Your Kidneys and How They Work
On this
page:
-
What do my kidneys do?
-
What is renal function?
-
Why do kidneys fail?
-
How do kidneys fail?
-
What are the signs of kidney
disease?
-
What medical tests will my
doctor use to detect kidney
disease?
-
What are the stages of
kidney disease?
-
What can I do about kidney
disease?
-
What happens if my kidneys
fail completely?
-
Hope Through Research
-
Points to Remember
-
For More Information
Your two
kidneys are vital organs that
perform many functions to keep
your blood clean and chemically
balanced. Understanding how your
kidneys work can help you to
keep them healthy.
What do my kidneys do?
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The
kidneys remove wastes
and extra water from the
blood to form urine.
Urine flows from the
kidneys to the bladder
through the ureters. |
Your kidneys
are bean-shaped organs, each
about the size of your fist.
They are located near the middle
of your back, just below the rib
cage. The kidneys are
sophisticated reprocessing
machines. Every day, your
kidneys process about 200 quarts
of blood to sift out about 2
quarts of waste products and
extra water. The waste and extra
water become urine, which flows
to your bladder through tubes
called ureters. Your bladder
stores urine until you go to the
bathroom.
The wastes in
your blood come from the normal
breakdown of active tissues and
from the food you eat. Your body
uses the food for energy and
self-repair. After your body has
taken what it needs from the
food, waste is sent to the
blood. If your kidneys did not
remove these wastes, the wastes
would build up in the blood and
damage your body.
The actual
filtering occurs in tiny units
inside your kidneys called
nephrons. Every kidney has about
a million nephrons. In the
nephron, a glomerulus?which is a
tiny blood vessel, or
capillary?intertwines with a
tiny urine-collecting tube
called a tubule. A complicated
chemical exchange takes place,
as waste materials and water
leave your blood and enter your
urinary system.
At first, the
tubules receive a combination of
waste materials and chemicals
that your body can still use.
Your kidneys measure out
chemicals like sodium,
phosphorus, and potassium and
release them back to the blood
to return to the body. In this
way, your kidneys regulate the
body?s level of these
substances. The right balance is
necessary for life, but excess
levels can be harmful.
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In the nephron
(left), tiny blood
vessels intertwine
with
urine-collecting
tubes. Each kidney
contains about 1
million nephrons. |
In addition
to removing wastes, your kidneys
release three important
hormones:
-
erythropoietin
(eh-RITH-ro-POY-eh-tin), or
EPO, which stimulates the
bone marrow to make red
blood cells
-
renin
(REE-nin), which regulates
blood pressure
-
calcitriol (kal-suh-TRY-ul),
the active form of vitamin
D, which helps maintain
calcium for bones and for
normal chemical balance in
the body
What is renal function?
Your health
care team may talk about the
work your kidneys do as renal
function. If you have two
healthy kidneys, you have 100
percent of your renal function.
This is more renal function than
you really need. Some people are
born with only one kidney, and
these people are able to lead
normal, healthy lives. Many
people donate a kidney for
transplantation to a family
member or friend. Small declines
in renal function may not cause
a problem.
But many
people with reduced renal
function have a kidney disease
that will get worse. You will
have serious health problems if
you have less than 25 percent of
your renal function. If your
renal function drops below 10 to
15 percent, you cannot live long
without some form of renal
replacement therapy?either
dialysis or transplantation.
Why do kidneys fail?
Most kidney
diseases attack the nephrons,
causing them to lose their
filtering capacity. Damage to
the nephrons may happen quickly,
often as the result of injury or
poisoning. But most kidney
diseases destroy the nephrons
slowly and silently. Only after
years or even decades will the
damage become apparent. Most
kidney diseases attack both
kidneys simultaneously.
The two most
common causes of kidney disease
are diabetes and high blood
pressure. If your family has a
history of any kind of kidney
problems, you may be at risk for
kidney disease.
Diabetic
Nephropathy
Diabetes is a
disease that keeps the body from
using glucose (sugar) as it
should. If glucose stays in your
blood instead of breaking down,
it can act like a poison. Damage
to the nephrons from unused
glucose in the blood is called
diabetic nephropathy. If you
keep your blood glucose levels
down, you can delay or prevent
diabetic nephropathy.
