CCP 340 Neonatal Anatomy and Physiology 👶🏻 Flashcards

Question 1

Q

Neonatal airway anatomical features

aka from an ANATOMICAL perspective why do neonates suck to intubate

Answer

A

VERY Small, compressible airway

2. Relatively large tongue and occipital area

Question 2

Q

Neonatal airway physiologic features

aka from an PHYSIOLOGIC perspective why do neonates suck to intubate

Answer

A

Low Functional Residual Capacity

2. High metabolic rate and oxygen consumption (desaturate FAST)

Question 3

Q

Emergency evaluation of the newborn should be framed by three questions

Answer

A

Was it a term birth? (37 weeks)
Does the neonate have good tone?
Is the neonate breathing or crying effectively?

Negative responses to any of the above questions should prompt further evaluation and likely initiation of resuscitation procedures.

Positive responses to all questions and no additional provider concerns indicate that resuscitation is likely not needed and the infant can stay with the mother.

Question 4

Q

main aetiologies for Neonatal distress and arrest

Answer

A

common: respiratory
rare: severe anemia or congenital/cardiac

Question 5

Q

location for PRE-ductal pulse oximetry

Answer

A

right upper extremity

Question 6

Q

what percent of term infants require drying and stimulation to trigger breathing reflex

Question 7

Q

what percent of term infants will breathe spontaneously within the first 30 s of life and require no additional management

Question 8

Q

what percent of term infants require positive pressure ventilation to trigger breathing reflex

Question 9

Q

what percent of term infants require intubation for respiratory support

Question 10

Q

what percent of full-term infants require chest compressions and epinephrine to achieve transition

Question 11

Q

detail of the pathophysiology related to rapid shift in fetal circulation upon delivery

aka, how does CVS/respiratory shit change for baby once it gets outta mom

Answer

A

Clamping of the umbilical cord ↑ the baby’s SVR
Blood flow through the ductus venosus ↓ and gradually closes over the first 3-7 d, thereby ↑ blood flow to the IVC
Lung expansion causes a ↓ in pulmonary vascular pressure, which ↑ right atrial flow
The ↑ in right atrial flow ceases the flow through the foramen ovale, which then closes almost immediately.
These alterations in blood flow through the ductus arteriosus → its closure within the first week of life
obtaining an SpO2 on the right hand (preductal) gives the most accurate assessment of central oxygen levels.
This process also explains the gradual shift in appropriate O2 levels from <65% at birth to 85%-95% at 10 min of age

Question 12

Q

maternal risk factors which increase prenatal stress on the fetus leading to higher rates of neonatal resuscitations

AKA, in what cases should you anticipate an NRP resus

Answer

A

Active infection
Gestational diabetes
Gestational hypertension
Illicit drug use
Lack of prenatal care
Pre-eclampsia/eclampsia
Prescription or hospital-administered drug use (including general anesthesia or magnesium therapy)

Question 13

Q

The normal neonatal respiratory rate

Answer

A

40-60 breaths per minute

Question 14

Q

The normal neonatal heart rate

Answer

A

120-160 beats per minute

Question 15

Q

how does PPV help a neonate “transition”

Answer

A

The initiation of respiration is the first task in neonates.
positive-pressure respiratory support aids in fluid absorption in the lungs and expands the lung volume → a decrease in PVR → an increase in right atrial flow → improved CVS/pulmonary dynamics/oxygenation

Question 16

Q

Pregnancy complications and fetal factors which play a role in an increased likelihood of NRP resuscitation requirements

Answer

A

Multiple gestation (particularly <35 wk)
Oligo- or polyhydramnios
Hydrops fetalis
Fetal congenital malformations
Premature rupture of membranes (rupture before labor begins) or prolonged rupture (>18 h)
Preterm delivery (<36 wk)
Non-reassuring fetal heart rate or bradycardia
Meconium-stained amniotic fluid
Breech presentation
Shoulder dystocia
Nuchal cord
Emergency cesarean section

