Tuberculosis - causes, symptoms, diagnosis, treatment, pathology

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It’s estimated that about two billion people worldwide are infected with mycobacterium

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tuberculosis, often just shortened to tuberculosis or simply ‘TB’.

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Two billion is a ton of people, but even though they’re infected, that doesn’t mean all

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those people have symptoms, the vast majority, about 90-95%, aren’t even aware they’re

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infected.

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And this is because usually the immune system can contain it such that it isn’t able to

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multiply, and often remains latent, or dormant, as opposed to active, which usually causes

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symptoms and can be spread to others.

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If the host’s immune system becomes debilitated at some point down the road, like with AIDS

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or some other illness, or as a person grows older, it can be allowed to reactivate, or

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basically wake up and become very serious, especially if it spreads through the body.

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Mycobacteria are an interesting bunch, they’re slender, rod-shaped, and need oxygen to survive,

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in other words, they’re “strict aerobes”.

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They’ve got an unusually waxy cell wall, which is mainly a result of the production

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of mycolic acid.

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Because of this waxy cell wall, they’re “acid-fast”, meaning that it can hold

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on to a dye in spite of being exposed to alcohol, leaving it bright red colored when a Ziehl–Neelsen

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stain is used.

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The wall also makes them incredibly hardy, and allows them to resist weak disinfectants

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and survive on dry surfaces for months at a time.

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Now Mycobacterium tuberculosis is usually transmitted via inhalation, which is how they

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gain entry into the lungs.

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Now, we breathe in all sorts of virus and bacteria all the time, but we’ve got defenses

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that take care of most of them.

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For one, air that we breathe in is turbulent in the upper airways, and drives most bacteria

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against mucus which is then cleared pretty quickly.

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Ultimately, though, TB can avoid the mucus traps and make its way to the deep airways

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and alveoli where we have macrophages which eat up foreign cells, digest, and destroy

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them.

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With TB, they recognize foreign proteins on their cell surface, and phagocytize them,

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or essentially package them into a space called a phagosome.

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With most cases, the macrophage then fuses the phagosome with a lysosome, which has hydrolytic

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enzymes that can pretty much break down any biochemical molecule.

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TB’s tricky, though, and once inside the macrophage, they produce a protein that inhibits

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this fusion, which allows the mycobacterium to survive.

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It doesn’t just survive, though, it proliferates, and creates a localized infection.

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At this point somebody has developed primary tuberculosis, which means that they have signs

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of infection soon after being exposed to TB.

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Even though it sounds bad, most people at this stage are actually asymptomatic or maybe

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have a mild flu-like illness.

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About 3 weeks after initial infection, cell-mediated immunity kicks in, and immune cells surround

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the site of TB infection, creating a granuloma, essentially an attempt to wall off the bacteria

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and prevent it from spreading.

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The tissue inside the middle dies as a result, a process referred to as caseous necrosis,

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which means “cheese-like” necrosis, since the dead tissue is soft, white, and looks

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a bit like cheese.

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This area is known as a “Ghon focus”.

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TB also gets to hilar lymph nodes, either carried over by immune cells through the lymph

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or by direct extension of the Ghon focus infection and causes caseation there as well, and together,

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this caseating tissue and associated lymph node make up the characteristic “Ghon complex”.

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Ghon complexes are usually subpleural and occur in the lower lobes of the lungs.

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The tissue that’s encapsulated by the granuloma undergoes fibrosis, and often calcification,

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producing scar tissue that can be seen on x-ray, this calcified ghon complex is called

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a “Ranke complex”.

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In some cases, although a scar is leftover, the mycobacteria is killed off by the immune

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system, and that’s the end of that.

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In other cases, even though they were walled off, they remain viable, and are therefore

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still alive, but they’re just dormant.

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If and when a person’s immune system becomes compromised, like with AIDS or with aging,

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the Ghon focus can become reactivated, and the infection can spread to either one or

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both upper lobes of the lungs, it’s thought that this is because oxygenation is greatest

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in these areas, and TB being an aerobe, prefers areas of greater oxygenation.

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Since they were previously exposed, the immune system’s memory T cells quickly release

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cytokines to try and control the new outbreak, which forms more areas of caseous necrosis,

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this time, though, it tends to cavitate, or form cavities, which can allow the bacteria

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to disseminate, or spread through airways and lymphatic channels to other parts of the

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lungs, which can cause bronchopneumonia; but it can also spread via the vascular system

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and infect almost every other tissues in the body, called systemic miliary TB.

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When TB spreads to other tissues, it causes complications related to the organ affected.

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Kidneys are commonly affected, resulting in sterile pyuria, or high levels of white blood

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cells in the urine.

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It might also spread to the meninges of the brain, causing meningitis, the lumbar vertebrae,

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causing Pott disease, the adrenal glands causing addison’s disease, the liver causing hepatitis,

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and the cervical lymph nodes causing lymphadenitis in the neck, also known as scrofula.

