Predicting Long-term Outcomes After Cardiac Arrest by Using Serum NGAL
Out-of-Hospital Cardiac ArrestThis study was performed to determine the prognosis of patients after cardiac arrest using serum markers called NGAL. The initial NGAL values of patients with post-cardiac arrest syndrome are checked by blood tests, and the long-term neurological prognosis and survival rate are collected after 6 months.
Canadian Sudden Cardiac Arrest Network
Sudden Cardiac DeathSudden Cardiac ArrestThe overall aim of the project is to develop a national registry to accurately measure the burden of Sudden Cardiac Arrest (SCA) among the general Canadian population. This project will create a common platform to link existing sources of information (EMS, Coroner and Administrative Databases) in order to fully understand the causes and outcomes of SCA. This comprehensive, unique registry will inform the progress and effectiveness of all CANet SCA programs aimed at reducing SCA. Understanding the antecedents, causes and outcomes of SCA will allow for new initiatives/investigations to reduce SCA, by using targeted interventions both effectively and efficiently.
Patients With Traumatic Cardiac Arrest Assessed by the Danish HEMS
TraumaThis study evaluates patients suffering from traumatic cardiac arrest assessed by the Danish HEMS between 2016 and 2021. The primary outcome is 30-day survival; secondary outcomes are status at admission to the hospital and prehospital return of spontaneous circulation. Further, the prehospital critical care was identified and evaluated.
Functional MRI to Assess Brain Damage in Cardiac Arrest Patients
Cardiac ArrestBrain InjuriesThis is a single-center, observational study. Patients after successful cardiopulmonary resuscitation (CPR) will be transferred to the emergency intensive care unit for further standardized management. After successful return of spontaneous circulation (ROSC) for 72h and hemodynamics remained stable for 24h, the post-resuscitated patients underwent functional magnetic resonance imaging (fMRI) examination. During the examination, the supervising physician accompanied the patient and monitored the patient's vital signs using a magnetic resonance monitoring system (Siemens Healthcare Prism, Germany). Patients who are on ventilators are mechanically ventilated using a magnetic ventilator (HAMILTON-MRI, USA). In additional to conventional sequences, fMRI is performed for diffusion-prepared pseudo-continuous arterial spin labeling (DP-pCASL) and blood oxygenation level dependent functional magnetic resonance imaging (BOLD-fMRI). These MRI sequences allow quantitative assessment of the patients' cerebral microcirculation, blood-brain barrier, and cerebral oxygenation status. Patients will be followed up for neurologic prognosis according to the Modified Rankin Scale (mRS) at 6 months after disease onset.
Ultrasonic Measurement of the Optic Nerve Sheath Diameter Predicting Outcome After Cardiac Arrest...
Post-Anoxic ComaRationale: An important proportion of patients with return of spontaneous circulation (ROSC) after cardiac arrest remain comatose as a result of post anoxic encephalopathy (PAE). Specific treatments to promote cerebral recovery are lacking. Early identification of patients without potential of recovery of brain functioning may prevent inappropriate continuation of medical treatment and improve communication between doctors and families. Intensivists currently use a combination of diagnostic measures, including brainstem reflexes, motor response, status myoclonus, SSEP measurements and (increasingly) the EEG. However, together all these measure identify only 20-50% of the patients with severe PAE precluding cerebral recovery. At the moment, there is a high demand for bedside measurements that contribute to the neurological prognostication of comatose patients after cardiac arrest. Non-invasive bedside measurements of the optic nerve sheath diameter (ONSD) using ultrasound hold potential to improve outcome prediction. Objective: To estimate the value and feasibility of repetitive measurements of the ONSD in comatose patients after cardiac arrest. Study design: Prospective cohort study Study population: 160 subsequent comatose adult patients after cardiac arrest, admitted to the ICU of Rijnstate hospital Intervention: In addition to standard treatments, patients will undergo ultrasonic measurements of the ONSD during the first 3 days after cardiac arrest. Survivors will be followed upon hospital discharge. ONSD measurements will be followed over time and related tot neurological outcome. Main study parameters/endpoints: The primary outcome measure is neurological outcome, defined using the Cerebral Performance Category (CPC) score at 6 months. CPC 1-2 indicates favourable neurological outcome, and CPC 3-5 indicates unfavourable neurological outcome.
Influence of Morphine or Ketamine or Saline Applied During In-hospital Cardiopulmonary Resuscitation...
