Hi All,
I am writing after a long long time. I have an image which has white dots inside the cells and I wanted to compare this image with another image which doesn't have white dots inside the cells. The objective is to count no. of cells with white dots (vacuoles) and not those cells where the vacuoles are absent. Please suggest which approach can be used on imagej. Thanks, Rohitesh -- ImageJ mailing list: http://imagej.nih.gov/ij/list.html |
Dear Rohitesh,
This depends a little on your images and your cells. For example: Can you identify individual cells? Is there one vacuole/cell? Do you have a nuclear staining? Maybe you can show a few images? Best wishes Kees Dr Ir K.R. Straatman Senior Experimental Officer Advanced Imaging Facility Centre for Core Biotechnology Services University of Leicester www.le.ac.uk/advanced-imaging-facility -----Original Message----- From: Rohitesh Gupta <[hidden email]> Sent: 09 October 2019 14:26 Subject: Autophagy Analysis using ImageJ Hi All, I am writing after a long long time. I have an image which has white dots inside the cells and I wanted to compare this image with another image which doesn't have white dots inside the cells. The objective is to count no. of cells with white dots (vacuoles) and not those cells where the vacuoles are absent. Please suggest which approach can be used on imagej. Thanks, Rohitesh -- ImageJ mailing list: https://eur03.safelinks.protection.outlook.com/?url=http%3A%2F%2Fimagej.nih.gov%2Fij%2Flist.html&data=02%7C01%7Ckrs5%40leicester.ac.uk%7C4023d42fbfec4c5ccc3608d74cbc6a34%7Caebecd6a31d44b0195ce8274afe853d9%7C0%7C1%7C637062244440134706&sdata=ZK3ftGcIwoWQgMWyViX8x2ZVr3YPfJ3lRGuo%2BYfZvXQ%3D&reserved=0 -- ImageJ mailing list: http://imagej.nih.gov/ij/list.html |
In reply to this post by Rohitesh Gupta
Dear Kees,
I was able to split the channel and identify that the vacuoles fall under the green channel. Every cell has one vacuole and each cell is distinctly identified. I am sharing here an image for reference. Please share if there is any alternate strategy for the same. Thanks, Rohitesh -- ImageJ mailing list: http://imagej.nih.gov/ij/list.html laxmi.png (269K) Download Attachment |
Dear Rohitesh
One option would be: After splitting your channels you can threshold your red channel to identify the individual cells - Optimize brightness/contrast (Image > Adjust > Brightness/Contrast and Apply - Image > Adjust >Threshold and select a threshold that works - Process > Binary > Watershed and you more or less should have individual cells. If there are too many clumps of cells try a different threshold setting Add these cells to the ROI Manager - Analyze > Analyze Particles; Set a pixel size that excludes small particles, Select 'Add to Manager' and 'Exclude on edges' You could now select Analyze > Set Measurements and select 'Min & max gray value' Select your image with the vacuoles and In the ROI Manager under More>> select 'Multi Measure' and deselect all in the next menu. You should now get a list of all cells with their minimum and maximum grey scale value. The maximum grey scale value can be used to identify ROIs (cells) with a vacuole, in you example all above 60. Hope it works Best wishes Kees -----Original Message----- From: ImageJ Interest Group <[hidden email]> On Behalf Of Rohitesh Gupta Sent: 09 October 2019 14:53 To: [hidden email] Subject: Re: Autophagy Analysis using ImageJ Dear Kees, I was able to split the channel and identify that the vacuoles fall under the green channel. Every cell has one vacuole and each cell is distinctly identified. I am sharing here an image for reference. Please share if there is any alternate strategy for the same. Thanks, Rohitesh -- ImageJ mailing list: https://eur03.safelinks.protection.outlook.com/?url=http%3A%2F%2Fimagej.nih.gov%2Fij%2Flist.html&data=02%7C01%7Ckrs5%40leicester.ac.uk%7C5c4a116adf13420409b608d74cc02724%7Caebecd6a31d44b0195ce8274afe853d9%7C0%7C1%7C637062260495574847&sdata=D0Ki02Qs37feqZjGA2ws6Z%2Fz5cszi7LFVAi%2BubMIChs%3D&reserved=0 -- ImageJ mailing list: http://imagej.nih.gov/ij/list.html |
In reply to this post by Rohitesh Gupta
Good day Rohitesh,
although a separation and count of the two types of cells appears possible for the provided sample image (I use the magenta channel after color transformation to CMYK) I should like to tell you that the sample image is of poor quality: 1. Less than half of the 8bit dynamic range is used 2. The image appears out-of-focus 3. The cells show a strange halo that is not caused by de-focusing Please check the setup of your microscope, the camera exposure, and provide unprocessed (raw) images. Regards Herbie :::::::::::::::::::::::::::::::::::::::::::: Am 09.10.19 um 15:53 schrieb Rohitesh Gupta: > Dear Kees, > > I was able to split the channel and identify that the vacuoles fall under the green channel. Every cell has one vacuole and each cell is distinctly identified. I am sharing here an image for reference. Please share if there is any alternate strategy for the same. > > Thanks, > Rohitesh > > -- > ImageJ mailing list: http://imagej.nih.gov/ij/list.html > -- ImageJ mailing list: http://imagej.nih.gov/ij/list.html |
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