High Blood
Pressure
High blood
pressure can damage the small
blood vessels in your kidneys.
The damaged vessels cannot
filter wastes from your blood as
they are supposed to.
Your doctor
may prescribe blood pressure
medication. Blood pressure
medicines called
angiotensin-converting enzyme
(ACE) inhibitors and angiotensin
receptor blockers (ARBs) have
been found to protect the
kidneys even more than other
medicines that lower blood
pressure to similar levels. The
National Heart, Lung, and Blood
Institute (NHLBI), one of the
National Institutes of Health,
recommends that people with
diabetes or reduced kidney
function should keep their blood
pressure below 130/80 mm Hg.
Glomerular
Diseases
Several
different types of kidney
disease are grouped together
under this category, including
autoimmune diseases,
infection-related diseases, and
sclerotic diseases. As the name
indicates, glomerular diseases
attack the tiny blood vessels
(glomeruli) within the kidney.
The most common primary
glomerular diseases include
membranous nephropathy, IgA
nephropathy, and focal segmental
glomerulosclerosis. Protein,
blood, or both in the urine are
often the first signs of these
diseases. They can slowly
destroy kidney function. Blood
pressure control is important
with any kidney disease.
Treatments for glomerular
diseases may include
immunosuppressive drugs or
steroids to reduce inflammation
and proteinuria, depending on
the specific disease.
Inherited and
Congenital Kidney Diseases
Some kidney
diseases result from hereditary
factors. Polycystic kidney
disease (PKD), for example, is a
genetic disorder in which many
cysts grow in the kidneys. PKD
cysts can slowly replace much of
the mass of the kidneys,
reducing kidney function and
leading to kidney failure.
Some kidney
problems may show up when a
child is still developing in the
womb. Examples include autosomal
recessive PKD, a rare form of
PKD, and other developmental
problems that interfere with the
normal formation of the
nephrons. The signs of kidney
disease in children vary. A
child may grow unusually slowly,
may vomit often, or may have
back or side pain. Some kidney
diseases may be ?silent? for
months or even years.
If your child
has a kidney disease, your
child?s doctor should find it
during a regular checkup. Be
sure your child sees a doctor
regularly. The first sign of a
kidney problem may be high blood
pressure, a low number of red
blood cells (anemia), or blood
or protein in the child?s urine.
If the doctor finds any of these
problems, further tests may be
necessary, including additional
blood and urine tests or
radiology studies. In some
cases, the doctor may need to
perform a biopsy?removing a tiny
piece of the kidney to examine
under a microscope.
Some
hereditary kidney diseases may
not be detected until adulthood.
The most common form of PKD was
once called "adult PKD" because
the symptoms of high blood
pressure and renal failure
usually do not occur until
patients are in their twenties
or thirties. But with advances
in diagnostic imaging
technology, doctors have found
cysts in children and
adolescents before any symptoms
appear.
Other Causes
of Kidney Disease
Poisons and
trauma, for example a direct and
forceful blow to your kidneys,
can lead to kidney disease.
Some
over-the-counter medicines can
be poisonous to your kidneys if
taken regularly over a long
period of time. Products that
combine aspirin, acetaminophen,
and other medicines such as
ibuprofen have been found to be
the most dangerous to the
kidneys. If you take painkillers
regularly, check with your
doctor to make sure you are not
putting your kidneys at risk.
How do kidneys fail?
Many factors
that influence the speed of
kidney failure are not
completely understood.
Researchers are still studying
how protein in the diet and
cholesterol levels in the blood
affect kidney function.
Acute Renal
Failure
Some kidney
problems happen quickly, like an
accident that injures the
kidneys. Losing a lot of blood
can cause sudden kidney failure.
Some drugs or poisons can make
your kidneys stop working. These
sudden drops in kidney function
are called acute renal failure
(ARF).
ARF may lead
to permanent loss of kidney
function. But if your kidneys
are not seriously damaged, acute
renal failure may be reversed.