Cardiac ArrestA small numbers of patients (10-15%) treated with cardiopulmonary resuscitation (CPR) are discharged from hospitals with a favorable neurologic outcome. However, a higher incidence of chest injuries (30-70%), mainly rib and sternum fractures, are observed among the survivors. It's no surprise that 6 months after cardiac arrest (CA) 50-70% of the patients who have survived continue to have pain and stress-related problems. Based on the need for the pain/stress treatment in these patients and several experimental evidences demonstrating neuroprotective features of anesthetics it is logical to presume that application of anesthesia during CPR may be indicated. In rodents exposed to hypoxic gas (5% 02, 95% N2) for 70 min, all seven animals died at the end of the experiments in the naloxone pre-treated group while only one out of seven rats died in the morphine pre-treated group, and five of seven rats died in the control group. In human volunteers, intravenously administered 60 mg of morphine did not alter cerebral blood flow and cerebral vascular resistance but markedly depressed cerebral oxygen uptake. Interestingly, in critical patients, morphine even in low doses is effective in relieving dyspnea by altering central perception and decreasing anxiety. In rats, morphine demonstrates dose- depending reduction of cerebral glucose utilization in limbic and forebrain regions. Thus, the main points of application for morphine in treatment of CA may be a reduction of oxygen/glucose consumption. Pre-treatment of zebrafish with ketamine protects against cardiac arrest-induced brain injury by inhibiting Ca2+ wave propagation and consequently it improves survival rate. Inhibition of NMDA receptors by ketamine reduces neuronal apoptosis and attenuates the systemic inflammatory response to tissue injury. The sympathomimetic effects of ketamine may facilitates recovery of systemic blood pressure during CPR. Retrospective investigations demonstrate that patients who are treated with opioids before or during CA have a statistically significantly higher survival rate and much better neurological outcome compared to untreated patients. Experimental studies have a limitation as all animals are treated with anesthesia and therefore survival rate varies between 50-90%. Thus, prospective research is urgently needed to investigate the influence of morphine or/and ketamine on survival and neurological outcome in patients with CA.
Percutaneous Left Stellate Ganglion Block In Out-of-hospital Cardiac Arrest Due to Refractory VEntricular...
Out-Of-Hospital Cardiac ArrestVentricular Fibrillation SustainedA prospective uncontrolled study to verify the feasibility and practicability of percutaneous stellate ganglion block (PSGB) in patient suffering from a refractory out-of-hospital cardiac arrest (OHCA) due to a shockable rhythm and the eventual occurrence of complication related to it. The study will also assess whether the rate of return of spontaneous circulation (ROSC) until admission and transfer of care to the receiving hospital is higher in the patients treated with PSGB as compared to historical controls.
A Combined Microdialysis and FDG-PET Study for Detection of Brain Injury After Cardiac Arrest
Cardiac ArrestBrain InjuriesBrain injury remains the leading cause of death in comatose patients resuscitated from OHCA. One of the most challenging aspects in the treatment of a post-cardiac arrest patient is the assessment of the extent of brain damage. Reliable, clinical measures of ongoing brain injury have potential to guide individualized treatment and potentially improve outcomes. Persistent candidate measures to fill this role is combined cerebral metabolism monitoring assessed by jugular bulb microdialysis (JBM) and positron emission tomography (PET) of 18-Fluor deoxyglucose ([F-18]-FDG). This multimodal neuromonitoring is cutting-edge technology used in a clinical setting
Wroclaw Out-Of-Hospital Cardiac Arrest Registry
Out-Of-Hospital Cardiac ArrestThe purpose of this study is to assess the efficacy of institutionalized care program of patients with out-of-hospital cardiac arrest.
Pediatric In-Hospital Cardiac Arrest International Registry (PACHIN)
Cardiac ArrestPediatric ALL1 more: An intrahospital CA data recording protocol has been designed following the Utstein model. Database is hosted according to European legislation regarding patient data protection. It is drafted in English and Spanish. Invitation to participate has been sent to Spanish, European and Latinamerican hospitals. Variables included, asses hospital characteristics, the resuscitation team, patient's demographics and background, CPR, post-resuscitation care, mortality, survival and long-term evolution. Survival at hospital discharge will be evaluated as a primary outcome and survival with good neurological status as a secondary outcome, analyzing the different factors involved in them