Effect of Early Sustained Prophylactic Hypothermia on Neurologic Outcomes Among Patients With Severe Traumatic Brain Injury: The POLAR Randomized Clinical Trial

Importance After severe traumatic brain injury, induction of prophylactic hypothermia has been suggested to be neuroprotective and improve long-term neurologic outcomes. Objective To determine the effectiveness of early prophylactic hypothermia compared with normothermic management of patients after severe traumatic brain injury. Design, Setting, and Participants The Prophylactic Hypothermia Trial to Lessen Traumatic Brain Injury–Randomized Clinical Trial (POLAR-RCT) was a multicenter randomized trial in 6 countries that recruited 511 patients both out-of-hospital and in emergency departments after severe traumatic brain injury. The first patient was enrolled on December 5, 2010, and the last on November 10, 2017. The final date of follow-up was May 15, 2018. Interventions There were 266 patients randomized to the prophylactic hypothermia group and 245 to normothermic management. Prophylactic hypothermia targeted the early induction of hypothermia (33°C-35°C) for at least 72 hours and up to 7 days if intracranial pressures were elevated, followed by gradual rewarming. Normothermia targeted 37°C, using surface-cooling wraps when required. Temperature was managed in both groups for 7 days. All other care was at the discretion of the treating physician. Main Outcomes and Measures The primary outcome was favorable neurologic outcomes or independent living (Glasgow Outcome Scale–Extended score, 5-8 [scale range, 1-8]) obtained by blinded assessors 6 months after injury. Results Among 511 patients who were randomized, 500 provided ongoing consent (mean age, 34.5 years [SD, 13.4]; 402 men [80.2%]) and 466 completed the primary outcome evaluation. Hypothermia was initiated rapidly after injury (median, 1.8 hours [IQR, 1.0-2.7 hours]) and rewarming occurred slowly (median, 22.5 hours [IQR, 16-27 hours]). Favorable outcomes (Glasgow Outcome Scale–Extended score, 5-8) at 6 months occurred in 117 patients (48.8%) in the hypothermia group and 111 (49.1%) in the normothermia group (risk difference, 0.4% [95% CI, –9.4% to 8.7%]; relative risk with hypothermia, 0.99 [95% CI, 0.82-1.19]; P = .94). In the hypothermia and normothermia groups, the rates of pneumonia were 55.0% vs 51.3%, respectively, and rates of increased intracranial bleeding were 18.1% vs 15.4%, respectively. Conclusions and Relevance Among patients with severe traumatic brain injury, early prophylactic hypothermia compared with normothermia did not improve neurologic outcomes at 6 months. These findings do not support the use of early prophylactic hypothermia for patients with severe traumatic brain injury. Trial Registration clinicaltrials.gov Identifier: NCT00987688; Anzctr.org.au Identifier: ACTRN12609000764235

[1]  A. A. Romanovsky,et al.  Therapeutic Whole-Body Hypothermia Reduces Death in Severe Traumatic Brain Injury if the Cooling Index Is Sufficiently High: Meta-Analyses of the Effect of Single Cooling Parameters and Their Integrated Measure. , 2018, Journal of neurotrauma.

[2]  P. Cameron,et al.  Statistical analysis plan for the POLAR-RCT: The Prophylactic hypOthermia trial to Lessen trAumatic bRain injury-Randomised Controlled Trial , 2018, Trials.

[3]  Ruben G. L. Real,et al.  Traumatic brain injury: integrated approaches to improve prevention, clinical care, and research , 2017, The Lancet Neurology.

[4]  Sai Zhang,et al.  Establishment of an ideal time window model in hypothermic-targeted temperature management after traumatic brain injury in rats , 2017, Brain Research.

[5]  S. Qi,et al.  Mild induced hypothermia for patients with severe traumatic brain injury after decompressive craniectomy , 2017, Journal of critical care.

[6]  Odette A. Harris,et al.  Guidelines for the Management of Severe Traumatic Brain Injury, Fourth Edition , 2016, Neurosurgery.

[7]  J. Povlishock,et al.  Pathophysiology of Traumatic Brain Injury. , 2016, Neurosurgery clinics of North America.

[8]  R. Bellomo,et al.  Erythropoietin in traumatic brain injury (EPO-TBI): a double-blind randomised controlled trial , 2015, The Lancet.

