Tuberculosis Flashcards

1
Q

Tuberculosis (TB), caused by bacteria of the mycobacterium tuberculosis complex, is one of the world’s most common and deadly infective diseases.

A

Tuberculosis (TB), caused by bacteria of the mycobacterium tuberculosis complex, is one of the world’s most common and deadly infective diseases.

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2
Q

Latent TB vs Active TB

A

Latent TB: This refers to individuals infected with TB, who suppressed the initial infection, have no active disease and are not infectious. It is thought that around 1.7 billion of the world’s population are affected. Some patients will re-activate their TB.
Active TB: This refers to symptomatic or progressive disease, it often presents with malaise, weight loss, night sweats and features of organ involvement.

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3
Q

Epidemiology - TB

A

The World Health Organisation estimates that 10 million people fell ill with TB in 2019.

There were an estimated 1.4 million deaths from TB in 2019 with the infection remaining one of the top 10 causes of death worldwide. Of those deaths, 208,000 were in HIV +ve patients. Through international health efforts, death from TB decreased by 14% between 2015 and 2019 (though this is below the targeted decrease). Approximately 1.7-2 billion people around the world have latent TB. Of this figure, approximately 5-10% will be expected to develop active disease.

In the UK incidence varies highly depending on location. In 2017 a total of 5567 cases were notified with an annual incidence of 8.4 / 100,000. Rates are 13 times higher in people who were not born in the UK, accounting for 71% of cases. Urban areas, in particular London, have a higher burden of disease - around 40% of TB cases in the UK occur in London.

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4
Q

TB is caused by … and spread via aerosolised droplets.

A

TB is caused by mycobacterium and spread via aerosolised droplets.

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5
Q

Mycobacterium, a genus of Actinobacteria, are aerobic, acid-fast, slow-growing bacteria. Those capable of causing TB in humans are referred to as the mycobacterium complex (MTc) and comprises of:

A

Mycobacterium tuberculosis: main cause of TB in humans
Mycobacterium bovis: main cause of TB in cattle and other mammals, can cause human disease
Mycobacterium africanum: primarily seen in west Africa
Mycobacterium microti: mainly affects other mammals

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6
Q

Mycobacterium are:

A

Obligate aerobes: they require oxygen to grow.
Facultative intracellular: can grow outside the cell but find it advantageous to be intracellular.
Acid fast bacilli (AFB): refers to a resistance to decolourisation of staining by acid.

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7
Q

Once mycobacterium bacilli have been inhaled patients may follow a number of clinical paths:

A

Immediate clearance
Primary TB: the initial infection, often subclinical, suppressed in the majority of individuals.
Progressive-primary TB: primary infection is not suppressed, and prolonged infection occurs.
Latent TB: the outcome in the majority of patients with Primary TB. Non-infectious state.
Post-primary TB: also termed reactivation TB. It occurs in patients with latent TB, frequently due to immunocompromise (e.g. AIDs). May be pulmonary (55%) or extra-pulmonary (45%).

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8
Q

Inhaled bacilli find their way into alveoli, here they begin dividing. In some individuals this may be immediately cleared. In others primary TB develops. Once a critical mass is reached a host immune response is elicited with the highly antigenic mycobacterium producing a strong immune response. Alveolar macrophages phagocytose bacilli which continue to proliferate.

The Ghon complex, a pathognomonic lesion most commonly seen in children, may develop. The complex is made up of:

A
Ghon focus (a small caseating granuloma)
Ipsilateral mediastinal lymph node
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9
Q

Active TB may be heralded by weight loss, malaise, fever and symptoms specific to the site affected.

A

Active TB most commonly affects the lungs but other organs and tissues may be affected. Clinical features will often reflect the underlying site involved.

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10
Q

Pulmonary TB is the most common clinical manifestation of TB affecting around 55% with active disease. It may be asymptomatic or present with the classic triad of:

A

Cough
Fever
Weight loss
Shortness of breath and haemoptysis can also be present. Additional symptoms may be seen with laryngeal and pleural involvement.

Chest radiograph may demonstrate consolidation, cavitation (typically upper lobe) and effusion.

