Awesome video! Hope you don't mind if I add marker notes for my MIT students. 0:00 Electromagnetic spectrum, waves, pixels and voxel. 2:22 MRI machines and electromagnets 4:30 Proton dipoles 60% water -hydrogen atoms and fat 5:40 Magnetic field alignment of dipoles to main magnetic field 6:15 Precession ‘like a spinning top’ 6:26 Larmor equation. At 1.5T precession is 63MHz. 8:02 -9:19 Magnetic resonance: RF causes resonance (not covered well in other vids) 10:02 T2 & T1 Good description of T2 relaxation (decay) and T1 recovery 12:12 TR & TE Generating contrast between tissue types using TR and TE 14:29 Contrast T2 weighting produces bright signal in water. 17: 48 Image weighting by TR and TE adjustments 20:08 MR Spectroscopy (not covered this year but interesting and important concept for the future of imaging) 22:38 Gradient coils 3 sets 22:55 Slice selection: Applying gradient to resonant our slice. 23:35 Phase encoding creating a phase shift to localise spins in 1 dimension 24:16 Frequency encoding applying a gradient in the 3rd and final direction, so that the signal can be measured and located to a particular voxel.
It's totally insane to me now that they tried to teach us this by reading a text. What a great use of graphic representations, truly leads to deep understanding 👐
Since I was not able to understand the MRI principles my professor shared this video with me 5 years ago. It all started here and now I m a researcher developing contrast agents for MRI. I m still grateful for this video.
Thank you so very much. I am an immunologist shifting to nanoparticles. I could not find a single source of information that I could understand. You have done it!!! Bravo.
As someone with no scientific or technical background but a relentless drive to learn, this video was a revelation. I give talks to general audiences that touch on some major scientific shifts (i.e. neuroplasticity, epigenetics, etc.) and electromagnetism and the body. I've been stalking the MRI for a while, and this superior presentation is a gift and a real thrill. THANK YOU SO MUCH!
*NB* What physicists call «spin» is a very arbitrary choice of terminology; The origin of the term is Stern-Gerlach; Illustration shows the *N* ( north ) as the upper magnetic ( field generator ) so since the beam can be said to go up / down the "Spin up" / "Spin down" became accepted as nomenclature - yet this electron "shell" or "field:" is best described as a cloud for purpose of visual imaging; The "exact" position is better though of as *"probably there"* → seriously! _I am not trying to confound you or play head games;_ There is some really exotic speculation in Epigenetics about a purported Water-Carbon resonance; The speaker may correct me as his training is accomplished compared to You Tube Commentors like myself; The (Franklin and Gosling 1953; Watson and · Crick 1953) thing most are aware of has an "outer sheath" ( backbone ) of DNA is based on a repeated pattern of a sugar group and a phosphate group cyberbridge.mcb.harvard.edu/dna_1.html Farther up the speaker notes: www.drcmr.dk/MR Which states _This problem is especially severe ......._ going on to note an incorrect presentation which is commonly given though not really requisite to persons being able to do the work; A Spin Transition as they are calling it has no well defined Minkowski Spacetime as would be thought of as a tight well focused resonance as many would think of it; Even a laser which will impress for its clarity will have some spectral broadening i.e. the light though astoundingly pure chromatic to the human eye has some spectral broadening: Spread‐spectrum MRI represents a new approach to accelerate image acquisition K Scheffler - 2019 - Spread‐spectrum magnetic resonance imaging; wiley ◘ *doi.org/10.1002/mrm.27766*
incredible good video that doesnt oversimplify but actually explains understandable! Thanks for that huge effort that went into this video. Videos like you bring humanity forward!!!
So incredibly in depth. I've seen a lot of MRI explanations but this video is the best; hands down! It resonates with the frequency of new curious minds. Well done Dr. Kliose!
@The EdgeLord dude apparently you have beef with this gentlemen. I don't care like 1%. Not at all. Shit smearing is all fine and dandy but you're doing it wrong.
Thanks Dr. Klioze. I am not a radiologist but had a keen desire to understand the basic physics behind MRI. This video and the ones on X ray and CT are the best I have come across. No amount of book reading could have cleared the concepts so well. Thanks again and God Bless !
What a lecture! The best one ever I watched. Now after 30 years of struggle, I have basic concepts and I think I can understand what the radiologists talk about!!!
