Cool to be Cold: Induced Hypothermia in TBI - PowerPoint PPT Presentation

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Cool to be Cold: Induced Hypothermia in TBI

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Bolus 1 liter of refrigerated 0.9% normal saline over 30 minutes PRN temperature ... May repeat using 500cc bolus, up to 2 liters. Hypothermia blanket ... – PowerPoint PPT presentation

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Title: Cool to be Cold: Induced Hypothermia in TBI


1
Cool to be Cold Induced Hypothermia in TBI
c
2
Brain
  • Brain temperature is 2 - 4 degrees higher than
    body temperature
  • As the temperature rises there is an increase in
    metabolic rate of brain cells
  • A Normal temperature is essential in any
    individual with brain injury

3
Temperature Control
  • Skin surface contains temperature sensing cells
  • Hypothalamus
  • Thermoregulatory control center
  • Individual set point
  • First response to overheating is sweating
  • First response to cold is shivering
  • Metabolic heat production increases to raise temp

4
Clinical Studies
  • Cardiopulmonary arrest
  • 40-50 of in hospital cardiac arrests witnessed
    (Mortality 65-90)
  • Mild hypothermia beneficial in witnessed arrest,
    brief interval lt15 minutes, Ventricular
    Fibrillation to Ventricular Tachycardia, In the
    Emergency Department within 60 minutes
  • TBI
  • Aimed at reducing secondary injury
  • GCS 5 or 6 on admit
  • Favorable outcome 29 vs. 8
  • Mortality 52 vs. 76

5
What happens in hibernation?
6
  • Maintains normal cell function with
  • Reduced metabolic rate
  • Reduced heart rate and respiratory rate
  • Reduces energy needs

7
So why use hypothermia?
  • By slowing the metabolic rate the body has
  • Reduced oxygen needs
  • This will in turn
  • Reduce intracranial pressure
  • Limit secondary injury to the brain

8
Induced mild hypothermia
  • 32 - 34 Centegrade (89.6 93.2 Fahrenheit)
  • Within 4 hours
  • Duration 24 - 48 hours
  • Intravenous cooling to reduce shivering


9
Inclusion Criteria
  • General
  • Age 18 or greater
  • Systolic Blood pressure can be maintained gt 90
    (may be with fluids low-moderate dose
    pressors)
  • Traumatic Brain Injury
  • Glasgow Coma Score lt 8
  • Able to initiate therapy within 4 hours of
    trauma
  • Refractory Increased Intracranial Pressure
  • Intracranial pressure gt 30 despite maximal
    medical therapy

10
Problems associated with Hypothermia
  • Lowers heart rate and blood pressure
  • Reduces cardiac output
  • Difficulty in normal formation of clots
  • Increase bleeding tendencies
  • Reduces resistance to infection
  • Thermal discomfort - Shivering

11
Exclusion Criteria
  • Infection
  • Platelet count lt 75,000/mm3
  • Medical instability related cardiac dysrhythmias
    before initiation of hypothermia
  • Pregnancy

12
Exclusion Criteria
  • Known, pre-existing significant clotting problems
    or bleeding tendencies
  • Patient has known hypersensivity to hypothermia
    (Raynauds Disease, Sickle Cell disease)

13
Guidelines
  • Adequate sedation shivering control
  • All patients intubated and ventilated
  • Standard ICU monitoring
  • NG tube/Foley catheter/Arterial line
  • Foley temperature probe

14
Patient Monitoring
  • Continuous monitoring of heart rate, Blood
    Pressure Oxygen saturation
  • Temperature
  • Every 15 minutes during hypothermia induction
  • Every 30 minutes hypothermia maintenance
  • Check blood Sugar every 6 hours

15
Labwork
  • Every 4 hours X3
  • BMP Mg level
  • Daily (until 24 hrs after return to normal
    temperature)
  • ABGs, CBC with diff, BMP, Mg, Phos, Serum
    osmolarity, PT/INR/PTT, Troponin, CPK
    Bld/Urine/Sputum CX

16
Induction Maintenance
  • Within Emergency prior to intravascular cooling
  • Refrigerated saline
  • Bolus 1 liter of refrigerated 0.9 normal saline
    over 30 minutes PRN temperature greater than 34
    C (93.2 F).
  • May repeat using 500cc bolus, up to 2 liters

17
  • Hypothermia blanket
  • Use hypothermia blanket until intravascular
    cooling line place and system up and running.
  • Remove once intravascular cooling initiated

18
Maintenance
  • Intravascular cooling (ALSIUS Coolgard )

19
Coolgard System
  • Intravascular cooling
  • Programs target temperature and rate which
    temperature is reached
  • Triple lumen catheter
  • (3) microtherm balloons
  • Cool saline flows through the catheter and
    balloons
  • Blood flows by balloons cooling blood
  • Cools from the inside out thus less shivering

20
Current studies
  • RhinoChill System
  • Uses nasal passageway
  • close proximity to the brain
  • A natural heat exchanger