Pulmonary TB with a cavitary lesion in the right mid zone

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11
Q

Lymph-node TB

The lymph nodes are the most common extra-pulmonary site. Nodes are typically described as:

A

Enlarged
Firm
Non-tender

It most commonly affects cervical and supraclavicular nodes. In chronic cases, suppuration and formation of a sinus tract can occur.

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12
Q

TB frequently affects the genitourinary tract. ‘Sterile’ pyuria may be seen. Other features include:

A

Salpingitis
Epididymo-orchitis
Renal abscess

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13
Q

Miliary TB is the disseminated haematogenous spread of the bacilli. The term miliary comes from the characteristic chest radiograph finding - the appearance of millet seeds throughout the lung fields.

CNS TB is present in 20%. Multiple organ failure and organomegaly may develop.

A
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14
Q

CNS TB has numerous manifestations, the most common being TB meningitis. TB meningitis tends to present with fever, malaise and headache.

In TB meningitis CSF sampling shows:

A

High protein
Low glucose
Lymphocytosis

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15
Q

TB affecting the spine is called Pott’s syndrome. Symptoms include:

A

Fever
Weight loss
Back pain
Neurological deficits are seen in 50% and the development of spinal deformities, typically kyphosis, is common.

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16
Q

Tb SITES

A

Cutaneous TB: There are many manifestations including lupus vulgaris and scrofuloderma. TB may trigger erythema nodosum - a delayed hypersensitivity reaction seen in a number of conditions.
Pericardial TB: This can lead to pericardial effusions or constrictive pericarditis.
Adrenal TB: TB is the leading cause of Addison’s disease worldwide. See our Addison’s disease notes for more details.
Gastrointestinal TB: TB may affect the intestines, characteristically causing terminal ileitis. Peritoneal spread may lead to ascites.

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17
Q

Patients who are asymptomatic but at high-risk for latent TB can be screened. The following groups may be offered testing:

A

Contact risk: people who have had close personal contact with someone affected with active pulmonary or laryngeal TB.
Immunocompromised: patients with significant immunocompromise (e.g. HIV, post stem cell or solid organ transplant) may be screened.
Prior to medication that may re-activate TB: prior to commencing medications like anti-tumour necrosis factor (TNF)-alpha agent (e.g. infliximab).
New entrants to UK from high risk areas: people who have migrated to the UK but been unable to have pre-screening in their country of origin can be offered screening.
NHS workers: certain employees will be screened prior to starting work.

18
Q

Mantoux test

A

The Mantoux test Involves an intradermal injection of tuberculin, a purified protein derivative from M. tuberculosis. If a patient has had exposure to TB they exhibit a delayed (type IV) hypersensitivity reaction. Diagnosis is based on the degree of the local epidermal reaction.

Previous BCG vaccination affects results. Interpretation is somewhat variable and at times the results are inconclusive. The Mantoux test is also used prior to the administration of the BCG vaccine.

19
Q

Interferon-gamma release assay

A

Interferon-gamma release assay

These assays detect the bodies cellular immune response to TB. It tests for the T-cell interferon-gamma response to M. tuberculosis antigens. It is unaffected by previous BCG and non-tuberculous mycobacterium (NTM).

20
Q

Positive test -TB

A

Patients with positive screening tests for TB should be discussed and reviewed by a TB specialist. The test is taken into context with the patients history and indications. Active TB must be excluded through clinical review, CXR and any other investigation indicated. In general patients with latent TB should be treated to prevent the development of post-primary TB.

21
Q

Active TB is diagnosed with microbial tests and suggestive imaging.

A
22
Q

Pulmonary TB

A

Imaging forms a key part of the diagnostic process and all patients should have a chest X-ray and consideration given to CT chest.

Where possible three respiratory specimens - sputum samples (including one early morning sample) - should be sent for TB microscopy and culture. In those unable to produce spontaneous sputum either induced sputum or bronchoscopy and lavage may be used.

DNA polymerase chain reaction is a nucleic acid amplification technique that allows for rapid and accurate testing. It is an expensive test and is advised for use in certain settings. Rapid testing with nucleic acid amplification may used on specimens if there is suspicion for TB and:

Patient has HIV or
Rapid information on the species would change patient care or
A large contact-tracing initiative is being explored or
Aged 15 or younger

23
Q

Extrapulmonary TB

The diagnosis of TB requires site specific testing. There are a huge range of possibilities so here we will discuss a few of the possibilities:

A

Pleural TB: Imaging with a chest X-ray +/- bronchoscopy. Three respiratory specimen, ideally spontaneously produced deep cough samples, one from the early morning. Pleural fluid may be taken for TB microscopy and culture and cytology.