[9]  G. Murray,et al.  Hypothermia for Intracranial Hypertension after Traumatic Brain Injury. , 2016, The New England journal of medicine.

[10]  G. Murray,et al.  Hypothermia for Intracranial Hypertension after Traumatic Brain Injury. , 2015, The New England journal of medicine.

[11]  R. Avila,et al.  The incidence of acute kidney injury in patients with traumatic brain injury , 2015, Intensive Care Medicine Experimental.

[12]  A. Seifi,et al.  Can therapeutic hypothermia trigger propofol-related infusion syndrome? , 2015, Journal of critical care.

[13]  P. Cameron,et al.  Protocol for a multicentre randomised controlled trial of early and sustained prophylactic hypothermia in the management of traumatic brain injury. , 2015, Critical care and resuscitation : journal of the Australasian Academy of Critical Care Medicine.

[14]  Y. Ohashi,et al.  Prolonged mild therapeutic hypothermia versus fever control with tight hemodynamic monitoring and slow rewarming in patients with severe traumatic brain injury: a randomized controlled trial. , 2015, Journal of neurotrauma.

[15]  Chao Chen,et al.  ‘Cool and quiet’ therapy for malignant hyperthermia following severe traumatic brain injury: A preliminary clinical approach , 2014, Experimental and therapeutic medicine.

[16]  D. Marion,et al.  Revisiting therapeutic hypothermia for severe traumatic brain injury… again , 2014, Critical Care.

[17]  M. Macleod,et al.  Therapeutic Hypothermia and the Risk of Infection: A Systematic Review and Meta-Analysis* , 2014, Critical care medicine.

[18]  Robert L Grant,et al.  Converting an odds ratio to a range of plausible relative risks for better communication of research findings , 2014, BMJ : British Medical Journal.

[19]  T. Fabian,et al.  Propofol infusion syndrome: a lethal condition in critically injured patients eliminated by a simple screening protocol. , 2014, Injury.

[20]  Morgen M. Miller,et al.  Computing Adjusted Risk Ratios and Risk Differences in Stata , 2013 .

[21]  Travis E. Nygard Chair , 2012 .

[22]  Le-Xin Wang,et al.  Mild Hypothermia Therapy Reduces Blood Glucose and Lactate and Improves Neurologic Outcomes in Patients With Severe Traumatic Brain Injury , 2012 .

[23]  H. Bramlett,et al.  THE EFFECTS OF POSTTRAUMATIC HYPOTHERMIA ON DIFFUSE AXONAL INJURY FOLLOWING PARASAGGITAL FLUID PERCUSSION BRAIN INJURY IN RATS. , 2012, Therapeutic hypothermia and temperature management.

[24]  Le-Xin Wang,et al.  Mild hypothermia therapy reduces blood glucose and lactate and improves neurologic outcomes in patients with severe traumatic brain injury. , 2011, Journal of critical care.

[25]  K. Polderman,et al.  Hypothermia in patients with brain injury: the way forward? , 2011, The Lancet Neurology.

[26]  Hester F. Lingsma,et al.  The added value of ordinal analysis in clinical trials: an example in traumatic brain injury , 2011, Critical care.

[27]  G. Gillett,et al.  Hypothermia in patients with brain injury: the way forward? , 2011, The Lancet Neurology.

[28]  D. Diedrich,et al.  Analytic Reviews: Propofol Infusion Syndrome in the ICU , 2011, Journal of intensive care medicine.

[29]  G. Clifton,et al.  Very early hypothermia induction in patients with severe brain injury (the National Acute Brain Injury Study: Hypothermia II): a randomised trial , 2011, The Lancet Neurology.

[30]  J. Devlin,et al.  Incidence of propofol-related infusion syndrome in critically ill adults: a prospective, multicenter study , 2009, Critical care.

[31]  G. Doig,et al.  Early enteral nutrition, provided within 24 h of injury or intensive care unit admission, significantly reduces mortality in critically ill patients: a meta-analysis of randomised controlled trials , 2009, Intensive Care Medicine.

[32]  R. Salamonsen,et al.  Protocol based on thromboelastograph (TEG) out-performs physician preference using laboratory coagulation tests to guide blood replacement during and after cardiac surgery: a pilot study. , 2009, Heart, lung & circulation.

