hypothermia is one of the major causes of neonatal death

1. By Dr Abdurahman S.
Moderator Dr Hana A.(pediatric surgeon)

2.  INTRODUCTION
 THERMOREGULATION
◦ HEAT PRODUCTION
◦ HEAT LOSS
◦ Thermoregulation and Anesthesia
 HYPOTHERMIA
 PERIOPERATIVE HYPOTHERMIA PREVENTIVE MEASURES
 COMPLICATION OF PERIOPERATIVE HYPOTHERMIA
 REFERENCES

3.  Maintaining a neutral thermal environment is one of
the key physiologic challenges that a newborn must
face after delivery
 In early 1900s
◦ Realized warm environment is essential
 Last decades
◦ Improved care of newborns in developed world
◦ Still common problem in developing countries
 Thermal care is central to reducing morbidity and
mortality in newborns.

4.  Thermoregulation
◦ The ability to balance heat production and heat loss in
order to maintain body temperature within a certain
normal range(36.5-37.5ºc)
 Goals
◦ Maximize metabolic efficiency
◦ Reduce oxygen use
◦ Protect enzyme function
◦ Reduce calorie expenditure

5.  Thermoneutral zone:
◦ The range of ambient temperature required for the
infant (for each gestational age and weight) to keep a
normal body temperature and a minimal basal
metabolic rate
 Extreme environmental temperature variations
◦ overcome this effective thermoregulatory function
 lead to heat- or cold-related illnesses

6. Radiation
convection
Evaporation
Conduction

7.  Heat loss occurs from
energy needed to vaporize
liquids
◦ skin,lung,mucosa and serosa
 Accounts major heat
loss…50%
 Depends on
◦ The exposed body surface area
◦ Relative humidity of the
ambient air
◦ The speed of the wind

8.  Heat loss to the nearby cold
objects with out physical
contact
 Major source of heat loss in
most surgical patients(60%)
 Depends on
◦ The T differences
◦ The body exposed to the
environment
◦ Distance between two surfaces
◦ The skin blood flow

9.  Heat transfer from warm to
cool objects with direct contact
 Accounts 5%
 Depends on
◦ Area of body exposed
◦ Relative difference in temperature
◦ Thermal conductivity

10.  Special type of conduction heat
loss through moving gases
 Accounts 15%
 Second most common heat loss
in anesthetized pt
 Depends on
◦ The temperature difference
◦ The speed of air
 Proportional to the square root of air
speed

11. Cold Items on Bed
Cold Walls
Cold Room Temp.
Radiation
Cold Blankets
Cold X-ray plates
Cold Scale
Conduction
Passing Traffic
Oxygen left on
Bed Near Air Vent
Convection
Tachypnea
Bath
Wet Diaper
Evaporation
Baby
d

12.  During pregnancy
◦ Maternal mechanisms maintain the intrauterine
temperature
 After birth
◦ The newborn must adapt to their environment by the
metabolic production of heat
 Primary source of heat in the newborn
◦ Non -shivering thermogenesis
◦ Metabolic processes
◦ Voluntary muscle activity
◦ Involuntary muscle activity (shivering thermogenesis)??
◦ Peripheral vasoconstriction

13.  Metabolism of brown adipose tissue
◦ Initiated in hypothalamus
◦ Sympathetic nervous system
◦ Norepinephrine release at the site of brown fat
◦ Non- shivering thermogenesis is initiated and brown
fat is burned for energy to keep the body temperature
stable
 This is the infant’s initial response

14.  Brown fat is an
energy source for
infants
 It can be found:
◦ Near Kidneys and
adrenals
◦ Neck, mediastinum,
scapular, and the
axilla areas.
 Can not be replaced
once used

15.  In full term infants
◦ 4 % -10% of adipose deposits
 In preterm infants
◦ Not be found until 26-30 weeks gestation
◦ Then only in small amounts
 Disappears 3-6 months after birth
◦ In cold stressed infants
 Disappears sooner
 Hypoxia causes impairment of brown fat
metabolism

17.  A large surface area-to-body mass ratio
 Decreased subcutaneous fat
 Greater body water content
 Immature skin leading to increased evaporative
water and heat losses
 Poorly developed metabolic mechanism for
responding to thermal stress (e.g. no shivering)

18.  Premature
 SGA
 Neuro problems
 Endocrine
 Cardiac / respiratory problems
 Large open areas in the skin
 Sedated Infants
 Drug exposure

