Study Results
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Basic Information
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NOT_YET_RECRUITING
600 participants
OBSERVATIONAL
2026-10-01
2029-06-30
Brief Summary
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These limitations pose risks for patients and strain healthcare systems. Bronchoscopy is invasive, resource-intensive, and may delay treatment-especially for elderly patients with comorbidities. Blood-based inflammatory markers lack diagnostic specificity. A rapid, non-invasive alternative is urgently needed.
The investigators developed a plasma-based assay that detects Mycobacterium tuberculosis cell-free DNA (MTB cfDNA) in blood. This liquid biopsy leverages metagenomic sequencing and computational analysis to identify TB-specific genetic material while minimizing contamination. Preliminary data show excellent diagnostic performance, with area under the receiver operating characteristic curve values \>0.94 for TB pleurisy.
The investigators propose a prospective clinical validation study comparing plasma MTB cfDNA testing to bronchoscopy with BAL culture and molecular testing. The primary aim is to demonstrate non-inferiority of plasma cfDNA within a 10% sensitivity margin. Secondary aims include assessing how clinical and radiological features affect test performance and evaluating the assay's ability to detect drug resistance mutations for personalized therapy.
Validation could transform TB diagnosis by offering a rapid, safe, and accurate blood test. Patients could avoid invasive procedures, receive faster diagnoses, and begin treatment sooner. Detecting resistance mutations directly from plasma would enable timely, targeted therapy-critical for addressing multidrug-resistant TB. This represents a paradigm shift toward precision medicine in TB care.
Tailored to Hong Kong's epidemiological context, this study addresses a key diagnostic gap. The approach has global relevance, with potential to improve clinical outcomes, reduce costs, and accelerate progress toward WHO's TB elimination goals.
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Detailed Description
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Pulmonary tuberculosis (PTB) is the most common form of active TB disease. Diagnosis typically relies on detecting Mycobacterium tuberculosis (MTB) in the sputum via smear microscopy, culture, or polymerase chain reaction (PCR). However, sputum smear has limited sensitivity, culture requires 6-8 weeks, and sputum production is often difficult in certain patients. PTB may present with heterogeneous radiological features, sometimes mimicking malignancy, prompting bronchoscopy with bronchoalveolar lavage (BAL) in smear-negative patients. BAL fluid (BALF) is then tested via MTB culture, PCR, and cytology. Bronchoscopy, while informative, is invasive and poses risks for elderly patients or with cardiopulmonary comorbidities. Temporary interruption of oral anticoagulants, now widely prescribed, can lead to cardioembolic complications, contributing to up to 2.6% of stroke events. Delays in scheduling bronchoscopy and awaiting BALF MTB culture results further hinder timely diagnosis. Blood inflammatory markers are non-specific. These limitations underscore the need for a non-invasive, rapid, and accurate diagnostic tool for PTB.
Advances in sequencing technology offer new diagnostic possibilities. When bacteria die, their DNA fragments enter the bloodstream as cell-free (cfDNA). Detecting microbial cfDNA in plasma, combined with bioinformatics, provides a minimally invasive method to identify pathogens directly, outperforming blood culture or surrogate markers. Plasma MTB cfDNA is an emerging diagnostic tool. The IntelliGenome CRISPR-TB Blood Test can detect MTB cfDNA and its landmark study focused on paediatric and HIV-positive populations. However, its clinical application remains limited, with no validation in intermediate-burden regions like Hong Kong, where HIV prevalence is low.
The investigator has developed a novel targeted MTB cfDNA sequencing assay. The assay uses whole-genome-based sequencing to enrich the MTB cfDNA, followed by bioinformatic filtering to remove human DNA, distinguishing MTB from non-tuberculous Mycobacterium (NTM), and exclude microbial contaminants. A prospective study would be required to confirm diagnostic accuracy and clinical utility of this new sequencing assay. The investigators hypothesise that plasma targeted MTB cfDNA sequencing is non-inferior to BALF MTB culture and PCR in diagnostic smear-negative patients undergoing bronchoscopy.
Conditions
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Study Design
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CASE_CONTROL
PROSPECTIVE
Study Groups
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PTB
Patients with pulmonary tuberculosis
Diagnostic Test: Plasma MTB cfDNA assay
Quantitative measurement of MTB cfDNA level in the plasma
Non-PTB
Patients without pulmonary tuberculosis
Diagnostic Test: Plasma MTB cfDNA assay
Quantitative measurement of MTB cfDNA level in the plasma
Interventions
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Diagnostic Test: Plasma MTB cfDNA assay
Quantitative measurement of MTB cfDNA level in the plasma
Eligibility Criteria
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Inclusion Criteria
* Presence of respiratory indication requiring bronchoscopy
* Sputum AFB smear negative or unable to expectorate sputum for investigations
Exclusion Criteria
* History of PTB or EPTB
* Concomitant use of at least two anti-TB medications for more than 14 consecutive days in the past 3 months
* Repeated bronchoscopy in the same subject within the study period
* Expected survival of less than 12 months from a different pathology
* Use of unregistered therapeutic agents in the 30 days before the study
* Consent not obtained from the subjects
18 Years
ALL
No
Sponsors
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Chinese University of Hong Kong
OTHER
Responsible Party
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Ka Pang Chan
Assistant Professor
Locations
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Prince of Wales Hospital
Hong Kong, , Hong Kong
Countries
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Central Contacts
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Facility Contacts
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Other Identifiers
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Plasma_MTB_cfDNA_FOB
Identifier Type: -
Identifier Source: org_study_id
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