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Infectious Diseases 9 ARTICLES 3 IMAGES 2 VIDEOS - For Grades 6-8 This Pack contains: Britannica LaunchPacks

Britannica LaunchPacks | Infectious Diseases

                                Infectious Diseases
                                                For Grades 6-8

                This Pack contains:

                                                9 ARTICLES
                                                3 IMAGES
                                                2 VIDEOS

© 2020 Encyclopædia Britannica, Inc.                             1 of 44

Britannica LaunchPacks | Infectious Diseases

 human disease
                     Britannica Note:

                     Learn about this topic by reading the section "Infectious Diseases."

 A disease is a condition that impairs the proper function of the body or of one of its parts. All living things can
 succumb to disease. People, for example, are often infected by bacteria, but bacteria, in turn, can be infected by
 certain viruses.

 Many people with kidney failure benefit from dialysis, an outpatient treatment in which the…

 © Picsfive/iStock.com

 Hundreds of different diseases exist in nature, and every disease has a cause, though the causes of some
 remain to be discovered. Each disease has a particular set of symptoms and signs—clues that assist in
 diagnosis. A symptom is something a patient can detect, such as nausea, bleeding, or pain. A sign is something
 that a doctor can observe in a patient. Furthermore, a sign can be quantified, or measured, while a symptom
 cannot. For example, chest pain is a symptom—its presence does not indicate its cause, and the pain itself
 cannot be measured. An abnormal heart rate, however, is a sign—it can be measured and otherwise evaluated
 by the physician. The results of this evaluation help determine the cause of the abnormal heart rate, which could
 be due to many different factors. (See alsodiagnosis.)

 All diseases display a cycle consisting of the onset, or beginning of symptoms; the course, or time span of
 affliction; and the resolution, or end of the disease. This may occur when the disease and its signs and
 symptoms disappears via a cure or through the death of the patient. Some diseases, such as polio, are
 considered “resolved” even though the victim is left disabled (seepoliomyelitis).

© 2020 Encyclopædia Britannica, Inc.                                                                                   2 of 44

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How Disease Is Classified

Students in Hong Kong wear surgical masks to protect themselves from SARS, a highly contagious…

Anat Givon/AP

Diseases can be classified in a number of ways, depending on the information needed by the doctor or scientist.
One way to classify diseases is by the population groups they affect or the way they spread. This is called
epidemiology, and it is a very important science. Public health officials use epidemiology to study and manage
society’s response to disease.

An epidemiologist looks for several types of information about a disease. For example, he may ask if certain
diseases appear mostly among children. If so, he may then recommend large-scale immunization programs,
such as those used for the measles-mumps-rubella vaccine. Epidemiologists also look for associations between
certain habits and diseases, such as the connection between smoking and lung disease.

Epidemiologists also try to predict how likely it is that one or more diseases will occur in an area where the
population is affected by a common circumstance, such as untreated drinking water. These predictions are
based on mathematical formulas that determine the chance, or probability, of an outcome given particular
circumstances.

It should be no surprise that epidemiologists are also concerned with epidemic diseases—that is, diseases that
strike many persons or entire populations within a relatively short period. History has seen many devastating
epidemics, from the plague in Europe during the Middle Ages, to the influenza pandemic (global epidemic) of
1918–19, to the AIDS crisis currently gripping much of the world. When a disease stubbornly remains in the
same region year after year, it is called an endemic disease. Yellow fever, for instance, is endemic to tropical
South America and Africa, prompting many countries to require travelers to and from those regions to present
proof of inoculation against the disease.

Diseases are generally defined as either acute or chronic. An acute disease has a quick onset; most run a
relatively short course, during which symptoms may be mild or severe. The common cold is a relatively mild
acute disease of fairly short duration. SARS, or severe acute respiratory syndrome, also has a quick onset; but
unlike a cold, SARS can rapidly become very serious, even fatal. A chronic disease has a slow onset and a long
duration that can last for years. Rheumatoid arthritis is an example of a chronic ailment with a very long course.
Some diseases, such as bronchitis, have both acute and chronic forms.

One of the most important ways of classifying diseases is to distinguish between infectious and noninfectious
diseases. Infectious diseases are caused by living organisms such as bacteria, fungi, protozoans, viruses, and

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parasites. Whatever the causative agent may be, it survives in the “host” person—in other words, it is infectious.
If it can be passed on to another person, it is also communicable. Noninfectious diseases are not caused by a
living organism; and because they are not passed from one person to another, they also are noncommunicable.
Noninfectious diseases have a wide range of causes, such as substances in the environment (silicosis and black
lung), diet deficiencies (rickets and scurvy), disorders of the body’s immune system (lupus), or inheritable
genetic defects (Tay-Sachs disease).

Frequently, diseases are classified according to the organ or organ system that has been affected. There are
diseases of the respiratory system (pneumonia), cardiovascular system (coronary artery disease), nervous
system (multiple sclerosis), and endocrine system (diabetes mellitus), among many others.

Diseases and their associated signs and symptoms are further distinguished by the extent of their spread in the
body. A local, or localized, ailment or symptom is confined to a particular site or single organ system, whereas a
systemic disease affects the entire body. This is an important factor in treatment. For example, an infected cut
may be treated with a topical antibiotic cream if the infection is limited to the site of the injury. If the infection
invades deeper tissues and spreads to the bloodstream, the infectious organism can be carried to every organ in
the body. To treat this, doctors must prescribe a systemic drug; this is usually an oral or injectable medication
that can enter the bloodstream and fight the infection at all affected sites. Not all systemic diseases are
infectious, however. Cancer and diabetes mellitus are two examples of noninfectious systemic diseases.

Infectious Diseases
Humans live in a world where many other living things compete for food and places to breed. Some of these
organisms—bacteria, for instance—live within the human body and contribute to bodily functions such as
digestion. Ordinarily, the immune system keeps these microbes from causing damage.

Sometimes, however, harmful bacteria penetrate the body’s defenses. In other cases, organisms living
harmlessly within the body become too numerous or acquire harmful characteristics. They then become
pathogenic, or disease-causing, organisms (called pathogens or simply germs). The same is true for fungi,
viruses, and parasites.