19.  Anesthesia-induced inhibition of central
thermoregulation
 Internal redistribution of heat from the central
to the peripheral compartment
 Reduction in metabolic heat production
 Increased exposure to the environment
◦ up to 90% of heat loss occurs via skin mainly by radiation and convection

20.  Patterns of body temperature
after general anesthesia
1.Internal redistribution of heat
2.Thermal imbalance
3.Thermal steady state (plateau or
rewarming)

22. Definition:
 It is a condition characterized by lowering of
body temperature than 36.5°C.
 Could be classified based on:
◦ Causes:
 Primary and secondary
◦ Severity:
 Mild( 35-36.4ºc)
 Moderate(32-34.9ºc)
 Severe (<32ºc)

23.  Hypoxemia
 Hypoglycemia
 Respiratory & metabolic acidosis
 Inhibition of surfactant production
  pulmonary blood flow
  pulmonary vascular resistance compromises the
delivery of oxygen at the cell level
  risk of developing PPHN

24.  Mild hypothermia
◦ Skin-to-skin contact
 In a warm room
 At least 25°C
◦ Covering of head with
cap
◦ Cover mother and
newborn with warm
blankets
 Moderate hypothermia
◦ Under a radiant heater
◦ In a warmed incubator
◦ In a heated water-filled
mattress
◦ skin-to-skin contact with the
mother
 Severe
◦ Warm incubator
◦ Skin to skin contact in warm room

25.  Warm chain
1)Warm delivery room
2)Immediate drying
3)Skin-to-skin contact
4)Breast-feeding
5)Bathing and weighing postponed
6)Appropriate clothing/bedding
7)Mother and baby together
8)Warm transportation
9)Warm resuscitation
10)Training and awareness raising


26.  RADIANT HEAT LOSS
◦ Avoiding placement of incubators,
warming tables and bassinets near cold
windows, walls, air conditioners, etc..
◦ Placing a knit hat on the infant’s head
◦ Wrapping tiny babies in saran or “bubble”
wrap
◦  environmental temperature

27.  EVAPORATIVE HEAT LOSS
◦Keeping the neonate and his/her
environment dry
◦Drying the baby immediately after
delivery
◦Placing preterm or SGA infant in
occlusive wrap/bag at delivery
◦Delay bath until temperature is
stable

28.  CONDUCTIVE HEAT LOSS
◦ Placing a warm diaper or blanket
between the neonate and cold surfaces
◦ Placing infant on pre-warmed table at
time of delivery
◦ Warming all objects that come in
contact with the neonate
◦ Admitting infant to a pre-warmed
room
◦ Skin to skin contact

29.  CONVECTIVE HEAT LOSS
◦ Providing warm ambient air temperature
 Placing infants less than 1500 grams in
incubators
 Keeping portholes of the incubator closed
 Warming all inspired oxygen
 On open warmers keeping sides up and
covering infant if possible
 Using Infant Servo Temperature Control

30.  Preoperative warming
◦ To keep a patient comfortably warm
◦ To prevent phase I hypothermia
◦ Techniques
 Active- with forced air warming
 Passive- with passive insulation
 Warm blanket
 Socks
 Warm circulating water mattress
 Head covering
◦ Duration ???
 30’ to 1hr

31.  Operating room warming
◦ Reduces the temp. gradient
◦ Ideally
 For preterm …minimum 29ºc
 Term…..27ºc
 Adult……21ºc
◦ Relative humidity
 40-60%
 Using warm fluids
◦ Both IV and irrigations
 Humidified and warm inspired gases
◦ With HME device.

32.  Appropriately covered during any transport
◦ Older children and adults
 A warm blanket may be sufficient
◦ Neonates and premature babies
 Transport in a prewarmed incubator, or
 Chemical heating pads

33.  Most commonly used to warm patients in post
anesthesia recovery room
◦Forced air blankets
◦Radiant heaters

35.  Increased intraoperative blood loss and
transfusion
 Adverse cardiac events
 Prolonged stay in RR and hospital
 Delayed surgical wound healing and high rate of
infection
 Cold induced coagulation dysfunction
 Prolonged drug metabolism

37.  CORAN PEDIATRICS SURGERY 7TH EDITION
 Atlas procedures in neonatology
 Pediatric Anesthesia : Bruno Bissonnette
 Thermal protection of the newborn: a practical
guide. WHO/RHT /MSM/97
 Uptodate

38. 