* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Document
Survey
Document related concepts
Marburg virus disease wikipedia , lookup
Hepatitis B wikipedia , lookup
Hepatitis C wikipedia , lookup
Diagnosis of HIV/AIDS wikipedia , lookup
Human cytomegalovirus wikipedia , lookup
Middle East respiratory syndrome wikipedia , lookup
Hospital-acquired infection wikipedia , lookup
Chagas disease wikipedia , lookup
Oesophagostomum wikipedia , lookup
Dirofilaria immitis wikipedia , lookup
Onchocerciasis wikipedia , lookup
Leishmaniasis wikipedia , lookup
Mycobacterium tuberculosis wikipedia , lookup
Coccidioidomycosis wikipedia , lookup
Leptospirosis wikipedia , lookup
Schistosomiasis wikipedia , lookup
African trypanosomiasis wikipedia , lookup
Transcript
Phthisiology Diagnosis of TB Lecture 2 Diagnosis of TB-disease. Clinical signs. Investigations. Diagnosis of TB Disease 1. 2. 3. 4. 5. 6. 7. 8. Clinical signs Medical History Physical Examination Test for TB Infection X-ray examination Microscopy of sputum smear for TB bacilli Bacteriologic investigations Bronchoscopy Symptoms of Pulmonary TB • Cough lasting 3 or more weeks • Coughing up sputum or blood (Hemoptysis) • Chest pain • Breathlessness • General Symptoms of TB Disease • Weakness • Fatigue • Malaise • rapid fatigability • bad appetite • weight loss • fever • increased perspiration • decreased capacity for work • Night sweats Symptoms of Extrapulmonary TB Disease • Symptoms of extrapulmonary TB disease depend on part of body that is affected • For example: – TB disease in spine may cause back pain – TB disease in kidneys may cause blood in urine Medical History • Information about close contact with infectious case of TB helps to clear diagnosis Close contacts • Close contacts are people who spend time with someone who has infectious TB disease • May include: – Family members – Coworkers – Friends • On average, 20 – 30% of close contacts become infected with TB Risk to be infected family Friends, relatives Random contacts Physical Examination • A physical examination cannot confirm or rule out TB disease, but can provide valuable information • Physical changes depends on extension of the disease and its complications • Physical signs of parenchyma consolidation, lung contraction, pneumothorax and pleural exudates could be present Physical Examination include • General exam - weight loss, pale and moist skin and pale visible mucosa, nail clubbing (drumstick fingers and watch-glass nails), patient's hand may be cyanotic • Palpation () • Percussion • Auscultation Hematological Study • Intoxication and hypoxia cause changes in the blood of patient • leucocytosis up to 10-14 x 10^9 / L • ↑ ESR (erythrocyte sedimentation rate) Test for TB Infection • Types of tests for diagnosing TB infection – TST – IGRAs • QFT-G • QFT-GIT • T-SPOT Mantoux Tuberculin Skin Test •TST is administered by injection •Tuberculin is made from proteins derived from inactive tubercle bacilli • Most people who have TB infection will have a reaction at injection site Mantoux Tuberculin Skin Test • Forearm should be examined within 48 - 72 hours • Reaction is an area of induration (swelling) around injection site -Induration is measured in millimeters -Erythema (redness) is not measured Mantoux Tuberculin Skin Test Interpreting the Reaction - 1 • Interpretation of TST reaction depends on size of induration and person’s risk factors for TB Mantoux Tuberculin Skin Test Interpreting the Reaction - 2 • Absence of changes is considered negative • Redness only or induration 2-4 mm is considered doubtful • Induration of > 5 mm is considered positive • Induration of > 17 mm in child is considered hyperergic • Induration of > 21 mm in adult is considered hyperergic Mantoux Tuberculin Skin Test Interpreting the Reaction - 3 • Vesicle, bulla, necrosis and lymphangitis are considered hyperergic Mantoux Tuberculin Skin Test and BCG Vaccine • People who have been vaccinated with BCG may have a false-positive TST reaction • Individuals should always be further evaluated if they have a positive TST reaction Mantoux Tuberculin Skin Test Any patient with symptoms of TB disease should be evaluated for TB disease, regardless of his or her skin test reaction. Conditions, which suppress Mantoux test result • HIV-infection • Malnutrition • Severe bacterial infections, including tuberculosis by itself • Viral infections: measles, chicken pot, glandular fever • Cancer • Immunosuppressive drugs: steroids Interferon-Gamma Release Assays (IGRAs) • QuantiFERON®-TB Gold (QFT-G) (2005) • QuantiFERON®-TB Gold In-Tube (QFT-GIT) – Approved 10/2007 • T-Spot®.TB