[33]  F. Sterz,et al.  Hemostasis in cardiac arrest patients treated with mild hypothermia initiated by cold fluids. , 2009, Resuscitation.

[34]  K. Polderman,et al.  Mechanisms of action, physiological effects, and complications of hypothermia , 2009, Critical care medicine.

[35]  Ingeborg H. F. Herold,et al.  Therapeutic hypothermia and controlled normothermia in the intensive care unit: Practical considerations, side effects, and cooling methods* , 2009, Critical care medicine.

[36]  S. Yentis,et al.  The TEG® vs the ROTEM® thromboelastography/thromboelastometry systems , 2009, Anaesthesia.

[37]  P. Alderson,et al.  Hypothermia for traumatic head injury. , 2009, The Cochrane database of systematic reviews.

[38]  A. Day,et al.  The relationship between nutritional intake and clinical outcomes in critically ill patients: results of an international multicenter observational study , 2009, Intensive Care Medicine.

[39]  R. Teasell,et al.  Hypermetabolism following moderate to severe traumatic acute brain injury: a systematic review. , 2008, Journal of neurotrauma.

[40]  Y. Helps,et al.  Hospital separations due to traumatic brain injury, Australia 2004-05 , 2008 .

[41]  Juan Lu,et al.  Predicting Outcome after Traumatic Brain Injury: Development and International Validation of Prognostic Scores Based on Admission Characteristics , 2008, PLoS medicine.

[42]  K. Polderman,et al.  Induced hypothermia and fever control for prevention and treatment of neurological injuries , 2008, The Lancet.

[43]  D. Moher,et al.  Hypothermia therapy after traumatic brain injury in children. , 2008, The New England journal of medicine.

[44]  A. Hanke,et al.  Hypothermia and Acidosis Synergistically Impair Coagulation in Human Whole Blood , 2008, Anesthesia and analgesia.

[45]  C. Hofer,et al.  Coagulation Monitoring: Current Techniques and Clinical Use of Viscoelastic Point-of-Care Coagulation Devices , 2008, Anesthesia and analgesia.

[46]  Daryl A Jones,et al.  Epidemiology and 12-month outcomes from traumatic brain injury in australia and new zealand. , 2008, The Journal of trauma.

[47]  C. Scurlock,et al.  Early nutrition support in the intensive care unit: a US perspective , 2008, Current opinion in clinical nutrition and metabolic care.

[48]  R. Bellomo,et al.  A multi-centre evaluation of the RIFLE criteria for early acute kidney injury in critically ill patients. , 2007, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[49]  M. Borggrefe,et al.  Modification of the Harris-Benedict equation to predict the energy requirements of critically ill patients during mild therapeutic hypothermia. , 2008, In vivo.

[50]  A. J. Green,et al.  Estimating resting energy expenditure in patients requiring nutritional support: a survey of dietetic practice , 2008, European Journal of Clinical Nutrition.

[51]  A. E. El Nahas,et al.  The effect of body temperature in a rat model of renal ischemia-reperfusion injury. , 2007, Transplantation proceedings.

[52]  S. Ferrie,et al.  Back to basics: Estimating energy requirements for adult hospital patients , 2007 .

[53]  D. Heyland,et al.  Feeding critically ill patients: What is the optimal amount of energy? , 2007, Critical care medicine.

[54]  Robyn Norton,et al.  Saline or albumin for fluid resuscitation in patients with traumatic brain injury. , 2007, The New England journal of medicine.

[55]  R. Chang,et al.  Acute kidney injury in the intensive care unit according to RIFLE* , 2007, Critical care medicine.

[56]  J. Sahuquillo,et al.  Cooling the injured brain: how does moderate hypothermia influence the pathophysiology of traumatic brain injury. , 2007, Current pharmaceutical design.

[57]  C. Werner,et al.  Pathophysiology of traumatic brain injury. , 2007, British journal of anaesthesia.

[58]  Charles Maynard,et al.  Pilot Randomized Clinical Trial of Prehospital Induction of Mild Hypothermia in Out-of-Hospital Cardiac Arrest Patients With a Rapid Infusion of 4°C Normal Saline , 2007, Circulation.

