Inflammation is an early response to infection or injury. It is a “non-specific” immune response. It does not vary depending on the type of injury or infection.
Most of the body’s healing tools circulate in the blood. These include antibodies, T-cells and other white blood cells, clotting factors, chemicals that may kill germs, and nutrients to feed damaged cells.
Injured cells release chemicals that communicate with the immune system. They attract healing cells and chemicals. Inflammation helps these healing factors leave the bloodstream and work on damaged tissue. Blood vessels enlarge, increasing blood flow to the damaged area. Inflammation changes the structure of blood vessels, making it easier for plasma to pass into the surrounding tissues. This causes swelling. Inflammation also causes redness, heat, and pain. In addition, it reduces tissue function.
Coagulation (the formation of blood clots) is part of inflammation. This can occur in the skin (for example, stopping bleeding from a cut) or inside the body (for example, building a barrier around germs or protecting a damaged area in the lining of a blood vessel.)
Coagulation has to stay in balance with the breakdown and removal of clots. This process is called fibrinolysis. Fibrin is the protein that forms clots. Lysis means reduction or destruction.
Acute inflammation normally occurs in response to physical injury such as a cut or sprain, or a localized infection. Acute inflammation ends when specific chemicals circulate to “turn off” the inflammation.
However, inflammation can also be chronic. Chronic inflammation causes tissue damage and scarring. The blood vessels stay permeable. White blood cells continue to leave the blood and accumulate in the tissue. Immune cells can “wear out” and stop working correctly. Chronic inflammation eventually destroys surrounding tissue and creates scar tissue. It can also contribute to allergies, asthma or “autoimmune” diseases like arthritis and multiple sclerosis. In autoimmune diseases, the body sometimes makes antibodies that attack healthy cells.
Ongoing inflammation is associated with many chronic diseases. These include heart failure, kidney problems, metabolic syndrome, diabetes, dementia, and frailty.
HIV is a chronic infection. Even patients with an undetectable viral load make new virus. This may contribute to continuing inflammation. Antiretroviral medications reduce inflammation, but not to normal levels.
Over time, HIV weakens the immune system. Old infections may come back. Almost everyone with HIV is also infected with cytomegalovirus (CMV, see fact sheet 504.) Latent CMV infection can become active in people with HIV, causing additional Inflammation.
Other infections or illnesses (co-morbidities) are important in understanding the health of people with HIV. Hepatitis or herpes infections (see fact sheet 507) are also common.
The mouth and digestive tract, like the skin, protect the body from “outside” threats. At the “top” end of the digestive tract is the mouth. Poor dental health can lead to general infection and inflammation (see fact sheet 653.)
The gut normally contains about 70% of the body’s immune cells. The intestines have a surface area approximately equal to the size of a football field! The immune system in the gut is called gut-associated lymphoid tissue or GALT. It protects the body from germs in food. HIV damages GALT very early in infection.
Inflammation in the gut makes it easier for germs to pass out of the intestine and “leak” into the body’s circulation. This leaky gut contributes to overall (systemic) inflammation. Inflammation in the gut also contributes to poor absorption of nutrients.
Lipopolysaccharides (LPS) are molecules that are part of the coating of some bacteria normally found in the intestines. LPS produces a strong immune response. High levels in the blood are a sign of “leaky gut” syndrome.
Inflammation in people with HIV shows up in high levels of some elements in the blood:
Researchers are looking into anti-inflammatory drugs that have been used in other diseases such as rheumatoid arthritis, and trying to learn from other studies of immune activation, inflammation, and aging.
Another area of research in HIV involves the bacterial environment of the gut. These bacteria can affect the outcomes of many diseases. Interventions that affect these bacteria may be helpful. This includes “probiotics” such as acidophilus and other live cultures that stimulate the growth of helpful bacteria in the gut.
Inflammation is a complex process. Acute inflammation is a normal part of the body’s healing process. Chronic inflammation can damage the body and is associated with many chronic health problems, and with normal aging.
HIV is an inflammatory disease and causes chronic inflammation. This can accelerate physical changes normally associated with aging.
Various possible treatments for chronic inflammation are being studied.