methods and practical aspects of hypothermia in the neuro-icu
TRANSCRIPT
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Methods and practical aspects
of hypothermia in the Neuro-ICU
R. Helbok, MD, PD Department of Neurology, Medical University Innsbruck, Austria
22 05 2012
![Page 2: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/2.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
o None
Disclosure
![Page 3: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/3.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Methods and practical aspects
of hypothermia in the Neuro-ICU
R. Helbok, MD, PD Department of Neurology, Medical University Innsbruck, Austria
22 05 2012
![Page 4: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/4.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Methods and practical aspects
of hypothermia in the Neuro-ICU
R. Helbok, MD, PD Department of Neurology, Medical University Innsbruck, Austria
22 05 2012
![Page 5: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/5.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Outline
How to achieve hypothermia
How to maintain hypothermia
What-s important for the clinician
![Page 6: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/6.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Outline
How to achieve hypothermia
How to maintain hypothermia
What-s important for the clinician
![Page 7: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/7.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Outline
How to achieve hypothermia
How to maintain hypothermia
What-s important for the clinician
![Page 8: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/8.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
• Evidence (RCT) cardiac arrest
• Small trials
Therapeutic hypothermia
ICP
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
• Ice bags
• Fans
• Intravenous Cooling
• Mechanical Cooling
• Endovascular Cooling!
How to cool ?
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Cooling methods
Pros Cons
Ice bags inexpensive
widely available
messy,
difficult to control temp
Intravenous
Fluids
inexpensive
widely available
need to determine way to
keep fluids cold
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Cooling methods
Pros Cons
Surface
cooling
fair control of patient
temp
easy to use
variety of
systems/costs
not easily
transportable
Endovascular
cooling
reliable control
fast
no risk of skin lesions
expensive
large invasive line
infection risk
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Cooling – practical issues
Keep Track of Temperature
Continuous monitoring (or q15min) during induction until
stabilized at goal temperature 32-34°C
– Bladder
– Rectal
– PA Catheter
– Esophageal
– Tympanic
– Axilla
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Cooling – practical issues
Hypothermia
• mild
34-35,9º C
• moderate
32-33,9º C
• moderate deep
30-31,9º C
• deep
<30º C
Polderman et al CCM 2009 37:1101-1120
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Cooling – practical issues
Understand processes at the cellular level in the minutes to
hours following an initial injury
• postresuscitation disease
• reperfusion injury
• secondary brain injury
Success with induced hypothermia requires
Understand physiological effects pathophysiological
mechanisms of hypothermia
Apply adequate monitoring in intensive care units
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Choi et al, Nat Rev Neurol. 2012 28;8:214-22
1. Induction
2. Maintenance
3. Rewarming
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
1. Induction
Polderman et al CCM 2009 37:1101-1120
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Goal: Reach target within 2 hours RAPID
Intravenous cold saline (kept at 1-4°C (30cc/kg)
• peripheral or femoral line
• decrease by 2°C after 1h-infusion
Ice bags • axilla, groin and sides of neck
Expose the skin
Water and alcohol sprays
Surface/intravscular cooling devices
Polderman et al CCM 2005; 33:2744–2751; Choi et
al, Nat Rev Neurol. 2012 28;8:214-22
1. Induction
Avoid temperature overshoot !
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
only minor fluctuations, 0.2°C
Advanced cooling technologies
Polderman et al CCM 2005; 33:2744–2751;
Polderman et al CCM 2009 37:1101-1120 ;
Choi et al, Nat Rev Neurol. 2012 28;8:214-22
2. Maintenance
2. Maintenance
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
should be contolled Advanced cooling technologies
go slow! 0.25°C/hr for postcardiac arrest
Severe brain injury: 0.05-0.1°C/hr
Polderman et al CCM 2005; 33:2744–2751;
Polderman et al CCM 2009 37:1101-1120 ;
Choi et al, Nat Rev Neurol. 2012 28;8:214-22
3. Rewarming
3. Rewarming
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Risk for
hypovolemia
electrolyte disorders
hyperglycemia
CO2 production
shivering
Polderman et al CCM 2005; 33:2744–2751; Choi et al, Nat Rev Neurol. 2012 28;8:214-22
1. Induction
start adequate monitoring
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
TH - Fluid balance and electrolytes
Renal changes Temp < 35°C
• Tubular dysfunction
• Diuresis
Hypovolemia, Hypotension
• Intracellular shifts
• Electrolyte loss
Mg, K, Phosphate
Polderman, KH et al, 2001, JNS, 94, 697–705
Polderman, KH, ICM 2004,30, 757–769
Choi et al, Nat Rev Neurol. 2012 28;8:214-22
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
TH - Fluid balance and electrolytes
Polderman, KH et al, 2001, JNS, 94, 697–705
Polderman, KH, ICM 2004,30, 757–769
Choi et al, Nat Rev Neurol. 2012 28;8:214-22
GOAL
Aggressive replacement (Mg, K) with goal high
normal ranges
Multiple boluses / supplements to infusions
Careful monitoring, especially during re-warming
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
• Metabolism (cerebral by 6-10%/1°C)
• Oxygen consumption
• Insulin resistance Hyperglycemia – Secondary to decreased insulin sensitivity and secretion
– Rewarming: insulin sensitivity increases hypoglycemia!