Question 17

Q

define gestational age

Answer

A

Gestational age is loosely defined as the number of weeks between the first day of the mother’s last normal menstrual period (LMP) and the day of delivery

Question 18

Q

APGAR: “Appearance”

Answer

A

Blue, pale (0)
Centrally pink (1)
Pink (2)

Question 19

Q

APGAR: “Pulse”

Answer

A

Absent (0)
<100 bpm (1)
>100 bpm (2)

Question 20

Q

APGAR: “Grimace”

Answer

A

Floppy (0)
Minimal responsiveness (1 )
Responds to stimulation (2)

Question 21

Q

APGAR: “Activity (tone)”

Answer

A

Absent (0)
Flexed (1 )
Active (2)

Question 22

Q

APGAR: “Respirations”

Answer

A

Absent (0 )
Slow (1)
Vigorous (2)

Question 23

Q

neonatal hypoglycaemia definitions

Answer

A

Hypoglycemia in the first 1-4 h of life is considered at levels <2.2 mmol/L
From 4-24 h of life, glucose should be >2.5 mmol/L

Question 24

Q

when does a fetus become viable?

Answer

A

23 weeks +/- 1wk

Question 25

Q

SGA definition

Answer

A

small for gestational age

Question 26

Q

AGA definition

Answer

A

appropriate for gestational age

Question 27

Q

LGA definition

Answer

A

large for gestational age

Question 28

Q

IUGR definition

Answer

A

intrauterine growth restriction

Question 29

Q

extreme preterm definition

💵💵💵 MONEY SLIDE 💵💵💵

Question 30

Q

preterm definition

Question 31

Q

late preterm definition

Answer

A

35-37 wks

Question 32

Q

term definition (gestational age)

Answer

A

37-42 wks

Question 33

Q

at what week in embryonic development does the neonate start producing surfactant?

Question 34

Q

at what week in embryonic development does the neonate form alveolar sacs?

Question 35

Q

fluid choice for first 24hr in a neonate

Answer

A

D10W (no electrolytes, because kidneys aren’t working until post 24h)

Question 36

Q

goal sats preterm infant

Question 37

Q

goal sats term infant

Question 38

Q

ml/kg/min for a neonate minute ventilation

👊👊👊CORE CONTENT👊👊👊

Answer

A

200-300 ml/kg/min

Question 39

Q

side effects of prostinaglandin

Answer

A

apnea
hypotension
fever

Question 40

Q

discuss the approach to oxygenation as part of the initial neonatal resuscitation

Answer

A

Oxygenation should not be aggressive. Hyperoxia is associated with ↑ morbidity and mortality.
Room air (21% oxygen) is sufficient during the initial stages of resuscitation.
Preductal (right hand) goal SpO2 at 1 min of life is 65%-70% and ↑ by ~5% per min.
The target SpO2 at 10 min of life is 85%-95%.
If the HR is <60 after 90 s of resuscitation at lower oxygen concentration, the oxygen concentration may be ↑ to 100% until the heart rate recovers

Question 41

Q

describe the “MR SOPA” mnemonic

Answer

A

Most neonates respond to positive pressure ventilation.
If positive pressure ventilation is ineffective, the “MR SOPA” mnemonic may be used to improve ventilation

M = mask (adjust mask for good seal)
R = reposition the airway
S = suction the mouth then nose
O = open the mouth with a jaw thrust
P = increase pressure until there is chest rise
A = airway control (ie, endotracheal tube)

Question 42

Q

primary reflexes in baby

Answer

A

suck, moro, grasp

Question 43

Q

side effect of pyridoxine (vitamin B6)

Question 44

Q

phenobarbital dosing for neonatal seizures

Answer

A

20mg/kg

then 10mg/kg x2

Question 45

Q

persistent projectile vomiting in a previously well baby (usually presents at 3-12 weeks of age)

