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Clinical Trial Summary

The Translocator Protein (TSPO) is a protein which reaches very high levels when there is inflammation in the brain.

Recently, radioligands have been developed which attach to the TSPO (a radioligand is a drug which has been tagged with radioactivity). Using positron emission tomography (PET) imaging, the radioligand can be detected following injection into a patient. However, it is difficult to accurately measure the amount of TSPO using PET at the moment. This is because the brain does not have a "reference region" for TSPO (ie an area in the brain with no TSPO at all). "Reference regions" are very useful to help work out how much of a PET signal represents "specific binding" (of the radioligand to the target of interest), and how much represents "non specific binding" (of the radioligand to many other structures which are not of interest). In the absence of a reference region, non specific binding can be estimated by giving a drug which binds to the TSPO.

The drug prevents the radioligand binding the TSPO and (in a manner of speaking) "creates" a temporary reference region so non specific binding can be measured. To do this, we will use XBD173 (Emapunil is an anxiolytic drug which acts as a selective agonist at the peripheral benzodiazepine receptor) to bind TSPO and block binding of the PET ligand ([11C]PBR28), a TSPO ligand from the phenoxyarlyacetamide class.

Most TSPO PET studies (and in one of our previous studies approved by West London REC) quantify the signal using a ratio of specific binding in the brain to radioactivity in the blood. This requires arterial line insertion which is burdensome for subjects, and increases variability. In this study we aim to determine the ratio of specific binding in the brain to nonspecific binding in the brain by using the temporary reference region. For more accuracy the participants will repeat the scanning procedure so determine test-retest variability of the amount of TSPO.


Clinical Trial Description

The Translocator Protein (TSPO) is a protein which reaches very high levels when there is inflammation in the brain.

Recently, radioligands have been developed which attach to the TSPO (a radioligand is a drug which has been tagged with radioactivity). Using positron emission tomography (PET) imaging, the radioligand can be detected following injection into a patient. However, it is difficult to accurately measure the amount of TSPO using PET at the moment. This is because the brain does not have a "reference region" for TSPO (ie an area in the brain with no TSPO at all). "Reference regions" are very useful to help work out how much of a PET signal represents "specific binding" (of the radioligand to the target of interest), and how much represents "non specific binding" (of the radioligand to many other structures which are not of interest). In the absence of a reference region, non specific binding can be estimated by giving a drug which binds to the TSPO.

The drug prevents the radioligand binding the TSPO and (in a manner of speaking) "creates" a temporary reference region so non specific binding can be measured. The aim of this study, therefore, is to develop a method to allow accurate quantification of TSPO expression in the brain of healthy subjects. The study will also include patients with multiple sclerosis to determine the reproducibility of the 11C-PBR28 PET signal in a population which is characterised by a raised TSPO signal. This is vital since 11C-PBR28 PET signal is being evaluated as a marker of disease activity and treatment response, in conditions characterised by neuroinflammation including MS. If there is high test re-test variability in people with raised TSPO signal, this argues against the usefulness of 11C-PBR28 PET for these purposes.To do this, we will use XBD173 (Emapunil is an anxiolytic drug which acts as a selective agonist at the peripheral benzodiazepine receptor) to bind TSPO and block binding of the PET ligand ([11C]PBR28), a TSPO ligand from the phenoxyarlyacetamide class. Because different people possess different types of TSPO (due to a genetic difference between subjects, there are 3 types of TSPO expression patterns) it will be important to study subjects from each of the 3 groups.

We will study healthy volunteers and patients with multiple sclerosis. Each subject will undergo:

1. Screening visit, to take blood and determine the TSPO subtype of the subject.

2. Study day 1: the subject will undergo two PET/CT scans and an MRI scan of the brain. This will involve insertion of an arterial line. In between the two PET scans, the subject will be given an oral dose of XBD173 (up to 90mg).

3. Study day 2: Repeat of the procedures of Study day 1. Only one MRI scan will be done during one of the two study visits. Recruitment Healthy volunteers will be recruited from posters (including e-posters on electronic notice boards and emails), announcements in lectures, and word of mouth around Imperial College campuses. MS patients will be recruited from Neurology clinics across the Imperial Healthcare NHS Trust Hospitals, such as Charing Cross Hospital and St Mary's Hospital. Patients may be referred from University College London Hospital and National Hospital for Neurology and Neurosurgery if suitable for the study.

Male or female participants between 18 to 70 will be included. Women of child bearing potential will undergo a urinary pregnancy test prior to scanning to ensure they are not pregnant. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02086240
Study type Interventional
Source Imperial College London
Contact
Status Withdrawn
Phase N/A
Start date March 2014
Completion date May 2018

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