Neonatology Step 1 PDF

Summary

This document provides an overview of Neonatology Step I, focusing on neonatal care, fetal assessment, and related topics. It details different aspects of prenatal and peripartum care, as well as various risk factors.

Full Transcript

What we’re going to
learn about
Neonatology
Step 1
Dr. M. Valdez
Neonatal Cardiologist
 Neonatology - subspecialty of
Pediatrics that focuses on caring for the
newborn from birth until the 1st mo. of
life.
 Outcome of newborn is
determined : intrapartum ,postpartum,
antenatal, maternal and fetal factors

 Caringfor the fetus beginning from
20 wks of GA onward to 28 days of
postnatal life.
 Pre-pregnancy care:
- Provision of iron and folic acid
supplementation
- Provision of family planning
- Prevention and management of infections
- Access to adequate prenatal care at least 4
prenatal visits throughout the course of
pregnancy
-Provide tetanus toxoid immunization
-GBS screening
-HBsAg screen
Optimizing
 Peripartum maternal
care: and perinatal
- Delivery by skilled birth attendants and
outcome
obstetrician
Maternal characteristics and associated
Rislk for fetus and neonates
 Age at delivery  Obstetric history
-Past history of infant with
- Over 40 years preterm birth,jaundice, RDS or
- Under 16 years anomalies
 Medical conditions -Maternal medications
-Diabetes mellitus -Bleeding
-Thyroid diseases -Hyperthermia
-Renal disease -PROM
-UTI -TORCH infections
-Heart and or Lung disease  Personal factors
-Hypertension -Poverty
- Iron deficiency Anemia -Smoking
-Drug/alcohol use
-Isoimmunization
-Poor diet
-Thromocytopenia
-Trauma (acute/chronic)
-STD, HIV -Domestic violence
-Hypercoagulable state -Urban slum dwellers
-Hemoglobinopathy -Armed conflict area residents
-Autoimmune diseases
 Multiple gestations
 IUGR
 LGA and or macrosomia
 Abnormal fetal position/presentation
 Abnormality of fetal heart rate or rhythm
 Decreased activity
 Polyhydramnios
 Oligohydramnios

Fetal characteristics and associatedrisk
for fetus or neonate
 Preterm delivery
 Postterm delivery
 Maternal fever
 Maternal hypotension
 Rapid labor
 Prolonged labor
 Abnormal presentation
 Uterine tetany
 Meconium stained AF
 Prolapsed cord
 Cesarian section
 Obstetric anesthesia and analgesia
 Placental anomalies
Conditions
 of labor and delivery and
associated risk for fetus or neonates
 Preterm birth
 Low 5 minute Apgar score
 Low 10 minute Apgar score
 Pallor or shock
 Foul smell AF
 SGA
 LGA
 Postmaturity syndrome

Immediately evident neonatal
conditions and associated risk for fetus
or neonate
First trimester screening
 Routine testing: nutrition, overall health
status, BP, CBC, Urinalysis,HGT
 Clinical estimate of gestational age
 Fetal UTZ - 8 -12 wks of gestation,
determine embryonic viability,GA, and
chorionicity
-most accurate method of estimating
gestational age
-Fetal crown-rump length (CRL) can accurate
predictor of gestational age

