Week 2 - Conception Heredity & Prenatal Dev; Birth & the Newborn Student Slides PDF

Summary

This document covers conception, heredity, and prenatal development, as well as birth and the newborn. It includes discussions on different theories of child development, and various genetic information, such as PKU, including stages of development and various testing.

Full Transcript

Conception, Heredity,
and Prenatal
Development;
Birth and the
Newborn
PSY 323 – Professor Agbayani
Announcements:
Slight change in office hours!

Still on Wednesdays in my office Crean 132F – now
from 2pm-3pm.
Last time:

Intro to Child Development theories: psychoanalytic, cognitive, and
social learning
Today:
Describe processes associated with conception and
prenatal development

Describe processes associated with childbirth and the care
of neonates (newborns)
Before we start:
how many of us
have taken
physio psych (or
similar?)
Genes & Chromosomes
 Genes & Chromosomes

Genes: Basic units of genetic information,
composed of specific sequences of DNA molecules

Arranged in specific locations, in a
specific order, along 46 chromosomes (23
pairs)

The exception is sex chromosomes, which aren’t
always in homologous pairs (XX versus XY; XXY; X0)
Genetics basics – mixing and matching

Dominant Trait
○ The trait that is expressed when two competing
traits are present

Recessive Trait
○ A trait within an organism that is present
genetically, but is not expressed
Genetics basics – mixing and matching

Genotype
○ The combination of genetic material present in
an organism
○ All genes

Phenotype
○ An observable trait; the trait that actually is
seen
○ Physical appearance
Transmission of Genetic Information

Homozygous
○ Inheriting similar genes from parents for a
given trait
○ Necessary to express recessive traits

Heterozygous
○ Inheriting different forms of a gene from
parents for a given trait
Transmission of Genetic Information –
PKU example

Phenylketonuria (PKU): A metabolic disorder in
which the individual cannot metabolize
phenylalanine, an amino acid found in our diet.

Can result in developmental deficits; easily
detected and treated with a special diet
Transmission of Genetic Information – PKU example
Transmission of Genetic Information – PKU example
The way genes affect our development is complicated!
We have more than 20,000 genes

In almost all cases, single genes are not responsible for a
single outcome

Our development/outcomes are polygenic

Changes in your environment will increase or decrease
expression of a gene - epigenetics
Epigenetics
Changes in gene expression without modifying DNA

e.g., changes in brain development resulting from parents’ drug
or alcohol use during gestation

A gene may be active in one person and not another, or within
different cells in one individual.
Can Your Environment Affect Your DNA? | Epigenetics Explained
Think/pair/share with a partner or group
(~10 minutes, then time for group
discussion):
How can our understanding of epigenetics
translate to supporting children’s success?

Think about topics like equity for health care,
educational, other programs/resources for both
children and parents.
There are many ways to support infant
health before birth

(before even taking genetics into account)
 Access to health insurance

Can influence use & timing of prenatal care

Adequate prenatal care is associated with
healthier birth outcomes, such as a longer
period of gestation, healthier birthweight
 Access to health insurance
Many individuals in the U.S., particularly those
with lower incomes, lack access to health
insurance

Adverse conditions in the perinatal period are
typically more prevalent for people of color,
resulting largely from long-standing
discrimination within health systems (Hoyert &
Miniño, 2020; Martin et al., 2019)
 Prenatal Testing
First trimester screening (FTS), nuchal translucency (NT)
and noninvasive prenatal testing (NIPT) provide
information on a developing baby

FTS is a blood test evaluates substances in the blood
(analytes)
○ Used with NT, a sonogram that looks at the back of
the fetal neck
 Prenatal Testing

NIPT is another option for a blood test, coupled with
a first trimester ultrasound

Data can help assess if a fetus has a genetic
anomaly:
○ Down syndrome/Trisomy 21

○ Trisomy 13

○ Trisomy 18
Moving on from genes – Our earliest development
Gametes: Sex cells (sperm and egg) from
biological parents that form a new cell at
conception