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How Germs Invade the Body

Antibiotics, delivered from two small discs and a gradated strip, inhibit the growth of…

Dr. Richard Facklam/Centers for Disease Control and Prevention (CDC)

In some disease cycles, the pathogen is harbored inside a host that acts as a reservoir for…

Encyclopædia Britannica, Inc.

Pathogenic organisms can enter the body in various ways. Some, such as the virus that causes the common
cold, are inhaled, while others, such as the bacterium that causes leprosy, enter through direct contact between
human bodies. Many pathogens, such as those that cause gastroenteritis, or stomach flu, get into the body
through contaminated food, water, or utensils. Certain pathogens are transmitted only through sexual activity
with an infected individual.

Some germs may enter the body through the bite of an animal. Mosquitoes transmit West Nile virus and
Plasmodium, the parasite that causes malaria. Typhus is caused by infection with rickettsial bacteria transmitted
by lice. Lyme disease is spread through the bite of a tick, while rabies is transmitted via the bite of an infected
mammal. Organisms that deliver an infectious agent to a host are called carriers. In many cases, carriers
themselves do not become ill. For example, mosquitoes are unaffected by the parasites and viruses they carry.
Other diseases, such as rabies, cause illness in carrier and host alike.

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To acquire certain contagious diseases, a person need only be in the presence of someone who is already ill, or
come in contact with infected bodily fluids such as blood or urine. Infectious diseases are called contagious if
they can be passed between people. Anyone suffering the frank symptoms of a contagious disease can pass it
on to others while the disease is running its course. However, some pathogens can be transmitted during the
incubation period of a disease—the period between infection and the onset of symptoms. Some pathogens can
be transmitted even when the initial victim is recovering from the disease. Like animals, some people can be
asymptomatic carriers, carrying an infectious organism without ever falling ill.

Most infectious diseases are species-specific—that is, a disease such as parvovirus, which affects dogs, will not
affect humans. However, a large number of diseases can strike both humans and animals and can be passed
between them (though most commonly these are transmitted from animals to humans and not vice versa).
These diseases are called zoonoses. Zoonotic diseases are a public health concern, though some are more
serious than others. Ringworm, for example, is relatively mild and can be treated with antifungal drugs. Other
zoonoses, such as rabies, avian influenza virus, and plague, are extremely serious and can lead to epidemics.

Once an infectious organism gains a foothold in the body, it begins to multiply. The length of the incubation
period depends on the pathogen. Symptoms of the common cold appear within days, while those of kuru, a rare
disease of the nervous system, can appear years after infection.

Several factors determine whether a person will fall ill after being infected. These include the number of invading
germs, or the dose of the infection; the body’s ability to fight the disease; and the virulence of the pathogen.
Virulence is a measure of a pathogen’s ability to do harm. Highly virulent pathogens, such as the Ebola virus,
cause severe disease that progresses so rapidly that, in most cases, death results despite the best efforts of
medical personnel.

Many pathogenic species include some strains that are highly virulent and others that are not. For example, all
influenza strains have the potential to cause severe illness, though most of the strains seen each winter are low
in virulence, causing a short course of unpleasant but controllable illness in most victims. The devastating
influenza pandemic of 1918 was caused by a highly virulent flu strain that killed at least 20 million people
around the world within one year. Low virulence should not be confused with harmlessness, however: even
organisms with low virulence can cause serious illness if left untreated.

How Infections Are Fought

Macrophages, the principal phagocytic (cell-engulfing) components of the immune system, ingest and…

Encyclopædia Britannica, Inc.

As a first line of defense, a healthy body has a number of physical barriers against infection. The skin and
mucous membranes covering the body and lining its cavities offer considerable resistance to invasion by

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infectious organisms. If these barriers are injured or burned, however, resistance drops. In that case, the body
calls up its second line of defense: the immune system. Circulating through the blood and lymph, white blood
cells flock to infected areas and try to localize and suppress the infection. Some white blood cells, such as
macrophages, engulf and digest the pathogens in a process known as phagocytosis.

Lymphocytes, another group of white blood cells, play a key role during this line of defense. Lymphocytes are
divided into two main classes, or types: T cells and B cells. T cells use several methods to kill pathogens directly,
in some cases tagging them with markers so that other cells can attack them. B cells manufacture and release
protective proteins called antibodies, which are “custom-designed” by the B cells to target specific pathogens.
Some B cells remain in the body for years after the pathogen has been eliminated. This creates a biological
“memory,” giving the body a long-lasting immunity against future attacks by the same kind of invader. (See also
immune system.)

Drug therapy
Since the advent of antibiotic therapy in the 20th century, a broad range of infection-fighting drugs has been
developed to work in conjunction with the body’s immune system. The antibiotics penicillin and tetracycline, for
instance, are very effective against some bacterial infections, such as gonorrhea and acne. However, antibiotics
have no effect on infections caused by viruses, fungi, protozoa, or other parasites. Thus nonbacterial infectious
diseases are treated with other classes of drugs. For example, some herpesvirus infections respond to the
antiviral drug acyclovir. Herpesvirus does not respond to antibiotics, however, because the infection is not
caused by bacteria. Similarly, antifungal drugs are used to treat fungal infections, antiprotozoal medicines treat
diseases caused by infection with protozoa, and anthelmintics fight worm infestations such as trichinosis, which
is caused by intestinal roundworms.

Drug resistance
Some individual microbes are naturally resistant to certain drugs. After repeated exposure to a drug, however,
some nonresistant microbes may gain resistance by a chance mutation; others may acquire genes for resistance
from a resistant bacterium. Over time these bacteria form a new drug-resistant strain, forcing doctors to
prescribe multiple drugs to fight infections with these germs—which may later gain resistance to the new drugs.

Incorrect antibiotic use has led to a rise of drug-resistant pathogens, producing a global public health issue.
Once-powerful drugs such as penicillin have become ineffective against new drug-resistant bacteria strains, such
as those that cause tuberculosis and staphylococcal infections. As a result, the incidence of these once-
controllable diseases is steadily increasing. (See alsoantibiotic.)

Vaccines
Many dangerous diseases have been controlled or eradicated (stamped out) through the use of vaccines. Some
vaccines protect against viruses, such as measles; others guard against some bacterial infections, such as
diphtheria, or toxins, such as tetanus. The once-widespread viral disease called smallpox was eradicated around
the world in the 20th century, thanks to an international effort aimed at wide-scale vaccination. (See also
smallpox; vaccine.)

