Journal ArticleDOI
Marker-free phase nanoscopy
Yann Cotte,M. Fatih Toy,Pascal Jourdain,Nicolas Pavillon,Daniel Boss,Pierre J. Magistretti,Pierre Marquet,Christian Depeursinge +7 more
TLDR
In this paper, a quasi-2 pi-holographic detection scheme and complex deconvolution was used to obtain a lateral resolution of 90 nm. But the results were limited to the case of living dendritic spines (neurones).Abstract:
We introduce a microscopic method that determines quantitative optical properties beyond the optical diffraction limit and allows direct imaging of unstained living biological specimens. In established holographic microscopy, complex fields are measured using interferometric detection, allowing diffraction-limited phase measurements. Here, we show that non-invasive optical nanoscopy can achieve a lateral resolution of 90 nm by using a quasi-2 pi-holographic detection scheme and complex deconvolution. We record holograms from different illumination directions on the sample plane and observe subwavelength tomographic variations of the specimen. Nanoscale apertures serve to calibrate the tomographic reconstruction and to characterize the imaging system by means of the coherent transfer function. This gives rise to realistic inverse filtering and guarantees true complex field reconstruction. The observations are shown for nanoscopic porous cell frustule (diatoms), for the direct study of bacteria (Escherichia coil), and for a time-lapse approach to explore the dynamics of living dendritic spines (neurones).read more
Citations
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Book ChapterDOI
Label-Free Quantitative In Vitro Live Cell Imaging with Digital Holographic Microscopy
Björn Kemper,Andreas Bauwens,Dominik Bettenworth,Martin Götte,Burkhard Greve,Lena Kastl,Steffi Ketelhut,Philipp Lenz,Sarah Mues,J. Schnekenburger,Angelika Vollmer +10 more
TL;DR: P phenotyping based on cell thickness determination, dynamic multimodal imaging of cellular growth, proliferation, and wound healing in vitro as well as applications in toxicity testing of pathogens and the characterization of cell nanomaterial interactions are demonstrated.
Journal ArticleDOI
Optical microscopy as a comparative analytical technique for single-particle dissolution studies.
TL;DR: It was shown that the data obtained by image analysis and UV-spectrophotometry produced practically identical dissolution curves, with average similarity and difference factors above 82 and below 4, respectively, meaning image analysis could be an ideal and universal analytical technique for rapid small-scale dissolution studies.
Journal ArticleDOI
Emerging optical nanoscopy techniques
Paul Montgomery,Audrey Leong-Hoi +1 more
TL;DR: A new classification scheme is presented to help appreciate the growing number of optical nanoscopy techniques, underline an important distinction between superresolution techniques that provide improved resolving power and nanodetection techniques for characterizing unresolved nanostructures.
Journal ArticleDOI
Quantifying Drug-Induced Nanomechanics and Mechanical Effects to Single Cardiomyocytes for Optimal Drug Administration To Minimize Cardiotoxicity
Tao Yue,Ki Ho Park,Benjamin E. Reese,Hua Zhu,Seth E. Lyon,Jianjie Ma,Peter J. Mohler,Mingjun Zhang,Mingjun Zhang +8 more
TL;DR: It is concluded that quantification of nanomechanics and mechanical effects at the single cell level could offer unique insights of molecular mechanisms involved in cellular activities influencing organ and tissue level responses to drug exposure, providing a new opportunity for the development of effective and time-dose-dependent strategies of drug administration.
Journal ArticleDOI
Label free imaging of cell-substrate contacts by holographic total internal reflection microscopy.
TL;DR: HoloTIR is shown for the first time to be a good choice for label‐free study of focal contacts and of cell/substrate interaction as its sensitivity is enhanced in comparison with standard TIR microscopy.
References
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Journal ArticleDOI
Surpassing the lateral resolution limit by a factor of two using structured illumination microscopy.
TL;DR: Lateral resolution that exceeds the classical diffraction limit by a factor of two is achieved by using spatially structured illumination in a wide‐field fluorescence microscope with strikingly increased clarity compared to both conventional and confocal microscopes.
Journal ArticleDOI
Far-Field Optical Nanoscopy
TL;DR: Initial applications indicate that emergent far-field optical nanoscopy will have a strong impact in the life sciences and in other areas benefiting from nanoscale visualization.
Journal ArticleDOI
Simultaneous amplitude-contrast and quantitative phase-contrast microscopy by numerical reconstruction of Fresnel off-axis holograms
TL;DR: Off-axis holograms recorded with a magnified image of microscopic objects are numerically reconstructed in amplitude and phase by calculation of scalar diffraction in the Fresnel approximation to show that the transverse resolution is equal to the diffraction limit of the imaging system.
PatentDOI
Tomographic phase microscopy
TL;DR: In this article, the authors present a system and methods for quantitative three-dimensional mapping of refractive index in living or non-living cells, tissues, or organisms using a phase-shifting laser interferometric microscope with variable illumination angle.
Journal ArticleDOI
A Filtered Backpropagation Algorithm for Diffraction Tomography
TL;DR: The reconstruction algorithm is derived for parallel beam transmission computed tomography through two-dimensional structures in which diffraction of the insonifying beam must be taken into account and is applicable to diffraction tomography within either the first Born or Rytov approximations.