Cardiac Arrest Clinical Trial
Official title:
Prehospital Resuscitation Intranasal Cooling Effects Seen in Magnetic Resonance Imaging of the Brain After Cardiac Arrest
Therapeutic hypothermia improves the neurologically-intact survival rates in those patients
resuscitated out-of-hospital from ventricular fibrillation. Cooling as early as possible
might be beneficial to those victims. Diffusion Tensor Imaging and diffusion-weighted
magnetic resonance imaging have recently shown to be able to identify early ischemia-related
changes within the brain three days after cardiac arrest, among sudden cardiac arrest
patients cooled in hospital. The physical changes seen within the brain may be able to
distinguish survivors at very early phase.
This study aims to assess early ischemia-related changes of the brain seen in MRI
approximately three days after cardiac arrest. The hypotheses is that MRI will differ in the
groups of patients treated with early intra-arrest cooling with the RhinoChill device and in
hospital hypothermia in 36 Celsius, in the group of patients treated with normal in hospital
hypothermia in 36 Celsius only, in the group of patients treated with normal in hospital
hypothermia in 33 Celsius only (The historical Xenon study patients). The primary endpoint is
the presence and pattern of white matter and gray matter degeneration and volumetric changes
of the gray matter, white matter, and cerebro-spinal fluid spaces in MRI, and secondary
endpoints are total survival at 90 days, and time to reach a target temperature (≤36/33
Celsius).
Medical personnel (e.g,. nurses or physicians) responding to a cardiac arrest will assess
each patient for study inclusion. During resuscitation patients will receive standard ALS
(advanced life support) according to European Resuscitation Council (ERC) guidelines with
cooling with the RhinoChill upon determining that the patient is in cardiac arrest. The
RhinoChill catheters should be placed and cooling initiated immediately after airway
management (i.e. laryngeal mask or intubation). The aim is that cooling should be started
within 15 minutes from the call to the dispatch centre. Specifically, cooling with chilled
saline or cold packs in the field or ambulance will not be permitted. Resuscitation attempts
should be continued for at least 45 minutes after the collapse in all patients having
venticular fibrillation (VF) or non-perfusive venticular tachycardia (VT) as initial cardiac
rhythm before deciding that further interventions are futile.
Automated external defibrillator (AEDs) with the capability to record data will be used in
each resuscitation attempt, and the quality of cardio pulmonary resuscitation (CPR) is
followed.
RhinoChill cooling will be continued in those subjects that achieve ROSC and remain comatose.
Bolus doses of sedation and analgesia will be administered for their transport to the
hospital according to local protocol. RhinoChill cooling will be continued at the hospital
until the subject can be successfully transitioned to the standard institutional cooling
protocol.
Clinical assessments and clinically relevant adverse events will be documented from the time
the patient is enrolled to the study until the first of the following two events occur: death
or MRI scan.
Patients that regain consciousness following ROSC and prior to hospital transport will be
excluded. Patient's still unconscious in the emergency room are admitted to ICU and
therapeutic cooling is continued for 24 to 36 hours. The MRI scan will take place within 16
hours after rewarming. After that the sedation is stopped and patient extubated if possible.
The study is finished at that point and normal patient care continues.
The study continues until 10 patients with MRI scan are enrolled in Tampere University
Hospital (TAUH).
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