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Cardiovascular Diseases

These cross-sectional diagrams of human blood vessels show a normal, healthy artery on the left, and …

Encyclopædia Britannica, Inc.

Disease of the heart and/or the blood vessels, called cardiovascular disease, is the leading cause of death in
most developed countries, particularly those of North America and Europe. It claims millions of lives every year
around the world—more than a million per year in the United States and more than 70,000 in Canada.

Coronary Artery Disease
Disease of the coronary arteries that supply oxygen and nutrients to the heart is the most common heart
ailment. Coronary artery disease accounts for more than a third of all deaths among males in the United States
between the ages of 35 and 55. It also strikes many women past the age of 50. Hypertension (high blood
pressure), overweight, cigarette smoking, diabetes mellitus, excess cholesterol, triglycerides and other fats in
the blood, and lack of regular exercise contribute to the chance of developing this disease.

This micrograph shows a cross-section of a coronary artery narrowed by artherosclerotic plaque…

National Heart, Lung, and Blood Institute (NHLBI)

Coronary artery disease is characterized by formation of one or more atheromas. These are fatty deposits of
cholesterol that form beneath the inner lining of the artery and obstruct the passage of blood needed to nourish
the heart muscle. This also sets up conditions for a blood clot in the coronary artery (seeblood). Atheroma
formation seems to run in families. However, eating foods rich in saturated animal fat and cholesterol are also
contributing factors.

Many persons with coronary artery disease do not experience any symptoms. However, if the obstruction is bad
enough, it may cause angina pectoris, myocardial infarction (heart attack), or heart enlargement and failure.

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Angina pectoris is a severe, squeezing chest pain that occurs when the coronary blockage prevents adequate
oxygen from reaching the heart, especially during periods of exertion. Rest and medication often relieve the
pain. Unlike a heart attack, angina is a temporary condition, and heart muscle is not destroyed.

Myocardial infarction is the medical term for a heart attack. When the coronary artery becomes so obstructed
that the myocardium, or heart muscle, does not receive oxygen, the muscle tissue dies, or becomes infarcted.
For many years doctors believed that the infarction was caused by a blood clot blocking the coronary artery.
However, later studies revealed that most clots form in the artery after the infarction.

The first hours after a heart attack are critical because abnormal heart rhythms, or arrhythmias, may develop.
Without swift medical intervention, death follows in three or four minutes after an attack. Patients are usually
treated in the coronary care unit of a hospital for a few days to enable electronic monitoring of the heart rate
and rhythm (seehospital).

Repeated heart attacks can strain the remaining healthy heart muscle, leading to heart failure. As attacks
destroy more and more heart muscle, the remaining muscle enlarges to compensate. Increased pressure in the
weakened heart causes fluid to back up into the lungs. As a result, the heart output—that is, the volume of blood
pumped out with each contraction—cannot keep pace with the body’s oxygen demands. (See alsoheart.)

Heart Rhythm and Pacemakers
A node of special cells in the heart controls its rhythm by regularly producing energizing electrical signals.
Sometimes, abnormal signals cause extra heartbeats, or tachycardia. At other times, especially in older persons,
the signals might be conducted poorly, thus slowing the rate of beating. When a person’s heart rate drops below
40 beats a minute, he usually feels faint and cannot function well. In that case, he often can be fitted with an
artificially powered heart pacemaker.

Rheumatic Heart Disease
Rheumatic heart disease has both an acute form and a chronic form. The acute form, rheumatic fever, inflames
joints and heart muscle. Although the joints recover, if the condition becomes chronic the heart valves may
become scarred. Rheumatic fever most often affects the mitral, or bicuspid, valve of the heart, producing a
blockage called mitral stenosis.

Rheumatic fever is caused by an overactive immune response to infection with a strain of beta-hemolytic
streptococcal bacteria, which causes strep throat and scarlet fever. Unlike most pathogens, the cell wall of beta-
hemolytic Streptococcus includes a protein that is also found in human heart muscle. When a person with strep
throat or scarlet fever develops antibodies against the bacterial protein, the same antibodies may also attack
that person’s own heart muscle. The antibodies continue to damage the muscle over many years. This scenario
is typical of an autoimmune response, a process in which the immune system attacks the host’s own tissues (see
“Autoimmune Diseases” in this article).

Penicillin and other antibiotics treat the initial streptococcal infection; in some cases, timely treatment can
prevent heart damage. In severe cases, however, surgery might be needed after many years to repair or even
replace a damaged heart valve.

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Hypertensive Heart Disease
Hypertension, or high blood pressure, is a fairly common disorder. Ordinarily, the pumping action of the heart
creates sufficient pressure to move blood throughout the body. Increased resistance to blood flow from the
arteries causes the blood pressure to rise above normal. Because the heart must then work harder to maintain
the higher pressure, it enlarges.

Blood pressure is regulated by a complex interaction between the heart, the nervous system, and the hormone
renin, which is produced in the kidneys. Some persons with hypertension have too much renin in their blood. In
other individuals, lifestyle issues such as diet and stress play a role in developing the disease. High blood
pressure increases the wear and tear on blood vessels and can cause heart failure, strokes, and kidney
disorders. If detected early, however, it can be treated with drugs.

Congenital and Inflammatory Heart Disease
If the heart does not form properly during fetal development, this will result in a child born with a congenital
heart defect. There are numerous types of congenital heart problems: the heart’s valves might be too narrow or
missing altogether, or the septum—a wall separating the heart chambers—might be incomplete, leaving a hole
between the heart chambers. Some congenital problems correct themselves as the child grows; others must be
surgically repaired.

Some substances are dangerous to the heart. Excessive alcohol drinking weakens and enlarges the heart. The
heart tissues are vulnerable to infection by microbes and parasites, as well as infiltration by toxins and other
agents. Inflammation of the heart muscle (myocarditis), pericardium (pericarditis), inner lining (endocarditis),
valves, and related tissues is always serious and requires swift medical intervention and intensive care. Persons
with faulty valves or congenital heart disease are susceptible to bacterial endocarditis.

