346 Chapter 17
amniocentesis Testing fetal
cells in a sample of amniotic
fluid for evidence of birth
defects.
chorionic villus sampling
Testing of fetal cells removed
from chorionic villi for birth
defects.
preimplantation diagnosis
Testing for birth defects
in an early embryo that
was conceived by in vitro
fertilization.
a growing number of technologies
now enable us to detect more than
one hundred genetic disorders
before a child is born.
Chorionic villus sampling (CvS)
uses tissue from the chorionic villi
of the placenta. CvS can be used
as early as the eighth week of
pregnancy, but it is tricky. Using
ultrasound, the physician guides a
tube through the vagina, past the
cervix, and along the uterine wall,
then removes a small sample of
chorionic villus cells by suction. results are available
within days.
Amniocentesis is performed
during the fourteenth to sixteenth
weeks of pregnancy. it samples the
amniotic fluid that surrounds the
fetus (Figure 17.21). the thin needle
of a syringe is inserted through
the mother’s abdominal wall, into
the amnion. the physician must
take care that the needle doesn’t
puncture the fetus and that no infection occurs. amniotic
fluid contains sloughed fetal cells, and as the syringe
withdraws fluid, some of those cells are included. they
are then cultured and tested for genetic abnormalities.
methods of embryo screening also are available. in
preimplantation diagnosis, an embryo conceived by
in vitro fertilization (Section 16.8) is analyzed for genetic
prenatal Diagnosis: Detecting Birth Defects
defects using recombinant Dna technology. the testing
occurs at the eight-cell stage (left), which by one view is
a pre-pregnancy stage. like unfertilized eggs discarded
during monthly menstruation, the ball is not implanted
in the uterus. its cells all have the same genes and are
not yet committed to giving rise to specialized cells of
a heart, lungs, or other organs. Doctors take one of the
undifferentiated cells and analyze its genes for suspected
disorders. if the cell has no detectable genetic defects,
the ball is inserted into the uterus. embryo screening is
designed to help parents who are at high risk of having
children with a genetic birth defect. even so, for some
people it raises questions of morality.
it is now possible to see a live, developing fetus with
the aid of an endoscope, a fiberoptic device. in fetoscopy,
sound waves are pulsed across the mother’s uterus. images
of parts of the fetus, umbilical cord, or placenta show up
on a computer screen that is connected to the endoscope
(Figure 17.22). a sample of fetal blood often is drawn at the
same time in order to diagnose blood cell disorders such as
sickle-cell anemia and hemophilia.
all three procedures pose some risk for the fetus,
including infections, punctures, or miscarriage. With
CvS there also is a slight chance the forthcoming child
will have missing or underdeveloped fingers or toes.
Figure 17.21 Animated! Amniocentesis is a common
prenatal diagnostic tool.
Fran Heyl Associates
image on the
ultrasound screen
Saturn Stills/Science Source
A Pulsed sound
waves guide
endoscope to
umbilical cord
D Blood sample
withdrawn by
syringe
B Placement of needle with
help of fiber optics
C Needle punctures tiny
fetal vein in the cord
Figure 17.22 Fetoscopy gives a direct view of a developing
fetus in the womb.
Lennart Nilsson from
A Child Is Born
, © 1966, 1977 Dell Publishing Co., Inc.
1 7. 11
SCIENCE COMES TO LIFE
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