Gametes have 23 chromosomes versus 46 (they
only make one copy of each pair when they
undergo meiosis)

Zygote: New cell formed by the process of
fertilization – 46 chromosomes
Moving on from genes – Our earliest development

From here, we undergo 3 major stages or periods
of development:

1. The period of the zygote (or the germinal period)

2. The period of the embryo

3. The period of the fetus
Period of the zygote: fertilization to 2 weeks

First—and shortest—stage of the prenatal period

Zygote divides and grows in complexity…

Travels to the uterus

Implants in uterine wall

Placenta forms
 Period of the embryo: 2 to 8 weeks
Significant growth occurs in the major organs and body systems

Embryo has three distinct layers:

1. Ectoderm—forms skin, hair, teeth, sense organs, brain and spinal cord

2. Endoderm—produces digestive system, liver, pancreas, and respiratory
system

3. Mesoderm—becomes the muscles, bones, blood, and circulatory
system
 Period of the embryo: 2 to 8 weeks
An embryo:

Is ~1 inch long
Appears to have gills and a tail-like structure
Has rudimentary eyes, nose, lips, and teeth
Has stubby bulges that form arms and legs
Undergoes rapid head and brain growth—50% of
its length and 100,000 neurons a minute
Nervous system starts functioning around the 5th
week, producing weak brain waves
 Period of the embryo: 2 to 8 weeks
How Development Proceeds:

Cephalocaudal development: Pattern of human growth proceeds
from the head downward

Proximodistal development: Human growth occurs first in central
areas and then extends outward

Teratogens are most harmful during this period
 Teratogens
The effects of substances on prenatal development resulting in
negative outcomes (e.g., low birth weight, underdevelopment, etc.)

Outcomes are affected by dose, cumulative effects, and sensitive
period (times of rapid physiological or behavioral development)

4 categories of teratogens
 Teratogens
1. Physical teratogens:

E.g., saunas, hot tubs, or infections that raise body
temperature to 102 degrees Fahrenheit or higher.

Associated with neural tube defects, spontaneous abortions,
and various cardiovascular abnormalities.
 Teratogens
2. Metabolic conditions affecting pregnancy:

Metabolic conditions affect the process of converting energy
from food, affecting the development and function of the
body.

These include: malnutrition, diabetes, and thyroid disorders.
 Teratogens

3. Infections: Rubella virus, herpes simplex virus, and
syphilis can cause congenital abnormalities
 Teratogens

4. Drugs and chemicals: Radiation, heavy metals (including
lead), insecticides and herbicides, prescription and over the
counter drugs, illicit and recreational drugs, alcohol,
cigarettes, nicotine, caffeine, and even some vitamins.
 Teratogens
Generally speaking:

Effects of teratogens vary with time
– Period of the zygote: Relatively impervious
– Period of the embryo: Most deleterious
– Period of the fetus: Minor damage

Hard to pinpoint primary cause of damage
– Effects different for different individuals
– Cumulative effects are common
– Race and socio‐economic status (SES) are influential factors
 Period of the fetus: 8 weeks to birth
Fetus undergoes rapid change

Increases in length about 20 times

Proportions change

2 months: 50% of length is the head

5 months: 3/8 of length is the head

Birth: ¼ of length is the head
 Period of the fetus: 8 weeks to birth
Fetus substantially increases in weight

4 months: weighs ~4 ounces – can feel them move

7 months: weighs ~3 pounds

Birth: weighs just over 7 pounds

Organs become differentiated, begin to function

Fetus can hear and feel vibrations of sound
Birthing parents also go through many changes: (+attendance)
Time for a
break!
 Let’s talk birth settings!