Blood Vessel Disorders
Atherosclerosis, the thickening and hardening of arterial walls, may occur in many arteries. Cholesterol and
other fats that form in the process obstruct the affected arteries and, at times, produce a thrombus, or clot, in
them. Sometimes, these clots break away, especially from the heart, and embolize, or travel to some other part
of the circulatory system, where they can block a blood vessel and prevent oxygen from reaching tissues.

A brainembolism can cause the cardiovascular accident known as stroke. A stroke occurs when bloodflow to the
brain tissues is blocked, depriving the brain tissue of oxygen and destroying key nerve cells. A blood clot in one
of the brain’s blood vessels, a hemorrhage from a broken blood vessel in the brain, the hardening of a brain
artery—any of these conditions may result in a stroke. Depending upon the brain area affected, a stroke can
culminate in loss of limb use—particularly the arms—speech difficulties, and partial blindness. Some strokes are
minor; with time and treatment, many victims regain most or all of the impaired body functions. In severe cases,
extensive physical or speech therapy is needed for rehabilitation; the degree of recovery for these patients
varies.

The vascular disorder called aneurysm occurs when the walls of a large artery weaken and balloon out. Small
aneurysms may not be critical, but large aneurysms can rupture. If the ruptured vessel is a major one, such as
the aorta, or is located in the brain, death can follow quickly unless the patient undergoes emergency surgery. A
wide range of conditions, from atherosclerosis to syphilis, can promote aneurysm development.

Varicose veins, bulging veins in the leg, develop when the walls of the veins weaken. The condition may be
inherited or may stem from phlebitis, an inflammation of the veins. Phlebitis may trigger clots in the veins, which

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sometimes break away, travel to the lungs, and form a pulmonary embolus. Drugs used to prolong clotting time
often correct the disorder (seeblood).

Respiratory System Diseases

A girl uses an inhaler to deliver medication for asthma to the respiratory system.

The lungsare spongy organs through which vital oxygen enters the body and needless carbon dioxide exits.
Oxygen and carbon dioxide are exchanged in and out of capillaries in the many tiny air sacs, or alveoli, in the
lungs. Although they are susceptible to disease, the breathing passages—the nose, throat, trachea, and
bronchi—are lined with mucous membranes that form an initial line of defense against pathogens and irritants (
seelung). The lungs, however, are highly vulnerable to invading organisms and irritants and can become
seriously diseased. Lung diseases are also referred to as pulmonary diseases.

Upper Respiratory Diseases
Although they are lined with membranes that offer initial defense against pathogens, the nose, throat, and other
breathing passages are vulnerable to infection by bacteria or viruses. Untreated or long-term infection of the
bronchi and bronchioles can result in chronic bronchitis. It is marked by cough and increased production of
sputum, an accumulation of saliva, mucus, and pus. Air pollution and cigarette smoking both can aggravate the
condition. Frequent bouts of chronic bronchitis can permanently scar the airways, critically impairing their
protective lining. Persons who suffer from chronic bronchitis are vulnerable to developing pneumonia and other
infectious diseases of the lower respiratory system.

Infectious Lower Respiratory Diseases
Pneumonia
Pneumonia, or acute infection or inflammation of the lungs, may occur suddenly in a seemingly healthy person.
It is usually marked by fever, cough, and chest pain. X rays of the lungs show patches of inflammation. Viral
pneumonia, though serious, is generally self-limiting. Both bacterial and fungal pneumonia, however, can be
quite serious, depending upon the infecting pathogen. Drug therapy, particularly a vaccine against
pneumococcal bacteria—a group that causes especially serious disease in the elderly and in children—has
proved vital in fighting bacterial pneumonia.

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Inflammatory diseases
Pleurisy is another disease affecting the lower respiratory system. It is caused by inflammation of the pleura, the
double membranes that surround each lung and line the chest cavity. Pleurisy can occur as a complication of
pneumonia or may result from direct infection of the pleura.

Inflammation of the muscle surrounding the airways results in the chronic disease called asthma. Signs include
wheezing or whistling sounds accompanying each breath. Many cases arise in connection with chronic bronchitis
or respiratory allergies; however, exposure over long periods to almost any airborne irritant results in asthma.
Most cases are treated with inhalable drugs that reduce the inflammation and relax the bronchiolar muscle.
Serious cases may require oral corticosteroids.

Fungal diseases
Fungal invasion of the lungs produces symptoms that resemble influenza or pneumonia. Fungal pulmonary
disease can range from mildly serious to life-threatening. After invading the lungs, some fungi may disseminate,
or spread, to other organs, including the heart and the meninges (the tissue covering the brain and spinal cord).
Systemic fungal diseases are among the most difficult infectious diseases to treat, and often require
hospitalization and intravenous administration of powerful drugs. Among the most serious fungal pulmonary
diseases are histoplasmosis, blastomycosis, aspergillosis, coccidioidomycosis, and Candida pneumonia.

Lung abscess
Development of a lung abscess is possible with any infectious respiratory disease, though many such abscesses
are associated with periodontal, or gum, disease. In these cases, bacteria associated with the latter are inhaled
into the lungs, where they colonize the tissue, eventually forming an abscess—an accumulation of pus inside a
cyst-like mass. If the abscess ruptures, or bursts, pus is spread into the surrounding tissue, and may enter the
bloodstream. The ruptured abscess leaves behind a cavity inside the lung tissue. A lung abscess not only
damages the lung itself, but it also can spread infection to other parts of the body.

Tuberculosis
One of the most serious diseases in humans is tuberculosis (TB), a complex disease that most often strikes the
lungs. It is caused by the bacterium Mycobacterium tuberculosis and is transmitted from person to person
through the air. In the lung the bacteria establish colonies; these attract a large immune response that produces
granulomas—solid masses of immune cells that trap and destroy the bacteria. Granulomas remain dormant in
the lungs for years; however, they can reactivate, triggering a fresh immune reaction that destroys the
granulomas themselves and leaves cavities, or holes, in the lung. The tissue destruction from TB seriously
impairs lung function producing cough, chest pain, fever, blood in the sputum, and weight loss.

