Platelet Plug Formation is an important part of hemostasis. Watch the video and see how platelets become "sticky" to one another and form a plug to stop blood flow.
Very clear explanation and I like your animation style + summary. I was baffled that your videos are not nearly as much viewed as I expected. You deserve more viewers/subscribers!
Thank you so much Sander for the comment- yes we are hoping for more subscribers - I think they will come as we continue producing the best quality videos we can.
This simplified the process so much, it's gonna stay in my brain forever 😍 didn't understand so well even after slides in class and textbook. Thank you so much 🙂
great clarity and simple presentation.how did you make it? Interested in making such videos .Am also a teaching faculty in a medical school..Wud appreciate if you cud give a hint abt the software or app used in making this.
3:00 Question about endothelial damage. Spike proteins that attach to ACE-2 receptors on cell membranes. Since spike proteins produced by mRNA vaccines are not covered by sugar, I assume there are more active sites on the spike proteins which your immune system will generate antigens for. Wouldn’t this create a thrombus-like growth composed of spike proteins and antigens? If so, wouldn’t blood flow create increase stress upon endothelial cells which could tear the membrane resulting in conventional thrombosis on top of the spike protein/antigen pseudo-“thrombosis”? Also, basic fluid dynamics would predict a higher velocity of plasma through smaller blood vessels creating higher stresses on endothelium cells. This would contribute to endothelial damage triggering conventional thrombosis.