck,et al.  Nanotechnology diagnostics for infectious diseases prevalent in developing countries. , 2010, Advanced drug delivery reviews.

[27]  D. Psaltis,et al.  Coherent anti-Stokes Raman holography for chemically selective single-shot nonscanning 3D imaging. , 2010, Physical review letters.

[28]  Aydogan Ozcan,et al.  On-chip differential interference contrast microscopy using lensless digital holography , 2010, Optics express.

[29]  Ying Min Wang,et al.  Implementation of a color-capable optofluidic microscope on a RGB CMOS color sensor chip substrate. , 2010, Lab on a chip.

[30]  T. Poon Optical Scanning Holography - A Review of Recent Progress , 2009 .

[31]  David N Breslauer,et al.  Mobile Phone Based Clinical Microscopy for Global Health Applications , 2009, PloS one.

[32]  Demetri Psaltis,et al.  Three-dimensional harmonic holographic microcopy using nanoparticles as probes for cell imaging. , 2009, Optics express.

[33]  Junfei Tian,et al.  Paper-based microfluidic devices by plasma treatment. , 2008, Analytical chemistry.

[34]  J. Miao,et al.  Application of optimization technique to noncrystalline x-ray diffraction microscopy: Guided hybrid input-output method , 2007 .

[35]  Joseph Rosen,et al.  Digital spatially incoherent Fresnel holography. , 2007, Optics letters.

[36]  G. Pedrini,et al.  Phase retrieval of arbitrary complex-valued fields through aperture-plane modulation , 2007 .

[37]  S. Marchesini Invited article: a [corrected] unified evaluation of iterative projection algorithms for phase retrieval. , 2007, The Review of scientific instruments.

[38]  T. Latychevskaia,et al.  Solution to the twin image problem in holography. , 2006, Physical review letters.

[39]  D. Wong,et al.  Salivary diagnostics powered by nanotechnologies, proteomics and genomics. , 2006, Journal of the American Dental Association.

[40]  Peter Klages,et al.  Digital in-line holographic microscopy. , 2006, Applied optics.

[41]  Steven W Graves,et al.  Ultrasonic particle‐concentration for sheathless focusing of particles for analysis in a flow cytometer , 2006, Cytometry. Part A : the journal of the International Society for Analytical Cytology.

[42]  Chun-Min Lo,et al.  High-resolution quantitative phase-contrast microscopy by digital holography. , 2005, Optics express.

[43]  John T McDevitt,et al.  A Microchip CD4 Counting Method for HIV Monitoring in Resource-Poor Settings , 2005, PLoS medicine.

[44]  Mats G. Löfdahl,et al.  Solar Image Restoration By Use Of Multi-frame Blind De-convolution With Multiple Objects And Phase Diversity , 2005 .

[45]  M. Fremont-Smith,et al.  Comparison of the Surepath™ liquid‐based Papanicolaou smear with the conventional Papanicolaou smear in a multisite direct‐to‐vial study , 2004, Cancer.

[46]  Wolfgang Osten,et al.  Reconstruction of in-line digital holograms from two intensity measurements. , 2004, Optics letters.

[47]  J. Rodenburg,et al.  Movable aperture lensless transmission microscopy: a novel phase retrieval algorithm. , 2004, Physical review letters.

[48]  Moon Gi Kang,et al.  Super-resolution image reconstruction: a technical overview , 2003, IEEE Signal Process. Mag..

[49]  M H Jericho,et al.  Tracking particles in four dimensions with in-line holographic microscopy. , 2003, Optics letters.

[50]  K. Nugent,et al.  Quantitative phase‐amplitude microscopy I: optical microscopy , 2002, Journal of microscopy.

[51]  Leslie J. Allen,et al.  Phase retrieval from series of images obtained by defocus variation , 2001 .

[52]  V. Elser Phase retrieval by iterated projections. , 2001, Journal of the Optical Society of America. A, Optics, image science, and vision.

[53]  W Xu,et al.  Digital in-line holography for biological applications , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[54]  J. Miao,et al.  The oversampling phasing method. , 2000, Acta crystallographica. Section D, Biological crystallography.

[55]  Jesús Chamorro-Martínez,et al.  Diatom autofocusing in brightfield microscopy: a comparative study , 2000, Proceedings 15th International Conference on Pattern Recognition. ICPR-2000.

[56]  Tony F. Chan,et al.  Fast algorithms for phase-diversity-based blind deconvolution , 1998, Astronomical Telescopes and Instrumentation.

[57]  J. Miao,et al.  Phase retrieval from the magnitude of the Fourier transforms of nonperiodic objects , 1998 .

[58]  K. Nugent,et al.  Noninterferometric phase imaging with partially coherent light , 1998 .

[59]  Russell C. Hardie,et al.  Joint MAP registration and high-resolution image estimation using a sequence of undersampled images , 1997, IEEE Trans. Image Process..

[60]  Denis Joyeux,et al.  Iterative algorithms for twin-image elimination in in-line holography using finite-support constraints , 1993 .

[61]  James R. Fienup,et al.  Joint estimation of object and aberrations by using phase diversity , 1992 .

[62]  Rick P. Millane,et al.  Phase retrieval in crystallography and optics , 1990 .

[63]  A. M. Kowalczyk,et al.  Phase Retrieval for a Complex-Valued Object Using a Low-Resolution Image , 1990, Signal Recovery and Synthesis III.

[64]  James R. Fienup,et al.  Phase-retrieval stagnation problems and solutions , 1986 .

[65]  J R Fienup,et al.  Phase retrieval algorithms: a comparison. , 1982, Applied optics.

[66]  J R Fienup,et al.  Reconstruction of an object from the modulus of its Fourier transform. , 1978, Optics letters.

[67]  J. Goodman Introduction to Fourier optics , 1969 .

[68]  Daniel L Marks,et al.  Compressive holography. , 2009, Optics express.

[69]  Sanghamitra Mohanty,et al.  A Microchip CD 4 Counting Method for HIV Monitoring in Resource-Poor Settings , 2005 .

[70]  Edward A. Watson,et al.  High-Resolution Image Reconstruction from a Sequence of Rotated and Translated Frames and its Application to an Infrared Imaging System , 1998 .

[71]  James R. Fienup,et al.  Improved bounds on object support from autocorrelation support and application to phase retrieval , 1990 .

[72]  R. Gerchberg A practical algorithm for the determination of phase from image and diffraction plane pictures , 1972 .