This study will evaluate a new point of care diagnostic test for the diagnosis of melioidosis pneumonia in patients attending outpatient clinics in Yangon, Myanmar
Melioidosis is caused by Burkholderia pseudomallei, a Gram-negative saprophytic environmental bacterium that is an important emerging tropical infection. There are an estimated 165,000 cases and 89,000 deaths world-wide each year. Eighty-four percent of cases are in SE Asia where mortality is 40%; far exceeding most recognised neglected tropical diseases. Pneumonia, secondary to either inhalation of B.pseudomallei or to bacteraemic spread to the lung is the commonest presentation (51%). Annually the highest burden (75%) of infection occurs in the rainy season in (75% in Thailand). Up to 80% patients have at least one recognised risk factor for melioidosis including; diabetes, alcohol-dependence, glucocorticoid therapy, chronic obstructive pulmonary disease (COPD), chronic renal disease and cancer. COPD and diabetes mellitus are amongst the top ten causes of death in Myanmar (2018). Patients with HIV have not been shown to have greater risk of B. pseudomallei than immunocompetent patients. Melioidosis was discovered in Myanmar in 1911 by British pathologist Alfred Whitmore and his assistant CS Krishnaswami. Yet since 1949 there have been few published cases. Under-reporting is partly due to difficulty in diagnosing melioidosis. Clinical and radiological findings are indistinguishable from tuberculosis. Laboratory diagnosis is challenging, lack of facilities, expertise and awareness of B.pseudomallei results in missed diagnostic opportunities. Culture is the gold-standard diagnostic method but requires appropriate facilities and expertise which are not readily available in many developing countries like Myanmar. A rapid diagnostic (RDT) test has been developed for low resource settings that has been evaluated in Laos and India. The InBios® Active Melioidosis DetectTM-Lateral Flow Assay (AMD-LFA) detects B.pseudomallei 6-deoxyheptan capsular polysaccharide antigen. Shaw et al demonstrated sensitivity 85.71% (CI:74.61% to 93.25%) and specificity 93.62% (CI:88.23% to 97.04%), with positive predictive value of 85.71% (CI: 75.98% to 91.92%) compared to culture. We propose to evaluate this test for the diagnosis of melioidosis pneumonia in Myanmar.
Study Type
OBSERVATIONAL
Enrollment
300
Evaluation of a lateral flow assay for the detection of B.pseudomallei 6-deoxyheptan capsular polysaccharide antigen from sputum
Medical Action Myanmar Clinics
Yangon, Burma
Proportion of patients with a positive B.pseudomallei culture result
Number of patients with a positive sputum culture for B.pseudomallei expressed as a proportion of all patients
Time frame: January 2019
1) Sensitivity, specificity, positive predictive value, negative predictive value of the RDT compared to culture
Using culture as the gold-standard the performance of the lateral flow assay will be assessed
Time frame: January 2019
Proportion of patients diagnosed with tuberculosis (TB) including multidrug resistant TB
Proportion of enrolled participants with a positive GeneXpert MTB/RIF test on sputum
Time frame: January 2019
Proportion of patients diagnosed with Influenza A/B
Proportion of enrolled participants with a positive Xpert Flu test on nasopharyngeal swab
Time frame: March 2019
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