Goal is normoglycemia
• Resultant higher insulin rates (lower K+)
TH: Metabolism
Polderman, KH, ICM 2004,30, 757–769
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Risk for
hypovolemia
electrolyte disorders
hyperglycemia
CO2 production
shivering
Polderman et al CCM 2005; 33:2744–2751; Choi et al, Nat Rev Neurol. 2012 28;8:214-22
1. Induction
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
• Man, 45 y
• Severe TBI, ICP crisis start hypothermia (cold saline, intravascular), maintain at 33 C
• ICP~~18mmHg
• Acid-base status?
• Technician asks you if he should warm the blood before analysis…
A) Don’t warm it : 33C
B) Warm it to 37C
C) Both and I’ll pick the best one.
HT and blood gas (ABG)
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
ABG (37C) temp-corrected (33 C) • pH = 7.45 pH = 7.50
• pCO2 = 35 pCO2 = 27
• pO2 = 90 pO2 = 70
• Everything’s perfect, I don’t touch the ventilator ?
• Will you try to RR or VT to pCO2 ?
HT and blood gas (ABG) HT and blood gas (ABG)
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
HT and blood gas (ABG) HT and blood gas (ABG)
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Arterial blood gas and ventilation
Polderman, KH et al, 2001, JNS, 94, 697–705
Polderman, KH, ICM 2004,30, 757–769
• Solubility of gases: • temperature dependent
• Left shift due to cooling • Dec. O2 consumption
• ABGs warmed to 37C: • Solubility of CO2 increases --
higher PCO2/lower pH……….
HT and blood gas (ABG)
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
ABG (37C) temp-corrected (33 C) • pH = 7.45 pH = 7.50
• pCO2 = 35 pCO2 = 27
• pO2 = 100 pO2 = 80
HT and blood gas (ABG)
We use temperature corrected ABG values
monitor ICP, check TCD
RR or VT to pCO2
target pCO2 values 32 to 36 mm Hg
• Hyperventilation
• cerebral
vasoconstriction
• Hypoventilation
• cerebral vasodilation
• ICP RIS
K
HT and blood gas (ABG)
pO2 and pCO2 overestimated , pH underestimated
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Risk for
hypovolemia
electrolyte disorders
hyperglycemia
CO2 production
shivering
Polderman et al CCM 2005; 33:2744–2751; Choi et al, Nat Rev Neurol. 2012 28;8:214-22
1. Induction
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Physiological attempts to increase temperature
• Temperature 30-35°C
– Shivering
– Peripheral vasoconstriction
– Increased muscle activity
– Increased oxygen consumption (40-100%)
- Increased metabolism
TH - shivering
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Physiologic changes of induced hypothermia
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Shivering – assess and treat!
Badjatia et al, Stroke. 2008;39:3242-3247
Choi et al, Nat Rev Neurol. 2012 28;8:214-22
Badjatia et al, Stroke.
2008;39:3242-3247
Helbok et al, CCM,
under review
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Risk for
hypovolemia
electrolyte disorders
hyperglycemia
CO2 production
shivering
Polderman et al CCM 2005; 33:2744–2751; Choi et al, Nat Rev Neurol. 2012 28;8:214-22
1. Induction
fluid management
electrolyte administration
insulin
adjust ventilator settings
treat!