test (T-SPOT) – Type of ELISpot assay – Approved 7/2008 • Guidelines for IGRAs are under development TB test Materials Image Credit: U.S. Food and Drug Administration (FDA), 2009 QFT-G and QFT-GIT • IGRAs measure a person’s immune reactivity to M. tuberculosis. White blood cells from most persons that have been infected with M. tuberculosis will release interferon-gamma (IFN-g) when mixed with antigens (substances that can produce an immune response) derived from M. tuberculosis. • To conduct the tests, fresh blood samples are mixed with antigens and controls. The antigens, testing methods, and interpretation criteria for IGRAs differ IGRAs • Interferon-Gamma Release Assays (IGRAs) - Blood Tests for TB Infection • What are they? • Interferon-Gamma Release Assays (IGRAs) are whole-blood tests that can aid in diagnosing Mycobacterium tuberculosis infection. They do not help differentiate latent tuberculosis infection (LTBI) from tuberculosis disease. Two IGRAs that have been approved by the U.S. Food and Drug Administration (FDA) are commercially available in the U.S: • QuantiFERON®-TB Gold In-Tube test (QFT-GIT); • T-SPOT®.TB test (T-Spot) • What are the advantages of IGRAs? • Requires a single patient visit to conduct the test. • Results can be available within 24 hours. • Does not boost responses measured by subsequent tests. • Prior BCG (bacille Calmette-Guérin) vaccination does not cause a falsepositive IGRA test result. QFT-G and QFT-GIT Conducting the Test • Follow manufacturer’s instructions • Confirm arrangements for delivery and testing of blood within 12 hours of collection • Draw sample of blood into tube with heparin • Schedule appointment for patient to receive test results • If needed, medical evaluation and treatment for LTBI or TB disease QFT-G and QFT-GIT How it Works • Blood samples are mixed with antigens and incubated for 16 - 24 hours • If infected with M. tuberculosis, blood cells will recognize antigens and release interferon gamma (IFN-γ) in response • Results are based on the amount of IFN-γ released in response to antigens and control substances QFT-G and QFT-GIT Interpreting Results • Test results are based on IFN-γ concentrations • Laboratories can use software provided by manufacturer to calculate results • Results are sent to requesting clinician QFT-G and QFT-GIT Report of Results • Positive - M. tuberculosis infection likely • Negative - M. tuberculosis infection unlikely, but cannot be excluded especially if: Patient has TB signs and symptoms or patient has a high risk for developing TB disease once infected with M. tuberculosis T-SPOT • Type of ELISpot assay • Interferon gamma is presented as spots from T cells sensitized to M. tuberculosis • Results are interpreted by subtracting the spot count of the control from the spot count of the sample Differences in Currently Available IGRAs Initial Process QFT-GIT T-Spot Process whole blood within 16 Process peripheral blood hours mononuclear cells (PBMCs) within 8 hours, or if T-Cell Xtend® is used, within 30 hours M. tuberculosis Antigen Single mixture of synthetic peptides representing ESAT-6, CFP-10 & TB7.7. Separate mixtures of synthetic peptides representing ESAT-6 & CFP-10 Measurement IFN-g concentration Number of IFN-g producing cells (spots) Possible Results Positive, negative, indeterminate Positive, negative, indeterminate, borderline T-SPOT results Chest X-Ray • Help rule out possibility of pulmonary TB disease in a person who has positive TST or QFT-G result and no symptoms of TB • Check for lung abnormalities in people who have symptoms of TB disease Classical patterns of pulmonary tuberculosis • • • • Upper lobe infiltration Bilateral infiltration Cavitation Pulmonary fibrosis and shrinkage Other shadows, which may be due to tuberculosis, are: • Oval or round shadows (tuberculoma) • Hilar and mediastinal lymphadenopathy • Diffused small nodular shadow The indications for tomography • Diffused shadow • Cavitation suspect • Hilar Tuberculoma. Longitudinal tomography: Chest x-ray. Tuberculosis infiltrate with cavitation in upper right lung Chest x-ray. • Chest x-rays cannot confirm TB disease – Other diseases can cause lung abnormalities – Only bacteriologic culture can prove patient has TB disease – Chest x-ray may appear unusual or even appear normal for persons living with HIV CT (computer tomography) Representative chest radiography and CT images. (A) A pretransplant CXR appeared to be normal, but (B) pretransplant chest CT scanning revealed a TBsuggestive lesion (an uncalcified nodule). (C) Active TB developed 6 months after LT in the same