Cardiac Arrest Clinical Trial
Official title:
Targeted Temperature Management With Therapeutic Hypothermia Using Esophageal COOLing After Cardiac Arrest: THE COOL STUDY
To control patient's body temperature remains of major importance especially after cardiac
arrest (CA). Therapeutic hypothermia (TH) targeted to 32-34°C is now recommended for most
unconscious CA patients. However, available modalities for inducing TH have a number of
technical (side effects), logistical (difficulties of placement), and financial (cost)
barriers. The Esophageal Cooling Device (ECD) is a multi-chambered silicone heat exchanger
placed in the esophagus providing highly efficient heat transfer to a patient. The ECD is a
device that potentially improves the effectiveness of TH in minimizing the risks of existing
methods (such as invasive cooling). Initial mathematical and animal studies have shown
strong support for the efficacy and safety of the ECD. Placement of a naso-gastric probe is
a systematic standard of care for all unconscious patients suffering from CA. The present
study will replace the usual naso-gastric probe by the ECD that can be used for gastric
suctioning as usually done in such patients.
The aim of this prospective, interventional study is to assess the feasibility and safety of
the ECD in resuscitated CA-patients and treated with 32-34°C targeted TH. The primary
outcome is the feasibility of inducing, maintaining, and rewarming patients from TH using
the ECD (cooling rate, rewarming rate, and the percent of time within goal temperature
during the goal-temperature maintenance period). Evaluation of adverse events (including
cardiac arrhythmias, severe bradycardia, myocardial infarction/re-infarction, dysphagia,
odynophagia, aspiration pneumonia, non-aspiration pneumonia, esophageal reflux and injury,
and esophagitis) will be closely monitored during the whole period of the targeted
temperature management (secondary endpoint).
Background The ability to control a patient's body temperature under a wide variety of
conditions is extremely important, and is of particular importance after CA. TH targeted to
32-34°C as a targeted temperature management (TTM) demonstrably improves outcomes in at
least two clinical conditions: adults resuscitated from CA and neonates suffering from
hypoxic ischemic encephalopathy.1-7 TH is recommended for CA patients by major organizations
that provide resuscitation guidelines, including the American Heart Association, the
European Resuscitation Council, and the International Liaison Committee on
Resuscitation.8-10 This indication was confirmed by a non-expert jury who provided clinical
recommendations for five professional and international critical care societies (the
American Thoracic Society, the European Respiratory Society, the European Society of
Intensive Care Medicine, the Society of Critical Care Medicine, and the Société de
Réanimation de Langue Française): the jury strongly recommends TTM to a target of 32-34°C as
the preferred treatment (vs. unstructured temperature management) of out-of-hospital adult
CA victims with a first registered electrocardiography rhythm of ventricular fibrillation or
pulseless ventricular tachycardia and still unconscious after restoration of spontaneous
circulation.11 Additional evidence exists, albeit lower level, for use of TH for comatose
survivors of CA initially associated with non-shockable rhythms.8-10 The debate regarding
the optimal level of TTM has been recently evaluated in a large randomized controlled trial
comparing 2 different levels of TTM performed during 28 hours.12 In this study similar
results regarding neuroprotection and survival have been obtained using either a 36°C target
or a 33°C target (i.e. "real" TH).13 Consequently these 2 different levels of TTM can be
used as it have been recently recalled by experts in the field. These treatments should be
started as soon as possible, especially within the first 4 hours after CA. However this
delay could be prolonged until 6 to 10 hours after CA.8-11 To date, however, available
modalities for inducing precise TTM and TH have a number of technical, logistical, and
financial barriers, including difficulties in placement, risks of use (such as needle
sticks, infections, blood clots, and skin damage), and high cost. The Esophageal Cooling
Device (ECD) is a disposable device that potentially improves the effectiveness of 32-34°C
targeted TH while minimizing the risks of other existing methods such as invasive methods.14
The ECD is a multichambered silicone heat exchanger that is placed in the esophagus to
provide highly efficient heat transfer to a patient while simultaneously maintaining access
to the stomach to allow gastric suctioning, decompression, and drainage, as usually
performed in such patients hospitalized in ICUs. The esophagus is in close proximity to
blood flow from the heart and great vessels, and the ECD is designed to take advantage of
this heat exchange environment. The ECD's ability to decompress the stomach and avoid
distention of the esophagus away from the device ensures good contact with the esophageal
mucosa, and thus maximizes heat transfer from the patient. The ECD replaces the standard
gastric tube which is placed in the target patient population as a routine standard of care,
is made of standard medical-grade silicone, and is generally similar in size and shape to
the gastric tubes currently used. Initial mathematical and animal studies have shown strong
support for the efficacy and safety of the ECD.14-16
Study design: Prospective, interventional study evaluating the feasibility (efficacy) and
safety of the ECD in patients resuscitated from CA and treated with TH.
