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01.08.2008 | Original Paper

A Prospective, Observational Clinical Trial of Fever Reduction to Reduce Systemic Oxygen Consumption in the Setting of Acute Brain Injury

verfasst von: J. Steven Hata, Constance R. Shelsky, Bradley J. Hindman, Thomas C. Smith, Jonathan S. Simmons, Michael M. Todd

Erschienen in: Neurocritical Care | Ausgabe 1/2008

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Abstract

Introduction

Fever after acute brain injury appears to be a detrimental factor, associated with impaired neurological outcomes. This study assessed physiological changes in systemic oxygen consumption (VO2) during cutaneous cooling after severe brain injury.

Methods

This prospective, observational, clinical study evaluated ten, critically ill, brain-injured patients requiring mechanical ventilation with a core body temperature of greater or equal to 38°C.

Febrile patients failing to defervesce after acetaminophen underwent indirect calorimetry for a 1-hour baseline period followed by a 4 h cooling period. The Arctic Sun® Temperature Management System (Medivance®) directed core temperature to a goal of 36°C.

Results

The patients had a mean age of 32 years (95% CI 23, 40), Glasgow Coma Scale of 6 (95% CI 5,7), and APACHE 2 score of 19 (95% CI 15, 22), with 8 of 10 patients suffering traumatic brain injuries. The baseline 1-h core temperature was significantly reduced from 38.6°± 0.9 to 36.3°± 1.2°C (P < 0.0001) over 4 h. Two cohorts were identified based upon the presence or absence of shivering. Within the non-shivering cohort, systemic VO2 was significantly reduced from 415 ± 123 to 308 ± 115 ml/min (−27 ± 18%) (P < 0.05). In contrast, those with shivering showed no significant reduction in VO2, despite significantly decreasing core temperature. The overall percentage change of VCO2 correlated with VO2 (r ² = 0.91).

Conclusion

Fever reduction in acute brain injury appears to significantly reduce systemic VO2, but is highly dependent on shivering control.

Albrecht RF 2nd, Wass CT, Lanier WL. Occurrence of potentially detrimental temperature alterations in hospitalized patients at risk for brain injury. Mayo Clin Proc 1998;73(7):629–35.PubMed

Geffroy A, Bronchard R, Merckx P, et al. Severe traumatic head injury in adults: which patients are at risk of early hyperthermia? Intensive Care Med 2004;30(5):785–90 Epub 2004 Mar 30.PubMedCrossRef

Ginsberg MD. Adventures in the pathophysiology of brain ischemia: penumbra, gene expression, neuroprotection: the 2002 Thomas Willis Lecture. Stroke 2003;34(1):214–23.PubMedCrossRef

Castillo J, Davalos A, Marrugat J, Noya M. Timing for fever-related brain damage in acute ischemic stroke. Stroke 1998;29(12):2455–60.PubMed

Kammersgaard LP, Jorgensen HS, Rungby JA, et al. Admission body temperature predicts long-term mortality after acute stroke: the Copenhagen Stroke Study. Stroke 2002;33(7):1759–62.PubMedCrossRef

Oliveira-Filho J, Ezzeddine MA, Segal AZ, et al. Fever in subarachnoid hemorrhage: relationship to vasospasm and outcome. Neurology 2001;56(10):1299–304.PubMed

Reith J, Jorgensen HS, Pedersen PM, et al. Body temperature in acute stroke: relation to stroke severity, infarct size, mortality, and outcome. Lancet 1996;347(8999):422–5.PubMedCrossRef

Bernard SA, Gray TW, Buist MD, et al. Treatment of comatose survivors of out-of-hospital cardiac arrest with induced hypothermia. N Engl J Med 2002;346(8):557–63.PubMedCrossRef

Holzer M. Mild therapeutic hypothermia to improve the neurologic outcome after cardiac arrest. New England Journal of Medicine 2002;346:549–56.CrossRef

10.

