Add to ORKGPurposeTwo-photon excitation fluorescence (2PEF) reveals information about tissue function. Concerns for phototoxicity demand lower light exposure during imaging. Reducing excitation light reduces the quality of the image by limiting fluorescence emission. We applied deep learning (DL) super-resolution techniques to images acquired from low light exposure to yield high-resolution images of retinal and skin tissues.MethodsWe analyzed two methods: a method based on U-Net and a patch-based regression method using paired images of skin (550) and retina (1200), each with low- and high-resolution paired images. The retina dataset was acquired at low and high laser powers from retinal organoids, and the skin dataset was obtained from averaging 7 t...
Two-photon fluorescence microscopy (TPM) is now being used routinely to image live cells for extende...
We present a deep learning (DL) framework, termed few-photon fluorescence lifetime imaging (FPFLI), ...
Live cell imaging is challenging because the difficult balance of maintaining both cell viability an...
PurposeTwo-photon excitation fluorescence (2PEF) reveals information about tissue function. Concerns...
Two-photon excitation fluorescence (2PEF) allows imaging of tissue up to about one millimeter in thi...
The low photon emission of known luciferases, currently limit their widespread use as contrast agent...
Deep neural networks have been used to map multi-modal, multi-photon microscopy measurements of a la...
Light Field Microscopy (LFM) is an imaging technique that offers the opportunity to study fast dynam...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
Multiphoton laser scanning microscopy offers improved axial resolution over confocal microscopy for ...
Histopathological image analysis of stained tissue slides is routinely used in tumor detection and c...
High-resolution imaging techniques capable of detecting identifiable endogenous fluorophores in the ...
Retinal diseases and disorders such as Retinal Vein Occlusion, Diabetic Retinopathy, Age-Related Mac...
We present a deep learning approach to obtain high-resolution (HR) fluorescence lifetime images from...
Noninvasive imaging of visual system components in vivo is critical for understanding the causal mec...
Two-photon fluorescence microscopy (TPM) is now being used routinely to image live cells for extende...
We present a deep learning (DL) framework, termed few-photon fluorescence lifetime imaging (FPFLI), ...
Live cell imaging is challenging because the difficult balance of maintaining both cell viability an...
PurposeTwo-photon excitation fluorescence (2PEF) reveals information about tissue function. Concerns...
Two-photon excitation fluorescence (2PEF) allows imaging of tissue up to about one millimeter in thi...
The low photon emission of known luciferases, currently limit their widespread use as contrast agent...
Deep neural networks have been used to map multi-modal, multi-photon microscopy measurements of a la...
Light Field Microscopy (LFM) is an imaging technique that offers the opportunity to study fast dynam...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
Multiphoton laser scanning microscopy offers improved axial resolution over confocal microscopy for ...
Histopathological image analysis of stained tissue slides is routinely used in tumor detection and c...
High-resolution imaging techniques capable of detecting identifiable endogenous fluorophores in the ...
Retinal diseases and disorders such as Retinal Vein Occlusion, Diabetic Retinopathy, Age-Related Mac...
We present a deep learning approach to obtain high-resolution (HR) fluorescence lifetime images from...
Noninvasive imaging of visual system components in vivo is critical for understanding the causal mec...
Two-photon fluorescence microscopy (TPM) is now being used routinely to image live cells for extende...
We present a deep learning (DL) framework, termed few-photon fluorescence lifetime imaging (FPFLI), ...
Live cell imaging is challenging because the difficult balance of maintaining both cell viability an...