[59]  R. Bellomo,et al.  Why is there such a difference in outcome between Australian intensive care units and others? , 2007, Current opinion in anaesthesiology.

[60]  M. Berger,et al.  Hypocaloric feeding: pros and cons , 2007, Current opinion in critical care.

[61]  M. Shigemori,et al.  OPTIMAL TEMPERATURE FOR THE MANAGEMENT OF SEVERE TRAUMATIC BRAIN INJURY: EFFECT OF HYPOTHERMIA ON INTRACRANIAL PRESSURE, SYSTEMIC AND INTRACRANIAL HEMODYNAMICS, AND METABOLISM , 2007, Neurosurgery.

[62]  J. Ghajar,et al.  Guidelines for the management of severe traumatic brain injury. Introduction. , 2007, Journal of neurotrauma.

[63]  J. Ghajar,et al.  In Reply: Guidelines for the Management of Severe Traumatic Brain Injury: 2020 Update of the Decompressive Craniectomy Recommendations. , 2020, Neurosurgery.

[64]  J. Langlois,et al.  The Epidemiology and Impact of Traumatic Brain Injury: A Brief Overview , 2006, The Journal of head trauma rehabilitation.

[65]  Gilles Clermont,et al.  RIFLE criteria for acute kidney injury are associated with hospital mortality in critically ill patients: a cohort analysis , 2006, Critical care.

[66]  V. G. F. Alves,et al.  Indirect calorimetry: methodology, instruments and clinical application , 2006, Current opinion in clinical nutrition and metabolic care.

[67]  P. Kochanek,et al.  Identification of Inflicted Traumatic Brain Injury in Well-Appearing Infants Using Serum and Cerebrospinal Markers: A Possible Screening Tool , 2006, Pediatrics.

[68]  N. Knoller,et al.  Efficacy and safety of dexanabinol in severe traumatic brain injury: results of a phase III randomised, placebo-controlled, clinical trial , 2006, The Lancet Neurology.

[69]  Joseph V Bonventre,et al.  Acute kidney injury, mortality, length of stay, and costs in hospitalized patients. , 2005, Journal of the American Society of Nephrology : JASN.

[70]  I. Seppelt Hypothermia does not improve outcome from traumatic brain injury. , 2005, Critical care and resuscitation : journal of the Australasian Academy of Critical Care Medicine.

[71]  W. Qiu,et al.  Therapeutic effect of mild hypothermia on severe traumatic head injury. , 2005, Chinese journal of traumatology = Zhonghua chuang shang za zhi.

[72]  K. Maca,et al.  The influence of mild hypothermia on ICP, CPP and outcome in patients with primary and secondary brain injury. , 2005, Acta neurochirurgica. Supplement.

[73]  R. Bellomo,et al.  Acute renal failure – definition, outcome measures, animal models, fluid therapy and information technology needs: the Second International Consensus Conference of the Acute Dialysis Quality Initiative (ADQI) Group , 2004, Critical care.

[74]  J. Ponsford,et al.  Prehospital hypertonic saline resuscitation of patients with hypotension and severe traumatic brain injury: a randomized controlled trial. , 2004, JAMA.

[75]  A. Kribben,et al.  Prognostic value of tubular proteinuria and enzymuria in nonoliguric acute tubular necrosis. , 2004, Clinical chemistry.

[76]  S. Schwab,et al.  Energy expenditure in ischemic stroke patients treated with moderate hypothermia , 2004, Intensive Care Medicine.

[77]  M. Shigemori,et al.  Effect of hypothermia on serum electrolyte, inflammation, coagulation, and nutritional parameters in patients with severe traumatic brain injury , 2004, Neurocritical care.

[78]  J. Habbema,et al.  Patient age and outcome following severe traumatic brain injury: an analysis of 5600 patients. , 2003, Journal of neurosurgery.

[79]  Leah Gramlich,et al.  Canadian clinical practice guidelines for nutrition support in mechanically ventilated, critically ill adult patients. , 2003, JPEN. Journal of parenteral and enteral nutrition.

[80]  Nicola Latronico,et al.  The pathophysiology of propofol infusion syndrome: a simple name for a complex syndrome , 2003, Intensive Care Medicine.

[81]  Michael Buist,et al.  Induced hypothermia in critical care medicine: A review , 2003, Critical care medicine.