Gluckman PD, Wyatt JS, Azzopardi D, et al. Selective head cooling with mild systemic hypothermia after neonatal encephalopathy: multicentre randomised trial. Lancet 2005;365(9460):633–70.

11.

Eicher DJ, Wagner CL, Katikaneni LP, et al. Moderate hypothermia in neonatal encephalopathy: efficacy outcomes. Pediatr Neurol 2005;32(1):11–7 (Jan).PubMedCrossRef

12.

Shankaran S, Laptook AR, Ehrenkranz RA, et al. Whole-body hypothermia for neonates with hypoxic-ischemic encephalopathy. N Engl J Med 2005;353(15):1574–84 (Oct 13).PubMedCrossRef

13.

Kasner SE, Wein T, Piriyawat P, et al. Acetaminophen for altering body temperature in acute stroke: a randomized clinical trial. Stroke 2002;33(1):130–4.PubMedCrossRef

14.

Sessler D. Complications and treatment of mild hypothermia. Anesthesiology 2001;95:531–43.PubMedCrossRef

15.

Manthous CA, Hall JB, Kushner R, Schmidt GA, Russo G, Wood LD. The effect of mechanical ventilation on oxygen consumption in critically ill patients. Am J Respir Crit Care Med 1995;151(1):210–4.PubMed

16.

Manthous CA, Hall JB, Olson D, et al. Effect of cooling on oxygen consumption in febrile critically ill patients. Am J Respir Crit Care Med 1995;151(1):10–4.PubMed

17.

Al-Senani FM, Graffagnino C, Grotta JC, et al. A prospective, multicenter pilot study to evaluate the feasibility and safety of using the CoolGard System and Icy catheter following cardiac arrest. Resuscitation 2004;62(2):143–50.PubMedCrossRef

18.

Mayer S, Commichau C, Scarmeas N, Presciutti M, Bates J, Copeland D. Clinical trial of an air-circulating cooling blanket for fever control in critically ill neurologic patients. Neurology 2001;56(3):292–8.PubMed

19.

Mayer SA, Kowalski RG, Presciutti M, et al. Clinical trial of a novel surface cooling system for fever control in neurocritical care patients. Crit Care Med 2004;32(12):2508–15.PubMedCrossRef

20.

Marion DW, Obrist WD, Carlier PM, Penrod LE, Darby JM. The use of moderate therapeutic hypothermia for patients with severe head injuries: a preliminary report. J Neurosurg 1993;79(3):354–62.PubMed

21.

Ralley FE, Wynands JE, Ramsay JG, Carli F, MacSullivan R. The effects of shivering on oxygen consumption and carbon dioxide production in patients rewarming from hypothermic cardiopulmonary bypass. Canadian Journal of Anaesthesia 1988;35(4):332–7.PubMedCrossRef

22.

Gozzoli V, Treggiari MM, Kleger GR, et al. Randomized trial of the effect of antipyresis by metamizol, propacetamol or external cooling on metabolism, hemodynamics and inflammatory response. Intensive Care Med 2004;30(3):401–7.PubMedCrossRef

23.

Sweney MT, Sigg DC, Tahvildari S, Iaizzo PA. Shiver suppression using focal hand warming in unanesthetized normal subjects. Anesthesiology 2001;95(5):1089–95 (Nov).PubMedCrossRef

24.

Iaizzo PA, Jeon YM, Sigg DC. Facial warming increases the threshold for shivering. J Neurosurg Anesthesiol 1999;11(4):231–9.PubMedCrossRef

25.

Sladen RN, Berend JZ, Fassero JS, Zehnder EB. Comparison of vecuronium and meperidine on the clinical and metabolic effects of shivering after hypothermic cardiopulmonary bypass. J Cardiothorac Vasc Anesth 1995;9(2):147–53.PubMedCrossRef

26.

Hajat C, Hajat S, Sharma P. Effects of poststroke pyrexia on stroke outcome : a meta-analysis of studies in patients. Stroke 2000;31(2):410–4.PubMed

27.

