Status
Conditions
Treatments
Study type
Funder types
Identifiers
About
Post-resuscitation neurological impairment is associated with morbidity and especially with late mortality. Thus, because good neurological outcome is vital for a successful resuscitation, it is essential to have sufficient cerebral tissue perfusion and oxygenation during its application. Near-Infrared Spectroscopy (NIRS) is used to evaluate such conditions. NIRS is a non-invasive technique which provides real-time, continuous information about regional cerebral tissue oxygen saturation levels (regional SO2/rSO2). Research on NIRS has been done in many studies including cardiovascular surgery, neurosurgery and their intensive care processes and its effectiveness has been approved. However, there is limited data on its use in cardiac arrests.
As stated in the current guidelines, sufficient speed and depth of chest compressions, few interruptions of compressions are key to a successful outcome of resuscitation. The studies with the mechanical chest compression devices showed that the earlier it was applied in out-of-hospital cases, the higher the rates of survival until hospitalization. There is not sufficient number of studies on the routine use of mechanical chest compression devices for in-hospital cases. In case the application of manual resuscitation is not convenient (during patient relocation, procedure at the angiography laboratory, and rush hours of emergency services when staff might fall short), alternative methods will be required.
The aim of our study is to compare rSO2 levels measured during resuscitation with manual and mechanical devices in in-hospital (at the emergency department) witnessed cardiac arrest cases and to analyze the impact of both application method and perfusion levels on survival and neurological outcome.
Full description
The study will be a single-center, prospective and randomized study. It will be conducted at the Emergency Department of Eskisehir Osmangazi University Education, Application and Research Hospital.
Patients will be allocated to treatment groups by blocked randomization (www.randomizer.org). Advanced cardiac life support algorithm will be initiated as outlined in the current resuscitation guidelines and cardiopulmonary resuscitation (CPR) will be continued either manually or mechanically (with the chest compression system), according to the randomization scheme. Due to the nature of the interventions carried out in the study process, blinding of healthcare providers was not possible.
Before the initiation of the study, the team members participating in the study will receive theoretical and practical training on CPR, mechanical chest compression system utilization and NIRS.
Patients who develop cardiopulmonary arrest during their clinical evaluation in the emergency department will receive CPR, and the chest compression method will be determined by the senior physician according to the randomization scheme.
The presence of ROSC or the decision to terminate CPR will be determined according to the vital signs (arterial blood pressure, heart rate, oxygen saturation with pulse oximeter), end tidal carbon dioxide (ETco2) measurement (with the module device used for the measurement of rSO2) and cardiac assessment with bedside ultrasonography (Vivid e, General Electric Healthcare, China).
As soon as cardiopulmonary arrest is identified, sensors measuring the value of rSO2 will be placed on the patient's head bifrontally (forehead area) in order to measure the cerebral perfusion. During CPR, rSO2 values will be continuously recorded. The placement of the sensors and the measurements will be carried out by a medical staff who received necessary training prior to the study. In order not to affect the clinical decisions made during CPR, the rSO2 device will be placed in a convenient area which is out of the CPR performers' eyesight.
Arterial blood pressure, heart rate, respiratory rate, body temperature, oxygen saturation on pulse oximeter, primary arrest rhythm, any known diseases (if existent) and defibrillation attempts (if existent) will be recorded on the case report form during CPR.
In patients with ROSC, 6-hour and 24-hour survival after CPR, discharge from the hospital with favorable neurologic outcome and the presence of additional pathologies (such as heart failure and neurologic sequelae) will be evaluated. Favorable neurologic outcome was defined as a Cerebral Performance Category score of 1-2. In patients with ROSC, post-resuscitation care will be provided as recommended in the current guidelines.
Enrollment
Sex
Ages
Volunteers
Inclusion criteria
Exclusion criteria
Primary purpose
Allocation
Interventional model
Masking
75 participants in 2 patient groups
Loading...
Data sourced from clinicaltrials.gov
Clinical trials
Research sites
Resources
Legal