Answer

A

typically pyloric stenosis

Question 46

Q

ml/kg/min for a paediatric minute ventilation

Answer

A

100-200mL/kg/min

Question 47

Q

neonate lung protective tidal volume

Question 48

Q

peds lung protective tidal volume

Question 49

Q

VITAMINS mnemonic for peds altered mental status

Answer

A

Vasculitis 
Infection 
Toxins 
Accidental Injury 
Metabolic 
intussusception 
Neoplasm
Seizures

Question 50

Q

calculating Maintenance fluids in Neonates

Answer

A

the 4-2-1 rule is not used in neonates as it overestimates the fluid requirements in the first few days and underestimates fluid requirements after day 4
In Neonates we order as total fluid intake (TFI) per day:

For full term infants:
Day 1: 60 cc/kg/day
Day 2: 80 cc/kg/day
Day 3: 100 cc/kg/day 
Day 4: 120 cc/kg/day 
Day 5: 140 cc/kg/day 
Beyond: 150 cc/kg/day

Question 51

Q

“intake” for fluid balance includes…

Answer

A

Intake includes:

IV fluids
Medications (IV, NG/GT)
Oral Solids & Fluids
NG/GT feeds
All flushes (NG, GT etc.)
Blood Products
TPN & Lipids

Question 52

Q

initial fluid choice for first 24hr of life in a neonate

Answer

A

D10W
maintenance electrolytes generally are not given before 24 hours of life because of the relatively volume-expanded state and normal isotonic losses during the first days of life

Question 53

Q

discuss the use of electrolyte containing fluids in the first 24 of life in a neonate

Answer

A

For infants receiving parenteral fluids, maintenance electrolytes generally are not given before 24 hours of life because of the relatively volume-expanded state and normal isotonic losses during the first days of life
Use D10W

Question 54

Q

Major Objectives of Maintenance Fluid Therapy include:

Answer

A

Provide WATER to meet physiologic needs/losses
Provide essential ELECTROLYTES (Na, K, Ca)
Provide minimum CALORIC needs

Question 55

Q

Maintenance Fluid Therapy definition

Answer

A

Represents the fluid and electrolyte requirements needed by the average individual with normal intracellular(ICF)and extracellular(ECF) fluid volumes OVER a 24-hr PERIOD.

Question 56

Q

why do Infants have HIGHER fluid requirements?

💵💵💵 MONEY SLIDE 💵💵💵

Answer

A

↑ Rates of Metabolism and Growth
↑ Caloric Expenditure translates into ↑ Fluid Requirements
↑ Insensible Fluid and Electrolyte losses d/t an ↑ BSA to Weight Ratio (almost 3x)
Lower Tubular Concentrating Ability, → higher obligatory fluid loss.
↑ Respiratory Rates result in ↑ insensible losses

Question 57

Q

factors to consider in terms of Choice of Intravenous Fluids

Answer

A

Age of the patient
Nutritional status and Mandatory Glucose Energy Requirements
Level of cellular injury and trauma
Type and volume of ongoing fluid losses and/or fluid shifts

Question 58

Q

discuss Glucose Requirements for Neonates and Infants

Answer

A

Glucose is the predominant fuel for the newborn brain and it depends on it exclusively.
Hypoglycemia (especially in the early neonatal period) predisposes to long-term neurological damage.
Normal adaptive mechanisms like gluconeogenesis and glycogenolysis are immature in neonates and infants. Hypoglycemia is particularly of concern in the premature and sick infant.
Therefore, it is important to consider maintenance glucose administration in these infants

Question 59

Q

discuss maintenance fluids in the first 24hr of a neonates life (assume healthy, normal term birth)

Answer

A

Neonates have ↑ total body water at birth, which must be redistributed and excreted.
Physiologic diuresis is observed during the first few days of life which leads to a decrease of 5-15% in body weight by the end of week 1
Therefore, no electrolytes are added to hourly maintenance fluids on DOL1 and sometimes up to DOL2.
D10W remains the primary hourly maintenance fluid on DOL-1. Thereafter as UO ↑, maintenance rates are ↑ and electrolytes (Na, K, Ca) added to the maintenance fluid mix (D10½NS or D10NS w/ K+)
Neonates and Infants who present for transfer should have their dextrose containing maintenance fluids continue during the transfer (except for brief interruptions). This will prevent intra-transfer hypoglycemia

Question 60

Q

name the Two right-to-left shunts occur in the fetus

Answer

A

Foramen ovale − Blood shunted from the right to left atrium
Ductus arteriosus − Blood shunted from the pulmonary artery to the aorta

Question 61

Q

umbilical vein carries oxygenated or deoxygenated blood?