TB is generally treated with the oral antibiotics isoniazid and rifampin. To effectively defeat the disease,
however, the drugs must be taken by the patient for almost one year. Inadequate treatment of TB—for example,
among patients who do not complete the entire course of drug therapy—leads to the development of drug
resistance among the bacteria remaining in the lungs. These newly resistant bacteria multiply and spread to
other individuals, setting up conditions for outbreaks against which traditional antibiotics are ineffective.

Before the advent of drug therapy in the 20th century, TB—historically called consumption—was a leading public
health problem, particularly among poor people living in overcrowded and unsanitary conditions. Antibiotics
radically changed the course of the disease; within decades outbreaks were less common and prevalence
greatly decreased. However, lack of compliance by patients to complete the entire course of therapy later led to

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rebounding of the disease and an alarming rise in drug resistance. By the late 20th century, the global incidence
of tuberculosis—once one of the most remarkable triumphs of antibiotic therapy in public health medicine—was
steadily increasing due to the rise of multi–drug-resistant strains.

Noninfectious Respiratory Diseases
Emphysema
Emphysema is a serious lung disease that follows destruction of the elastic and connective tissue fibers
supporting the lung. It is linked with advancing age, though certain forms of emphysema are inherited. Heavy
cigarette smoking and long exposure to air pollutants seem to encourage the disease. A person with
emphysema, lacking sufficient lung elasticity, wheezes and has trouble breathing. Furthermore, air movement in
the lungs is reduced and the patient is easily fatigued because he fails to get enough oxygen or get rid of
enough carbon dioxide.

Pulmonary edema
Because of their physiologic relationship, the heart and the respiratory system often are linked in disease. Acute
pulmonary edema results when fluid quickly accumulates in the lungs and fills the alveoli. The fluid buildup is
caused by heart trouble that, in turn, produces back pressure in the pulmonary veins and the left atrium of the
heart to which they carry oxygen-rich blood from the lungs. A person suffering acute pulmonary edema suddenly
becomes breathless and turns blue because of oxygen-poor blood. The condition is treated with oxygen, digitalis
to strengthen heart action, and diuretics to speed fluid removal by the kidneys.

Occupational lung diseases
Miners and some industrial workers are extremely vulnerable to developing respiratory disease because of the
conditions in which they work. Pneumoconiosis, which means “dust disease,” is the name given to this family of
disorders. Silicosis results from inhaling quartz dust; asbestosis is found among workers exposed to asbestos
dust. Inhalation of coal and quartz dust leads to the development of anthracosilicosis, sometimes called black
lung disease. Textile mill workers are vulnerable to developing byssinosis, also known as brown lung disease. It
results from long-term exposure via inhalation of cotton and other fibers found in textile mills. In general,
workers who develop these diseases are prone to later complications such as heart failure, emphysema, and
cancer.

Respiratory distress syndrome
Formerly called hyaline membrane disease, respiratory distress syndrome is an often-fatal disorder of some
prematurely born infants. A protein material lines the alveoli of the lungs in afflicted babies, limiting the amount
of oxygen their blood can receive.

Cancer

Uncontrolled division and a chaotic appearance are hallmarks of cancer cells. Normal cells (left)…

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Courtesy National Cancer Institute

The word cancer refers collectively to more than 100 different diseases, all characterized by the rampant and
abnormal growth and spread of cells. It is the second leading cause of death in most developed countries and
claims millions of lives worldwide each year. Cancer can affect almost every type of tissue in the body. Many
forms of cancer occur in a solid tissue or organ, where the rapidly multiplying cells form one or more masses, or
tumors. Some cancers do not form tumors, however, and are manifested as malignant (abnormal and rapidly
growing) cells that circulate in the blood or lymph.

Cancer is categorized according to the tissue type in which it develops. Cancer that arises in muscle, bone,
connective tissue, blood vessels, and fatty tissue is called a sarcoma. Cancers found in cells that line the body’s
cavities and organs, and in some skin cells, are classified as carcinomas. Cancer types are named and further
classified by the specific location where they arise. Leukemia is so named because it is an abnormal proliferation
of white blood cells, which are sometimes called leukocytes (from the Greek leuk-, meaning white, and -cyte,
meaning cell). Cancer of the bone is called osteosarcoma (the prefix osteo- is from the Greek word for bone).
Basal cell carcinoma, the most common type of cancer in the world, is a form of skin cancer (basal cells are part
of the skin).

Cancer can strike any part of the body. Some cancerous tumors are especially fast growing and can double their
size within a month or so. Others are slow growing and may not spread for many months or even years. If cancer
develops within a vital organ or tissue, such as the lung or liver, normal function will be impaired, with possibly
fatal results.

Globally, breast cancer is the leading form of cancer in women and a leading cause of cancer-related deaths in
many countries. In the United States, it is second only to lung cancer in claiming the lives of female cancer
patients. The prevalence of cervical cancer in the United States has decreased dramatically thanks to the Pap
test, one of the most successful cancer screening methods developed (seecancer, “Breast and Uterine Cervix”).
Globally, however, cervical cancer remains the second most important cancer in women.

Cancer of the prostate gland is the leading form of cancer among men in the United States, though lung cancer
accounts for more deaths. Lung cancer is the most important form of cancer, both in prevalence and mortality,
among men worldwide. (See alsocancer.)

Skin Diseases
Because of its exposure, the skin is perhaps more susceptible to disease than any other organ. Composed of
several thick layers of specialized cells, the skin forms a tough barrier that prevents foreign substances, both
biologic and chemical, from entering the body. The skin itself is part of the first line of immune defense, serving
as a barrier to invasion by toxins and microbes. Any break in the skin, as from a cut or scrape, gives foreign
material an opportunity to sneak into the body’s interior.

The skin is richly supplied with sweat glands, nerves, and blood vessels (seeskin). If the body’s temperature
rises, the sweat glands perspire, producing a fluid composed mostly of water and salts. As this evaporates on the
skin surface, it cools the skin, thus helping the body to remain at a constant normal temperature. In cases of
anhidrosis—a condition in which the body cannot perspire—body temperature can rise to dangerous levels.
Anhidrosis can occur as a result of injury to large portions of the skin. It is also a serious complication of
heatstroke.

