Imagine a balloon half filled with water and knotted. It's on the table and you put your hand on it. Now you can move your hand back and forth a certain distance, whereby the balloon with its support does not slip, but remains in place. They create a flexing motion. That's how a bursa works. Usually it has grown together on one side with the adjacent tissue. The ″Walk″ page is designed to ensure trouble-free movement of the tendons and prevents reduced blood circulation due to the pressure exerted.
+
Imagine a balloon half filled with water and knotted. It's on the table and you put your hand on it. Now you can move your hand back and forth a certain distance, whereby the balloon with its support does not slip, but remains in place. They create a flexing motion.
+
+
That's how a bursa works. Usually it has grown together on one side with the adjacent tissue. The ″Walk″ page is designed to ensure trouble-free movement of the tendons and prevents reduced blood circulation due to the pressure exerted.
Aktuelle Version vom 12. Januar 2020, 15:11 Uhr
Imagine a balloon half filled with water and knotted. It's on the table and you put your hand on it. Now you can move your hand back and forth a certain distance, whereby the balloon with its support does not slip, but remains in place. They create a flexing motion.
That's how a bursa works. Usually it has grown together on one side with the adjacent tissue. The ″Walk″ page is designed to ensure trouble-free movement of the tendons and prevents reduced blood circulation due to the pressure exerted.