Lymph node TB: Imaging may be with USS, CT or MRI. Samples may be taken by either aspiration or biopsy. In addition to the routine tests nucleic acid amplification may be performed on samples.

Genitourinary TB: Imaging may involve USS and IV urography. Direct visualisation of the fallopian tubes and ovaries can be acheived with laparoscopy. Three early morning urine samples can be sent for TB culture. Biopsy may be taken from affected site (e.g. endometrial curettings or renal biopsy).

24
Q

Bacille Calmette-Guérin

A

The BCG is the worlds most utilised vaccine with an estimated 3 billion vaccinations administered.

25
Q

A Mantoux test (tuberculin skin test) is required prior to administration of BCG

A

A Mantoux test (tuberculin skin test) is required prior to administration in those aged > 6 years, or younger if there is a history of exposure to TB.

A positive result contraindicates the vaccine due to the risk of a severe reaction. It does not indicate the patient is immune to TB.

26
Q

BCG vaccine

A

BCG is a live attenuated vaccine. Its has variable efficacy but prevents severe disease in children. It is not particularly effective in adults.

It is also protective against leprosy (caused by a non-tuberculous mycobacterium) and is a treatment in bladder cancer.

27
Q

Anti-tuberculous therapy

A

TB is typically treated with a combination of antibiotics for a period of months.

The antibiotics used and length of course depend on a number of factors. In latent disease patient risk factors, age and screening tests are considered. In active disease the site of infection and resistance patterns are considered.

Below we briefly discuss the four most commonly used medications in the treatment of TB:

Isoniazid (H): pro-drug that inhibits mycolic acid synthesis, a major cell wall constituent in M. tuberculosis. Side effects include polyneuropathy but these are rare at normal doses - it is given with pyridoxine to reduce this risk. May cause hepatotoxicity. It is an inhibitor of CYP450.
Rifampicin (R): stops bacterial RNA synthesis by inhibiting RNA polymerase. Resistance can occur by alteration of the binding site. Stains secretions pink and may cause hepatotoxicity. It is an inducer of CYP450.
Pyrazinamide (Z): pro-drug converted by M. tuberculosis to pyrazinoic acid. Accumulates and disrupts intracellular processes. It is effective against non-replicating persister cells. Drug may cause hepatotoxicity. It is potently antiuricosuric (i.e. increases uric acid level) and may cause gout.
Ethambutol (E): incompletely known mechanism. Evidence inhibits arabinosyl transferase, needed for cell wall synthesis. In rare cases causes optic retrobulbar neuritis but usually symptoms of this are reversible.

28
Q

Four most commonly used medications in the treatment of TB:

A

Isoniazid (H): pro-drug that inhibits mycolic acid synthesis, a major cell wall constituent in M. tuberculosis. Side effects include polyneuropathy but these are rare at normal doses - it is given with pyridoxine to reduce this risk. May cause hepatotoxicity. It is an inhibitor of CYP450.
Rifampicin (R): stops bacterial RNA synthesis by inhibiting RNA polymerase. Resistance can occur by alteration of the binding site. Stains secretions pink and may cause hepatotoxicity. It is an inducer of CYP450.
Pyrazinamide (Z): pro-drug converted by M. tuberculosis to pyrazinoic acid. Accumulates and disrupts intracellular processes. It is effective against non-replicating persister cells. Drug may cause hepatotoxicity. It is potently antiuricosuric (i.e. increases uric acid level) and may cause gout.
Ethambutol (E): incompletely known mechanism. Evidence inhibits arabinosyl transferase, needed for cell wall synthesis. In rare cases causes optic retrobulbar neuritis but usually symptoms of this are reversible.

29
Q

Hepatotoxicity - TB drugs

A

Isoniazid, Rifampicin, and Pyrazinamide are all associated with hepatotoxicity. Hepatotoxicity is seen in up to 20% of patients on isoniazid though it is normally mild - more seriously isoniazid induced hepatitis occurs rarely and is potentially fatal.