Chronic
Kidney Disease
Most kidney
problems, however, happen
slowly. You may have ?silent?
kidney disease for years.
Gradual loss of kidney function
is called chronic kidney disease
(CKD) or chronic renal
insufficiency. People with CKD
may go on to permanent kidney
failure. They also have a high
risk of dying from a stroke or
heart attack.
End-Stage
Renal Disease
Total or
nearly total and permanent
kidney failure is called
end-stage renal disease (ESRD).
People with ESRD must undergo
dialysis or transplantation to
stay alive.
What are the signs of kidney
disease?
People in the
early stages of kidney disease
usually do not feel sick at all.
If your
kidney disease gets worse, you
may need to urinate more often
or less often. You may feel
tired or itchy. You may lose
your appetite or experience
nausea and vomiting. Your hands
or feet may swell or feel numb.
You may get drowsy or have
trouble concentrating. Your skin
may darken. You may have muscle
cramps.
What medical tests will my
doctor use to detect kidney
disease?
Since you can
have kidney disease without any
symptoms, your doctor may first
detect the condition through
routine blood and urine tests.
The National Kidney Foundation
recommends three simple tests to
screen for kidney disease: a
blood pressure measurement, a
spot check for protein or
albumin in the urine
(proteinuria), and a calculation
of glomerular filtration rate
(GFR) based on a serum
creatinine measurement.
Measuring urea nitrogen in the
blood provides additional
information.
Blood
Pressure Measurement
High blood
pressure can lead to kidney
disease. It can also be a sign
that your kidneys are already
impaired. The only way to know
whether your blood pressure is
high is to have a health
professional measure it with a
blood pressure cuff. The result
is expressed as two numbers. The
top number, which is called the
systolic pressure, represents
the pressure when your heart is
beating. The bottom number,
which is called the diastolic
pressure, shows the pressure
when your heart is resting
between beats. Your blood
pressure is considered normal if
it stays below 120/80 (expressed
as ?120 over 80?). The NHLBI
recommends that people with
kidney disease use whatever
therapy is necessary, including
lifestyle changes and medicines,
to keep their blood pressure
below 130/80.
Microalbuminuria and Proteinuria
Healthy
kidneys take wastes out of the
blood but leave protein.
Impaired kidneys may fail to
separate a blood protein called
albumin from the wastes. At
first, only small amounts of
albumin may leak into the urine,
a condition known as
microalbuminuria, a sign of
deteriorating kidney function.
As kidney function worsens, the
amount of albumin and other
proteins in the urine increases,
and the condition is called
proteinuria. Your doctor may
test for protein using a
dipstick in a small sample of
your urine taken in the doctor?s
office. The color of the
dipstick indicates the presence
or absence of proteinuria.
A more
sensitive test for protein or
albumin in the urine involves
laboratory measurement and
calculation of the
protein-to-creatinine or
albumin-to-creatinine ratio.
This test should be used to
detect kidney disease in people
at high risk, especially those
with diabetes. If your first
laboratory test shows high
levels of protein, another test
should be done 1 to 2 weeks
later. If the second test also
shows high levels of protein,
you have persistent proteinuria
and should have additional tests
to evaluate your kidney
function.
Glomerular
Filtration Rate (GFR) Based on
Creatinine Measurement
GFR is a
calculation of how efficiently
the kidneys are filtering wastes
from the blood. A traditional
GFR calculation requires an
injection into the bloodstream
of a substance that is later
measured in a 24-hour urine
collection. Recently, scientists
found they could calculate GFR
without an injection or urine
collection. The new calculation
requires only a measurement of
the creatinine in a blood
sample.
Creatinine is
a waste product in the blood
created by the normal breakdown
of muscle cells during activity.
Healthy kidneys take creatinine
out of the blood and put it into
the urine to leave the body.
When kidneys are not working
well, creatinine builds up in
the blood.
