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custom-made in-build matlab script  (MathWorks Inc)


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    Structured Review

    MathWorks Inc custom-made in-build matlab script
    Experimental setup of high-throughput droplet-based cytotoxicity platform. ( A ) Experimental schematics showing cytotoxicity platform that combines (i) droplet generation and cell pairing using microfluidics, (ii) droplet immobilization for real-time microscopy, (iii) automated image analysis using custom-made <t>MATLAB</t> script to allow unbiased and high throughput detection of cytotoxic events. Stained NK cells and K562 cells were loaded into the chip using 200 µL pipette tips and encapsulated into droplets using a 3-inlet microfluidic chip. The viability dyes were included within the cell medium. The immobilized droplets were incubated in a stage top incubator set at 5% CO 2 and 37 °C. Image acquisition was performed at every hour interval for 10 h. ( B ) The three-inlet microfluidic device with flow-focusing junction to generate droplets. ( C ) A qualitative test of the observation chamber was performed by monitoring droplets movement in the chamber under the microscope for 10 h.
    Custom Made In Build Matlab Script, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/custom-made in-build matlab script/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    custom-made in-build matlab script - by Bioz Stars, 2026-05
    90/100 stars

    Images

    1) Product Images from "An automated real-time microfluidic platform to probe single NK cell heterogeneity and cytotoxicity on-chip"

    Article Title: An automated real-time microfluidic platform to probe single NK cell heterogeneity and cytotoxicity on-chip

    Journal: Scientific Reports

    doi: 10.1038/s41598-021-96609-9

    Experimental setup of high-throughput droplet-based cytotoxicity platform. ( A ) Experimental schematics showing cytotoxicity platform that combines (i) droplet generation and cell pairing using microfluidics, (ii) droplet immobilization for real-time microscopy, (iii) automated image analysis using custom-made MATLAB script to allow unbiased and high throughput detection of cytotoxic events. Stained NK cells and K562 cells were loaded into the chip using 200 µL pipette tips and encapsulated into droplets using a 3-inlet microfluidic chip. The viability dyes were included within the cell medium. The immobilized droplets were incubated in a stage top incubator set at 5% CO 2 and 37 °C. Image acquisition was performed at every hour interval for 10 h. ( B ) The three-inlet microfluidic device with flow-focusing junction to generate droplets. ( C ) A qualitative test of the observation chamber was performed by monitoring droplets movement in the chamber under the microscope for 10 h.
    Figure Legend Snippet: Experimental setup of high-throughput droplet-based cytotoxicity platform. ( A ) Experimental schematics showing cytotoxicity platform that combines (i) droplet generation and cell pairing using microfluidics, (ii) droplet immobilization for real-time microscopy, (iii) automated image analysis using custom-made MATLAB script to allow unbiased and high throughput detection of cytotoxic events. Stained NK cells and K562 cells were loaded into the chip using 200 µL pipette tips and encapsulated into droplets using a 3-inlet microfluidic chip. The viability dyes were included within the cell medium. The immobilized droplets were incubated in a stage top incubator set at 5% CO 2 and 37 °C. Image acquisition was performed at every hour interval for 10 h. ( B ) The three-inlet microfluidic device with flow-focusing junction to generate droplets. ( C ) A qualitative test of the observation chamber was performed by monitoring droplets movement in the chamber under the microscope for 10 h.

    Techniques Used: High Throughput Screening Assay, Microscopy, Staining, Transferring, Incubation

    Image processing and analyzing steps in MATLAB script. ( A ) Image processing by stacking different channels, droplet tracing, and detection of cells over each channel. ( B ) Droplet movement over one hour. An adjustable amount of movement is allowed by the script, but if this allowed movement is more than the droplet radius, the risk exists of detecting a different droplet at the next time point. Droplet detection over time is done by comparing the coordinates of the center of the droplet between two consecutive time points and selecting the closest center within the allowed movement range. ( C ) Evaluation of the script for cells recognition over different channels, here two cells labelled with cell tracker blue are identified in DAPI channel). ( D ) Validation of the script by comparing differences in cell distribution, cell pairing, and dead cell identification at three different time points (t = 3 h, t = 4 h, and t = 10 h) in-between script generated data with manually counted data.
    Figure Legend Snippet: Image processing and analyzing steps in MATLAB script. ( A ) Image processing by stacking different channels, droplet tracing, and detection of cells over each channel. ( B ) Droplet movement over one hour. An adjustable amount of movement is allowed by the script, but if this allowed movement is more than the droplet radius, the risk exists of detecting a different droplet at the next time point. Droplet detection over time is done by comparing the coordinates of the center of the droplet between two consecutive time points and selecting the closest center within the allowed movement range. ( C ) Evaluation of the script for cells recognition over different channels, here two cells labelled with cell tracker blue are identified in DAPI channel). ( D ) Validation of the script by comparing differences in cell distribution, cell pairing, and dead cell identification at three different time points (t = 3 h, t = 4 h, and t = 10 h) in-between script generated data with manually counted data.