Antepartum fetal surveillance
 ASSESSMENT OF FETAL WELL BEING
1. Fetal movement monitoring- is the
simplest method of fetal assessment
-Fetuses normally have a sleep-wake cycle
and mothers perceive a diurnal variation in
fetal activity. 0
-Active periods average 30-40 minutes
-Periods of inactivity >1 hr should alert the
physician to the possibility of fetal compromise
2. NST( nonstress test) – a reliable
means of fetal evaluation, based on principle
that fetal activity results in a reflex
acceleration in heart rate.
-Fetal well being confirmed if baseline fetal
HR is normal (110-160/min) with periodic
increases associated with fetal movements.
 Criteria for a reactive NST
i. Heart rate between 110 and 160 bpm
ii. Normal beat to beat variability ( 5 bpm)
iii. Two accelerations of at least 15 bpm
lasting for not < 15 secs each within a
20 minute period
 Non -reactive NST is defined as less
than 2 accelerations in 40 minutes
Contraction stress test (CST)or Oxytocin
challenge test (OCT)- may be used as a
backup or confirmatory test when the NST
is non-reactive or inadequate
-assess fetus at risk for uteroplacental
insufficiency
- FHR continuously monitored
- OCT- produce at least 3 uterine
contractions of at least 40-60 second
duration within 10 minutes
CST – is now used less commonly
contraindicated in placenta previa, previous
CS, and conditions at risk for premature
delivery
Biophysical profile (BPP)–
developed by Dr. Frank Manning
to assess fetal well being when
NST is nonreactive –useful after
26- 28 wks
- fetal breathing
- body movements
- fetal tone
- amniotic fluid
Biophysical profile (Manning score)
Variable Normal (2) Abnormal (0)
Fetal 1 episode >30s None or episode
breathing in 30min 3 movements 1 No fluid pockets or
fluid cm pocket 2 is good indicator of lung maturity
L/S ratio >3 is needed to assess lung maturity if
mothers have diabetes or RH isoimmunization
FHR monitoring
 Abnormal FHR pattern is 50% predictive of low Apgar
score
 Baseline FHR
FHR >160: baseline tachycardia-sign of maternal
fever, infection, fetal hypoxia, maternal
sympathomimetic medication, hyperthyroidism
FHR >200 bpm are typically associated with fetal
dysrrythmias
FHR60 from the baseline
or the slow HR lasts longer than 60 secs.
With beat to beat variability suggest fetal compensation
3. Late decelerations with beat to beat
variability- suggest sudden insult to a
fetus that is able to compensate
physiologically
Late decelerations with decreased or
absent beat to beat variability
indicates fetal hypoxia from uteroplacental
insufficiency.
i. Decelerations will last longer
ii. They will begin sooner following onset of
uterine contraction
iii. They will take longer to return to baseline
iv. The rate to which the fetal heart rate slows
will be lower
2nd trimester Screening:
Screening by maternal serum analysis
 MSAFP/ Quad screen for aneuploidy
- Maternal serum α fetoprotein(MSAFP) between 15 and
22 wks gestation screen:
High level MSAFP detects 90% NTD’s ( 70-85% open
spina bifida,95% with anencephaly)
Low level MSAFP- chromosomal abnormalities (Trisomy
18/21),incorrect gestational age estimates, IUGR,
-β –HCG ( High levels is associated with Trisomy 21)
- Unconjugated estriol levels (Low levels is associated with
Trisomy 21
- Inhibin A (High levels associated with Trisomy 21)
* Low levels of all markers is associated with Trisomy 18
  Combined 1st trimester maternal serum
screening:
-Combining the first trimester maternal serum
markers (maternal serum pregnancy associated
plasma protein(PAPP-A) and β- HCG) and fetal UTZ
nuchal translucency screening detects 80% of
trisomy 21 fetuses
 Integrated screening : maternal serum
PAPP and fetal translucency in the 1st
trimester and measurements MSAP, β- HCG ,
unconjugated estriol and inhibin A in the 2nd
trimester achieve highest detection rate of
trisomy 21 (97%)

Sequential, and integrated
screening
Fetuses with Down syndromes have distinctive
UTZ features which increase the confidence of
antenatal diagnosis,
 Fetal karyotype through amniocentesis
in the 2nd trimester, fetal blood sampling
from PUBS or sampling from fetal cells in
maternal blood is more definitive
antenatal diagnosis
 Screening tests of positive family
history of hereditary and genetic
metabolic diseases such as Tay-Sachs
disease, CF, hemoglobinopathies through:
- Chorionic villus sampling( CVS )-
performed at 10 wks of gestation
- Amniocentesis in 2nd trimester
- Elution of fetal cells from maternal blood
- Fetal blood from PUBS performed in 2nd
trimester
- Direct fetal tissue sampling
Fetal Ultrasound (UTZ) is
useful to/in
 determine viability and number of fetus
 location of placenta
 assessment of gestational age
 detection of fetal malformations
 guiding diagnostic procedure like CVS and
amniocentesis
 From 2nd trimester onwards- useful in
-assessing fetal anatomical abnormalities,
growth, development and well being
-guiding amniocentesis, PUBS and other
diagnostic and therapeutic interventions in the
fetus
 Amniocentesis (AF is removed from around
the fetus through a needle guided by ultrasonic
images)
 detection of NTD’s, chromosomal, genetic and
biochemical abnormalities, and fetal lung
maturity
- Therapeutic amniocentesis decompress severe
polyhydramnios
- Best done in the mid-2nd trimester with UTZ
guidance