Patients should have baseline LFTs and serial measurements may be arranged. Patients with established liver disease should be discussed at specialist MDT meetings.

30
Q

Management of latent TB

A

Latent TB is variably treated depending on a number of patient factors.
Active disease must first be excluded. Screening for liver disease, HIV, hep B and hep C is conducted prior to the induction of therapy.

31
Q

Who to treat - latent TB

A

Treatment decisions are made by specialists through discussion with the patient of the relative merits of each option. NICE generally advise treatment in those younger than 65 (including patients with HIV) with evidence of latent TB and have been in contact with individuals with suspected or confirmed infectious pulmonary (or laryngeal) drug sensitive TB.

Liver disease is a relative contraindication and cases should be discussed at specialist MDTs. In adults aged 35-65, NICE only advise drug treatment if there is no concern of hepatotoxicity.

32
Q

Latent TB may be treated with:

A

6 months of isoniazid with pyridoxine (6H) or
3 months of isoniazid (with pyridoxine) and rifampicin (3HR)
In some patients rifampicin can cause interactions with other medications (e.g. HIV +ve or transplant patients) in which case 6H is preferred. 3HR is preferred if the patient is younger than 35 if hepatotoxicity is a concern.

33
Q

Treatment of active TB requires combination antibiotics for …

A

Treatment of active TB requires combination antibiotics for 6-12 months.

Patients with active TB need care guided by specialist services. TB specialist nurse and health visitors help to guide and monitor care.

All forms of active TB are considered a notifiable disease. As such it is a statutory requirement that cases are reported to the relevant public health body.

34
Q

Active TB without CNS involvement

A

Active TB without evidence of CNS involvement is managed with isoniazid (with pyridoxine), rifampicin, pyrazinamide and ethambutol for 2 months followed by rifampicin and isoniazid for 4 months.

This is termed the standard recommended regimen (2HRZE, 4HR).

35
Q

Active TB with CNS involvement

A

CNS TB is treated with isoniazid (with pyridoxine) and rifampicin for 12 months whilst pyrazinamide and ethambutol are given for the first 2 months (2HRZE, 10HR).

36
Q

Adjunctive steroids

A

Patients with CNS involvement are offered dexamethasone or prednisolone at the start of treatment which is then weaned over 4-8 weeks (dosing dependent of disease severity).

Patients with pericardial TB are offered prednisolone at the start of treatment which is then weaned over 2-3 weeks.

37
Q

Directly observed therapy

A

DOT involves direct supervision of patients during treatment for TB. It is thought to improve engagement and adherence with therapy.

Certain groups are thought to find greater benefit from DOT, these include alcoholics, homeless people and those with a history of poor adherence.

38
Q

Drug-resistant TB

A

WHO estimate 484,000 people were affected by rifampicin resistant TB in 2018, 80% of which had multi-drug resistance.
TB that is resistant to first-line therapies poses a significant public health concern. Close contact tracing and transmission precautions must be used.

39
Q

Multi-drug resistant TB

NICE advise nucleic acid amplification testing for rifampicin resistance if:

A

History of previous TB drug treatment, particularly if there was known to be poor adherence to that treatment
Contact with a known case of multidrug-resistant TB
Birth or residence in a country in which the World Health Organisation reports that a high proportion (5% or more) of new TB cases are multidrug-resistant
If rifampicin resistance is found, patients should be tested for resistance to second line drugs. Treatment may require at least 6 drugs that the TB strain does not have resistance against.

40
Q

Drug resistant TB

A

Patients who have resistance to a single agent from the first line medications (isoniazid, pyrazinamide and ethambutol) tend to need a combination of the others - though the course may be lengthened.

Rifampicin resistance is treated as per the multi-drug resistant pathway (described above).

41
Q

Prognosis

Active TB

A

Active TB tends to be a slowly progressive disease that is normally responsive to treatment.
Untreated the 10-year mortality is estimated as high as 70%. HIV co-infection is a key risk factor and increases mortality by approximately 3 times. Multi-drug resistant TB is also associated with poorer outcomes.

Untreated patients with latent TB have a 5-10% lifetime risk of developing active TB - though this can be higher is certain groups (e.g. immunosuppressed). Treatment for latent TB is thought to reduce the chance of active TB by around 90%.