Where are babies born? Who is
typically present?
 The birthing team
In the US, commonly takes place in a Labor & Delivery (L&D)
unit in a hospital
○ An OB-GYN (obstetrician-gynecologist) is usually present,
along with L&D nurses and other professionals

Some hospitals/home birth settings have midwives present:
credentialed health care professionals who provide prenatal,
delivery, and postpartum care (some are nurses)

Doulas: nonclinical professionals who support parents
emotionally and physically during the perinatal period,
including birth and postpartum
What’s a Doula?
Labor occurs in 3 stages
Stage 1
Contractions, dilation, and
thinning of the cervix

Latent stage: Infrequent
contractions, not especially
painful

Active stage: More intense and
frequent contractions; infant
transitions into the birth canal
Stage 2 & 3

Delivery of the
infant (Stage 2)

Delivery of the
placenta (Stage
3)
 The placenta – what is it?
An organ that develops with the baby to provide nutrients and
oxygen throughout term – attached to the uterus

Care teams may delay clamping & cutting the umbilical cord after
delivery to increase flow of nutrient-rich blood from the cord &
placenta to the baby.
○ Increases the baby's iron levels, reduces the risk of anemia

The placenta is typically delivered in ~30 minutes
 The placenta – what is it?
Mild, less painful contractions that are close together help
move the placenta into the birth canal

Labor & delivery team will examine the placenta to make
sure it's intact & remaining fragments must be removed from
the uterus to prevent bleeding and infection

In the United States, typically the care team will dispose of
the placenta (as biohazard waste) – but many cultures
practice burying the placenta to honor its role in baby’s
development & improve outcomes for the birthing parent
Traditional birthing practices – “The ‘Iewe (placenta) Incident”
Position at birth is important
Vertex position: Ideal; head first,
face down

Back birth: Less than ideal; head
first, face up
Position at birth is important

Breech position: Less than ideal;
feet first

Transverse position: sideways,
impossible for vaginal delivery;
Cesarean section necessary
 Pain Relief
Non-medicinal:
Breathing techniques, such as Lamaze

Changing positions, walking
 Pain Relief
Medicinal:
Analgesia: Reduces pain only, not sensations such as pressure

Anesthesia: Blocks nerve receptors that carry pain information
(spinal blocks and epidurals)

Use of pain medications does not make labor “less natural” nor
does it increase the likelihood of a Cesarean birth. There are no
long-term effects on baby/child development.
Infant Extraction Techniques
Decreased use over time, still used in some cases:

Forceps: Grasp infant around head, guide delivery from
canal

Vacuum: Suction applied to scalp

In frequent (+ increasing!) use:

Cesarean deliveries: Surgical delivery of infant through
abdominal incision
Cesarian birth, Wellstar OBGYN clinic in GA – footage mostly from behind
surgical curtain (no footage of incisions)
Preterm births
Premature infants are born at or before 37 weeks (full-
term)

~13.4 million babies were born preterm in 2020 (World
Health Organization, 2023)

○ More than 1 in 10 babies

Increased risk for breathing & feeding difficulties, vision
& hearing issues, developmental delays (e.g., speech,
motor)
Preterm births
Issues related to prematurity are the leading cause of
death in children under the age of 5 years

Feasible and cost-effective care options to combat
negative outcomes: warmth, breastfeeding support,
basic care for infections and breathing difficulties

Even with supportive care, preterm birth increases
likelihood of low birthweight
Birth weight
Full‐term infant weighs about 7½ pounds at birth

Low birth weight: Less than 5½ pounds

Very low birth weight: Less than 3¼ pounds

Small for gestational age: Weigh less than expected for
gestational age

The role of resilience: better outcomes may be associated
with responsive care from adults & the presence of positive
personality traits (e.g., friendliness, sociability)
Baby is born – now what?
We assess neonate/newborn’s functioning: APGAR scale