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Testing for TB often starts with a purified protein derivative or PPD intradermal skin

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test, sometimes known as a tuberculin skin test, Mantoux test, or simply TB test.

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With this test, tuberculin is injected between layers of the dermis, tuberculin is a component

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of the bacteria, and if a person has previously been exposed to TB, the immune system reacts

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to the tuberculin and produces a small, localized reaction within 48 to 72 hours; if the reaction

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creates a large enough area of induration (rather than just redness), it’s considered

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to be a positive test.

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Positive tuberculin tests simply mean the patient’s been exposed at some point to

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TB—it doesn’t differentiate between active and latent disease.

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As an alternative to tuberculin skin tests, there are also interferon gamma release assays

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(or IGRAs) which look for evidence in the blood of previous exposure to TB proteins.

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Since this one’s a blood test, you don’t need to show up again to have the test read

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like you do with the PPD.

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Also, the IGRA is more specific to TB rather than other types of mycobacterial infections

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and is unlikely to be positive as a result of having BCG vaccine in the past, a vaccine

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that protects against TB.

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And this is a pretty useful feature of IGRAs, since BCG vaccine is given to many children

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around the world to prevent disseminated TB.

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After doing a screening test with PPD or IGRA, anyone with a positive result typically gets

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a chest Xray to look for signs of active TB disease.

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In patients with symptoms like as fevers, night sweats, weight loss, and coughing up

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blood, or hemoptysis.

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it’s important to collect samples from either the sputum, or via a bronchoalveolar lavage,

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which is where a bronchoscope is inserted through the mouth or nose into the lungs,

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fluid is squirted, and then the fluid is collected.

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These samples can get sent to the lab for staining, culture, and PCR to look evidence

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of mycobacterium tuberculosis.

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Treatment of latent TB infection typically involves using a single drug for a prolonged

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period of time—the most common approach is Isoniazid for 9 months.

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Treatment of active TB disease is typically done with different combinations of anti-TB

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antibiotics, like isoniazid, rifampin, ethambutol, and pyrazinamide,which results in patients

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being non-infectious to others usually within a few weeks.

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Until that point, though, patients can spread TB to others and it’s typically adults with

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reactivated TB that are the most infectious.

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As a result, patients are typically kept in negative pressure rooms and visitors are asked

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to wear protective N-95 masks that can’t filter out oil aerosols (N for “not resistant

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to oil”) but can filter out at least 95% of other aerosols (in this case TB).

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Even after patients are no longer contagious, they’re typically kept on multiple medications

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for many months to be sure the bacteria are destroyed usually with directly observed therapy

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or DOT where somebody watches and confirms that you’re taking the medication.

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Additionally, there’s an enormous worry about new drug-resistant strains of TB that

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are causing infections in various parts of the world.

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You may hear of MDR-TB or Multi-drug resistant TB or even XDR-TB which is Extremely drug

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resistant TB which is incredibly hard to treat because they don’t die in the presence of

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our usual antibiotics.

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The bottom line is that to get an effective treatment, it’s super important to make

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sure that the drugs being used will work against the specific strain of TB, that multiple medications

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are used together to prevent drug resistance from developing, and that medications are

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used for the entire course of therapy so that all of the mycobacterium tuberculosis is killed

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off.

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Recently, the US Food and Drug Administration has approved a breakthrough medication for

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XDR-TB, called pretomanid.

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According to recent studies, a combination of pretomanid, bedaquiline and linezolid has

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been effective for almost 90% of XDR-TB cases.

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As an added bonus, this combination therapy can be taken orally, and is also very well

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tolerated compared with other XDR-TB drug regimens.

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Alright, as a quick recap.

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Tuberculosis, or TB, is an infection caused by Mycobacterium tuberculosis, that mainly

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affects the lungs.

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3 weeks after the primary infection, the immune system tries to contain the infection by creating

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a granuloma, and the tissue in the middle undergoes caseous necrosis, resulting in an

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area called Ghon focus.

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TB also extends to nearby hilar lymph nodes, causing caseous necrosis there as well.

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Ghon focus plus the affected lymph node make up the characteristic Ghon complex.

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If the immune system becomes compromised, like with AIDS, or older age, Ghon focus can

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reactivate, and the infection may spread to one or both upper lobes of the lungs, where

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it forms cavities.

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From cavities, bacteria can disseminate to other parts of the lungs, causing bronchopneumonia,

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but it can also spread through the vascular system and infect almost every tissue in the

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body, which is called systemic miliary TB.

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Testing for TB starts with a PPD intradermal skin test, or with an IGRA blood test, and

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a chest X-ray can identify signs of active TB disease.

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In patients with fevers, night sweats, weight loss, and hemoptysis, a sputum sample can

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be stained, cultured and PCR can be done to look for Mycobacterium tuberculosis.

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Treatment of active TB includes a combination of antibiotics, given for several months,

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and special regimens are used for MDR-TB and XDR-TB.