To investigate whether the breath test is able to detect bronchiectasis using breathomics. This study was conducted with a prospective specimen collection, evaluator-blinded, case-controlled clinical study designed to evaluate the accuracy of breathomics to diagnosis of bronchiectasis in adults.
Bronchiectasis is a chronic airway inflammation with irreversible expansion of bronchial walls, which is characteristic by chronic cough, mucinous sputum, dyspnea and wheezing. High resolution CT (HRCT) combined with clinical manifestations is the main diagnostic method of bronchiectasis, but HRCT is expensive and radioactive. Therefore, it is urgent to develop a new technology to diagnose bronchiectasis. Exhaled breath may be a better tool for bronchiectasis detection because of its noninvasive nature. Many efforts have been made to develop breath tests for lung cancer, asthma and Helicobacter pylori infection. However, little studies pay attention to bronchiectasis. High-pressure photon ionization time-of-flight mass spectrometry (HPPI-TOFMS) is a promising tool for breath testing, because it is highly sensitive, does not require pretreatment of exhaled breath, and holds great tolerance for humidity. In our case-control diagnostic study, we investigated whether a breath test combining HPPI-TOFMS and a support vector machine (SVM) algorithm was able to distinguish patients with bronchiectasis from control individuals.
Study Type
OBSERVATIONAL
Enrollment
544
All exhaled breath samples were collected by trained investigators following the same protocol. All participants fasted for at least 6 hours before breath collection. To reduce potential confounding factors, all participants were asked to not ingest spicy food, alcohol, or coffee the night before exhaled breath collection. Exhaled breath was collected in Tedlar air bags (DuPont de Nemours). The night before breath collection, the Tedlar bags were baked at 60 °C for 3 hours to fully release possible contaminants and continuously purged with high-purity nitrogen 4 times. Participants first gargled with pure water and then performed a single deep nasal inhalation followed by complete exhalation via their mouth into Tedlar bags. A total of 1000 mL of exhaled breath was collected from each participant. Breath sample detection was based on the HPPI-TOFMS platform.
Shanghai pulmonary hospital
Shanghai, Shanghai Municipality, China
The Ability of the Breath Test Model to Distinguish Bronchiectasis From Healthy People
Evaluate the ability of the breath test model to distinguish bronchiectasis from healthy individuals by measuring the area under the receiver operating characteristic (ROC) curves. The maximum value in the area below the receiver is 1. The closer the value is to 1, the higher the prediction accuracy of the model.
Time frame: One week.Exhaled breath samples were collected on the first day of patients' hospitalization and sent to detect VOCs.The entire process will take one week.
The Sensitivity of the Breath Test Model to Distinguish Bronchiectasis From Healthy People
Sensitivity=number of true positives/(number of true positives+number of false negatives) \* 100% Sensitivity is the rate of correctly judging patients.We calculated the sensitivity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the sensitivity is 100%. The higher the percentage is , the more sensitive of the model.
Time frame: One week.Exhaled breath samples were collected on the first day of patients' hospitalization and sent to detect VOCs.The entire process will take one week.
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