*UTZ guided 2nd trimester Amniocentecis is
associated with 0.2-0.5% prenancy loss
- Post-amniocentesis leakage of AF through
cervix 1 - 2%- self limited
 PUBS –percutaneous umbilical blood
sampling:
-fetal karyotype
-accurate diagnosis of hemoglobinopathies
(thalassemia, sickle cell), coagulopathies
(Hemophilia A, von Willebrand) and other inherited
metabolic disorders
-fetal blood gas determination
-for treatment with specific antimicrobials, blood
transfusion, or exchange transfusion
 Antenatal MRI- when fetal surgery
is contemplated for detailed anatomical
assessment
 Fetoscopy: invasive procedure for
close visualization of the small anatomic
parts for the fetus and the performance of
corrective or palliative procedures on the
fetus
Medical therapy of the fetus
 Treatment with maternal replacement
doses of dexamethasone for the
prevention of masculinization of female
external genitalia
 Treatment of fetal arrhythmias, in-utero
infections (HIV,SY, Toxoplasmosis, TB)
Neonatal Transition
 A process of physiologic change in the newborn
infant that begins in utero as the neonate
prepares for transition from intrauterine
placental support to extrauterine self-
maintenance
 A newborn can take up to 12 hours to
transition from placental support to
extrauterine support.
Neonatal transition depends on….
 Gestational age
 Placenta health/condition
 Maternal health
 Any limitations to major organs
 Physical defects/anomalies

The infant prepares by…
 Fetal breathing (producing surfactant at 34
weeks)
 Storing glycogen in the liver
 Producing catecholamines
 Depositing brown fat
Transition
During Labor… begins before delivery
 placenta
 stress hormones
 Exchanges O2 and CO2 by simple diffusion
 Eliminates waste products
 Does the work of the lungs in utero
 Uterine venous blood has
PCO2=38 mmHg
PO2=40-50 mmHg
pH=7.36

Review Placental circulation
 1 Umbilical Vein-oxygenated blood
 2 Umbilical Arteries -deoxygenated
blood
 Three Fetal Shunts…
▪ Ductus Venosus- hepatic system
▪ Foramen Ovale- between right & left
atrium
▪ Ductus Arteriosus- vein connects
pulmonary artery to descending aorta
Review Fetal Circulation
 Characterized by 2 circuits that run
parallel and almost separate fro each
other except for the presence of 2
shunts

Fetal circulation
4 unique FETAL CVS structures
 Placenta

COURSE OF FETAL CIRCULATION:
1.Placenta:
Has the lowest vascular resistance in the
fetus.
Receives the largest amount of combined
ventricular output (55%)
 SVC

2.Superior Vena Cava:
Drains the upper part of the body, including
the brain (15% of combined ventricular
output).
Most of SVC blood goes to the RV.
3. Inferior Vena Cava:
Drains lower part of body
and placenta (70% of
combined ventricular
output)
Part of IVC blood with
high O2 goes into LA via
Foramen ovale.
Remaining IVC blood
enter RV and PA.
Since blood is oxygenated
in the placenta, O2 sat
in IVC (PO2 -26-28%)
is higher than that in SVC
(12-14%)
COURSE OF FETAL CIRCULATION:
Most of SVC blood (less oxygenated blood) goes into RV.
Most of IVC blood (high O2 concentration) is directed by the
crista dividens to the LA through FO.
Rest of IVC blood enters RV & pulmonary artery.
Less oxygenated blood in Pulmonary artery flows through DA
to descending aorta and then to placenta for oxygenation
 At birth
Mechanical expansion of lungs Increase in PaO2

Rapid DECREASE in pulmonary
vascular resistance
Removal of the low-resistance placental
circulation
closure of the ductus
venosus –ligamentum venosum
REVIEW-TRANSITIONAL
CIRCULATION:
INCREASE in systemic vascular
resistance.
 Right ventricle output now flows
entirely into the pulmonary
circulation
 Pulmonary vascular resistance
becomes lower than systemic
vascular resistance

Shunt through ductus arteriosus
reverses & becomes left to right.
 High arterial PO2 (In several days)
 Constriction of ductus arteriosus
ligamentum arteriosum
 Increased volume of pulmonary
blood flow returning to LA

 Increases LA volume and
pressure

 Closure of foramen ovale
(functionally)
(Although the foramen may remain probe
patent)

Becomes Fossa Ovalis
 LV is now coupled to the high-
resistance systemic circulation
its wall thickness and mass begin to
increase

 RV is now coupled to the low-
resistance pulmonary circulation
its wall thickness and mass decrease
slightly
 Adaptation to extrauterine life:
Some of these changes are
instantaneous with the 1st breath,
whereas others develop over a
period of hours or days.
 Gas exchange: Transferred from
the placenta to the lungs.
 Systemic blood pressure: After
an initial slight fall in systemic
BP, progressive rise occurs with
increasing age.
 Heart rate: Elimination of
Placental circulation
Increase in systemic vascular
resistance
Baroreceptor response →
Slowing of HR

