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Clinical Trial Summary

While the process of fibrosis is essential for normal wound healing, an excessive and uncontrolled 'fibrotic' response can result in impaired tissue structure and function. In other words, affected 'fibrotic' tissues are unable to heal back to normal and therefore don't work as effectively as they normally would.

In the case of the lung, fibrosis can occur across large parts of the lung such as in conditions like Idiopathic Pulmonary Fibrosis (IPF) and sarcoidosis or it can occur in much smaller patches such as around the borders of some lung tumours. At the moment the investigators don't fully understand the mechanisms of fibrosis and so therefore cannot monitor or treat these conditions as effectively as the investigators could. Despite the significant global financial burden of these diseases, treatment options are very limited and monitoring of disease progression remains a real challenge.

In an effort to address this problem, the research group are currently developing a library of novel optical molecular imaging SmartProbes that are targeted against key pathological processes in the human lung. The functional profile for this portfolio of probes is that they exhibit high stability and specificity in vivo and have a short activation time permitting rapid point-of-care in situ molecular profiling enabling in the future, improved diagnostic certainty and stratification for targeted pharmacological intervention. This clinical microdosing study protocol focuses around the intrapulmonary delivery of microdoses (<100µg) of the Smartprobe Fibroproliferation (FIB ONE) to disparate regions of the human lung to highlight MMP activity combined with an active MMP inhibitor (AZD1236) to the distal lung. This approach will enable the research team to directly demonstrate the utility of this SmartProbe-based platform in the validation of drug target engagement in areas of suspected fibroproliferation (characterised by increased MMP activity).


Clinical Trial Description

The primary endpoint is to visualise the delivery of a microdose of FIB ONE and assess imaging parameters in patients with lung conditions using two microendoscopy systems (Part A). A secondary objective is to quantify the change in mean FIB ONE fluorescence amplification gradient in the presence of AZD1236 in the fibroproliferative lung (Part B). Imaging will be performed using a novel multi-colour widefield fluorescence microendoscopy platform and a commercially available imaging platform.

Cohort 1 will consist of 20 patients scheduled for routine elective diagnostic or surveillance bronchoscopy with a fibroproliferative lung condition and Cohort 2 will consist of 6 patients undergoing planned cardiothoracic surgery for biopsy/resection of lung conditions characterised by excessive activity of the fibroproliferative pathway. For both cohorts, eligibility will be verified by a clinical trial physician after written informed consent has been obtained.

For cohort 1, a bronchoscopy with lavage will be performed to harvest broncho-alveolar lavage fluid (BALF). For cohort 2, a sample of resected lung tissue will be analysed. Fibre-based endomicroscopy (FE) will be performed and up to 100μg of FIB ONE and PBS/AZD1236 will be instilled. CT identified regions of architecturally normal lung in all participants will act as internal controls and will be used to compare MMP activity in normal and diseased lung tissue.

Participants will be asked to provide routine blood samples before and after FIB ONE and AZD1236 administration. A cardiorespiratory exam and routine observations will be performed 4-6 hours following administration and all participants will be assessed for discharge. All participants will either be contacted by a member of the research team via telephone or ward visit 24 hours (± 4 hours) after dosing to ensure no AEs/SAEs were experienced. The participant's involvement in the study is concluded when the 24 hour assessment has been successfully completed and all AEs/SAEs have been resolved. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02604862
Study type Interventional
Source University of Edinburgh
Contact
Status Completed
Phase Early Phase 1
Start date May 2016
Completion date September 2018

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