A5018153037- Advanced Fluorescence Microscopy Techniques
- Cell Image Analysis Techniques
- Image Processing Techniques and Applications
- Acoustic Wave Resonator Technologies
- Magneto-Optical Properties and Applications
- Sensor Technology and Measurement Systems
- Single-cell and spatial transcriptomics
- Gastrointestinal motility and disorders
- Magnetic Field Sensors Techniques
- Colorectal Cancer Surgical Treatments
- Congenital gastrointestinal and neural anomalies
- Geophysics and Sensor Technology
Zhujiang Hospital
2024-2025
Southern Medical University
2024-2025
National Tsing Hua University
2011
The increasing use of tissue clearing techniques underscores the urgent need for cost-effective and simplified deep imaging methods. While traditional inverted confocal microscopes excel in high-resolution sections cultured cells, they face limitations cleared tissues due to refractive index mismatches between immersion media objectives sample container. To overcome these challenges, RIM-Deep was developed significantly improve capabilities without compromising normal function microscope....
The increasing use of tissue clearing techniques underscores the urgent need for cost-effective and simplified deep imaging methods. While traditional inverted confocal microscopes excel in high-resolution sections cultured cells, they face limitations cleared tissues due to refractive index mismatches between immersion media objectives sample container. To overcome these challenges, RIM-Deep was developed significantly improve capabilities without compromising normal function microscope....
Abstract Background Due to the dispersed nature of neurites and fibers, microtome‐based 2‐dimensional histology provides only a limited perspective enteric nervous system. To visualize plexus, we applied optical clearing avoid scattering in human ileum facilitate photon penetration for 3‐dimensional (3‐D) microscopy neural tissue. Methods Human ileal specimens were derived by trimming donor bowel due its excess length during clinical trial small intestinal transplantation. The pan‐neuronal...
Abstract The increasing use of tissue clearing techniques underscores the urgent need for cost-effective and simplified deep imaging methods. While traditional inverted confocal microscopes excel in high-resolution sections cultured cells, they face limitations cleared tissues due to refractive index mismatches between immersion media objectives sample container. To overcome these challenges, RIM-Deep was developed significantly improve capabilities without compromising normal function...
The increasing use of tissue clearing techniques underscores the urgent need for cost-effective and simplified deep imaging methods. While traditional inverted confocal microscopes excel in high-resolution sections cultured cells, they face limitations cleared tissues due to refractive index mismatches between immersion media objectives sample container. To overcome these challenges, RIM-Deep was developed significantly improve capabilities without compromising normal function microscope....
The increasing use of tissue clearing techniques underscores the urgent need for cost-effective and simplified deep imaging methods. While traditional inverted confocal microscopes excel in high-resolution sections cultured cells, they face limitations cleared tissues due to refractive index mismatches between immersion media objectives sample container. To overcome these challenges, RIM-Deep was developed significantly improve capabilities without compromising normal function microscope....