Volkmann Canal

Volkmann's canal is one of the most famous and important channels in physiology. It was discovered in 1839 by German physiologists August Wilhelm Volkemann, who became one of the founders of circulatory physiology.

The Volkmann canal is a vascular system that connects capillaries to arteries and veins. This channel plays an important role in regulating blood pressure and metabolism in the body. It is also involved in the processes of tissue nutrition and respiration.

The discovery of the Volkmann canal was one of the key moments in the development of the physiology of the circulatory system. It allowed scientists to better understand the processes occurring in the body and develop new methods for treating various diseases.

Volkmann's canal is a rather interesting scientific object, which is often not discussed in the media, but is studied in biology lessons, since understanding the structure and functions of the tubules is related to human health. The canal is named after the German physiologist Alfred Heinrich Wollmann.

Description of structure and structure So, the channel is a special organelle that performs several important roles in the body. It is formed at the initial stage of formation of the internal epithelium of the nephron. Wollmann first discovered the canal in the 19th century and carried out numerous studies. There are large differences in structure between different organisms - from protozoa to humans. In prokaryotes, channels are less common than in eukaryotes. Here is an example of a channel that was discovered in the intestines of the sperm whale: - Formed from two thin intertwined strands of cytoplasm; - Quite long - can reach several centimeters; - Does not form an “arm” at the wall, like red blood cells, but is located under the cell membrane. As mentioned above, this channel plays a special role in the life of eukarytic organisms. After all, it works for the benefit of all cells. The conductive function includes the entry and exit of valuable substances for the body. Thanks to this channel, water and minerals enter the body, and the oxygen, sugars and energy that cells need continue to be carried into it. What conclusions can be drawn from this? The constant exchange of substances between cells is called metabolism. We now know the importance of maintaining balance in intracellular metabolism.