Didn't place at State Science fair but what an amazing experience! Fabulous projects with a lot of talented young scientists. A glimmer of hope for science education in the U.S. Very proud of my little girl!
If this video was stimulated by your daughter's science fair then mission accomplished! It's very good. I'm recommending it as a primer on MRI for newbies who are coming into MRI research from non-technical backgrounds. Thanks very much for the hard work!
practiCalfMRI Appreciate your kind words! Giuliana was in 6th grade when she wanted to do a project on the effects of makeup and MRI. She did a good job with the setup but just couldn't grasp the MR physics in enough detail to present the results convincingly. As I said, the experience was still great and she's already talking about going back for 2015! I'm currently working on another MR video concerning diffusion weighted and diffusion tensor imaging. Initially planned to cover the entire subject with one video. After composing some of the script, I thought it would be best to split these out into separate DWI and DTI presentations. Probably a few months away but I would welcome any feedback when they're available. Thanks again...
I just had to come back and comment on how amazing this video is! I could not understand how MRIs work and had a test yesterday. I watched this literally 20 minutes before and aced it! Thank you thank you thank you!
This is the best possible way to demonstrate basic MR physics. I couldn't understand it with any amount of reading. Your video has enlightened me on this concept.Thanks a ton sir.
Great MRI explanation. Congrats doctor, by a physicist. The best video I found on this subject, as i wanted to learn about the principles of operation of the MRI technique. Thank you sir, keep up with quality in your work.
The video is outstanding. The best possible way in which I could learn MRI physics. This is a part of my biophysics syllabus and the concept is clear now.
this was sooo useful!!! I have a radiology exam next week and I totally understood how mri function thanks to this video rather than reading a thousand times my manual! thanks a lot
I am a student of Biomedical Engineering, and this video has helped me a lot while studying for Medical Images Systems course. Thank you so much for such a good explanation and for sharing your knowledge!
100 pages of textbooks and i get nothing and here you are with 25 mins of video with every information i need...so cool of technology and social platform.
I am going to be potentially working on MRI and ct scanner's so this is by far the best working knowledge I could ask for. The care you took to break down each part and define each step from tx to rx I must say it helps demystify the imaging process enough that I can see exactly what Parts are needed to be worked on and where I should begin my diagnostic procedures. For a example a blurry picture may be a result of relaxation time delay pulse duration so I can conclude a frequency range is out of phase and may be giving incorrect returns. The idea of energizing then looking for the return or the t1 return makes far more sence after watching this video. Appreciate your work and I look forward to future videos.
Thank you! Best explanation yet! I'm an X-ray student but am shadowing MR and I needed the basics explained before I could really understand anything else and it's very complicated without visual aid. Good luck to your daughter!
Wow. I just realized I've never commented on a video before since I had to open up some sort of channel to make this comment. I went through it though, because after spending a lot of time watching videos of the principles of MRI (videos is the only way for me) trying to grasp anything, one becomes exhilarated to find a video like this one. Outstanding animations, good narrative pace and perfectly optimized content. I'm sure even the music contributed to a deeper understanding! Thank you. And please keep making videos.
Best MRI video ever. Would be nice to include T2* explanation nevertheless its a masterpiece. Big thanks on behalf of biomedical engineering students!!!
Very specific, on point and helpful explanation. Thank you very much Sir. I will be a good student at Biomedical Engineering Bachelor Degree because of you!!!
Love it! Good luck with your studies. I was going to do biomedical engineering myself but there weren't many biomedical options for electrical engineers at Virginia Tech back in the 80's. I'm sure things are much different now.
Liked this video. I am a frequent MRI user patient and wondered why I would heat up during long sessions. So, I get from this , I am in a low saturation, low density (in terms of timed exposure), low frequency microwave oven !
Sir Can you explain about sinusoidal radio frequency?? You said RF pluse will be perpendicular to the proton net magnetization but this sinusoidal RF is parallel in this vedio , can you please elaborate it?
This is by far the best video explaining some physics behind MR. Thank you so much for making this because things have finally started to click for me after studying for a while now!!!👌🏻🙌🏻😎
Thats awesome sir. I can say its the only video which provide almost complete principles of MRI in an understanding manner. Thank you so much. Hope to see more such video's.
Excellent video Dr. Klioze! This is a convincing and logical presentation because each step in your lecture is logically supported by the prior information. Thanks!