Patient population: Patient population will consist of patients suffering resuscitated
out-of-hospital or in-hospital CA with stable return of spontaneous circulation (ROSC) and
hemodynamic conditions with an indication to TH implementation according to standard
recommendations.
Data collection: All clinical and biological parameters will be recorded according to the
Utstein-style recommendations for reporting resuscitation outcomes. Neurologic outcome will
be assessed according to the Cerebral Performance Category (CPC) score. Initial temperatures
will be measured via a tympanic and naso-pharyngeal temperature sensors in the prehospital
field and the inhospital cath-lab respectively. Continuous temperature measurement
(specifically during cooling, maintenance, and rewarming) will be measured by bladder
temperature sensors, and arterial temperature monitoring (Picco®) if available. Time of ECD
placement and potential side effects will be recorded.
Specific treatment: The placement of the ECD will follow standard recommendations as per
Instructions for Use. The ECD will be connected to the Gaymar console (Meditherm III,
Gamida, France). In our institution, TH is performed in all patients resuscitated from an
OHCA except those presenting exclusion criteria. TH can be initiated as soon as possible by
administration of cold saline at 4°C if necessary followed by application of the available
cooling device (blankets, endovascular methods, etc) aiming a target temperature of 32-34°C
for 24 hours as recommended. 8-11,13 For all enrolled patient, the ECD will hereby replace
the other cooling device usually used in our ICU.
Other treatments: Standard treatments for resuscitation after CA will follow local,
national, and international guidelines as previously described. Briefly, core temperature is
usually measured using esophageal or urinary Foley catheters with thermistor probe (Tyco
Healthcare, France) and/or arterial temperature monitoring (PiCCO, Pulsion Medical System,
France) if available and/or necessary. During TH, sedation is performed with continuous
infusion of midazolam or propofol and sufentanil. Neuromuscular blockade is induced using
cisatracurium to favor cooling and prevent shivering if necessary. Circulatory function is
monitored by radial or femoral arterial catheter if necessary and blood pressure is
maintained at ≥90mmHg systolic and >65mmHg mean arterial pressure. Hypotension is treated
with dobutamine and norepinephrine or epinephrine titrated to the targeted blood pressure
according to the cardiac output monitored using echocardiogram, or PiCCO® systems according
to the physician in charge. Fluid management is left at the discretion of the attending
physician. Neuromonitoring and prognostication after CA uses serial clinical examinations,
biomarkers (lactates, creatinine, NSE, S100B protein), transcranial Doppler, daily
Electro-Encephalo-Gram, cerebral CT-scan or MRI, and Somato-Sensory-Evoked-Potential if
necessary.
Statistical analysis:
Since this is a pilot study a sample size of 15 patients was calculated based on local
feasibility considerations. This is a non comparative study. Thus the statistical analysis
will be descriptive. For all quantitative parameters, mean, SD, median and quartiles will be
calculated. For qualitative parameters, percentage and their two-sided 95% confidence
intervals will be calculated. All analyses will be made in patients who received the ECD. In
case of unsuccessful attempt to use the ECD, the patient will be listed.
Informed consent and ethical considerations: This study will be conducted according to the
principles of the Declaration of Helsinki of the World Medical Association. The protocol
have been submitted, modified and accepted by the local Ethics Committee of our local AP-HP
institution (Institutional Review Board of Paris VI Hospital, Comité de Protection des
Personnes de GHPS, Paris 12ème, approval CPP/79-14, ID RCB 2014-A01145-42, 10/28/2014).