In the lab,
your blood will be tested to see
how many milligrams of
creatinine are in one deciliter
of blood (mg/dL). Creatinine
levels in the blood can vary,
and each laboratory has its own
normal range, usually 0.6 to 1.2
mg/dL. If your creatinine level
is only slightly above this
range, you probably will not
feel sick, but the elevation is
a sign that your kidneys are not
working at full strength. One
formula for estimating kidney
function equates a creatinine
level of 1.7 mg/dL for most men
and 1.4 mg/dL for most women to
50 percent of normal kidney
function. But because creatinine
values are so variable and can
be affected by diet, a GFR
calculation is more accurate for
determining whether a person has
reduced kidney function.
The new GFR
calculation uses the patient?s
creatinine measurement along
with weight, age, and values
assigned for sex and race. Some
medical laboratories may make
the GFR calculation when a
creatinine value is measured and
include it on their lab report.
Blood Urea
Nitrogen (BUN)
Blood carries
protein to cells throughout the
body. After the cells use the
protein, the remaining waste
product is returned to the blood
as urea, a compound that
contains nitrogen. Healthy
kidneys take urea out of the
blood and put it in the urine.
If your kidneys are not working
well, the urea will stay in the
blood.
A deciliter
of normal blood contains 7 to 20
milligrams of urea. If your BUN
is more than 20 mg/dL, your
kidneys may not be working at
full strength. Other possible
causes of an elevated BUN
include dehydration and heart
failure.
Additional
Tests for Kidney Disease
If blood and
urine tests indicate reduced
kidney function, your doctor may
recommend additional tests to
help identify the cause of the
problem.
Renal
imaging. Methods of renal
imaging (taking pictures of the
kidneys) include ultrasound,
computed tomography (CT scan),
and magnetic resonance imaging
(MRI). These tools are most
helpful in finding unusual
growths or blockages to the flow
of urine.
Renal
biopsy. Your doctor may want
to see a tiny piece of your
kidney tissue under a
microscope. To obtain this
tissue sample, the doctor will
perform a renal biopsy?a
hospital procedure in which the
doctor inserts a needle through
your skin into the back of the
kidney. The needle retrieves a
strand of tissue about 1/2 to
3/4 of an inch long. For the
procedure, you will lie on your
stomach on a table and receive
local anesthetic to numb the
skin. The sample tissue will
help the doctor identify
problems at the cellular level.
What are the stages of kidney
disease?
Your GFR is
the best indicator of how well
your kidneys are working. In
2002, the National Kidney
Foundation published treatment
guidelines that identified five
stages of CKD based on declining
GFR measurements. The guidelines
recommend different actions
based on the stage of kidney
disease.
-
Increased
risk of CKD. A GFR of 90 or
above is considered normal.
Even with a normal GFR, you
may be at increased risk for
developing CKD if you have
diabetes, high blood
pressure, or a family
history of kidney disease.
The risk increases with age:
People over 65 are more than
twice as likely to develop
CKD as people between the
ages of 45 and 65. African
Americans also have a higher
risk of developing CKD.
-
Stage 1:
Kidney damage with normal
GFR (90 or above). Kidney
damage may be detected
before the GFR begins to
decline. In this first stage
of kidney disease, the goals
of treatment are to slow the
progression of CKD and
reduce the risk of heart and
blood vessel disease.
-
Stage 2:
Kidney damage with mild
decrease in GFR (60 to 89).
When kidney function starts
to decline, your health care
provider will estimate the
progression of your CKD and
continue treatment to reduce
the risk of other health
problems.
-
Stage 3:
Moderate decrease in GFR (30
to 59). When CKD has
advanced to this stage,
anemia and bone problems
become more common. Work
with your health care
provider to prevent or treat
these complications.
-
Stage 4:
Severe reduction in GFR (15
to 29). Continue following
the treatment for
complications of CKD and
learn as much as you can
about the treatments for
kidney failure. Each
treatment requires
preparation. If you choose
hemodialysis, you will need
to have a procedure to make
a vein in your arm larger
and stronger for repeated
needle insertions. For
peritoneal dialysis, you
will need to have a catheter
placed in your abdomen. Or
you may want to ask family
or friends to consider
donating a kidney for
transplantation.
-
Stage 5:
Kidney failure (GFR less
than 15). When the kidneys
do not work well enough to
maintain life, you will need
dialysis or a kidney
transplant.