Kudos to you Sir, this is awesome! Rarely seen a science video which explains the basics of such a complex matter in a form that almost everybody can grasp it.
thank you for giving this physics based explanation on MRI technology. Most videos have a slide by slide presentation laying out just the facts behind the workings of the machine and lacks the use of animations and other interesting conjectures like the 4X4 example you used in the end. Thanks, again!
Great video, everything was very well explained and presented. A word of advice though, try to cite your sources in case anyone would like to dive deeper in order to grasp a better understanding.
dear doctor kiloze! thank you for this video! we are studying for a test in brain imaging and this helped us understand all the physics behind mri imaging! :)
Best Conceptual MRI video on the internet. This can be dovetailed with MRI lectures from Abert Einstein School of Medicine for pulse sequences (Dr. Lipton) as well as University of Washington Data Science on the use of Fourrier Transform for image creation (Dr Steve Burton Mechanical Eng) and Python for everyone 13 hr by Dr. Chuck as well as basic math concepts Fourrier analysis the Kahn Academy. These concepts as well as the advances with the NIVDA graphic card are the ones that will eventually drive the AI revolution in MRI.
Thank you for sharing this brillant video. It was perfect to recap today's lecture about MRI; having stuff explained by a different person is always good. The illustrations were perfectly clear, keep up the good work!
Dear Dr. Klioze, this is by far the best Visualization of longitudinal & transverse magnetization, T1, T2 relaxation and also the differences between fat & water relaxations. It would be great if you elaborate more on the concept (Resonance Part) of B1 magnetic field resonating with precessing protons which makes the net magnetization tip to on the transverse plane. Thank you very much.
I have just had one for the back trouble I am experiencing. This explains it so well that I can understand what went on. Just got to wait on the results now.
I really liked the explanation. I went through MRI for my right knee due to ACL injury and was very curious to know how the machine works. This helped a lot!! Thank you... :)
I used to work in Diagnostic Radiology, starting of course with flat plates and progressing into CT then MRI. I finally retired from Special Procedures. Anyway, this is an excellent video and I think it would benefit students going into Diagnostic Radiology.I'm going to contact one of my former Proff's to view it and recommend it for students entering the field of MRI. (magnetic field ? ha ha)
This is Great The best video i found on the net about MRI Thanks again for sharing your knowledge and putting your time into creating this informative awesome video
At 13:23 the video says that "All the protons absorb that energy, flip into the high energy state, and spin together to produce our ... transverse magnetization"" But I thought we only want half of the protons to be in the high energy state to produce the transverse magnetization. So I'm confused at that point. The rest of the video is amazingly well done and self-explanatory.
This is a great video giving a GREAT explanation of how MRI's function. Thank you very much. It's the best video, regarding how MRI's work, on the internet.
Wow, finally I found the video which helped me a lot through understanding the physics behind the MRI, I am waiting for more videos. Thanks for your great explanation, lots of important details in a short video!
Congratulations on the fair. I am sure the video took a heap of work. I admire people like you and would like to ask you a wee question: Why does the T2 weighted image is called T2? Because we are looking for the decay of the water resonance (T2)?.If so, why do we call T1 to the T1 weighted image in which the fat would decay first to T2?. Thank you for your attention. You are the best radiologist ever.
+TopChannel . I've wondered the same thing myself. As you've noticed, T2 decay (or more accurately, T2* decay) generally happens quicker than T1 decay. As such, I would have thought labeling them in the order they appear would have been more appropriate. However our naming convention is just the opposite. It may be due to the fact that to accentuate the differences between T1 decay in tissues, we use a shorter TR and TE and to accentuate the difference in T2 decay, we use a longer TR and TE. Therefore the T1 scan actually takes less time to acquire.
I am a biomedical Engineer, and this is the best, easiest and most brief explanation of MRI I have ever seen.
im doing BME undergrad
Agree
Same! I'm actually using this video to help me describe the physics in my thesis!
shut up ya cocky baztids !! ;)
Ok smart man ,is it safe ? Your injecting a a rare earth heavy metal in your body ,I had a MRI yesterday,and I feel not like myself
The best video explaining MRI I found on youtube so far. Exactly the right amount of information.
Awesome video! Hope you don't mind if I add marker notes for my MIT students.
0:00 Electromagnetic spectrum, waves, pixels and voxel.
