Wow! Thank you so much. That’s very generous. So glad this helped!

I wanted to ask this, because he repeatedly stated that the image was T2*-weighted. But it should be T2-weighted because of the rephasing 180° RF Pulse, right?

I had the same understanding.

Same question

Same question ~ In the previous lecture, he said it includes both T2* and T2. I didn’t fully understand, but I assumed it was beyond our scope.

i think vlogger is correct, because DWI has the same bad geometric distortion and signal loss (e.g. at air/tissue interface) as T2* fMRI does, but that 180 pulse throws me off too. so it would be nice if he clarified.

Thank you ☺️

My pleasure 👍🏼

The 180 degree RF pulse causes the ‘leaders’ to become the ‘laggers’. If there was no RF pulse the diffusion gradients would need to be in opposite directions. However the 180 degree RF pulse means that the two diffusion gradients will effectively be equal and opposite.

@@radiologytutorials somehow it makes sense now. Thank you. Master Sorcerer.

You’re right. Diffusion is movement across a concentration gradient. Diffusion weighted imaging isn’t actually measuring diffusion rather the ability of particles to move freely/without restriction. These particles move with Brownian motion. Thanks for pointing out the difference

​@@radiologytutorials Thank you so much for actually answering. I do apologise for the bluntness of my comment but yesterday I was going mad with this situation. I have yet not resolved the issue. To give you a little bit of context: - I am currently working in stroke, it’s why I got entangled with this. At the beginning I was assuming DWI measured diffusion, hence I was trying to explain the physiopathology of cytotoxic oedema from DWI point of view. Almost went mad. Actually, with cytotoxic oedema there is a net movement, a diffusion of water from extracellular space to intracellular space. In normal conditions net movement is 0, there is dynamic equilibrium. But in cytotoxic oedema, there is ischaemia → reduction in NaKATPase → intracellular Na accumulation → increase of IC osmotic pressure → diffusion (net movement) of water through acuaporines to the IC space. The absolute opposite of “restricted diffusion in DWI”. I was going beyond mad at this point. Then it’s when I discovered that actually diffusion sequences do not measure diffusion but freedom of movement. I went from mad to angry. This is when I posted the comment in your video. Sorry about that. I am still trying to clarify why the diffusion sequences were called diffusion on the very first place. I am researching, I will eventually find out. I’m sure there must be an explanation, probably related with the “experiment” itself of doing an MRI, perhaps the MRI actually creates by itself a difference in concentration of water with the magnetic fields (like pulling the molecules of water towards one direction like a magnet) in relation to non polarised molecules and then it let goes and measures the capability of the water to diffuse back? There must be an explanation for sure. If not, I am starting a revolution. - But then, then there is another issue. DWI measures free movement of water. In stroke in cytotoxic oedema there is restriction of free movement, according to DWI. However, is this really the case? I mean the extracellular space in between cells in the brain is so small in comparison with cellular volume. Cells are like sardines in a can. How is freedom of movement better outside than inside? Even worse, how is reduction in freedom of movement even more reduced when actually there is increase in intracellular water due to cytotoxic oedema and therefore an increase in volume allowing more space for the molecules of water to move? For a moment I though… may be it’s the lack of vascular flow, as intravascular volume accounts for extracellular volume? But no, as DWI is used also in other conditions that don’t have restriction in blood supply. I will keep researching. I will find out and let you know. Thank you for your videos, though. Finding your channel is one of the good outcomes of this battle.