Written informed consent will be obtained before inclusion from each patient's next of kin
when present at patient's admission.. According to French law and our local Ethics Committee
and because of the short delay to enroll patients, if no family member can be reached before
inclusion despite systematic researches performed by the physician in charge of the patient
as soon as patient's admission, a patient presenting inclusion criteria and no exclusion
criteria can be included in emergency. In all cases, surviving patients without severe
neurological sequels will give their written informed consent as soon as possible (i.e. when
awake).
An approval regarding the use of the ECD from the French committee responsible for the
devices used in human beings (Agence Nationale de Sécurité du Médicament et des produits de
santé, N° DMDTP/DMTECH/KB/2014-A01145-42, 9/4/2014) and the CE mark (N° , the 03/24/2014)
have been specifically obtained separately. Specific insurances are delivered by ACT society
and its French representing company IST Cardiology (Chubb Insurance Company of Europe SE,
10/10/2014, protocol 2014-A01145-42).
This trial has also been declared to the French Informatics' Society (Commission Nationale
Informatique et Liberté N°1593420).
References:
1. HACA. Mild therapeutic hypothermia to improve the neurologic outcome after cardiac
arrest. N Engl J Med. 2002;346(8):549-556.
2. Bernard SA, Gray TW, Buist MD, Jones BM, Silvester W, Gutteridge G, et al. Treatment of
comatose survivors of out-of-hospital cardiac arrest with induced hypothermia. N Engl J
Med. Feb 21 2002;346(8):557-563.
3. Shankaran S, Laptook AR, Poole WK. Hypothermia for perinatal asphyxial encephalopathy.
N Engl J Med. Mar 18 2010;362(11):1051-1052; author reply 1052.
4. Sinclair HL, Andrews PJ. Bench-to-bedside review: Hypothermia in traumatic brain
injury. Crit Care. Feb 15 2010;14(1):204.
5. Froehler MT, Ovbiagele B. Therapeutic hypothermia for acute ischemic stroke. Expert Rev
Cardiovasc Ther. Apr 2010;8(4):593-603.
6. Dietrich WD, Bramlett HM. The Evidence for Hypothermia as a Neuroprotectant in
Traumatic Brain Injury. Neurotherapeutics: The Journal of the American Society for
Experimental NeuroTherapeutics. 2010;7(1):43-50.
7. Kelly FE, Nolan JP. The effects of mild induced hypothermia on the myocardium: a
systematic review. Anaesthesia. May 2010;65(5):505-515.
8. Peberdy MA, Callaway CW, Neumar RW, Geocadin RG, Zimmerman JL, Donnino M, et al. Part
9: post-cardiac arrest care: 2010 American Heart Association Guidelines for
Cardiopulmonary Resuscitation and Emergency Cardiovascular Care. Circulation. Nov 2
2010;122(18 Suppl 3):S768-786.
9. Nolan JP, Neumar RW, Adrie C, Aibiki M, Berg RA, Bottiger BW, et al. Post-cardiac
arrest syndrome: Epidemiology, pathophysiology, treatment, and prognostication A
Scientific Statement from the International Liaison Committee on Resuscitation; the
American Heart Association Emergency Cardiovascular Care Committee; the Council on
Cardiovascular Surgery and Anesthesia; the Council on Cardiopulmonary, Perioperative,
and Critical Care; the Council on Clinical Cardiology; the Council on Stroke.
Resuscitation. 2008;79(3):350-379.
10. Nolan JP, Morley PT, Hoek TL, Hickey RW. Therapeutic hypothermia after cardiac arrest.
An advisory statement by the Advancement Life support Task Force of the International
Liaison committee on Resuscitation. Resuscitation. 2003;57(3):231-235.
11. Nunnally ME, Jaeschke R, Bellingan GJ, Lacroix J, Mourvillier B, Rodriguez-Vega GM, et
al. Targeted temperature management in critical care: A report and recommendations from
five professional societies. Crit Care Med. Dec 23 2010.