[82]  Xin Lin,et al.  Study on therapeutic mechanism and clinical effect of mild hypothermia in patients with severe head injury. , 2003, Surgical neurology.

[83]  M. Reeves,et al.  Predicting energy requirements in the clinical setting: are current methods evidence based? , 2003, Nutrition reviews.

[84]  D. Spain,et al.  Achievement of steady state optimizes results when performing indirect calorimetry. , 2003, JPEN. Journal of parenteral and enteral nutrition.

[85]  N. Kitchen,et al.  Role of serum S100B as an early predictor of high intracranial pressure and mortality in brain injury: A pilot study , 2002, Critical care medicine.

[86]  W. Vandertop,et al.  Effects of therapeutic hypothermia on intracranial pressure and outcome in patients with severe head injury , 2002, Intensive Care Medicine.

[87]  G. Guyatt,et al.  Post-randomisation exclusions: the intention to treat principle and excluding patients from analysis , 2002, BMJ : British Medical Journal.

[88]  Karen Smith,et al.  Treatment of Comatose Survivors of Out-of-hospital Cardiac Arrest With Induced Hypothermia , 2003 .

[89]  D. Marion,et al.  Hypothermia on admission in patients with severe brain injury. , 2002, Journal of neurotrauma.

[90]  L. Mccargar,et al.  Energy requirements in critically ill patients: how close are our estimates? , 2002, Nutrition in clinical practice : official publication of the American Society for Parenteral and Enteral Nutrition.

[91]  G. Clifton,et al.  Treatment window for hypothermia in brain injury. , 2001, Journal of neurosurgery.

[92]  P. Marik,et al.  Early enteral nutrition in acutely ill patients: A systematic review , 2001, Critical care medicine.

[93]  M. Felfernig,et al.  Effects of temperature on partial thromboplastin time in heparinized plasma in vitro , 2001, European journal of anaesthesiology.

[94]  K. Polderman,et al.  Hypophosphatemia and hypomagnesemia induced by cooling in patients with severe head injury. , 2001, Journal of neurosurgery.

[95]  A. Davenport Renal replacement therapy in the patient with acute brain injury. , 2001, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[96]  H S Levin,et al.  Lack of effect of induction of hypothermia after acute brain injury. , 2001, The New England journal of medicine.

[97]  H. Joller,et al.  S-100 beta reflects the extent of injury and outcome, whereas neuronal specific enolase is a better indicator of neuroinflammation in patients with severe traumatic brain injury. , 2001, Journal of neurotrauma.

[98]  A. Battezzati,et al.  Indirect calorimetry and nutritional problems in clinical practice , 2001, Acta Diabetologica.

[99]  Ming-kun Yu,et al.  Effect of long-term mild hypothermia therapy in patients with severe traumatic brain injury: 1-year follow-up review of 87 cases. , 2000, Journal of neurosurgery.

[100]  Sean M. Grady,et al.  Clinical trials in head injury. , 2002, Neurological research.

[101]  S. Bernard,et al.  Experience with prolonged induced hypothermia in severe head injury , 1999, Critical care.

[102]  C. Barba,et al.  The metabolic response to acute traumatic brain injury and implications for nutritional support. , 1999, The Journal of head trauma rehabilitation.

[103]  H. Joller,et al.  IL-10 levels in cerebrospinal fluid and serum of patients with severe traumatic brain injury: relationship to IL-6, TNF-alpha, TGF-beta1 and blood-brain barrier function. , 1999, Journal of neuroimmunology.

[104]  B Jennett,et al.  Analyzing outcome of treatment of severe head injury: a review and update on advancing the use of the Glasgow Outcome Scale. , 1998, Journal of neurotrauma.

[105]  J. Povlishock,et al.  Posttraumatic hypothermia in the treatment of axonal damage in an animal model of traumatic axonal injury. , 1998, Journal of neurosurgery.

[106]  G. Teasdale,et al.  Structured interviews for the Glasgow Outcome Scale and the extended Glasgow Outcome Scale: guidelines for their use. , 1998, Journal of neurotrauma.

[107]  C Kaufmann,et al.  Hypothermic coagulopathy in trauma: effect of varying levels of hypothermia on enzyme speed, platelet function, and fibrinolytic activity. , 1998, The Journal of trauma.

