Thank you! I was reading in Kandel and Schwartz and got stuck. Your explanation of the attachments relative to the Z-axis really helped me nail it. Thanks for breaking it down!
in the animation we see a demonstration of muscle contraction in the extraocular muscles. Is this the actual way these muscles contract? (by retracting both sides of the muscle)
really quite wonderful teaching style and animations. May I ask how you did the animations. They look very clear and simple but I suspect that they would have taken quite some time to get done. Thanks. Philip
Of course, the animation is 'schematic' and not intended to reflect the anatomy perfectly. In reality, the origin of a muscle is a fixed point so the muscle belly will only be seen to shorten at the distal end (insertion). Hope that clarifies the animations
the best EOM video that I have seen so far, very clear and concise. Thanks
amazing, have looked at so many sources but you are the best! clear, simple and logical
Super clear video - LOVE the simultaneous animations! Thank you, fellow Brummie!
Definitely one of the best demonstrations for this topic, Thank you Sir .
Thanks, this is exactly what I wanted. Very clear and diagrammatic. Perfect!
Thank you! I was reading in Kandel and Schwartz and got stuck. Your explanation of the attachments relative to the Z-axis really helped me nail it. Thanks for breaking it down!
Amazing and interesting explanation. So happy to have come across this!!! THANK YOU!!
Thank you so, so very much. Best wishes for who ever made this.
Excellent presentation! If I'm not wrong, its the Y axis that passes through the cornea and not the X axis at 6:10
Brill vid, I'm studied this for a semester and only properly understand now!
in the animation we see a demonstration of muscle contraction in the extraocular muscles. Is this the actual way these muscles contract? (by retracting both sides of the muscle)
Super excellent explanation. Thanks sir.
It cleared all of my confusions ,thanks alot :)
really quite wonderful teaching style and animations. May I ask how you did the animations. They look very clear and simple but I suspect that they would have taken quite some time to get done. Thanks. Philip
This was superb! Thank you very much!
hey mate, really appreciated this. In lectures we have been taught that SR also intorts, and IR also extorts. Is this true?
thanks....best explanation
Ty a lot!!! this 2D animation is amazing!!
very much simplified..thank you
@Steve Jacques What software did you use for the animated diagrams? Is a physics program? THanks
Did it in good old fashioned PowerPoint!
Thank you for the video!
Great!! Thank u very much. This was very helpful. very logical :-)
Nice video!
amazing this was! can't thank you enough😆😆
Of course, the animation is 'schematic' and not intended to reflect the anatomy perfectly. In reality, the origin of a muscle is a fixed point so the muscle belly will only be seen to shorten at the distal end (insertion). Hope that clarifies the animations
So if m. rectus superior is in action in one eye, in the other one it's m. obliquus inferior ?
.._..._.
/o \ /o \
\_./ \_./
Thanks
the quick intro music at the beginning is funny