2:22 MRI machines and electromagnets
4:30 Proton dipoles 60% water -hydrogen atoms and fat
5:40 Magnetic field alignment of dipoles to main magnetic field
6:15 Precession ‘like a spinning top’
6:26 Larmor equation. At 1.5T precession is 63MHz.
8:02 -9:19 Magnetic resonance: RF causes resonance (not covered well in other vids)
10:02 T2 & T1 Good description of T2 relaxation (decay) and T1 recovery
12:12 TR & TE Generating contrast between tissue types using TR and TE
14:29 Contrast T2 weighting produces bright signal in water.
17: 48 Image weighting by TR and TE adjustments
20:08 MR Spectroscopy (not covered this year but interesting and important concept for the future of imaging)
22:38 Gradient coils 3 sets
22:55 Slice selection: Applying gradient to resonant our slice.
23:35 Phase encoding creating a phase shift to localise spins in 1 dimension
24:16 Frequency encoding applying a gradient in the 3rd and final direction, so that the signal can be measured and located to a particular voxel.
ginger shock Absolutely! Didn't even know you could do that. Thanks for teaching the next generation...
@@DoctorKlioze so great of u
It's totally insane to me now that they tried to teach us this by reading a text. What a great use of graphic representations, truly leads to deep understanding 👐
Since I was not able to understand the MRI principles my professor shared this video with me 5 years ago. It all started here and now I m a researcher developing contrast agents for MRI. I m still grateful for this video.
Wow! That has got to be one of the best compliments I've ever received on this channel! A sincere thanks, my friend and best of luck with your career.
After languishing for so long in writings and youtube videos seeking to grasp the MRI principles, I've finally come to something useful.
The best MRI basics visualization and explanation I've ever ever watched
this is by far the best MRI description i've found.. thank you!
Thank you so very much. I am an immunologist shifting to nanoparticles. I could not find a single source of information that I could understand. You have done it!!! Bravo.
have not seen a simpler decoding of the principles... Thank you so much
This is the best MRI video here by far
As someone with no scientific or technical background but a relentless drive to learn, this video was a revelation. I give talks to general audiences that touch on some major scientific shifts (i.e. neuroplasticity, epigenetics, etc.) and electromagnetism and the body. I've been stalking the MRI for a while, and this superior presentation is a gift and a real thrill. THANK YOU SO MUCH!
*NB* What physicists call «spin» is a very arbitrary choice of terminology; The origin of the term is Stern-Gerlach; Illustration shows the *N* ( north ) as the upper magnetic ( field generator ) so since the beam can be said to go up / down the "Spin up" / "Spin down" became accepted as nomenclature - yet this electron "shell" or "field:" is best described as a cloud for purpose of visual imaging;
The "exact" position is better though of as *"probably there"* → seriously!
_I am not trying to confound you or play head games;_
There is some really exotic speculation in Epigenetics about a purported Water-Carbon resonance; The speaker may correct me as his training is accomplished compared to You Tube Commentors like myself; The (Franklin and Gosling 1953; Watson and · Crick 1953) thing most are aware of has an "outer sheath" ( backbone ) of DNA is based on a repeated pattern of a sugar group and a phosphate group
cyberbridge.mcb.harvard.edu/dna_1.html
Farther up the speaker notes:
www.drcmr.dk/MR
Which states _This problem is especially severe ......._ going on to note an incorrect presentation which is commonly given though not really requisite to persons being able to do the work; A Spin Transition as they are calling it has no well defined Minkowski Spacetime as would be thought of as a tight well focused resonance as many would think of it; Even a laser which will impress for its clarity will have some spectral broadening i.e. the light though astoundingly pure chromatic to the human eye has some spectral broadening:
Spread‐spectrum MRI represents a new approach to accelerate image acquisition
K Scheffler - 2019 - Spread‐spectrum magnetic resonance imaging;
wiley ◘ *doi.org/10.1002/mrm.27766*
Best video on UA-cam on MRI. Thank you!
This video just saved my life. I have to take a medical physics test tomorrow and I just could't get the idea of my MRI notes. Thanks a lot
Finally, i have found a good and logical explanation of what really happens in tissues in t1 and t2 relaxation times.Thank you a lot sir!
incredible good video that doesnt oversimplify but actually explains understandable! Thanks for that huge effort that went into this video. Videos like you bring humanity forward!!!
So incredibly in depth. I've seen a lot of MRI explanations but this video is the best; hands down! It resonates with the frequency of new curious minds. Well done Dr. Kliose!
