@@anatomybootcamp20520:44 what you say us wrong proximal end produce interrod is which is not perpendicular and the perpendicular rod is produced by distal end
Hello this is a very nice video but it is well known that bimineralisation starts near the EDJ and prograss towards the surface! Also the ameloblast doesn't release crystals. It secretes crystal forming ions and enamel proteins that assemble into a matrix within which crystals grow
Hello, I just saw your comment. Much appreciated and I'm glad it was helpful. I'm currently experimenting with a few formats so you can check out newer videos and let me know what you think. Thank you!
great explaination. thanks for the great content.. that animational explanation system is actually what do educational system needs to save lots of times of many clever students..
Thank you so much! This video is awesome! One question: is the lock-shaped shape of each rod determined by the activity of a single ameloblast? thank you!
Thank you for your comment. Yes, each ameloblast is responsible for one rod and one interrod and if we orient the cut to be exactly perpendicular to the crystals of the rods, the interrod crystals will be parallel to the surface so together they make the shape of a keyhole. Stack multiple next to each other and each rod structure will be surrounded by 4 interrods, only one of which is made by the same ameloblast as the one which made that rod. However, the shape will differ if you change the direction of the cut. I hope it helps.
Sir your video was wonderful. But can you pls explain the mineralization in detail? Because in my textbook they have given something like mineralization occurs at the outer recently formed matrix and maturation occurs at inner first formed matrix. I'm confused with this sir. After maturation only mineralization occurs right but how it can happen in two places separately?
Mineralisation is the formation of crystalls which occurs at the early stages of amelogenesis. Maturation is the thickning of crystallites once all the organic materials leave the enamel at later stages of amelogenesis. They are not the same thing@@varshajprakash
Crena Pun thank you for your feedback. I am experimenting with a few formats so pls check out the more recent videos on the channel and let me know what you think.
Helena was a Master student of Medical Illustrations at Augusta University and this was part of her project. I was her lucky mentor. The other part can be found here: th-cam.com/video/QLNBjHgUHSU/w-d-xo.html and we published it in MedEdPortal: www.mededportal.org/publication/9169/
The Histology Dude I appreciate your swift reply. Many thanks attaching the article link as well, looks interesting I’ll definitely read it for my project. I’ll use the article information to reference it. Thank you again.
This 1:30 minute video helped me understand what i spent literally 2 hours trying to get from the lecture
Thanks so much
The single best animation of amelogenesis on the internet
Thank you very much! I’m glad it was helpful.
@@anatomybootcamp20520:44 what you say us wrong proximal end produce interrod is which is not perpendicular and the perpendicular rod is produced by distal end
Hello this is a very nice video but it is well known that bimineralisation starts near the EDJ and prograss towards the surface! Also the ameloblast doesn't release crystals. It secretes crystal forming ions and enamel proteins that assemble into a matrix within which crystals grow
No doubts best animation of amelogenesis, hands down, thank you!
Hello, I just saw your comment. Much appreciated and I'm glad it was helpful. I'm currently experimenting with a few formats so you can check out newer videos and let me know what you think. Thank you!
Wonderful video and animations. Please make more videos like this.
great explaination. thanks for the great content.. that animational explanation system is actually what do educational system needs to save lots of times of many clever students..
Amazing :) are you able to do one for dentine ?? :) Please & Thank you x x
Hi, thank you for the video! I kinda am confused about the proximal and distal part tho, could you explain which one is which please ?
proximal: towards the body
distal: away from the body
Thank you so much! This video is awesome! One question: is the lock-shaped shape of each rod determined by the activity of a single ameloblast? thank you!
Thank you for your comment. Yes, each ameloblast is responsible for one rod and one interrod and if we orient the cut to be exactly perpendicular to the crystals of the rods, the interrod crystals will be parallel to the surface so together they make the shape of a keyhole. Stack multiple next to each other and each rod structure will be surrounded by 4 interrods, only one of which is made by the same ameloblast as the one which made that rod. However, the shape will differ if you change the direction of the cut. I hope it helps.
Sir .. tis video is awesome .. a little more in detail is required. Plz in ur next video. ..
Thank you for an extremely helpful video. Please keep on creating!
good video but talks too fast lmaoo had to slow down to 0.75 tho. thank you!!!!!
Thank you
Amloblast is only made animal...
Thank you so much 🌸 it is very nice video
omg thank youuuuuuuu!!!!!!!!!!!
It is a great video. Kindly give more video on topic like ENAMEL, dentin, pulp
Thank you for your comment I'm glad you liked it. More coming up soon
Thank you, but how long does it take for the enamel to fully mature? I have been told 1 year.
Sir your video was wonderful. But can you pls explain the mineralization in detail? Because in my textbook they have given something like mineralization occurs at the outer recently formed matrix and maturation occurs at inner first formed matrix. I'm confused with this sir. After maturation only mineralization occurs right but how it can happen in two places separately?
Maturation is the same as mineralisation ryt?
Mineralisation is the formation of crystalls which occurs at the early stages of amelogenesis. Maturation is the thickning of crystallites once all the organic materials leave the enamel at later stages of amelogenesis. They are not the same thing@@varshajprakash
@@the.mosawi tysm
Awdome plz upload more videos
Crena Pun thank you for your feedback. I am experimenting with a few formats so pls check out the more recent videos on the channel and let me know what you think.
@@anatomybootcamp2052 ya sure 😁
Amazing...thank you
bestest video so far,.....plz make more videos
Thank you so much for this clear animation
♥️🙏🏽
❤️🥰
This video is offbeat 👍👍👍
Great video! Thank you!
thank you so much u saved me
Thanks for this!
thank you so much
Best 😍 plz make more..
So good
thanks a lot
Wao great work.
Best animation
Is this mineralization process??
No
Thank you So much !
Very beautiful and informative presentation. Can I get more information on the Artist Helena Martin, if one is considering referencing her. Thank you.
Helena was a Master student of Medical Illustrations at Augusta University and this was part of her project. I was her lucky mentor. The other part can be found here: th-cam.com/video/QLNBjHgUHSU/w-d-xo.html and we published it in MedEdPortal: www.mededportal.org/publication/9169/
The Histology Dude I appreciate your swift reply. Many thanks attaching the article link as well, looks interesting I’ll definitely read it for my project. I’ll use the article information to reference it. Thank you again.
You're very welcome and thank you for your feedback!
well done sir
You rock dude you are a life saviour
Thank you for your comment I'm glad you liked it
evolutionary...yeah right.