Answer

A

oxygenated blood

Question 62

Q

umbilical artery carries oxygenated or deoxygenated blood?

Answer

A

deoxygenated

Question 63

Q

discuss the changes that exist in fetal hemoglobin vs normal hemoglobin

💵💵💵 MONEY SLIDE 💵💵💵

Answer

A

Fetal HgB has ↑ O2 affinity compared with adult hemoglobin, which facilitates ↑ O2 transport across the placenta.
The ↑ affinity of fetal HgB → high (~80%) O2 saturation, a level that promotes sufficient oxygen transport across the placenta to meet the metabolic needs of the fetus.

Question 64

Q

why does the fetus have low O2 tension in its circulating blood?

(average PaO2 in the fetus is between 25-55mmHg)

Answer

A

The low fetal O2 tension → pulmonary vascular constriction, which maintains PVR at a high level, thereby promoting right-to-left shunting through the foramen ovale and ductus arteriosus
basically, the fetus doesn’t need as much O2 to survive, and by keeping O2 levels low it preferentially shunts blood past the non-working lungs, keeping the baby alive

so S M R T

Answer 51

A

Fetal HgB (↑ O2 affinity of fetal HgB)
Decreased fetal oxygen consumption (baby is chilling inside mom, doesn’t need as much O2 to warm itself etc)
Differential blood flow − In the fetus, the blood flow is structured so that vital organs (eg, liver, heart, and brain) receive blood with a relatively high degree of oxygen saturation.

All the “best” blood goes to heart/liver/brain

Answer 52

A

Alveolar fluid clearance
Lung expansion
Circulatory changes with ↑ in pulmonary perfusion and systemic pressure, and closure of the right-to-left shunts of the fetal circulation

Answer 53

A

labor, initial breaths, and thoracic squeeze

Answer 54

A

umbilical cord clamped → rise in neonatal systemic BP.
lung expansion leads to ↓ PVR
These two changes lead to ↓ fetal right-to-left shunt at the ductus arteriosus + foramen ovale
These two changes also → increased blood flow through pulmonary arteries and lungs. This shift to left-to-right shunting → an increase in ventricular stroke volume, which is associated with an ↑ in cerebral oxygen saturation
With ↑ lung perfusion and expansion, neonatal O2 saturation is ↑, which stimulates closure of the ductus arteriosus
In addition, the ↑ pulmonary arterial blood flow raises pulmonary venous return to the LA and left atrial pressure
As the LA pressure ↑ and the RA pressure ↓, right-to-left shunting across the foramen ovale decreases.
Closure of the foramen ovale occurs when the LA pressure exceeds the RA pressure.

Answer 55

A

10% of newborns will need some intervention (usually just positioning, O2, suction, or BMV),

1% will require extensive resuscitative measures (full resus)

Answer 56

A

Maternal conditions − Advanced maternal age, maternal diabetes mellitus or hypertension, maternal substance abuse, or previous history of stillbirth, fetal loss, or early neonatal death
Fetal conditions − Prematurity, postmaturity, congenital anomalies, or multiple gestation
Antepartum complications − Placental anomalies (eg, placenta previa), or either oligohydramnios or polyhydramnios
Delivery complications − Transverse lie or breech presentation, chorioamnionitis, foul-smelling or meconium-stained amniotic fluid, antenatal asphyxia with abnormal fetal heart rate pattern, maternal administration of a narcotic within four hours of birth, or delivery that requires instrumentation (eg, forceps, vacuum, or cesarean delivery)