@The EdgeLord dude apparently you have beef with this gentlemen. I don't care like 1%. Not at all. Shit smearing is all fine and dandy but you're doing it wrong.
Thanks Dr. Klioze. I am not a radiologist but had a keen desire to understand the basic physics behind MRI. This video and the ones on X ray and CT are the best I have come across. No amount of book reading could have cleared the concepts so well.
Thanks again and God Bless !
This video was very very useful. MRI can only be explained with such detailed animated explanations. Thank you for the time and effort
What a lecture! The best one ever I watched. Now after 30 years of struggle, I have basic concepts and I think I can understand what the radiologists talk about!!!
I'm glad it helped! Happy New Year!!
Didn't place at State Science fair but what an amazing experience! Fabulous projects with a lot of talented young scientists. A glimmer of hope for science education in the U.S. Very proud of my little girl!
If this video was stimulated by your daughter's science fair then mission accomplished! It's very good. I'm recommending it as a primer on MRI for newbies who are coming into MRI research from non-technical backgrounds. Thanks very much for the hard work!
practiCalfMRI Appreciate your kind words! Giuliana was in 6th grade when she wanted to do a project on the effects of makeup and MRI. She did a good job with the setup but just couldn't grasp the MR physics in enough detail to present the results convincingly. As I said, the experience was still great and she's already talking about going back for 2015!
I'm currently working on another MR video concerning diffusion weighted and diffusion tensor imaging. Initially planned to cover the entire subject with one video. After composing some of the script, I thought it would be best to split these out into separate DWI and DTI presentations. Probably a few months away but I would welcome any feedback when they're available. Thanks again...
I look forward to your diffusion videos! Be glad to offer feedback. My handle at gmail dot com if you want to go direct!
What kind of magnet use MRI?
Most modern scanners use a superconducting magnet. Some of the early low field units actually used permanent magnets.
This might just be the most ingenious invention I’ve heard. It’s unbelievable how they were able to utilise electromagnets for imaging
I just had to come back and comment on how amazing this video is! I could not understand how MRIs work and had a test yesterday. I watched this literally 20 minutes before and aced it! Thank you thank you thank you!
Awesome! Music to my ears. Congratulations on your exam!!
This is the best possible way to demonstrate basic MR physics. I couldn't understand it with any amount of reading. Your video has enlightened me on this concept.Thanks a ton sir.
Great MRI explanation. Congrats doctor, by a physicist. The best video I found on this subject, as i wanted to learn about the principles of operation of the MRI technique. Thank you sir, keep up with quality in your work.
The video is outstanding. The best possible way in which I could learn MRI physics. This is a part of my biophysics syllabus and the concept is clear now.
Love your detailed explanation. No one could teach me MRI in such a detailed fashion. Invaluable video🙏
You made this easy to understand, yet with enough detail to fill in the voxels and give me a picture of how an image slice is made.
Just got a job with GE Healthcare working on MRI machines so videos like this really help me understand them.
BEST VIDEO I HAVE EVER SEEN REGARDING MRI PHYSICS. REALLY GOOD JOB. THANK YOU...
this was sooo useful!!! I have a radiology exam next week and I totally understood how mri function thanks to this video rather than reading a thousand times my manual! thanks a lot
I am a student of Biomedical Engineering, and this video has helped me a lot while studying for Medical Images Systems course. Thank you so much for such a good explanation and for sharing your knowledge!
Hello bro I also biomedical engineer please write your email
Thank you very much! Really nice MRI explanation I have ever seen
This video is great! I will never understand MRI without this video.
Can't express how grateful I am for the explanation!! Wish you all the best, thank you :)
one of the best videos on MRI physics. Explained well in an easy manner & short time. Very clear graphics.
This is the best video I have found to understand this complicated information! Thank you So very much!!!
100 pages of textbooks and i get nothing and here you are with 25 mins of video with every information i need...so cool of technology and social platform.
I am going to be potentially working on MRI and ct scanner's so this is by far the best working knowledge I could ask for. The care you took to break down each part and define each step from tx to rx I must say it helps demystify the imaging process enough that I can see exactly what Parts are needed to be worked on and where I should begin my diagnostic procedures. For a example a blurry picture may be a result of relaxation time delay pulse duration so I can conclude a frequency range is out of phase and may be giving incorrect returns. The idea of energizing then looking for the return or the t1 return makes far more sence after watching this video. Appreciate your work and I look forward to future videos.