Neonatal Circulation:
Neonatal Circulation:
 With the onset of ventilation,PVR is
markedly decreased, as a consequence
of pulmonary vasodilation.
 Closure of the ductus arteriosus and the
fall in pulmonary vascular resistance
result in a decrease in pulmonary arterial
and right ventricular pressures.
 The major decline in pulmonary
resistance from the high fetal levels to
the low “adult” levels usually occurs
within the 1st 2–3 days but may be
prolonged for 7 days or more.
 Over the 1st several weeks of life,
pulmonary vascular resistance decreases
even further, secondary to remodeling of
the pulmonary vasculature, including
thinning of the vascular smooth muscle
and recruitment of new vessels.
Differences between neonatal circulation
and that of older infants:
(1) Right-to-left or left-to-right shunting
may persist across patent foramen ovale
(2) In the presence of cardiopulmonary
disease, continued patency of ductus
arteriosus may allow left-to-right, right-to-
left, or bidirectional shunting;
(3) The neonatal pulmonary vasculature
constricts more vigorously in response to
hypoxemia, hypercapnia, and acidosis
(4)Wall thickness and muscle mass of the
neonatal left and right ventricles are almost
equal;
(5) Newborn infants at rest have high
oxygen consumption associated with
high cardiac output
(6) Newborn cardiac output (about
350 mL/kg/min) falls in the 1st 2 mo of life
to about 150 mL/kg/min and then more
gradually to normal adult CO of about 75
mL/kg/min.
(7) High percentage of fetal hemoglobin
present in the newborn may interfere with
delivery of oxygen to tissues in neonate, so
increased cardiac output is needed for
adequate delivery of oxygen
CLOSURE of:
Foramen ovale :
 Functional Closure: 3rd month of life
 Anatomical closure: 1 year of age
Ductus arteriosus :
 Functional Closure: 10–15 hr of life
 Anatomic closure: 2 -3 weeks of life
 In a full-term neonate, oxygen is the
most important factor controlling ductal
closure.
 The effects of oxygen on ductal smooth
muscle may be direct or mediated by its
effects on prostaglandin E2 synthesis.
 The ductus of a premature infant is less
responsive to oxygen, even though its
musculature is developed.
Maternal and Birth History
Provides pertinent information such as the
presence of certain risk factors, which
could affect the newborn.
 Reviewing the maternal chart may
identify maternal risk factors that could
impact the health of the newborn, as well
as complications of labor and delivery
that could impact fetal/newborn well
being and transition.
 Everyone involved in the care of the infant
should have knowledge of the relevant
maternal history
◦Pre-partum
◦Antenatal
◦Perinatal
 This information can routinely be found on
the maternal fact sheet in newborn’s chart
or in the mother’s chart.
 Family History
◦ Inherited diseases (cystic fibrosis, sickle cell
disease, metabolic disease, polycystic kidneys,
hemophilia, and history of perinatal death)

 Maternal History
◦ Age, blood type, chronic diseases, diabetes,
hypertension, renal disease, cardiac disease,
bleeding disorders, infertility, recent
infections/exposures, rubella status, GBS
status, and STD’s
 Sexually transmitted diseases (STD’s)
◦ HIV
◦ Syphilis (RPR )
◦ Hepatitis B (HBsAg)
◦ Gonorrhea (GC DNA)
◦ Chlamydia (Cz DNA)

 Group B Streptococcus “GBS”
◦ (streptococcus agalactiae)
◦ Rectal/vaginal swab results at 35-37 weeks
gestation
 Previous pregnancies
◦ Abortions, fetal demise, neonatal death,
premature births, postdate births,
malformations, respiratory distress syndrome,
jaundice, apnea

 Drug history
◦ Medications, drugs of abuse, tobacco and
alcohol usage during pregnancy
 Current Pregnancy
◦ Gestational age
◦ results of fetal UTZ
◦ pre-eclampsia
◦ Antenatal corticosteroids
◦ labor suppressants
◦ Antibiotics
◦ bleeding
◦ trauma
◦ infection
◦ surgery
◦ Polyhydramnios
◦ oligohydramnios
Labor and Delivery:
Important Factors

1
2
Presentation
3
Manner of Duration of
delivery labor Resuscitation
Rupture of Analgesia Apgar score
membranes Anesthesia Maternal fever
FR monitoring
Starts with proper positioning followed
by:
 Drying and Warming
 Clearing the airway
 Providing stimulation
 Apgar score

Stabilizing the neonate
Essential Intrapartum Newborn Care
(EINC) smooth transition from in-utero to
extrauterine survival