12. Nielsen N, Wetterslev J, Cronberg T, et al. Targeted Temperature Management at 33
degrees C versus 36 degrees C after Cardiac Arrest. N Engl J Med. 2013;369:2197-2206.
13. ILCOR statement on Nielsen study published in the N Engl J Med.
http://www.med.upenn.edu/resuscitation/documents/TTMILCOR.pdf
14. Kulstad E, Metzger AK, Courtney DM, Rees J, Shanley P, Matsuura T, et al. Induction,
maintenance, and reversal of therapeutic hypothermia with an esophageal heat transfer
device. Resuscitation. Jul 1 2013.
15. Kulstad EB, Courtney DM, Waller D. Induction of therapeutic hypothermia via the
esophagus: a proof of concept study. World J Emerg Med. 2012;3(2):118-122.
16. Vaicys V, Eason A, Schieber JD, Kulstad EB. Therapeutic hypothermia induction via an
esophageal route-a computer simulation. Am J Emerg Med. Jul 2012;30(6):932-935.
;
Status | Clinical Trial | Phase | |
---|---|---|---|
Recruiting |
NCT06048068 -
Removing Surrogates' Uncertainty to Reduce Fear and Anxiety After Cardiac Events
|
N/A | |
Recruiting |
NCT05558228 -
Accuracy of Doppler Ultrasound Versus Manual Palpation of Pulse in Cardiac Arrest
|
||
Completed |
NCT03685383 -
Cytokine Adsorption in Post-cardiac Arrest Syndrome in Patients Requiring Extracorporeal Cardiopulmonary Resuscitation
|
N/A | |
Completed |
NCT04619498 -
Effectiveness of an Interactive Cognitive Support Tablet App to Improve the Management of Pediatric Cardiac Arrest
|
N/A | |
Completed |
NCT04584645 -
A Digital Flu Intervention for People With Cardiovascular Conditions
|
N/A | |
Not yet recruiting |
NCT05649891 -
Checklists Resuscitation Emergency Department
|
N/A | |
Withdrawn |
NCT02352350 -
Lactate in Cardiac Arrest
|
N/A | |
Completed |
NCT03024021 -
Cerebral Oxymetry and Neurological Outcome in Therapeutic Hypothermia
|
||
Completed |
NCT02275234 -
Care After Resuscitation
|
||
Completed |
NCT02247947 -
Proteomics to Identify Prognostic Markers After CPR and to Estimate Neurological Outcome
|
||
Completed |
NCT01972087 -
Simulation Training to Improve 911 Dispatcher Identification of Cardiac Arrest
|
N/A | |
Completed |
NCT01944605 -
Intestinal Ischemia as a Stimulus for Systemic Inflammatory Response After Cardiac Arrest
|
N/A | |
Completed |
NCT01936597 -
Prospective Study of 3 Phone Assistance Strategies to Achieve a Continuous Cardiac Massage
|
N/A | |
Active, not recruiting |
NCT01239420 -
Norwegian Cardio-Respiratory Arrest Study
|
||
Completed |
NCT01191736 -
Ultra-Brief Versus Brief Hands Only CPR Video Training With and Without Psychomotor Skill Practice
|
N/A | |
Completed |
NCT00878644 -
Therapeutic Hypothermia to Improve Survival After Cardiac Arrest in Pediatric Patients-THAPCA-OH [Out of Hospital] Trial
|
Phase 3 | |
Completed |
NCT00880087 -
Therapeutic Hypothermia to Improve Survival After Cardiac Arrest in Pediatric Patients-THAPCA-IH [In Hospital] Trial
|
N/A | |
Completed |
NCT00729794 -
Vasopressin, Epinephrine, and Steroids for Cardiac Arrest
|
Phase 3 | |
Recruiting |
NCT00441753 -
Cerebral Bloodflow and Carbondioxide Reactivity During Mild Therapeutic Hypothermia in Patients After Cardiac Arrest
|
N/A | |
Completed |
NCT00347477 -
Fluid Shifts in Patients Treated With Therapeutic Hypothermia After Cardiac Arrest
|
Phase 3 |