    Techniques Used: Biomarker Discovery, Generated



    Similar Products

    custom-made in-build matlab script  (MathWorks Inc)
    90
    MathWorks Inc custom-made in-build matlab script
    Experimental setup of high-throughput droplet-based cytotoxicity platform. ( A ) Experimental schematics showing cytotoxicity platform that combines (i) droplet generation and cell pairing using microfluidics, (ii) droplet immobilization for real-time microscopy, (iii) automated image analysis using custom-made <t>MATLAB</t> script to allow unbiased and high throughput detection of cytotoxic events. Stained NK cells and K562 cells were loaded into the chip using 200 µL pipette tips and encapsulated into droplets using a 3-inlet microfluidic chip. The viability dyes were included within the cell medium. The immobilized droplets were incubated in a stage top incubator set at 5% CO 2 and 37 °C. Image acquisition was performed at every hour interval for 10 h. ( B ) The three-inlet microfluidic device with flow-focusing junction to generate droplets. ( C ) A qualitative test of the observation chamber was performed by monitoring droplets movement in the chamber under the microscope for 10 h.
    Custom Made In Build Matlab Script, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/custom-made in-build matlab script/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    custom-made in-build matlab script - by Bioz Stars, 2026-05
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Experimental setup of high-throughput droplet-based cytotoxicity platform. ( A ) Experimental schematics showing cytotoxicity platform that combines (i) droplet generation and cell pairing using microfluidics, (ii) droplet immobilization for real-time microscopy, (iii) automated image analysis using custom-made MATLAB script to allow unbiased and high throughput detection of cytotoxic events. Stained NK cells and K562 cells were loaded into the chip using 200 µL pipette tips and encapsulated into droplets using a 3-inlet microfluidic chip. The viability dyes were included within the cell medium. The immobilized droplets were incubated in a stage top incubator set at 5% CO 2 and 37 °C. Image acquisition was performed at every hour interval for 10 h. ( B ) The three-inlet microfluidic device with flow-focusing junction to generate droplets. ( C ) A qualitative test of the observation chamber was performed by monitoring droplets movement in the chamber under the microscope for 10 h.

    Journal: Scientific Reports

    Article Title: An automated real-time microfluidic platform to probe single NK cell heterogeneity and cytotoxicity on-chip

    doi: 10.1038/s41598-021-96609-9

    Figure Lengend Snippet: Experimental setup of high-throughput droplet-based cytotoxicity platform. ( A ) Experimental schematics showing cytotoxicity platform that combines (i) droplet generation and cell pairing using microfluidics, (ii) droplet immobilization for real-time microscopy, (iii) automated image analysis using custom-made MATLAB script to allow unbiased and high throughput detection of cytotoxic events. Stained NK cells and K562 cells were loaded into the chip using 200 µL pipette tips and encapsulated into droplets using a 3-inlet microfluidic chip. The viability dyes were included within the cell medium. The immobilized droplets were incubated in a stage top incubator set at 5% CO 2 and 37 °C. Image acquisition was performed at every hour interval for 10 h. ( B ) The three-inlet microfluidic device with flow-focusing junction to generate droplets. ( C ) A qualitative test of the observation chamber was performed by monitoring droplets movement in the chamber under the microscope for 10 h.

    Article Snippet: Automated Image analysis was performed using custom-made in-build MATLAB script (Mathworks), DMALAB (available on request).

    Techniques: High Throughput Screening Assay, Microscopy, Staining, Transferring, Incubation

    Image processing and analyzing steps in MATLAB script. ( A ) Image processing by stacking different channels, droplet tracing, and detection of cells over each channel. ( B ) Droplet movement over one hour. An adjustable amount of movement is allowed by the script, but if this allowed movement is more than the droplet radius, the risk exists of detecting a different droplet at the next time point. Droplet detection over time is done by comparing the coordinates of the center of the droplet between two consecutive time points and selecting the closest center within the allowed movement range. ( C ) Evaluation of the script for cells recognition over different channels, here two cells labelled with cell tracker blue are identified in DAPI channel). ( D ) Validation of the script by comparing differences in cell distribution, cell pairing, and dead cell identification at three different time points (t = 3 h, t = 4 h, and t = 10 h) in-between script generated data with manually counted data.

    Journal: Scientific Reports

    Article Title: An automated real-time microfluidic platform to probe single NK cell heterogeneity and cytotoxicity on-chip

    doi: 10.1038/s41598-021-96609-9

    Figure Lengend Snippet: Image processing and analyzing steps in MATLAB script. ( A ) Image processing by stacking different channels, droplet tracing, and detection of cells over each channel. ( B ) Droplet movement over one hour. An adjustable amount of movement is allowed by the script, but if this allowed movement is more than the droplet radius, the risk exists of detecting a different droplet at the next time point. Droplet detection over time is done by comparing the coordinates of the center of the droplet between two consecutive time points and selecting the closest center within the allowed movement range. ( C ) Evaluation of the script for cells recognition over different channels, here two cells labelled with cell tracker blue are identified in DAPI channel). ( D ) Validation of the script by comparing differences in cell distribution, cell pairing, and dead cell identification at three different time points (t = 3 h, t = 4 h, and t = 10 h) in-between script generated data with manually counted data.

    Article Snippet: Automated Image analysis was performed using custom-made in-build MATLAB script (Mathworks), DMALAB (available on request).

    Techniques: Biomarker Discovery, Generated