Best explanation of NMR basics i've ever seen or heard. Congrats man
Thank you so much! I'm a medical student, currently on my Neuro rotation and this video saved so much time and headaches. You're awesome!
This is by far the best explanation i found for how the MRI process works. Great animation.
Thank you! Best explanation yet! I'm an X-ray student but am shadowing MR and I needed the basics explained before I could really understand anything else and it's very complicated without visual aid. Good luck to your daughter!
Best explanation I've seen yet. I just couldn't understand phase/freq encoding until I watched this.
Wow. I just realized I've never commented on a video before since I had to open up some sort of channel to make this comment. I went through it though, because after spending a lot of time watching videos of the principles of MRI (videos is the only way for me) trying to grasp anything, one becomes exhilarated to find a video like this one. Outstanding animations, good narrative pace and perfectly optimized content. I'm sure even the music contributed to a deeper understanding! Thank you. And please keep making videos.
Simply the best MRI explanation I have found. Really well done.
The best video on youtube that explains MRI clearly. thank u so much
This is the best video about MRI principles I've ever seen. Thank you so much for this!
Best MRI video ever. Would be nice to include T2* explanation nevertheless its a masterpiece. Big thanks on behalf of biomedical engineering students!!!
Very specific, on point and helpful explanation. Thank you very much Sir. I will be a good student at Biomedical Engineering Bachelor Degree because of you!!!
Love it! Good luck with your studies. I was going to do biomedical engineering myself but there weren't many biomedical options for electrical engineers at Virginia Tech back in the 80's. I'm sure things are much different now.
Sir, that was an absolutely fascinating and clear explanation. Thank you very much.
THIS IS AMAZING!!!!! Thank you Dr Klioze, after listening to more than an hour of lectures this was the best explanation
Finally I understood Spin-Spin relaxation after 5 years of watching many. 1000 Likes.
Liked this video. I am a frequent MRI user patient and wondered why I would heat up
during long sessions.
So, I get from this , I am in a low saturation, low density (in terms of timed exposure),
low frequency microwave oven !
12-6-13: Giuliana got 1st place at the school science fair! On to county...
Sir
Can you explain about sinusoidal radio frequency??
You said RF pluse will be perpendicular to the proton net magnetization but this sinusoidal RF is parallel in this vedio , can you please elaborate it?
Thank Giuliana we got this...
One of the best explanation about MRI on UA-cam, thanks for the great efforts.
This is by far the best video explaining some physics behind MR. Thank you so much for making this because things have finally started to click for me after studying for a while now!!!👌🏻🙌🏻😎
Saw this video for this first time many years ago, learned a lot - now coming back to revise MRI. Thank you for your work!
Kudos for the effort
Great Explanation with matching Animations
Covering some History of NMR- increases Interest on the topic
Thank you Sir
Your videos are incredible Dr. Klioze. They have helped me tremendously in my Intro to Imaging class!
Thats awesome sir. I can say its the only video which provide almost complete principles of MRI in an understanding manner. Thank you so much. Hope to see more such video's.
Great video! I've had several dozen MRI scans, and it's great to understand the physics in this detail.
Oligodendroglioma.
Best MRI video on internet. Thank you very much
Excellent video Dr. Klioze! This is a convincing and logical presentation because each step in your lecture is logically supported by the prior information. Thanks!
Kudos to you Sir, this is awesome! Rarely seen a science video which explains the basics of such a complex matter in a form that almost everybody can grasp it.
This video is GREEEEAAAAT!,I finally understand the mechanism of MRI 10 years after the college school!
Incredible explanation. Just amazed at the work you put in to create this video.
I appreciate that! It is a lot of work but I love it and I always learn a lot myself in the process.
This is the best video on this topic. Great teaching method!
unbelievable job! It is undoubtedly the best lecture on MRI basic.
thank you for giving this physics based explanation on MRI technology. Most videos have a slide by slide presentation laying out just the facts behind the workings of the machine and lacks the use of animations and other interesting conjectures like the 4X4 example you used in the end. Thanks, again!
Very nice and illustrative introduction of MRI basics for MRI newcomers as me. Thank you so much for this great video.
Great video, everything was very well explained and presented. A word of advice though, try to cite your sources in case anyone would like to dive deeper in order to grasp a better understanding.