Answer 57

A

a lack of vigorous, regular spontaneous respirations at birth interferes with alveolar fluid clearance, lung inflation, and the fall in PVR

Answer 58

A

Mechanical blockage of the airway prevents the infant from making adequate initial breaths, interfering with alveolar fluid clearance, lung inflation, and the fall in PVR

Answer 59

A

term used when the PVR remains abnormally elevated after birth.
It results from blood shunting right to left through fetal circulatory pathways via the ductus arteriosus and foramen ovale, and can result in severe life-threatening hypoxemia and hypercapnia that may not respond to conventional respiratory support.
may be seen when adequate lung expansion and ventilation does not occur immediately after birth

Answer 60

A

Immature lungs are deficient in surfactant (difficult to inflate and ventilate)
Immature respiratory drive and weak respiratory muscles increase the likelihood of apnea and inadequate respiratory effort.

Answer 61

A

Large BSA to weight ratio, thin skin, and ↓ subcutaneous fat.
The smaller the infant, the more difficult it is to prevent hypothermia

Answer 62

A

Preterm infants have immature immune systems, ↑ the risk of acquired postnatal infection

Answer 63

A

Is the infant full-term?
Does the infant have good muscle tone?
Is the infant breathing or crying?

Answer 64

A

Initial stabilization (provide warmth, clear Airway if necessary, dry, and stimulate)
Breathing (ventilation and oxygenate)
Chest compressions
Administration of epinephrine and/or volume expansion

Answer 65

A

ACOG committee + AAP recommend a delay of at least 30 to 60 seconds; with some authors recommending a 2-5 minute delay

Answer 66

A

ACOG committee + AAP recommend a delay of at least 30 seconds

Answer 67

A

Dry the infant, keep warm and maintain body temperature, preferably with skin-to-skin contact with mother
Position airway and clear secretions if needed
Stimulation – Tactile stimulation of the newborn is initiated promptly after birth to facilitate respiratory effort. Efforts at stimulating the infant should not be prolonged and should be no more than 30 seconds before initiating next resuscitative steps

Answer 68

A

Positive pressure ventilation (PPV) at a rate of 40 to 60 breaths per minute

Answer 69

A

M = mask (adjust mask for good seal)
R = reposition the airway
S = suction the mouth then nose
O = open the mouth with a jaw thrust
P = increase pressure until there is chest rise
A = airway control (ie, endotracheal tube)

if this all fails, tube the kid or put in an iGel

Answer 70

A

Position and clear airway
Use pulse oximetry to monitor SpO2
Provide supplemental O2 to targeted preductal SpO2
Consider the use of CPAP

Answer 71

A

Unnecessary suctioning can produce a vagal response, → apnea and/or bradycardia

Answer 72

A

right upper extremity, usually the wrist or medial surface of the palm

Answer 73

A

1 minute – 60 to 65 percent
2 minutes – 65 to 70 percent
3 minutes – 70 to 75 percent
4 minutes – 75 to 80 percent
5 minutes – 80 to 85 percent
10 minutes – 85 to 95 percent

Answer 74

A

bronchopulmonary dysplasia

2. retinopathy of prematurity

Answer 75

A

oxygen concentration between 21-30%

2. 100% oxygen should NOT be used initially as it is associated with ↑ mortality

Answer 76

A

Chest compressions are initiated if the infant’s heart rate remains <60 bpm despite adequate ventilation for 30 seconds

Answer 77

A

compressions to ventilations at 3:1 @ 120 events/minute → 90 compressions + 30 breaths per minute

“One-and-Two-and-Three-and-Breathe”

Answer 78

A

IV epi at a dose of 0.01 to 0.03 mg/kg (0.1 to 0.3 mL/kg of a 1:10,000 solution) is recommended when the HR <60 bpm despite adequate ventilation and CPR
the ETT route may be used while IV access is being obtained, but is inferior to IV administration. If epi is given through an ETT, a dose of 0.05 to 0.1 mg/kg (0.5 to 1 mL/kg of a 1:10,000 solution) should be used