21
Ice Lavage
  • Enteric cooling
  • 250 cc ice water per NG
  • Clamp NG for 15 minutes
  • To low intermittent suction for 15 minutes
  • Repeat as needed

22
Surface Cooling
  • Hypothermia blanket
  • Place on cooling blanket sheet between patient
    and blanket
  • Set hypothermia unit at 4.0C (39.2F) initiate
    alternative cooling methods

23
Surface Cooling
  • Ice Water baths/Ice ETOH baths
  • Ice packs to venous pools
  • Arm pits, back of neck, groin
  • Shivering suppression
  • Propofol (sedative)
  • Midazolam (sedative)
  • Vecuronium (paralytic)

24
Medications
  • Pain Management
  • Fentanyl
  • Medications to maintain blood pressure
  • Phenylephrine
  • Dopamine
  • Levophed
  • Miscellaneous medications
  • Tylenol scheduled every 4 hours or PRN
  • Potassium Supplement - goal potassium 3-3.5

25
Patient Management Issues
  • DVT Prophylaxis
  • SCDs
  • Heparin SQ (unless contraindicated)
  • Nutrition
  • May attempt if the patient is able to tolerate
    HOB continuously at 30 degrees
  • Hold feedings if residuals gt 200ml
  • Resume when residuals lt 100 ml

c
26
  • Serum Potassium
  • Do not provide supplement unless K lt 3.0 mmol/l
    or cardiac instability
  • Target K 3.5/cardiac stability

Hypokalemia is expected with hypothermia as
potassium moves into the cell, as the patient is
re-warmed there will be a rebound effect,
therefore aggressive supplement of K is nor
recommended.
27
Re-warming process
  • Re-warm 0.3 0.5per hour
  • Current trend is 0.1 C per 1-2 hours
  • Set machine the desired rate of warming
  • Wean Vecuronium
  • Wean off Propofol
  • Wean Midazolam
  • If sedation indicated maintain a modified Ramsey
    score of 4
  • Resume if shivering occurs
  • Hold potassium supplements 8 hrs prior to
    re-warming

28
General Issues
  • Intact central thermoregulation center makes it
    difficult to lowering body temperature
  • The intravascular cooling devices maintains
    temperature goal via alternating cooling
    heating cycles

29
  • Femoral catheter more effective in cooling
    (larger vessel)
  • Mitten Socks if having difficulty with
    shivering keep hands feet covered
  • Deviation in temperature in a couple of degrees
    lower increases risk of cardiac arrhythmias
    bradycardia

30
Future
  • Additional clinical trials in TBI
  • Early onset to cooling
  • Field
  • Emergency Room

31
Case Study
  • 21 year female lost control of her car
  • Unresponsive at the scene
  • In the Emergency Room
  • Airway placed
  • Intracranial pressure (ICP) monitor placed
  • Increases in her ICP noted with minimal
    stimulation despite sedation

32
  • Cooled to 91 degrees for 10 days with good
    control of ICP
  • Given paralyzing drugs, sedation, pain
    medications during this time
  • Tracheostomy GT placed
  • Gradually re-warmed over 24-38 hour period

33
  • After re-warming process ICP stable localizing
    to stimuli
  • Transferred out of the ICU and eventually to
    rehab
  • Following simple commands tracking environment

34
  • After discharged continued in out patient
    rehabilitation
  • Returned to school Massage therapist
  • Continual problems
  • Memory
  • Year of 2006 in bits pieces
  • Overall memory difficulties
  • Mood
  • decrease patience, labile emotions

35
  • Did hypothermia help her?
  • Why did she recover?
  • Will she ever return to her old self

All are unknown . We only know that she
recovered despite unbelievable odds
36
  • References
  • Clifton, G L. (2004). Is keeping cool still hot?
    An update on hypothermia in brain injury. Current
    Opinion in Critical Care, 10116-119.
  • Clifton, G.l., et al. (2001). Lack of effect of
    induction of hypothermia after acute brain
    injury. The New England Journal of Medicine,
    344(8) 556 563.
  • Gupta, A.K., Al-Rawi, P.G., Hutchinson, P.J.,
    Kirkpatrick, P.J. (2002). Effect of hypothermia
    on brain tissue oxygenation in patients with
    severe brain injury. British Journal of
    Anaesthesia, 188-192.
  • Polderman, K. H. (2004). Application of
    therapeutic hypothermia in the ICU opportunities
    and pitfalls of a promising treatment modality.
    Part 1 Indications and evidence. Intensive
    Critical Care Medicine, 30556-575.
  • Polderman, K. H. (2004). Application of
    hypothermia in the intensive care unit
    opportunities and pitfalls of a promising
    treatment modality. Part 2 practical aspects and
    side effects.
  • Schwab, S., Schwarz, S. Spranger, M. , Keller, E.
    , Bertram, M., Hacke, W. (1998). Moderate
    hypothermia in the treatment of patients with
    severe middle cerebral artery infarction. Stroke,
    292461-2466.

37
Thank you
38
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