I totally felt that distribution of energy during the relaxation. What a great video. It explains things so well. (Makes me feel so unintelligent lol)
Its a wonderful collection of simple explanations. Thanks creators.
This is frickin awesome. Awesome presentation dude!
You have simplified the most complicated parts of MRI, good on you and thanks a lot.
dear doctor kiloze! thank you for this video! we are studying for a test in brain imaging and this helped us understand all the physics behind mri imaging! :)
Very good right up to your despcription of phase encoding and frequencey encoding whihc bypassed k-space and introduced a fallacy.
Very nice work
Best Conceptual MRI video on the internet. This can be dovetailed with MRI lectures from Abert Einstein School of Medicine for pulse sequences (Dr. Lipton) as well as University of Washington Data Science on the use of Fourrier Transform for image creation (Dr Steve Burton Mechanical Eng) and Python for everyone 13 hr by Dr. Chuck as well as basic math concepts Fourrier analysis the Kahn Academy. These concepts as well as the advances with the NIVDA graphic card are the ones that will eventually drive the AI revolution in MRI.
That was the clearest explanation of the gradient coil functions that I have ever seen. Thanks a lot!
Thank you for sharing this brillant video. It was perfect to recap today's lecture about MRI; having stuff explained by a different person is always good. The illustrations were perfectly clear, keep up the good work!
The best video explaining MRI. Thankyou so much
Dear Dr. Klioze, this is by far the best Visualization of longitudinal & transverse magnetization, T1, T2 relaxation and also the differences between fat & water relaxations. It would be great if you elaborate more on the concept (Resonance Part) of B1 magnetic field resonating with precessing protons which makes the net magnetization tip to on the transverse plane. Thank you very much.
Thank you for helping the visual learner with this great lesson 👏 👍
this is the best video of MRI I've seen to date - thank-you so much :)
superb wow , i learn dozen of book in one vedio. Unique , simple, effective way to educate how MRI works.
Oh Gosh, this video is so amazing that I came back to watch it again even for revision of an exam.
I have just had one for the back trouble I am experiencing. This explains it so well that I can understand what went on. Just got to wait on the results now.
By far THE BEST VIDEO WITH SUCH AMAZING VISUAL DEPICTION!!! THANK YOU!
I really liked the explanation. I went through MRI for my right knee due to ACL injury and was very curious to know how the machine works. This helped a lot!! Thank you... :)
I used to work in Diagnostic Radiology, starting of course with flat plates and progressing into CT then MRI. I finally retired from Special Procedures. Anyway, this is an excellent video and I think it would benefit students going into Diagnostic Radiology.I'm going to contact one of my former Proff's to view it and recommend it for students entering the field of MRI. (magnetic field ? ha ha)
This is Great The best video i found on the net about MRI Thanks again for sharing your knowledge and putting your time into creating this informative awesome video
This video is AMAZING. The animations are so helpful!
At 13:23 the video says that "All the protons absorb that energy, flip into the high energy state, and spin together to produce our ... transverse magnetization""
But I thought we only want half of the protons to be in the high energy state to produce the transverse magnetization. So I'm confused at that point. The rest of the video is amazingly well done and self-explanatory.
This is a great video giving a GREAT explanation of how MRI's function. Thank you very much. It's the best video, regarding how MRI's work, on the internet.
Great presentation so far!!! I am amazed. Thanks A LOT
Amazing 👏 video..Great explanation
Wow, finally I found the video which helped me a lot through understanding the physics behind the MRI, I am waiting for more videos. Thanks for your great explanation, lots of important details in a short video!
Congratulations on the fair. I am sure the video took a heap of work. I admire people like you and would like to ask you a wee question: Why does the T2 weighted image is called T2? Because we are looking for the decay of the water resonance (T2)?.If so, why do we call T1 to the T1 weighted image in which the fat would decay first to T2?.
Thank you for your attention. You are the best radiologist ever.
+TopChannel . I've wondered the same thing myself. As you've noticed, T2 decay (or more accurately, T2* decay) generally happens quicker than T1 decay. As such, I would have thought labeling them in the order they appear would have been more appropriate. However our naming convention is just the opposite. It may be due to the fact that to accentuate the differences between T1 decay in tissues, we use a shorter TR and TE and to accentuate the difference in T2 decay, we use a longer TR and TE. Therefore the T1 scan actually takes less time to acquire.
This is the best video for understanding the bacic principle of mri...