Chronic Obstructive Pulmonary Disease Clinical Trial
Official title:
Studying the Microbiome of the Lung in Patients Treated With Endobronchial Lung Volume Reduction Coils for Emphysema
Studying the microbiome of the lung in patients treated with endobronchial lung volume reduction coils for emphysema
Patients with severe emphysema and hyperinflation can benefit from lung volume reduction
techniques designed to reduce gas trapping, improve air flow, and restore more natural chest
wall and lung mechanics. The best evidence exists for lung volume reduction surgery (LVRS),
but more recently there has been increasing interest in, and use of, bronchoscopic lung
volume reduction (BLVR) techniques. One of the more intriguing methods has been the use of
endobronchial lung volume reduction coils (LVRCs), nitinol wires which when deployed in the
lung take up their preformed shape similar to that of a tennis ball seam, and seem to work
both by mechanical compression of lung tissue and by replacing some of the elastic recoil
forces that are lost when there is emphysematous destruction of lung tissue. Treatment aims
to place 10 coils in each upper lobe in 2 procedures separated by 1-3 months.
A number of studies on the use of LVRCs have now been published, but most of these provide
only relatively short term follow-up and safety data. Fairly widespread clinical use of the
LVRC is now occurring in Germany, however. It is now being increasingly recognised that a
minority of patients treated with LVRCs (approximately 5-10%) develop dense consolidation
around one or more of their devices, with the development of significant cavitation in some
of these patients. At least 1 death has been attributed to decline associated with the
development of such changes, and a number of other patients have now developed infection with
persistent and resistant organisms. Unlike endobronchial valves (currently the most widely
used of the BLVR devices), patients are told that LVRC treatment is permanent and that the
devices cannot be removed after implantation, something which obviously has implications if
devices become infected or colonised with micro-organisms.
The lung microbiome is the complete collection of microorganisms that inhabit the lung,
including bacteria, viruses, and fungi. Studies have demonstrated the importance of
microorganisms in the pathogenesis of chronic obstructive pulmonary disease (COPD), and in
driving exacerbations and loss of lung function, and the lungs of patients with severe COPD
(those potentially suitable for LVRC treatment) contain a different community of bacteria to
those of healthy people. Culture-independent molecular techniques are now available for
precise cataloguing of the lung microbiome, with results that are far more detailed and
informative than standard culture techniques. By DNA sequencing the 16S rRNA gene and using
it as a barcode to identify all bacterial organisms in any given sample and also their
relative proportions, a much broader, less selective group of bacteria can be assayed.
The bilateral sequential nature of LVRC treatment provides a unique opportunity for the
collection of multiple samples from each patient at different time points in their treatment,
and thus to track changes in the lung microbiome that may be caused by LVRC implantation. It
is now our practice to perform a bronchoscopy 6 months after initial treatment in all
patients who have undergone BLVR (LVRCs, endobronchial valves, thermal vapour ablation) in
order to monitor for device migration, granulation tissue formation, and to obtain specimens
for bacterial culture. This therefore means that LVRC patients undergo bronchoscopy on 3
occasions, spaced approximately 3 months apart.
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