Bronchiectasis Clinical Trial
Official title:
Guangzhou Institute of Respiratory Disease
Study 1 is a cross-sectional investigation. Patients with clinically stable bronchiectasis
(symptoms, including cough frequency, sputum volume and purulence, within normal daily
variations) will undergo baseline assessment consisting of history taking, routine sputum
culture, 16srRNA pyrosequencing, measurement of sputum inflammatory markers, oxidative stress
biomarkers and MMPs, and spirometry. Microbiota taxa will be compared between bronchiectasis
patients and healthy subjects.
In study 2, patients inform investigators upon symptom deterioration. Following diagnosis of
BEs, patients will undergo the aforementioned assessments as soon as possible. This entails
antibiotic treatment, with slightly modified protocol, based on British Thoracic Society
guidelines [16]. At 1 week after completion of 14-day antibiotic therapy, patients will
undergo convalescence visit.
Study 3 is a prospective 1-year follow-up scheme in which patients participated in telephone
or hospital visits every 3 months. For individual visit, spirometry and sputum culture will
be performed, and BEs will be meticulously captured from clinical charts and history inquiry,
with the final decisions adjudicated following group discussion.
Bronchiectasis is a chronic airway disease characterized by airway infection, inflammation
and destruction [1]. Bacteria are frequently responsible for the vicious cycle seen in
bronchiectasis. Clinically, potentially pathogenic microorganisms (PPMs) primarily consisted
of Hemophilus influenzae, Hemophilus parainfluenzae, Pseudomonas aeruginosa (P. aeruginosa),
Staphylococcus aureus, Klebsiella pneumoniae, Streptococcus pneumoniae and Moraxella
catarrhalis [1]. These PPMs elicit airway inflammation [2-5] and biofilm formation [6]
leading to and oxidative stress [7,8]. However, different PPMs harbor varying effects on
bronchiectasis. For instance, P. aeruginosa has been linked to more pronounced airway
inflammation and poorer lung function [9,10].
However, it should be recognized that routine sputum bacterial culture techniques could only
effectively identify a small proportion of PPMs. The assay sensitivity and specificity could
be significantly affected by the duration from sampling to culture, the culture media and
environment. Pyrosequencing of the bacterial 16srRNA might offer more comprehensive
assessment of the airway microbiota. Based on this technique, Goleva and associates [11]
identified an abundance of gram-negative microbiota (predominantly the phylum proteobacteria)
which might be responsible for corticosteroid insensitivity. The microbiome of airways in
patients with asthma [11,12], idiopathic pulmonary fibrosis [13] and bronchiectasis [14,15]
has also been characterized. Furthermore, the association between the "core microbiota" and
clinical parameters (i.e., FEV1) has been demonstrated. However, previous studies suffered
from relatively small sample size and lack of comprehensive sets of clinical parameters for
further analyses.
Bronchiectasis exacerbations (BEs) are characterized by significantly worsened symptoms and
(or) signs that warrant antibiotics therapy. The precise mechanisms responsible for
triggering BEs have not been fully elucidated, but could be related to virus infection and
increased bacterial virulence. However, it should be recognized that antibiotics, despite
extensive bacterial resistance, remain effective for most BEs. This at least partially
suggested that bacterial infection might have played a major role in the pathogenesis of BEs.
Therefore, the assessment of sputum microbiota during steady-state, BEs and convalescence may
unravel more insights into the dynamic variation in microbiota compositions and the principal
microbiota phylum or species that account for BEs.
In the this study, the investigators seek to perform 16srRNA pyrosequencing to determine: 1)
the differences in microbiota compositions between bronchiectasis patients and healthy
subjects; 2) association between sputum microbiota compositions and clinical parameters,
including systemic/airway inflammation, spirometry, disease severity, airway oxidative stress
biomarkers and matrix metalloproteinase; 3) the microbiota compositions in patients who
yielded "normal flora (commensals)", in particular those who produced massive sputum daily
(>50ml/d); 4) dynamic changes in microbiota compositions during BEs and convalescence as
compared with baseline levels; 5) the utility of predominant microbiota taxa in predicting
lung function decline and future risks of BEs during 1-year follow-up.
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