Endothelial cells line up the interior of your blood vessels, theyre just one layer that is in continuous contact with blood. Epithelial cells line up the cavity of tissues throughout the body and form glands. Endothelial cells are a specialized category of epithelial cells, this is what most of scientists agree on.
https://www.researchgate.net/post/What_is_the_difference_between_epithelial_and_endothelia
Ivermectin:
...
Of interest is the finding that Ivermectin targets bacteria as well as parasitic organisms. This finding further reinforces my earlier statement that anti-parasitic drugs aren’t just targeting new mystery organisms, but they may also be helping us fight Borrelia, Bartonella, and Babesia as well. Consider the following research from France:
Ivermectin is currently approved for treatment of both clinical and veterinary infections by nematodes (worms), including Onchocerca cervicalis in horses and Onchocerca volvulus in humans. However, ivermectin has not previously been shown to be effective against bacterial pathogens. Here we show that ivermectin also inhibits infection of epithelial cells by the bacterial pathogen, Chlamydia trachomatis, at doses that could be envisioned clinically for sexually-transmitted or ocular infections by Chlamydia.
-Source: University Paris Sud, France
This information is fascinating, indeed! Now we can start to see a clearer picture of why anti-parasite drugs can have multi-faceted benefits and be so useful in Lyme disease.
Diethylcarbamazine: (DEC)
...
Also, this drug has strong activity in the endothelial cells, which is exactly where Bartonella likes to live. So, Diethylcarbamazine may directly inhibit Bartonella or at least kill the parasites protecting Bartonella.
http://lymebook.com/ivermectin-albendazole-diethylcarbamazine-alinia-mimosa-pudica
https://www.researchgate.net/post/What_is_the_difference_between_epithelial_and_endothelia
Ivermectin:
...
Of interest is the finding that Ivermectin targets bacteria as well as parasitic organisms. This finding further reinforces my earlier statement that anti-parasitic drugs aren’t just targeting new mystery organisms, but they may also be helping us fight Borrelia, Bartonella, and Babesia as well. Consider the following research from France:
Ivermectin is currently approved for treatment of both clinical and veterinary infections by nematodes (worms), including Onchocerca cervicalis in horses and Onchocerca volvulus in humans. However, ivermectin has not previously been shown to be effective against bacterial pathogens. Here we show that ivermectin also inhibits infection of epithelial cells by the bacterial pathogen, Chlamydia trachomatis, at doses that could be envisioned clinically for sexually-transmitted or ocular infections by Chlamydia.
-Source: University Paris Sud, France
This information is fascinating, indeed! Now we can start to see a clearer picture of why anti-parasite drugs can have multi-faceted benefits and be so useful in Lyme disease.
Diethylcarbamazine: (DEC)
...
Also, this drug has strong activity in the endothelial cells, which is exactly where Bartonella likes to live. So, Diethylcarbamazine may directly inhibit Bartonella or at least kill the parasites protecting Bartonella.
http://lymebook.com/ivermectin-albendazole-diethylcarbamazine-alinia-mimosa-pudica