Jiang JY, Gao GY, Li WP, Yu MK, Zhu C. Early indicators of prognosis in 846 cases of severe traumatic brain injury. J Neurotrauma 2002;19(7):869–74.PubMedCrossRef

28.

Busija DW, Leffler CW, Pourcyrous M. Hyperthermia increases cerebral metabolic rate and blood flow in neonatal pigs. Am J Physiol 1988;255(2 Pt 2):H343–6.PubMed

29.

Nemoto EM, Jungreis C, Larnard D, Kuwabara H, Horowitz M, Kassam A. Hyperthermia and hypermetabolism in focal cerebral ischemia. Adv Exp Med Biol 2005;566:83–9.PubMedCrossRef

30.

Raurich JM, Ibanez J. Metabolic rate in severe head trauma. JPEN J Parenter Enteral Nutr 1994;18(6):521–4.PubMedCrossRef

31.

Mokhtarani MMD, Mahgoub ANMD, Morioka NMD, et al. Buspirone and meperidine synergistically reduce the shivering tThreshold. Anesth Analg 2001;93(5):1233–9.PubMedCrossRef

32.

Rosa G, Pinto G, Orsi P, et al. Control of post anaesthetic shivering with nefopam hydrochloride in mildly hypothermic patients after neurosurgery. Acta Anaesthesiol Scand 1995;39(1):90–5.

33.

Talke P, Tayefeh F, Sessler D, Jeffrey R, Noursalehi M, Richardson C. Dexmedetomidine does not alter the sweating threshold, but comparably and linearly decreases the vasoconstriction and shivering thresholds. Anesthesiology 1997;87(4):835–41.PubMedCrossRef

34.

Group THaCAS. Mild therapeutic hypothermia to improve the neurologic outcome after cardiac arrest. N Engl J Med 2002;346(8):549–56.CrossRef

35.

Arroliga A, Frutos-Vivar F, Hall J, et al. Use of sedatives and neuromuscular blockers in a cohort of patients receiving mechanical ventilation. Chest 2005;128(2):496–506 (Aug).PubMedCrossRef

36.

Lanier WL, Iaizzo PA, Milde JH. Cerebral function and muscle afferent activity following intravenous succinylcholine in dogs anesthetized with halothane: the effects of pretreatment with a defasciculating dose of pancuronium. Anesthesiology 1989;71(1):87–95 (Jul).PubMedCrossRef

37.

De Witte J, Sessler DI. Perioperative shivering: physiology and pharmacology. Anesthesiology 2002;96(2):467–84.PubMedCrossRef

38.

Frank SM, Higgins MS, Breslow MJ, et al. The catecholamine, cortisol, and hemodynamic responses to mild perioperative hypothermia. A randomized clinical trial Anesthesiology 1995;82(1):83–93.PubMedCrossRef

39.

Matthews DS, Bullock RE, Matthews JN, Aynsley-Green A, Eyre JA. Temperature response to severe head injury and the effect on body energy expenditure and cerebral oxygen consumption. Arch Dis Child 1995;72(6):507–15.PubMed

40.

Lenhardt R, Negishi C, Sessler DI, et al. The effects of physical treatment on induced fever in humans. Am J Med 1999;106(5):550–5.PubMedCrossRef

Titel: A Prospective, Observational Clinical Trial of Fever Reduction to Reduce Systemic Oxygen Consumption in the Setting of Acute Brain Injury
verfasst von: J. Steven Hata
Constance R. Shelsky
Bradley J. Hindman
Thomas C. Smith
Jonathan S. Simmons
Michael M. Todd
Publikationsdatum: 01.08.2008
Verlag: Humana Press Inc
Erschienen in: Neurocritical Care / Ausgabe 1/2008
Print ISSN: 1541-6933
Elektronische ISSN: 1556-0961
DOI: https://doi.org/10.1007/s12028-007-9015-1

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