location. Precaution • It is a major error to diagnose tuberculosis on x-ray and fail to examine the sputum Bacteriologic Examination • TB bacteriologic examination is done in a laboratory that specifically deals with M. tuberculosis and other mycobacteria – Clinical specimens (e.g., sputum and urine) are examined and cultured in laboratory Bacteriologic Examination • Bacteriologic examination has 5 parts – Specimen collection – Examination of acid-fast bacilli (AFB) smears – Direct identification of specimen (nucleic acid amplification) – Specimen culturing and identification – Drug susceptibility testing Specimen Collection • For pulmonary TB, specimens can be collected by: – Sputum sample – Induced sputum sample – Bronchoscopy – Gastric washing Sputum Sample Specimen Collection • Easiest and least expensive method is to have patient cough into sterile container • HCWs should coach and instruct patient • Should have at least 2 sputum specimens examined – Collected in 8-24 hour intervals – At least one early morning specimen Induced Sputum Collection • Induced sputum collection should be used if patient cannot cough up sputum on their own • Patient inhales saline mist, causing deep coughing • Specimen often clear and watery, should be labeled “induced specimen” Extrapulmonary TB • Specimens other than sputum may be obtained • Depends on part of body affected • For example: – Urine samples for TB disease of kidneys – Fluid samples from area around spine for TB meningitis Examination of AFB Smears • Specimens are smeared onto glass slide and stained • AFB are mycobacteria that remain stained after being washed in acid solution Examination of AFB Smears • Number of AFB on smear are counted • According to number of AFB seen, smears are classified as 4+, 3+, 2+, or 1+ – For example, 4+ smear has 10 times as many AFB than 3+ smear • If very few AFB are seen, the smear is classified by the actual number of AFB seen Examination of AFB Smears • • • • • • Classification of Smear Result 4+ Strongly positive - Probably very infectious 3+ Strongly positive - Probably very infectious 2+ Moderately positive - Probably infectious 1+ Moderately positive - Probably infectious Actual number of AFB seen (no plus sign) Weakly positive - Probably infectious • No AFB seen–Negative - May not be infectious Culturing and Identifying Specimen • Step 1: Detect growth of mycobacteria - Solid media: 3 - 10 weeks - Liquid media: 4 - 14 days • Step 2: Identify organism that has grown – Nucleic acid probes: 2 - 4 hours – Biochemical tests: 6 - 12 weeks Culturing and Identifying Specimen • Positive culture: M. tuberculosis identified in patient’s culture – Called M. tuberculosis isolate – Confirms diagnosis of TB disease Culturing and Identifying Specimen • Negative culture: M. tuberculosis NOT identified in patient’s culture – Does not rule out TB disease – Some patients with negative cultures are diagnosed with TB based on signs and symptoms Culturing and Identifying Specimen • Bacteriological examinations are important for assessing infectiousness and response to treatment • Specimens should be obtained monthly until 2 consecutive cultures are negative • Culture conversion is the most important objective measure of response to treatment Drug Susceptibility Testing • Conducted when patient is first found to have positive culture for TB • Determines which drugs kill tubercle bacilli • Tubercle bacilli killed by a particular drug are susceptible to that drug • Tubercle bacilli that grow in presence of a particular drug are resistant to that drug Drug Susceptibility Testing Drug susceptibility testing on solid media Types of Drug-Resistant TB • Mono-resistant - Resistant to any one TB treatment drug • Poly-resistant - Resistant to at least any two TB drugs (but not both isoniazid and rifampicin) Types of Drug-Resistant TB • Multidrug- resistant (MDR TB) - Resistant to at least isoniazid and rifampicin, the two best first-line TB treatment drugs • Extensively drug-resistant TB (XDR TB) Resistant to isoniazid and rifampicin, PLUS resistant to any fluoroquinolons AND at least 1 of the 3 injectable second-line drugs (e.g., amicacin, kanamycin, or capreomycin) (XDR TB Arial) Bronchoscopy • Procedure: instrument is passed through nose or mouth into lung for direct visualization of tracheobronchial tree and to obtain pulmonary secretions or lung tissue Indications for bronchoscopy in TB patient • Hilar shadowing • Unclear etiology of lung hemorrhage • Presence of TB bacilli in the sputum without xray confirmation of lung abnormality • Suspected TB bronchitis • Bronchial obstruction • Atelectasis