Sign 0 Points 1 Point 2 Points
Appearance (skin Blue-gray, pale all Normal, except Normal over
color) over for extremities entire body
Pulse Absent Below 100 bpm Above 100 bpm
Grimace (reflex No response Grimace Sneezes, coughs,
irritability) pulls away
Activity (muscle Absent Arms and legs Active movement
tone) flexed
Respiration Absent Slow, irregular Good, crying
SOURCE: Apgar (1953).
Baby is born – now what?
Assessed 1 and 5 minutes after birth

Sign 0 Points 1 Point 2 Points
Appearance (skin Blue-gray, pale all Normal, except Normal over
color) over for extremities entire body
Pulse Absent Below 100 bpm Above 100 bpm
Grimace (reflex No response Grimace Sneezes, coughs,
irritability) pulls away
Activity (muscle Absent Arms and legs Active movement
tone) flexed
Respiration Absent Slow, irregular Good, crying
SOURCE: Apgar (1953).
Baby is born – now what?
7+: No concern; 3 or less: Critical condition

Sign 0 Points 1 Point 2 Points
Appearance (skin Blue-gray, pale all Normal, except Normal over
color) over for extremities entire body
Pulse Absent Below 100 bpm Above 100 bpm
Grimace (reflex No response Grimace Sneezes, coughs,
irritability) pulls away
Activity (muscle Absent Arms and legs Active movement
tone) flexed
Respiration Absent Slow, irregular Good, crying
SOURCE: Apgar (1953).
Baby is born – now what?
Few infants score a perfect 10, most in normal range at 5mins

Sign 0 Points 1 Point 2 Points
Appearance (skin Blue-gray, pale all Normal, except Normal over
color) over for extremities entire body
Pulse Absent Below 100 bpm Above 100 bpm
Grimace (reflex No response Grimace Sneezes, coughs,
irritability) pulls away
Activity (muscle Absent Arms and legs Active movement
tone) flexed
Respiration Absent Slow, irregular Good, crying
SOURCE: Apgar (1953).
Overall physical appearance of the newborn
Vernix—thick, greasy substance that
smooths the passage through the birth canal

Lanugo—fine, dark fuzz

May have puffy eyelids

May have blood or other fluids (leftover
amniotic fluid)

After baby is cleaned, they’re usually returned
to the birthing parent for skin-to-skin contact
Physical competence of the newborn
Neonates have to take over all the functions of the
placenta/umbilical cord

As digestive system begins to function, newborns
initially produce meconium (first stool)

Newborns show several reflexes—unlearned,
organized, involuntary responses that occur
automatically in the presence of certain stimuli:

Sucking, swallowing, and rooting reflexes

Coughing, sneezing, and blinking
Sensory capabilities

Vision
○ Visual acuity is not fully developed
○ Pay close attention to scenes highest in
information
○ Can discriminate levels of brightness
○ May have a sense of size constancy
○ Can distinguish different colors and have
color preferences
Blue and green objects
Sensory capabilities

Hearing
○ Capable of hearing, but auditory acuity is not
fully developed
○ React to certain kinds of noises
○ Exhibit familiarity with certain sounds
Touch
○ Most well developed sense at birth
○ Respond to stimuli and are aware of puffs of
air
Sensory capabilities

Smell and taste
○ Well developed
○ Pucker lips when a sour taste is
placed on them
○ Respond with suitable facial
expressions to other tastes
 Reflex Approximate Age Description Possible
Someof reflexes:
Disappearance Function
Rooting 3 weeks Turn head toward things that touch cheek Food intake
Stepping 2 months Movement of legs when held upright with Preparation for
feet touching floor independent
locomotion
Moro 6 months Startle reflex—arms are thrust outward Protection from
and appear to grasp onto something falling
Babinski 8-12 months Toes fan out in response to a stroke on the Unknown
outside of foot
Tonic neck 4 months When lying on the back with the head to Unknown – maybe
one side, arm and leg on that side are coordination of
extended while flexing the limbs on the upper and lower
opposite side body
Sucking 4 months;voluntary Suck at things that touch lips Food intake
afterward
Newborn/Infant Reflexes Assessment