Traumatic Brain INjury Clinical Trial
Official title:
A Randomised Double Blind Placebo Controlled Dose-range Study Using Placebo, 1.5g and 3.0g of Intravenous Recombinant Interleukin-1 Receptor Antagonist (Anakinra) for Patients With Moderate-to-severe TBI
Traumatic brain injury (TBI) is a common condition with high degree of morbidity and
mortality (Hyder et al., 2007). Current treatment paradigms for TBI focus on mitigating
secondary injury and maintaining cerebral physiology (Carney et al., 2016), however, there
are currently no approved drugs that target the underlying conditions for patients suffering
from TBI (Bullock et al., 1999). It is increasingly recognised that the innate inflammatory
response to TBI may inflict injury (Lucas et al., 2006), and one of the most prominent
mediators of inflammation in the injured brain is the Interleukin-1 (IL-1) receptor pathway
(Allan et al., 2005). An endogenous antagonist to IL-1, is available in recombinant form
(IL-1ra, Kineret), and is known to be safe in TBI (Helmy et al., 2014).
In order to fully understand, and potentially optimize, the effect of Kineret, the
investigators wish to conduct a dose-response study by giving three cohorts (n=20 per group)
either placebo (isotonic saline), 1.5g or 3.0g of active substance administered
intravenously in a double-blind, randomized setting. The concentrations have in previous
studies not been shown to present any side-effects (Singh et al., 2014). The drug will be
provided within 12 hours after trauma. The goal will be to provide a dose-response effect on
the cerebral inflammatory response. As secondary goals, the investigators will assess the
brain damage by measuring proteins in blood and cerebrospinal fluid, functional outcome and
inflammation in the brain using positron emission tomography.
Aim
The hypothesis is that an increasing dose of the anti-inflammatory drug recombinant human
Interleukin-1 receptor antagonist (IL-1ra, Kineret) will modulate the inflammatory state of
the traumatically injured brain, which will attenuate the injurious processes that occur
following TBI.
Study Design
While different doses of Anakinra have been used in trials, there is no knowledge of what
constitutes an optimized concentration of the drug. To address this limitation, the current
study will be a dose-response study in a double blind randomised clinical fashion, using
placebo (n=20), 1.5 g ("intermediate dose") or (n=20) and 3.0 g ("high dose")(n=20) of
Anakinra provided the first 48 hours (drug/placebo administered initially as 500 mg infusion
bolus and later as an 1g or 2.5g infusion for 48 hours). Thus, a total of n=60 patients will
be included. Sample-size analyses have indicated that the number of patients is sufficient
to detect differences in the inflammatory response as gauged with cytokine measurements
using cerebral microdialysis.
As surrogate markers of outcome for these patients, several protein biomarkers of brain
injury and proteins of the innate immune responses will be quantified using techniques
called ELISA and multiplex assay technology. The investigators also wish to use radiological
techniques, such as magnetic resonance imaging to study damages in white matter tracts in
the brain and positron emission tomography to assess the degree of microglial activation.
All these methods will be used to assess the potential benefit of the treatment vs placebo.
By this type of study design, it will minimize bias and confounders that may influence the
study.
Patient Recruitment
Patients with a clinical diagnosis of severe and moderate TBI will be identified by the
research team at the daily departmental neuro-critical care unit meeting. Patients meeting
the inclusion criteria will be approached for consent/assent if conscious or if next of kin
is present. If not, consent will be assumed as we know Anakinra to be safe and there is
likely to be a narrow therapeutic window. With the current patient load at Addenbrooke's
Hospital, Cambridge, the investigators deem it possible to recruit one patient per week,
thus estimating that the recruiting phase will take approximately two years to complete.
Sampling
All the sampling will be conducted during the acute phase when the patient is unconscious in
the neuro-critical care unit. Microdialysis probes are sampled hourly. To assess
inflammatory activity in the brain, positron emission tomography will be performed within
the first week and after 2-3 weeks. Magnetic resonance imaging will be performed the first
2-3 weeks and then after 6 months. To measure the patient's adaptive immune response to
brain specific proteins, specialised auto-immunisation assays will be performed on patient
blood at day 1-3 following injury as well as after 2-3 weeks.
During the intensive care phase, blood and cerebrospinal fluid will be sampled twice per day
(approximately 3mL per sampling time per compartment, volumes that we do not deem harmful to
the patient) and will be collected together with hourly microdialysate fluid samples the
first 7 days from admission. Blood will also be sampled at an outpatient clinic follow up at
6 and 12 months following injury. Patient samples will be anonymised and stored at -80degC
in the Division of Neurosurgery, Department of Clinical Neurosciences, University of
Cambridge before analysis.
It will not to be possible to measure cytokines, the drug and biomarkers from all
microdialysis samples due to volume constraints. Moreover, we believe that a temporal
resolution of 6 hours is probably adequate for the brain concentration of the drug while 12
hours is sufficient in serum. APP and tau will also be measured every 6 hours. The only
parameter that will be hourly analysed in microdialysis is cytokine and chemokines through a
luminex panel.
Clinical Follow-up
Patients will be followed up at a clinic visit at 6 and 12 months after trauma by
questionnaire survey using standardised outcome measures in neurosurgical patients including
the golden standard extended Glasgow Outcome Score and Short Form 36.
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