22 ■ CHAPTER 02 Evaluating Scientific Claims
SCIENCE
Anna Eaton was, at the time of her research into
vaccines, a high school and community college
science teacher in Cleveland Heights, Ohio.ANNA EATON
contact with the infectious organism, a vacci-
nated individual’s immune system remembers
the inactivated organism from the vaccine and
is already armed and bristling. The inactivated
organism from the vaccine cannot cause disease
because it was made harmless by the process of
creating the vaccine. The vaccine itself cannot
cause disease because it is not a functional infec-
tious organism and therefore cannot replicate.
Over the past 200 years, scientists have
developed vaccines to protect against dozens
of pathogens, starting with the smallpox virus.
In England in 1796, Dr. Edward Jenner first
vaccinated his gardener’s 8-year-old son against
smallpox using the cowpox virus, because it
was known that individuals who had previ-
ously suffered cowpox were immune to small-
pox. Jenner’s breakthrough ultimately led to
a worldwide smallpox vaccination campaign,
which was so successful that in 1980 the disease
was officially declared eradicated by the World
Health Organization. Vaccines have also been
developed for the Tic Tac–shaped bacteria that
cause the upper respiratory infection diphtheria,
the round and highly contagious rotavirus that
causes vomiting and diarrhea, the tiny airborne
bacteria that cause pertussis (also known as
whooping cough), and many more pathogens.
Before vaccines, children died in large numbers
from smallpox, diphtheria, whooping cough,
polio, and many other diseases (Figure 2.2). The
infectious pathogens that cause those diseases
still exist today in our environment, but because
vaccines protect people, we almost never see
those infections. Today, the Centers for Disease
Control and Prevention (CDC), the public health
branch of the U.S. government, recommends
that children receive 10 vaccines, given over a
total of 24 doses, between birth and 15 months of
age. Additional vaccinations are recommended
between the ages of 18 months and 18 years,
including the annual influenza (“flu”) vaccine,
also recommended for all adults each year
(see “Flu Shot” on page 24).
Eaton, pregnant with her first baby, was a
microbiologist by training. She worked at the
Cleveland Clinic in Ohio, an academic medical
center, before moving on to teach high school
biology and chemistry, as well as bioscience
manufacturing at a local community college.
Some of her friends were also scientists, and
one pregnant friend adamantly commented, “Of
course we’re going to vaccinate. We’re scientists.”Vaccine Vaccine AntibodiesDisease
organisms AntibodiesWhen the individual is
exposed to the virus after
vaccination, the new
antibodies are primed to
attack the invader.The vaccine stimulates the
immune system to produce
antibodies (in green) that
recognize the virus.A vaccine with a harmless
form of a virus (or other
organism) is injected under
the skin.
Figure 2.1
How vaccines work
A vaccine trains the body’s immune system to fight infection.
Q1: Describe in one sentence how a vaccine creates immunity to a virus.Q2: Why is it impossible to become infected with a virus from a
vaccine composed of viral proteins?Q3: Natural immunity occurs without a vaccine, just by exposure to
a particular stimulus, like the chicken pox virus. Explain why people
don’t get chicken pox twice.I
n 2009, Anna Eaton discovered she was
pregnant. Several of her friends were also
expecting or had recently had children, so
the friends’ afternoon chats were soon about all
things baby: nursery colors, pediatricians, car
seats. Every once in a while, however, one of the
mothers broached a subject far more contentious
than strollers and baby carriers. One of their hot
topics of discussion became vaccination.
Vaccination is the injection of material—
typically an inactivated and harmless infectious
organism or parts of such an organism (e.g., a
single protein)—that stimulates the immune
system to protect against future exposure to that
pathogen (Figure 2.1). When the body’s immune
system is exposed to a vaccine, it recognizes the
inactivated organism (or its parts) as an invader
and mounts an attack against it. Upon later