Answer 79

A

ante- or intrapartum hemorrhage, (which may be d/t an umbilical cord accident, placenta previa, placental abruption, or trauma)
if there are clinical signs of hypovolemia seen despite an adequate HR, such as pallor, poor perfusion, and weak pulses
administer a 10 mL/kg bolus of NS (or O Rh-negative PRBC if severe blood loss and/or anemia is suspected)

Answer 80

A

Mechanical blockage (eg, meconium, mucus, choanal atresia, congenital airway malformation)
Impaired lung function (pneumothorax, pleural effusions, congenital diaphragmatic hernia, pulmonary hypoplasia, congenital pneumonia, or hyaline membrane disease)

Answer 81

A

Brain injury (hypoxic ischemic encephalopathy)
congenital neuromuscular disorder
respiratory depression from maternal medication

Answer 82

A

Resuscitation efforts may be d/c’d after 20 min of effective resuscitation including intubation and the use of epinephrine, if the neonate has demonstrated no signs of life (no heart beat or respiratory effort for >20 minutes)

Answer 83

A

providing warmth to the infant (preferably skin-to-skin contact with the mother)
clearing his/her airway
drying and stimulating the infant

Answer 84

A

between T1-3, just above the carina.

Answer 85

A

Avoid mechanical ventilation using early CPAP with, or without, surfactant administration

Answer 86

A

Respiratory acidosis, documented by an arterial pH <7.2 and PaCO2 >60-65 mmHg.
Hypoxia documented by an arterial PaO2 <50 mmHg despite supplemental O2, or when FiO2 >40% on nasal CPAP

Answer 87

A

RDS
Apnea due to prematurity or perinatal depression
Infection – Sepsis and/or pneumonia
Postoperative recovery
PPHN
MAS
Congenital pulmonary and cardiac anomalies, such as congenital diaphragmatic hernia
HIE

Answer 88

A

tidal volume 3 to 6 mL/kg of IBW for patients with poor lung compliance (eg. Peds ARDS)

Answer 89

A

tidal volume 5 to 8 mL/kg when compliance is preserved

Answer 90

A

5 to 8 mL/kg (healthy lungs)

Answer 91

A

3 to 6 mL/kg (lung protective strategy)

Answer 92

A

birth defect of the abdominal wall. The baby’s intestines are found outside of the baby’s body, exiting through a hole beside the belly button
due to failure of the intestines to return to the body during development.
Normally “bad gut” but good baby

Answer 93

A

birth defect of the abdominal wall.
The infant’s intestines, liver, or other organs stick outside of the belly through the belly button.
The organs are covered in a thin, nearly transparent sac
Good gut but bad baby. Usually many midline defects and genetic anomalies

Answer 94

A

Duodenal atresia/stenosis/webbing, malrotation, obstruction
Bilious vomiting is likely to be of surgical in nature.

Answer 95

A

Birth Weight
Color of material from gastric tube
Dehydration
Anterior wall defect
Abdominal distention, signs of visible bowel loops, color, tender
Increasing abdominal girth
Other anomalies noted

Answer 96

A

surface area to body mass ratio is 4x that of an adult, but the ability to increase heat production is only 1/3 that of an adult.

Answer 97

A

Maternal Infection
history of previous baby with GBS infection or unexplained still birth
ROM at < 37 weeks gestation
positive GBS screen

Answer 98

A

PTL
ROM > 18 hours
Maternal temperature > 38
Chorioamnionitis
suspected or proven bacterial infection from mother
risk of vertical transmission of viral infection: HIV, HSV, Hepatitis, COVID

Answer 99

A

Need for rescuscitation
prematurity or low birth weight
baby going to the NICU
nosocomial or community acquired infections

Answer 100

A

Observation for sources of infections (wounds, skin break down)
investigate localized infections
Sepsis work up: Blood Culture (urine if over 3 days), CBC with white cell differentiation and Plt