[108]  S. Wisniewski,et al.  Treatment of traumatic brain injury with moderate hypothermia. , 1997, The New England journal of medicine.

[109]  P. Kochanek,et al.  Mild Posttraumatic Hypothermia Reduces Mortality after Severe Controlled Cortical Impact in Rats , 1996, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[110]  J. Ware,et al.  A 12-Item Short-Form Health Survey: construction of scales and preliminary tests of reliability and validity. , 1996, Medical care.

[111]  E. Osuna,et al.  Creatine Kinase BB and Neuron‐Specific Enolase in Cerebrospinal Fluid in the Diagnosis of Brain Insult , 1995, The American journal of forensic medicine and pathology.

[112]  K. Leslie,et al.  Mild Hypothermia Alters Propofol Pharmacokinetics and Increases the Duration of Action of Atracurium , 1995, Anesthesia and analgesia.

[113]  F. Pompei,et al.  Effects of temperature on bleeding time and clotting time in normal male and female volunteers. , 1995, Critical care medicine.

[114]  C. Valeri,et al.  Reversible Inhibition of Human Platelet Activation by Hypothermia In Vivo and In Vitro , 1994, Thrombosis and Haemostasis.

[115]  H. Reiber,et al.  Neuron‐Specific Enolase Concentrations in Blood as a Prognostic Parameter in Cerebrovascular Diseases , 1994, Stroke.

[116]  T. Shiozaki,et al.  Effect of mild hypothermia on uncontrollable intracranial hypertension after severe head injury. , 1993, Journal of neurosurgery.

[117]  J. O'Callaghan Quantitative Features of Reactive Gliosis following Toxicant‐induced Damage of the CNS a , 1993, Annals of the New York Academy of Sciences.

[118]  G. Clifton,et al.  A phase II study of moderate hypothermia in severe brain injury. , 1993, Journal of neurotrauma.

[119]  M. J. Rohrer,et al.  Effect of hypothermia on the coagulation cascade , 1992, Critical care medicine.

[120]  C. Waldmann,et al.  Metabolic acidosis and fatal myocardial failure after propofol infusion in children: five case reports. , 1992, BMJ.

[121]  R. Fischer,et al.  The disparity between hypothermic coagulopathy and clotting studies. , 1992, The Journal of trauma.

[122]  T. Fabian,et al.  Enteral versus parenteral feeding. Effects on septic morbidity after blunt and penetrating abdominal trauma. , 1992, Annals of surgery.

[123]  M A Foulkes,et al.  The diagnosis of head injury requires a classification based on computed axial tomography. , 1992, Journal of neurotrauma.

[124]  G. Clifton,et al.  Marked Protection by Moderate Hypothermia after Experimental Traumatic Brain Injury , 1991, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[125]  R. Fischer,et al.  Hypothermia and blood coagulation: dissociation between enzyme activity and clotting factor levels. , 1990, Circulatory shock.

[126]  D. Morgan,et al.  Pharmacokinetics of propofol when given by intravenous infusion. , 1990, British journal of clinical pharmacology.

[127]  M. Turtle,et al.  The pharmacokinetics of propofol during and after intravenous infusion in man , 1990 .

[128]  C. Bredl,et al.  Degree and Time Sequence of Hypothermic Protection Against Experimental Ischemic Acute Renal Failure , 1989, Circulation research.

[129]  E. Gepts,et al.  Disposition of Propofol Administered as Constant Rate Intravenous Infusions in Humans , 1987, Anesthesia and analgesia.

[130]  O. Chiara,et al.  Hypermetabolic response after hypothermic cardiopulmonary bypass. , 1987, Critical care medicine.

[131]  S. Khuri,et al.  Hypothermia-induced reversible platelet dysfunction. , 1987, Annals of surgery.

[132]  R. Fairman,et al.  Energy expenditure in acute trauma to the head with and without barbiturate therapy. , 1985, Surgery, gynecology & obstetrics.

[133]  J. Vanderhaeghen,et al.  An acidic protein isolated from fibrous astrocytes. , 1971, Brain research.

[134]  T. Fukuyama [Therapeutic hypothermia for head injury]. , 1962, No to shinkei = Brain and nerve.

[135]  THE ROYAL MELBOURNE HOSPITAL , 1951 .