 Thermal protection- Immediate and
thorough drying for at least 30 secs prevents
hypothermia and stimulate the baby to cry
 Maintenance of homeostatic metabolism- skin
to skin contact initiates maternal infant
bonding, facilitate latching on and subsequent breast
feeding
 Protection from infection- skin to skin contact and
principle of nonseparation between mother and her
newborn via , colonization of the newborn by human
(maternal) flora, stimulation of neonate mucosa
associated lymphoid tissue and less exposure to
potentially harmful health care associated
microorganisms found in NICU
Step I -Immediate and thorough drying of
the newborn (30-60 secs)
Step II -Placing the baby skin to skin
contact on the mother’s chest (within 30
secs) and delaying bathing/washing for at
least 6 hours of life
Step III-Delayed cord clamping (between 1-
3 minutes) or until cord pulsations stops
Step IV -Non-separation of mother and
baby until the first breastfeed is achieved
(60-90 minutes)
First breastfeed provides the newborn
with antibody rich colostrum that prevents
infection
 Apgar score- a newborn scoring system
that helps the clinician assess the
immediate neonatal condition after birth
and indicate the need for resuscitative
interventions
Parameter 0 1 2
/
Score
Color Pale/cyanotic acrocyanosis Pink

Respiratio Absent/apneic Slow/irregula Good,crying
n r,
shallow,gasp
HR Absent 100/min

Reflex No response Facial Vigorous cry
Apgar
response score Grimace Cough.
sneeze
Tone Limp/Flaccid Some flexion Active motion
 Apgar score is routinely assessed at 1 and
5 minutes and every 5 minutes thereafter
as long as resuscitation is continuing
 The 1 minute score gives an idea of
what was going on during delivery and
labor
 The 5 minute score gives an idea of
response to therapy (resuscitation)
 A 5 min score 8-10 normal
 Infants with score of 0 - 3 at 5 min
or longer compared to infants with
score of
7-10 have poor neurologic outcomes
Initial Physical Examination
 should be performed within 24 hours of birth.
 An infant who is 30 minutes old has not
yet completed the normal transition (from
intrauterine to extrauterine life)
,variability may exist in vital signs and
examination of the respiratory,
neurological, gastrointestinal, skin, and
cardiovascular systems.
 Therefore ,a comprehensive examination be
performed after the infant has completed
transition.
 Ina quiet infant, the examination should proceed
from the least invasive and noxious elements of the
exam (auscultation of heart and
lungs) to those most likely to irritate the infant
(examination of the hips and
eliciting the Moro reflex).
Assessment -Well being of an infant can
be obtained by a general visual assessment :
Healthy (stable) vs ill and Term vs Preterm.

Vital Signs
RR and HR varies in first few hrs of life
RR- 40-60 breaths/min – the RR is obtained
by looking at the upper abdomen for a full
minute
HR- 120-160/min- the HR varies with the
neonate’s activity, increases to 180/min
when crying, active or breathing rapidly
HR decreases to 4000 grams at term
= Predisposing factors
:obesity, diabetes
= Higher incidence of birth
injuries and congenital
anomalies
 Length – measured supine 50
cm at term
 Head Circumference- 32-37
cm (Ave 35 cm) at term
-usually bigger than the chest
circumference at birth
 Chest circumference- ratio of
transverse to the AP
diameter(thoracic index) 1.0 at
birth
 Gestational age is determined by assessing
various physical signs and neurological
characteristics that vary according to fetal
age and maturity.
 Gestational age assessment is pertinent as it
allows the clinician to plot growth
parameters, and to anticipate potential
problems related to prematurity/postmaturity
and also to growth abnormalities such as
SGA/LGA (small and large for gestational
age).

Gestational Age Assessment
 Assessing gestational age by
inspection
Term Preterm
Sucks well Yes No
Flexes arms and legs Yes No

Veins seen under skin No Yes

Nipples clearly seen Yes No

Palpable breast buds Yes No

Descended testes Yes No
Gestational Age Assessment
Covered labia minora
Yes No
 Gestational Age:
◦ Pre-term: < 37 weeks
◦ Term: 37-41 6/7 weeks
◦ Post-term: 42 or more weeks
When delivery is delayed >3 weeks past
term, significant increase in mortality
Characteristics: Increased BW, Absence of
lanugo, Decreased or absent vernix,
desquamating pale loose skin, abundant hair,
long nails, may be meconium stained if
placental insufficiency
 Term Infant (weight classification)
◦ LGA: >4000 g
◦ AGA: 2500-3999 g
◦ SGA: