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The problem with these "reservoirs" is that they require a

March 18, 2019 by James Ashley

The problem with these "reservoirs" is that they require a specific kind of virus. The virus is not so large that it can't easily be removed from its host. But because the virus is so sensitive to a specific type of virus, it can easily be eliminated or "destroyed" by one of those reservoir "reservoirs."

But, of course, the "reservoir" is not the only place where HIV infects the host. It's also the only place where HIV-infected cells can successfully live long enough to be treated with HIV drugs.

The problem is that HIV-infected cells don't seem to be able to replicate in their host cells. The cells don't live long enough to be infected by the virus in the first place. In many cases, HIV-infected cells live more than a week after the virus was infected, at least a year after it was first introduced through injection. When this happens, the virus dies, leaving only a small number of cells capable of surviving.

To make matters worse, this process only works very well for people with the virus. When you have a virus that is as resistant to the immune system's defenses as the immune system is to that of the host, it can take a long time for the virus to replicate and be effectively wiped out of its environment.

The point is that, while most people do not fully understand what a "reservoir" looks like, it can be quite difficult to know whether the cells that live long enough to be treated with a drug have the ability to survive the "reservoir" process.

And, as a final point, let's note that even if the "reservoir" is not completely destroyed, there's still a chance this virus will remain in a person for centuries to come.