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The skin contains many oil glands, which lie adjacent to hair follicles. The glands produce oil, or sebum, which
helps lubricate the skin. When sebum is overproduced it accumulates in the hair follicles, attracting bacteria
from the normal skin flora. This combination of sebum and bacteria produces whiteheads, blackheads, and
pimples. Whiteheads are a mix of bacteria and oil that form whitish bumps just below the skin’s surface. Pimples
contain the same materials but are also inflamed. Dead skin cells accumulate in the hair follicles, producing
blackheads, whose characteristic dark color comes from melanin, the pigment responsible for skin color.

Acne is an outcropping of all three types of blemishes. It is typically seen in adolescence and may be related to
the hormonal changes that accompany sexual maturity. Acne is not caused by food, emotions, or uncleanliness.
Antibiotics are used to treat severe acne, but most cases respond well to local application of special lotions or
creams that dry the blemishes, allowing them to peel away. (See alsoacne.)

Warts are rough, benign (non-cancerous) growths of the top skin layer caused by infection with the human
papillomavirus (HPV). Warts may occur on any body surface and are spread from person to person through
direct contact. HPV transmitted via sexual activity produces genital warts. There is no single effective treatment
for warts; depending upon the number of warts, their location, and the patient’s age, the growths may be
removed with chemicals that “burn” the wart away. Other treatments include the use of liquid nitrogen to freeze
the wart (which then crumbles away), or excision by laser or simple surgery. Despite treatment, some warts may
later reappear.

Hives, or urticaria, are acute, itchy, whitish elevations of the skin. Hives usually result from an allergic reaction
to foods or medicines. Antihistamine drugs, both oral and topical, offer some relief for mild bouts. Severe cases
of hives can be treated with a series of desensitizing shots (seeallergy).

Eczema, or dermatitis, is a superficial inflammation of the skin. It can result from an allergic reaction to poison
ivy, dyes, or drugs. Such irritants as acids, solvents, or excessive use of soap or detergents also can provoke an
outbreak, as can sunburn. Some forms of eczema, such as infantile eczema and seborrheic dermatitis, stem
from unknown causes. However, nearly all types of eczema can be relieved by the application of corticosteroid
creams.

Like all body systems, the skin is prone to infection. Athlete’s foot is a common fungal infection of the skin
between the toes. The infected area is scaly, moist, and itchy. It usually has a disagreeable smell. Athlete’s foot
can be relieved with daily application of topical antifungal drugs such as griseofulvin. In most parasitic infections,
such as scabies or lice infestation, parasites burrow under the skin to lay eggs, producing intense inflammation
characterized by severe itching and reddened patches of skin. Bacteria can produce mild to severe infections,
depending upon the infecting strain and the extent of the infection. Several types of bacteria produce the
serious condition called necrotizing fasciitis. One form of this, caused by an aggressive strain of Streptococcus, is
called the flesh-eating disease, because the infection travels so rapidly and destroys so much tissue that
amputation is sometimes required. Without treatment, the patient becomes toxic and goes into shock within
days. Even with surgical intervention, death rapidly follows in many of these cases.

Nervous System Diseases
The nervous system is the rapid communication system of the body. Information from the outside world enters
the body through the sense organs and is sent to the spinal cord for instant response or is relayed to the brain
for further processing. (See alsonervous system; brain and spinal cord.)

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Nerves and the membranes that protect portions of the nervous system are susceptible to breakdown or
infection. The microorganisms that cause such diseases as mumps or infectious hepatitis can infect the nervous
system, too.

Nervous System Infections
Meningitis is an inflammation of the meninges, or membranes around the brain and spinal cord. The disease
commonly results through infection with microbes, such as viruses and bacteria. Some cases develop without
infection; reactions to certain drugs or noninfectious brain diseases may produce meningitis. Viral meningitis is
the most common form of the disease. Although serious and mildly contagious, it usually runs a short course
from which most people recover completely. More severe is bacterial meningitis, which requires immediate
medical attention and can be fatal if not treated aggressively. A common sign of meningitis, in addition to fever,
is the presence of a stiff neck.

Shingles, or herpes zoster, is an inflammation of certain nerve tissues. Painful skin bumps occur over the line of
the inflamed nerve or its branches. Shingles and chicken pox are both caused by the same virus.

Noninfectious Nerve Disorders
Neuritis and neuralgia
Neuritis is an inflammatory condition caused by the degeneration of one or more nerves. It is often marked by a
pins-and-needles feeling, a burning sensation, or a stabbing pain. Neuritis can result from infection, especially of
the facial nerve, hard body blows, or bone fracture causing nerve injury. Repetitive movements, such as using a
computer mouse, can also trigger neuritis.

Neuralgia is often confused with neuritis but it is a distinct problem. Neuralgia is characterized by sudden, sharp
bursts of pain along any of the sensory nerves near the body surface. Trigeminal neuralgia is a disorder of the
trigeminal nerve, or fifth cranial nerve, whose branches are distributed along the cheek and to the eye, nose,
jaw, and mouth areas (seenervous system). Attacks occur suddenly and last for several seconds, during which a
severe, stabbing pain shoots across the side of the face.

Inflammation
Inflammation of nerves generally produce localized symptoms, though in some cases pain can be “referred.” For
example, an inflamed nerve in the hip can produce pain in the knee. Sciatica is a disorder characterized by
severe leg pain resulting from an inflamed sciatic nerve, which extends down the back of the leg. Sciatica is
usually caused by a ruptured, or “slipped,” disk—one of the pads between the spinal vertebrae of the spine—
that presses on the nerve’s root near the spine.

Vertigo

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The inner ear regulates equilibrium. Loss of equilibrium is called dizziness or vertigo.

Contunico © ZDF Enterprises GmbH, Mainz

Some nerve disorders result from problems in the sense organs. Vertigo is a dizziness or disorientation in which
the sufferer feels as though he is falling through space. It results from problems with the body’s balancing
system, part of which is located in the inner ear (seeear).

Parkinson’s disease
Parkinsonism, or Parkinson’s disease, is a chronic disease that stems from decreased production of the
neurotransmitter dopamine, which is produced in the brain. The reason for this remains unclear despite
intensive research. People with Parkinson’s experience episodes when mobility is limited; they may move with a
slow, shuffling gait, have decreased facial expressivity, and experience muscle tremors, or shakes. They also
have trouble speaking and swallowing. Parkinson’s is a progressive disease, which means that its symptoms
worsen with time. There is no cure for Parkinson’s; however, the disease may be treated with a drug called
levodopa, or L-dopa, which is converted into dopamine in the brain. Several other drugs may offer modest relief
of some symptoms. Physical, occupational, and speech therapy are also helpful to patients. Surgical treatment is
also used in some cases.

