Fluorescence Microscopy

Fluorescence microscopy aims to visualize biological structures and processes at high resolution, with current research heavily focused on improving 3D imaging capabilities. This involves developing advanced computational methods, such as those employing implicit neural representations, diffusion models, and normalizing flows, to overcome limitations in axial resolution and speed, often leveraging readily available high-resolution 2D data for training. These advancements are crucial for applications ranging from clinical diagnostics (e.g., improved analysis of tissue specimens) to live organism imaging (e.g., real-time monitoring of neural activity), ultimately enhancing our understanding of biological systems and accelerating scientific discovery.

Papers

August 16, 2024

Reference-free Axial Super-resolution of 3D Microscopy Images using Implicit Neural Representation with a 2D Diffusion Prior
Kyungryun Lee, Won-Ki Jeong
Implicit Neural Representation Diffusion Prior Axial Resolution Volumetric Super Resolution Fluorescence Microscopy

April 15, 2024

Super-resolution of biomedical volumes with 2D supervision
Cheng Jiang, Alexander Gedeon, Yiwei Lyu, Eric Landgraf, Yufeng Zhang, Xinhai Hou, Akhil Kondepudi, Asadur Chowdury, Honglak Lee, Todd Hollon
Super Resolution Microscopy Image Super Resolution Model MRI Volume 2 Dimensional Supervision Fluorescence Microscopy Slice Propagation

June 10, 2023

Fast light-field 3D microscopy with out-of-distribution detection and adaptation through Conditional Normalizing Flows
Josué Page Vizcaíno, Panagiotis Symvoulidis, Zeguan Wang, Jonas Jelten, Paolo Favaro, Edward S. Boyden, Tobias Lasser
Distribution Detection Adaptation Concern Light Field Neural Activity Conditional Normalizing Flow Fluorescence Microscopy

January 23, 2023

Fast and robust single particle reconstruction in 3D fluorescence microscopy
Thibaut Eloy, Etienne Baudrier, Marine Laporte, Virginie Hamel, Paul Guichard, Denis Fortun
Axial Resolution Particle Reconstruction Fluorescence Microscopy

September 23, 2022

Dual-Cycle: Self-Supervised Dual-View Fluorescence Microscopy Image Reconstruction using CycleGAN
Tomas Kerepecky, Jiaming Liu, Xue Wen Ng, David W. Piston, Ulugbek S. Kamilov
CycleGAN Model Image Deconvolution Fluorescence Microscopy

March 29, 2022

Improved Counting and Localization from Density Maps for Object Detection in 2D and 3D Microscopy Imaging
Shijie Li, Thomas Ach, Guido Gerig
Localization Focus Microscopy Image Automatic Counting Object Counting Density Map Fluorescence Microscopy

January 3, 2022

Low dosage 3D volume fluorescence microscopy imaging using compressive sensing
Varun Mannam, Jacob Brandt, Cody J. Smith, Scott Howard
Compressed Sensing Low Dose Optical Microscopy Fluorescence Microscopy Light Sheet Fluorescence Microscopy

Fluorescence Microscopy

Papers

Reference-free Axial Super-resolution of 3D Microscopy Images using Implicit Neural Representation with a 2D Diffusion Prior

Super-resolution of biomedical volumes with 2D supervision

Fast light-field 3D microscopy with out-of-distribution detection and adaptation through Conditional Normalizing Flows

Fast and robust single particle reconstruction in 3D fluorescence microscopy

Dual-Cycle: Self-Supervised Dual-View Fluorescence Microscopy Image Reconstruction using CycleGAN

Improved Counting and Localization from Density Maps for Object Detection in 2D and 3D Microscopy Imaging

Low dosage 3D volume fluorescence microscopy imaging using compressive sensing