Resistance to antibiotics has become
common in part due to the widespread
overuse of antibiotics in the livestock
industry. A 2013 analysis of more than
250 turkey meat products sold to
U.S. consumers revealed that nearly
90 percent of the meat was contaminated with bacteria, such
as Salmonella, that cause food-borne illness in people. The
worst contamination was in ground meat from turkeys that had
been routinely fed antibiotics, not because the birds were sick,
but to prevent possible infection. As a result, the researchers
concluded, such needlessly medicated animals became
breeding grounds for resistant bacteria.
Several antibiotics routinely added to the feed of commer-
cially grown poultry and other livestock are the same ones used
in human medicine. The more microbes that become resistant
to such drugs fed to healthy food animals, the more risk each
of us faces of developing a hard-to-treat—or untreatable—
infection. You will likely be hearing more about this topic. A
growing number of infectious disease specialists are lobbying
for new regulations that prohibit the use of antibiotics in feed
given to healthy animals.your future
- The most common antigens are.
a. nucleotides c. steroids
b. triglycerides d. proteins - The ability to develop a secondary immune response is
based on.
a. memory cells d. effector cytotoxic
b. circulating antibodies T cells
c. plasma cells e. mast cells - Tears are part of the body’s defensive arsenal. What
defense category do they fall into, and why? - Match the immunity concepts:
inflammation a. neutrophil
antibody secretion b. plasma cell
phagocyte c. nonspecific response
immunological memory d. purposely causing
vaccination memory cell
allergy production
e. basis of secondary
immune response
f. nonprotective
immune response
CritiCaL thinkinG
- New research suggests a link between some microbes
that normally live in the body and seemingly unrelated
major illnesses. The gum disease called periodontitis itself
is not life-threatening, for instance, but it is a fairly good
predictor for heart attacks. Bacteria that cause gum disease
can trigger inflammation. Thinking back to your reading in
Chapter 7, how do you suppose that this response also may
be harmful to the heart? - Given what you now know about how foreign invaders
trigger immune responses, explain why mutated forms
of viruses, which have altered surface proteins, pose a
monitoring problem for a person’s memory cells. - Researchers have been trying to develop a way to
get the immune system to accept foreign tissue as
“self.” Can you think of some clinical applications for
such a development? - Elena developed chicken pox when she was in
kindergarten. Later in life, when her children developed
chicken pox, she stayed healthy even though she was
exposed to countless virus particles each day. Explain why. - By the 1790s when English physician Edward Jenner
(right) was treating patients, people all over the world had
been trying to protect themselves against the scourge of
smallpox for centuries. Jenner observed that people who
caught cowpox, a similar but less virulent disease, never
got smallpox, and this led him to wonder if something
about cowpox was protective. To test his hypothesis,
he injected a young boy with material from cowpox
scabs. After the boy’s bout of cowpox was over, Jenner
injected him with pus from a smallpox sore. The boy
stayed healthy, and the episode led to the discovery of
vaccination—a term that literally means “encowment.”
What do you think would happen if a physician tried this
experiment today?
176 Chapter 9
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