Observing microbial colonies is the standard method for determining the microbe titer and investigating the behaviors of microbes. Here, we report an automated, real-time bacterial microcolony-counting system implemented on a wide field-of-view (FOV), on-chip microscopy platform, termed ePetri. Using sub-pixel sweeping microscopy (SPSM) with a super-resolution algorithm, this system offers the ability to dynamically track individual bacterial microcolonies over a wide FOV of 5.7 mm × 4.3 mm without requiring a moving stage or lens. As a demonstration, we obtained high-resolution time-series images of S. epidermidis at 20-min intervals. We implemented an image-processing algorithm to analyze the spatiotemporal distribution of microcolonies, ...
Image analysis is a very useful technique for counting and sizing bacteria, minimising hum an opera...
The procedure for counting colonies is often performed manually and the process is lengthy and tedi...
We report a chip-scale lensless wide-field-of-view microscopy imaging technique, subpixel perspectiv...
The power and simplicity of visual colony counting have made it the mainstay of microbiological anal...
Background: The power and simplicity of visual colony counting have made it the mainstay of microbio...
The power and simplicity of visual colony counting have made it the mainstay of microbiological anal...
Accurately measuring the number of viable microorganisms plays an essential role in microbiological ...
This study proposes an interactive counting system and a fully automated counting system using image...
Self-imaging Petri dish platforms with microscopy resolution, which we term ‘ePetri’, can significan...
Counting viable bacterial cells and functional bacteriophage is fundamental to microbiology underpin...
Background: Accurate quantitative analysis of microorganisms is recognized as an essential tool for ...
Research involving microorganisms such as bacteria mostly were done in many areas such as health, me...
A hallmark of bacterial populations cultured in vitro is their homogeneity of growth, where the majo...
A hallmark of bacterial populations cultured in vitro is their homogeneity of growth, where the majo...
Aims: To develop a flexible and fast colony forming unit quantification method that can be operated ...
Image analysis is a very useful technique for counting and sizing bacteria, minimising hum an opera...
The procedure for counting colonies is often performed manually and the process is lengthy and tedi...
We report a chip-scale lensless wide-field-of-view microscopy imaging technique, subpixel perspectiv...
The power and simplicity of visual colony counting have made it the mainstay of microbiological anal...
Background: The power and simplicity of visual colony counting have made it the mainstay of microbio...
The power and simplicity of visual colony counting have made it the mainstay of microbiological anal...
Accurately measuring the number of viable microorganisms plays an essential role in microbiological ...
This study proposes an interactive counting system and a fully automated counting system using image...
Self-imaging Petri dish platforms with microscopy resolution, which we term ‘ePetri’, can significan...
Counting viable bacterial cells and functional bacteriophage is fundamental to microbiology underpin...
Background: Accurate quantitative analysis of microorganisms is recognized as an essential tool for ...
Research involving microorganisms such as bacteria mostly were done in many areas such as health, me...
A hallmark of bacterial populations cultured in vitro is their homogeneity of growth, where the majo...
A hallmark of bacterial populations cultured in vitro is their homogeneity of growth, where the majo...
Aims: To develop a flexible and fast colony forming unit quantification method that can be operated ...
Image analysis is a very useful technique for counting and sizing bacteria, minimising hum an opera...
The procedure for counting colonies is often performed manually and the process is lengthy and tedi...
We report a chip-scale lensless wide-field-of-view microscopy imaging technique, subpixel perspectiv...