Multiple sclerosis
Multiple sclerosis (MS) is a chronic, degenerative disease of the central nervous system. In MS, the fatty myelin
sheath that surrounds the nerves is progressively destroyed, thus interfering with proper nerve-signal
transmission to muscles and organs (seenervous system). MS develops slowly but eventually involves the entire
brain and spinal cord. Muscle control, vision, mental abilities, and many other body functions are eventually
impaired.

Most experts agree that MS is an autoimmune disease. However, the precise trigger for the onset of MS remains
unclear, and there is no cure. Treatment is geared toward relieving symptoms, reducing inflammation, and
regulating the immune system. Some forms of the disease are relatively mild; with treatment, these patients
may be able to pursue normal, though modified, activities. In other forms, however, the disease progresses
rapidly, producing severe debilitation.

Epilepsy
Epilepsy is a brain disorder in which nerve signals “fire” abnormally and cause convulsive seizures, or alternating
muscle contractions and relaxations. Scar tissue in the brain can provoke some seizures. In many cases,
however, doctors cannot pinpoint the reason for an epileptic attack. Some individuals might have a seizure once
and never have another. Other people may have repeated episodes.

There are several types of epilepsy, including grand mal, petit mal, and infantile spasms. A grand mal attack is
usually marked by rigid muscle contractions, loss of consciousness, and collapse. The attack may last from two
to five minutes and is often followed by confusion and deep sleep. A petit mal attack usually comes as a lapse of
awareness for less than a minute. The victim then resumes whatever activity he was engaged in before the
attack without realizing anything out of the ordinary took place. Infants under the age of three sometimes have
infantile spasms during which sharp muscle contractions force the body to jackknife for a few seconds.

Anticonvulsive drugs are used to treat and prevent epilepsy. Surgical removal of seizure-producing brain tissue
may be indicated in extreme cases where drug therapy is ineffective.

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Endocrine, Metabolic, and Deficiency Diseases
Disease can sometimes result from alterations in normal body metabolism caused by deficiencies in diet,
hormones, and vitamins. It can also stem from malfunctions in the body’s immune system.

Endocrine Disorders
The endocrine system consists of a large number of glands that produce hormones—chemical compounds
composed either of proteins or of steroids (a group of compounds derived from cholesterol) that travel through
the blood to specific target organs (seehormones). Like the nervous system, the endocrine system allows organs
to communicate; but while the nervous system is a rapid responder, endocrine “messengers” work at a slower
pace.

For the system to function properly, hormone production must be exquisitely balanced. Both over- and
underproduction of hormones can lead to disease.

Growth hormone disorders
Abnormal output of growth hormone from the pituitary gland early in life can result in one of two disorders—
dwarfism if there is too little or gigantism if there is too much. Overproduction of growth hormone in middle-
aged adults can cause acromegaly, a serious disorder in which bones, cartilage, and other organs become
severely oversized.

Adrenal disorders
Excess production of cortisol, which is produced in the adrenal glands, results in Cushing’s syndrome; its
symptoms range from severely weakened bones to increased blood sugar and high blood pressure. Inadequate
production of cortisol leads to Addison’s disease, resulting in muscle wasting, fatigue, dangerously low blood
pressure, and other signs.

Thyroid hormone diseases
Excess production of thyroid hormone, or hyperthyroidism, causes the body’s metabolic rate to skyrocket, often
producing secondary cardiac disease, heat intolerance, and severe fatigue. Hypothyroidism (underproduction)
causes cold intolerance, severe muscle cramping, weight gain, and memory loss, among other symptoms.

Sex hormone disorders
Both males and females produce both androgens and estrogens. Androgen is known as the male sex hormone
because it is responsible for the development of male sexual characteristics, such as facial and body hair.
Estrogen is called the female sex hormone because it aids breast development and other female sex traits.
Over- and underproduction of either hormone in either gender can produce problems. For example,
underproduction of androgens in males can result in a higher pitched voice; increased estrogen production may
cause breast development in males. Increased androgens in females can result in hirsutism, or excessive body
and facial hair. Abnormal sex hormone production in either gender can also affect libido, or sex drive.

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 Diabetes mellitus

 A young person tests his blood glucose level.

 © JPC-PROD/Fotolia

 One of the better known endocrine diseases is diabetes mellitus, a common disease caused either by a lack of
 insulin, or an inability to utilize insulin that is produced. Insulin is secreted by the pancreas and helps to move
 sugar from the blood into the cells, where it can be used for energy. There are three forms of diabetes—Type I,
 in which the pancreas cannot produce insulin; Type II, in which the pancreas produces insulin but the body’s
 cells are unable to utilize it; and gestational diabetes, which arises during pregnancy in some women. Dietary
 control is essential in all forms of diabetes; persons with Type I disease also may require daily injections of
 insulin. Long-term diabetes is often associated with blood vessel degeneration, which can lead to heart disease,
 stroke, blindness, kidney failure, gangrene of the feet, and serious neuritis. (See alsodiabetes mellitus.)

© 2020 Encyclopædia Britannica, Inc.                                                                               19 of 44

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Metabolic Diseases
Gout

This 18th-century engraving shows a man disabled by the painful metabolic disease known as gout.…

Courtesy of the Historical Division, The Cleveland Health Sciences Library

One of the oldest known human diseases is gout, which has been recognized by physicians for at least 2,000
years. For much of that time it was characterized as a “rich man’s disease,” because it was seen most commonly
in wealthy people who tended to overindulge in a diet rich in meat and alcoholic drinks. Today scientists know
that gout is caused by faulty metabolism of purine, a substance found in certain foods. Ineffective breakdown of
purine results in the accumulation of uric acid in the blood and urate salts in the tissues. These salts frequently
settle in the joints where they cause painful arthritis.