start adequate monitoring
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Risk for
hypovolemia
electrolyte disorders
hyperglycemia
CO2 production
shivering
Polderman et al CCM 2005; 33:2744–2751; Choi et al, Nat Rev Neurol. 2012 28;8:214-22
1. Induction
heart
blood
infections
GI
2. Maintenance
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
TH: Cardiovascular system
≤35°C: Negative chronotropic effects
Polderman, K. H, ICM 2004,30, 757–769 ; Bergman, R. et al. Eur. J. Anaesthesiol.2010.27, 383–387
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
AE: Cardiovascular system
≤35°C: Negative chronotropic effects
≤32°C Prolonged PR, QT intervals ≤ 28°C Atrial fibrillation
Ventricular arrhythmias at temps <28-30° C)
Polderman, K. H, ICM 2004,30, 757–769 ; Bergman, R. et al. Eur. J. Anaesthesiol.2010.27, 383–387
TH: Cardiovascular system
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
AE: Cardiovascular system
≤35°C: Negative chronotropic effects
≤32°C Prolonged PR, QT intervals ≤ 28°C Atrial fibrillation
Ventricular arrhythmias at temps <28-30° C)
33°C safe lower limit in critically ill pts
Polderman, K. H, ICM 2004,30, 757–769 ; Bergman, R. et al. Eur. J. Anaesthesiol.2010.27, 383–387
≥33°C: generally well tolerated Bradycardia ( CO) increased myocardial contractility
BP (cold diuresis, endocrine)
TH: Cardiovascular system
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Risk for
hypovolemia
electrolyte disorders
hyperglycemia
CO2 production
shivering
Polderman et al CCM 2005; 33:2744–2751; Choi et al, Nat Rev Neurol. 2012 28;8:214-22
1. Induction
heart
blood
infections
GI
2. Maintenance
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
• Platelet dysfunction and thrombocytopenia (33-35°C)
immediately reversed with restoration of temperature
• Coagulation tests prolonged (PTT, ROTEM)
• The risk bleeding is very low
• No significant bleeding complications seen in trials
Hemmen TM et al, Stroke 2010 ;41:2265-70
Poldermann KH et al, Lancet 2008;371:1955-69
Spiel AO, eta l Resuscitation. 2009;80:762-5
TH: Hematological abnormalties
Hemmen TM et al, Stroke 2010 ;41:2265-70
Risks of bleeding does not prevent treatment
Concomitant use of thrombolytics, anticoagulation,
antiplatelets acceptable
CAVE: combination with acidosis
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Risk for
hypovolemia
electrolyte disorders
hyperglycemia
CO2 production
shivering
Polderman et al CCM 2005; 33:2744–2751; Choi et al, Nat Rev Neurol. 2012 28;8:214-22
1. Induction
heart
blood
infections
GI
2. Maintenance
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
< 35°C Immune suppression
Impaired neutrophil and macrophage function
Inhib release of pro-inflammatory cytokines
Insulin resistance and hyperglycemia
< 33°C WBC, impaired leukocyte function < 33°C
TH - infections
Increased risk of infections
Kimura A at al , 2002 CCM30:1499–1502; Aibiki M et al, 1999, J Neurotraum 16:225–232; Salman
H et al, 2000, Acta Physiol Scand 168:431–436; Polderman, K. H, ICM 2004,30, 757–769
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
TH: Infections
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
• N = 102
Infections and Normothermia
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
high vigilance of infections in TH- patients is needed
Microbiological surveillance
blood, urine, respiratory specimen
Radiological pneumonia surveillance
Check lab parameters
CRP, PCT, leukocytes
Check catheter insertion sites
timely catheter replacement
Avoid hyper and hypoglycemia
Infections- what to do?
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Usually occur < 35°C
– Impaired bowel function
– Impaired intestinal motility
– Potential for ileus
– Mild pancreatitis (occurs frequently!)
– Liver enzymes
TH: GI changes
Decreased drug metabolism by the liver
vasoactive drugs
opiates
sedatives
barbiturates
neuromuscular blocking
antiepileptic drugs
some beta-blockers
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Most dangerous phase of induced hypothermia
Concerns/Precautions
– Rebound ICP
– Vasodilatation
• Dramatic changes in hemodynamic profile
– SIRS type syndrome
• increased catecholamines, O2 consumption
– Rebound electrolytes (hyperkalemia)
– Cardiac arrhythmias
>>>>> monitor and go slow <<<<<
3. Rewarming
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
• Neurological Changes
Consciousness
Lethargy
Coma
• Requires intubation, mechanical ventilation, sedation
• Sometimes paralysis
• Neuro exam?
what’s the best monitoring?
TH: Neurological changes
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R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
respiratory
monitoring
PbtO2
drugs,
interventions
cardiovascular
monitoring
cerebral
metabolism
CBF
cardiac
monitoring
ICP/CPP
Brain
temperature
Neuromonitoring Innsbruck II Multimodal Neuromonitoring
EEG/CSD
![Page 50: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/50.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
respiratory
monitoring
PbtO2
drugs,
interventions
cardiovascular
monitoring
cerebral
metabolism
CBF
cardiac
monitoring
ICP/CPP
Brain
temperature
Neuromonitoring Innsbruck II Multimodal Neuromonitoring
EEG/CSD
![Page 51: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/51.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
respiratory
monitoring
PbtO2
drugs,
interventions
cardiovascular
monitoring
cerebral
metabolism
CBF
cardiac
monitoring
ICP/CPP
Brain
temperature
Neuromonitoring Innsbruck II Multimodal Neuromonitoring
EEG/CSD
![Page 52: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/52.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Neuromonitoring Innsbruck II
![Page 53: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/53.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
No Neuro deficits
Mild Cognitive Deficits Mild cognitive deficits
Amnestic (retrograde)
Neuromonitoring Innsbruck II
![Page 54: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/54.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
successful application of hypothermia requires
• Team effort
• Requires vigilance, experience
• Guidelines and protocols
• Provide training for the team
![Page 55: Methods and practical aspects of hypothermia in the Neuro-ICU](https://reader033.vdocuments.mx/reader033/viewer/2022060204/629336df69c2ef28ae42abd5/html5/thumbnails/55.jpg)
R. Helbok, Moscow 2012 Department of Neurology Innsbruck Medical University, Austria
Questions?
Neurological ICU Innsbruck…