Induced HypothermiaInduced Hypothermia
Nutritional considerations for infants undergoing induced hypothermia following acute perinatal hypoxic ischemia
Trayce Gardner, MEd, RD, CSP, LD
Presented at Fall ONN Meeting 2011
Columbus, Ohio
Hypoxic Ischemic Hypoxic Ischemic Encephalopathy (HIE)Encephalopathy (HIE)
Linked with high-risk of morbidity (adverse neurological and developmental outcomes) and mortality
Principal cause for many cases of cerebral palsy
Definition of HIEDefinition of HIE
Any event that leads to a decreased oxygen and blood supply to the brain can result in hypoxic ischemic encephalopathy with both clinical and laboratory findings
Selway, L. D. State of Science Hypoxic Ischemic Encephalopathy and Hypothermic Intervention for Neonates. Advances in Neonatal Care. 2010; Vol. 10, No.2: 60-66.
Long, M. and Brandon, D. Induced Hypothermia for Neonates With Hypoxic-Ischemic Encephalopathy. JOGNN. 2007; Vol.36, 3: 293-298
Conditions that can lead to Conditions that can lead to HIEHIE
Umbilical cord prolapsePlacental abruptionAcute blood lossUterine rupture
Phases of HIEPhases of HIE
Initial insult Conversion to anaerobic
metabolism in the neonatal brain
Subsequent abnormal brain function
Accumulation of sodium, calcium, and water within the cells; potassium shifts out of the cells
Cell death as a result of free radical production and cell apoptosis
Secondary injury Occurs 6 to15 hours
following the initial event Following resuscitation of
the infant, the brain attempts to regain normal function
Mitochondrial function remains impaired; inflammatory response continues to promote injury
This is the time frame in which induced hypothermia is initiated to prevent reperfusion injury
Induced Hypothermic Induced Hypothermic TherapyTherapy
Has been employed in clinical practice in the NICU setting since the late 1990s
Selective head cooling or total body cooling
Deep cooling
Nutritional Implications“Optimizing nutrition is important when
caring for a neonate with HIE but is complicated by compromised bowel perfusion.”
“Total parenteral nutrition is initiated and electrolytes carefully monitored.”
“Adequate protein intake is necessary for growth and repair…”
“The unit dietitian may aid the health care provider in reviewing the patient’s laboratory values and growth trends…”
Long, M. and Brandon, D. Induced Hypothermia for Neonates With Hypoxic-Ischemic Encephalopathy. JOGNN. 2007; Vol.36, 3: 293-298
Induced hypothermiaEligibility criteria
◦Term or near term infant Signs & symptoms of moderate
to severe HIE Low 10 minute Apgar scoreLow cord pH or postnatal blood
pH <7.0Severe metabolic acidosis (base
deficit >16)
HIE - Nutritional ConsiderationsEligibility criteria
◦ Term or near term infant
S/S Moderate to Severe HIE
Low 10 minute Apgar score
Low cord pH or postnatal blood pH <7.0
Severe metabolic acidosis (base deficit >16)
Baby is term or near term
Need for close monitoring of TPN metabolic tolerance
Concern about gut perfusion
Possible low fluid/Cal needs early on – followed by high nutrition, low Cal needs later in life; need for ongoing nutrition follow-up
Case Study
Maternal History and Delivery
37 year old G3 P2 with history of hypertension and sleep apnea; chronic pain – on methadone. Underwent emergency C/S due to bradycardia and NRFHT (non-reassuring fetal heart-rate tracing).
Case StudyDelivery
Infant had no heart rate initially; received chest compressions, intubation, and PPV (positive pressure ventilation) in the delivery room. No respiratory efforts until after moved to SCN (special care nursery)
Pupils dilated and nonreactive; UVC gas, pH 6.96 and base deficit of 25; UAC gas, pH 7.09 with base deficit 20
Blood glucose 119 mg/dL; Hematocrit 51%
Received NS (normal saline) bolus
Case Study
38-3/7 week infant, AGA, S/P HIE, transferred to NICU, cooling protocol initiated
BW: 3.25 kgLength: 48 cmHead Circumference: 34 cm
Case StudyDOL 1 – NPO (Cooling)
Fluids: UVC: D10% with trophamine 2.5 g/kg and 1.5
mEq calcium/kg at 8.1 mL/hr
(60mL/kg/d)
UAC: ¼ Sodium Acetate at 0.5 ml/hr (3.7 mL/kg)
Initial neonatal EEG obtained
pH 7.23, base deficit range 7-10
Case Study
DOL 2 (Cooling)
TPN order: 80 mL/kg/d; D10% with 3 g Trophamine/kg/d and 1.5 g lipids/kg/d. 2 mEq Na Acetate/kg.
~51 kcal /kg/dBase deficit 8
Case StudyDOL 3 (Cooling)
TPN order: 80 mL/kg/d; D10% with 3 g Trophamine/kg/d and 3 g lipids/kg/d.
~56 kcal /kg/d
Wt: 3.100kg (95% BW) Length 48 cm, HC 34 cm
pH 7.39, base deficit 1, total protein 5.2 g/dL, albumin 2.9 g/dL, total bilirubin/direct bilirubin within normal limits (WNL)
Case Study
DOL 4 (Rewarming)
TPN order: 80 mL/kg/d; D11% with 3 g Trophamine/kg/d and 3 g lipids/kg/d.
~71 kcal /kg/d
Case Study
DOL 5Ordered to PO (term infant
formula) minimum of 20 mL/kg/d Can advance to 40 mL/kg/d later in
day pending readinessTPN changed to D 9.5%, 1.5 g/kg
Trophamine; allowed lipids to run out
Case Study
Second EEG showed 20-30 second seizure activity and staring episodes
Phenobarbital started
Case StudyDOL 6Infant continued on term infant formula;
allowed to ad lib with minimum of 120 mL/kg/d
Took volumes of 30 – 58 mL per feeding during the day, then 37 – 60 mL later in evening
Met minimums and took closer to 152 mL/kg/d
Started multivitamin at 1 mL/d for 400 IU of vitamin D due to <500 mL of formula per day and initiation of Phenobarbital
Case StudyDOL 9Continued to take 150+ mL/kg/d
term infant formula~100 kcal/kg/d, 2.1g pro/kg/d
Wt: 3.150 kg, Length 51 cm, HC 34.2
97% BW, gain of 7 g/d over past week and taking all po