Gout may stem from an inborn error of metabolism or from other diseases. It usually strikes middle-aged men.
The joint at the base of the big toe is the typical site of an acute attack of gout. The affected joint becomes red,
hot, swollen, and painful. Fever accompanies the attack. Joints of other limbs might become similarly affected.
Attacks of gout recur, but the sufferer enjoys complete relief in between them. Some patients develop chronic
arthritis from gout. Gout is treated with drugs that reduce inflammation, and also with drugs that lower the uric
acid level of the blood. In addition, sufferers must restrict their intake of certain foods and alcohol.

Cystic fibrosis
Cystic fibrosis is a genetic disorder involving the pancreas and the lungs. It appears during the first 10 years of
life, though sometimes it is not discovered until later. The exocrine pancreatic glands, which produce important
digestive enzymes, become plugged by thick mucus. This results in severe intestinal problems. Furthermore,
because of similar mucus secretions, the lungs suffer scarring, infection, and eventually emphysema. Cystic
fibrosis is treated with substitute pancreatic enzymes, as well as enzymes to clear lung secretions and antibiotics
to control secondary infections.

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Phenylketonuria and galactosemia
Phenylketonuria (PKU) and galactosemia also are genetically inherited metabolic diseases. Both result from the
lack of a key enzyme needed to convert one type of chemical compound into another. PKU is caused by an
inability to metabolize the amino acid phenylalanine. People with galactosemia cannot change galactose, one
type of sugar, into glucose, another type. Both diseases can result in intellectual disability in children if not
corrected in time. (See alsoheredity.)

Malnutrition and Deficiency Diseases

A diet deficient in vitamin D, calcium, or phosphorus, can result in rickets. The disease, which…

Robin Laurance—Impact Photos/Imagestate

Malnutrition can be defined as either overnutrition or undernutrition. Overnutrition—that is, the intake of more
calories than are needed—results in overweight and obesity, which in turn can lead to high blood pressure, heart
disease, and diabetes.

Undereating can stifle the development of both body and mind. Kwashiorkor is a condition that affects children
mostly age five and younger whose diet is deficient in protein even though it may contain adequate calories.
Children with kwashiorkor lack an appetite and appear lethargic and sullen; symptoms may include a swollen
face, distended belly, muscle wasting, enlarged liver, and chronic diarrhea. Marasmus is a condition seen in
young children whose diet lacks both adequate calories and protein. Children with marasmus are always hungry
and generally more alert than victims of kwashiorkor; symptoms include extreme muscle wasting and a pinched
expression that gives the face a wizened, “old” look.

Kwashiorkor and marasmus are common in underdeveloped nations, particularly after a famine or epidemic (see
food and nutrition). Although less common, malnutrition can occur in the developed world; sufferers include
people with chronic diseases such as AIDS, and those who are impoverished.

Vitamin deficiencies are uncommon among people in developed nations, except in the cases of pregnant women
and those who breast-feed their babies. Since ample vitamins are in the general diet in those lands, there is no
medical justification for daily doses of multivitamins to stimulate vigor or prevent colds or infections. In
underdeveloped countries, however, such diseases as rickets (due to a lack of vitamin D) and scurvy (from
deficient vitamin C) remain endemic. (See alsovitamin.)

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Mineral deficiencies can also produce body disorders. Iron is indispensable for the prevention of anemia.
Deficiency of magnesium, a cofactor in many enzymes, causes dizziness, weakness, and convulsions. Iodine is a
major part of the thyroid hormones. Without it a person can develop a goiter. Fluorine is not considered
essential, but it plays a great part in minimizing dental caries, or cavities. Trace elements, such as chromium,
cobalt, and manganese, are also needed for a healthy body.

Autoimmune Diseases
The immune system has numerous ways to differentiate between cells recognized as “self” and those
recognized as foreign. In some individuals, for reasons that remain poorly understood, this system suddenly
malfunctions—the body fails to recognize its own tissues, and makes antibodies targeting them. These
malfunctions can affect any organ or tissue in the body, resulting in the suite of chronic disorders defined as
autoimmune disease. Rheumatoid arthritis and systemic lupus erythematosus are two of the more than 80 such
disorders that have been identified. Many scientists have concluded that multiple sclerosis and Type I diabetes
are autoimmune in origin.

Rheumatoid arthritis is a chronic disabling disease that deforms bone joints and their adjacent tissues. It can
strike nearly anyone at any age. It is marked by inflammation of an entire joint, including its synovial lining.
Tendon coverings and bursas, or fluid-filled cushions, can become inflamed, too. Cartilage in the joint and
adjacent bone is destroyed, causing painful stiffness and eventual ankylosis, or “freezing,” of the joint. Skin over
the joint is taut, shiny, and clammy. The rheumatoid factor, a large protein molecule, is present in the blood of
many adult patients; its detection aids in the diagnosis of the disease. Rheumatoid arthritis is usually treated
with rest, physical therapy, and aspirin and other anti-inflammatory drugs.

Systemic lupus erythematosus (SLE), or lupus, is a serious degenerative disease that can strike one or many
body systems over a period of years. The blood serum of afflicted persons contains a number of peculiar
proteins, including the so-called L.E. factor, an antibody characteristic of the disease. Symptoms of SLE resemble
other diseases, including cancer and tuberculosis, but can be distinguished by lesions around the nail beds and
fingertips that are a hallmark of lupus. Other signs may include enlarged lymph glands in the neck and armpits
and an enlarged spleen. SLE can damage the pericardium, heart valves, kidneys, and portions of the central
nervous system. Although anyone may be affected, females between the ages of 20 and 40 years most often
develop this incurable, yet controllable, disease.

Bone and Muscle Diseases
Because of their close anatomic and functional relationships, bone and muscle share a similar vulnerability to
disease and other malfunctions. Both are strongly affected by genetics and nutrition, and both can be seriously
injured by a fall. Both bone and muscle are prone to a range of disorders, from congenital defects to infectious
disease to cancer.

Because they are rigid, bones can break, or fracture. The degree of repair needed depends on what bone is
broken—that is, its location and function in the body—and the extent of damage. Trauma—especially compound
fractures, in which part of the broken bone pierces the skin—brings the risk of a bone infection, or osteomyelitis.
Because bone has such a large blood supply, a bone infection can readily spread into the bloodstream and
become systemic. For this reason, osteomyelitis is always treated with intravenous antibiotics.

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