Answer 101

A

4 - 6 mL/kg

Answer 102

A

0.35 - 0.55

Answer 103

A

200-300 (mL/min/kg)

Answer 104

A

7.25 - 7.45

Answer 105

A

Larger than average newborn torso size
Commonly size with diabetic mothers.
These newborns are considered LGA

Answer 106

A

BGL < 2.6 mmol/L

Answer 107

A

40 to 60 breaths per minute

Answer 108

A

10% require some degree

2. < 1% require extensive resuscitation

Answer 109

A

at ~6th week of gestation
Issues such as congenital diaphragmatic hernia compress the lung in utero, preventing development
Reduction of amniotic fluid (such as in prolonged ROM) → hypoplasia of the lungs from ↓ of volumes available for inhalation.

Answer 110

A

rule states that 1/3 of fetal lung fluid will be cleared by the infant before birth, the second 1/3 is squeezed out during vaginal delivery, and the final 1/3 is cleared by the infant following birth.
Infants born preterm have not yet facilitated the initial 1/3 of fluid clearance
C-section babies don’t get the birth canal squeeze

Answer 111

A

↑ chest wall compliance → in-drawing of the chest wall during negative pressure inspiration. This is why see-saw respirations are normal in infants
Infant respiration relies almost solely on the strength of the diaphragm

Answer 112

A

Apneas, bradys, and desats.

2. >3 per hour should raise concern for badness

Answer 113

A

Caffeine is given to newborns who have immature apnea centres. Caffeine stimulates the apnea centre to breath.

Answer 114

A

newborn: ~85%
Children: ~75%
Elderly: ~50%

Answer 115

A

Term = 50% intravascular, 50% extracellular

2. Preterm = Primarily intravascular

Answer 116

A

2 ml/kg/hr → This volume allows for excretion of normal solute load.

Newborns typically have very low U/O in the first 24 hours, then diurese

Answer 117

A

↓ GFR
↓ reabsorption of Na+ and HCO3-
↓ Decreased ability to dilute or concentrate urine

Answer 118

A

Lower gestation (due to high body surface area and immature water-permeable skin.
Skin defects (ie. gastroschisis)
High body or ambient temperature (30% per degree)
Radiant light (50% increase IWL)
↑ motor activity
Pathogenic fluid loss (ie. chest tube drainage)

Answer 119

A

Double-walled incubator or plastic heat shield (incubators reduce IWL by 1/3).
↑ ambient humidity
Thin transparent plastic barriers (stuff em’ in a plastic bag)
Humidification of inspired gas in CPAP or ventilator
Antenatal corticosteroids to promote maturation of skin and kidneys.

Answer 120

A

Weight loss over the first 2 to 3 days.

2. Birth weight achieved by 7 to 10 days.

Answer 121

A

Replace deficit
Replace ongoing losses
Maintenance fluids

Answer 122

A

Birth weight until weight losses are regained

Answer 123

A

Pre-ductal measurements identify the oxygenation of blood leaving the LV before deoxygenated blood mixes from the RV through a patent ductus arteriosus

Answer 124

A

65%-70%

increases by 5% per min until 5 min of life

Answer 125

A

Was it a term birth?
Does the neonate have good tone?
Is the neonate breathing or crying effectively?

Answer 126

A

(≤27 6/7 wk)

Answer 127

A

(28 0/7 to 31 6/7 wk)

Answer 128

A

(32 0/7 to 36 6/7 wk)

Answer 129

A

< 2.2 mmol/L

Answer 130

A

right upper extremity

Answer 131

A

may be used to improve ventilation in neonate

M = mask (adjust mask for good seal), 
R = reposition the airway, 
S = suction the mouth then nose, 
O = open the mouth with a jaw thrust, 
P = increase pressure until there is chest rise, 
A = airway control (ie, endotracheal tube)

Brainscape's Knowledge GenomeTM

CCP 340 Neonatal Anatomy and Physiology 👶🏻 Flashcards

Brainscape's Knowledge Genome^TM