In addition
to tracking your GFR, blood
tests can show when substances
in your blood are out of
balance. If phosphorus or
potassium levels start to climb,
a blood test will prompt your
health care provider to address
these issues before they
permanently affect your health.
What can I do about kidney
disease?
Unfortunately, chronic kidney
disease often cannot be cured.
But if you are in the early
stages of a kidney disease, you
may be able to make your kidneys
last longer by taking certain
steps. You will also want to be
sure that risks for heart attack
and stroke are minimized, since
CKD patients are susceptible to
these problems.
-
If you
have diabetes, watch your
blood glucose closely to
keep it under control.
Consult your doctor for the
latest in treatment.
-
Avoid
pain pills that may make
your kidney disease worse.
Check with your doctor
before taking any medicine.
Blood
Pressure
People with
reduced kidney function (a high
creatinine level in the blood or
a low creatinine clearance)
should have their blood pressure
controlled, and an ACE inhibitor
or an ARB should be one of their
medications. Many people will
require two or more types of
medication to keep their blood
pressure below 130/80 mm Hg. A
diuretic is an important
addition to the ACE inhibitor or
ARB.
Diet
People with
reduced kidney function need to
be aware that some parts of a
normal diet may speed their
kidney failure.
Protein.
Protein is important to your
body. It helps your body repair
muscles and fight disease.
Protein comes mostly from meat.
As discussed in an earlier
section, healthy kidneys take
wastes out of the blood but
leave protein. Impaired kidneys
may fail to separate the protein
from the wastes.
Some doctors
tell their kidney patients to
limit the amount of protein they
eat so that the kidneys have
less work to do. But you cannot
avoid protein entirely. You may
need to work with a dietitian to
find the right food plan.
Cholesterol.
Another problem that may be
associated with kidney failure
is too much cholesterol
(koh-LES-tuh-rawl) in your
blood. High levels of
cholesterol may result from a
high-fat diet.
Cholesterol
can build up on the inside walls
of your blood vessels. The
buildup makes pumping blood
through the vessels harder for
your heart and can cause heart
attacks and strokes.
Smoking.
Smoking not only increases the
risk of kidney disease, it
contributes to deaths from
strokes and heart attacks in
people with CKD. You should try
your best to stop smoking.
Sodium.
Sodium is a chemical found in
salt and other foods. Sodium in
your diet may raise your blood
pressure, so you should limit
foods that contain high levels
of sodium. High-sodium foods
include canned or processed
foods like frozen dinners and
hot dogs.
Potassium.
Potassium is a mineral found
naturally in many fruits and
vegetables, like oranges,
potatoes, bananas, dried fruits,
dried beans and peas, and nuts.
Healthy kidneys measure
potassium in your blood and
remove excess amounts. Diseased
kidneys may fail to remove
excess potassium, and with very
poor kidney function, high
potassium levels can affect the
heart rhythm.
Treating
Anemia
Anemia is a
condition in which the blood
does not contain enough red
blood cells. These cells are
important because they carry
oxygen throughout the body. If
you are anemic, you will feel
tired and look pale. Healthy
kidneys make the hormone EPO,
which stimulates the bones to
make red blood cells. Diseased
kidneys may not make enough EPO.
You may need to take injections
of a man-made form of EPO.
Preparing for
End-Stage Renal Disease
As your
kidney disease progresses, you
will need to make several
decisions. You will need to
learn about your options for
treating ESRD so that you can
make an informed choice between
hemodialysis, peritoneal
dialysis, and transplantation.
What happens if my kidneys fail
completely?
Complete and
irreversible kidney failure is
sometimes called end-stage renal
disease, or ESRD. If your
kidneys stop working completely,
your body fills with extra water
and waste products. This
condition is called uremia. Your
hands or feet may swell. You
will feel tired and weak because
your body needs clean blood to
function properly.
Untreated
uremia may lead to seizures or
coma and will ultimately result
in death. If your kidneys stop
working completely, you will
need to undergo dialysis or
kidney transplantation.
Dialysis
The two major
forms of dialysis are
hemodialysis and peritoneal
dialysis. In hemodialysis, your
blood is sent through a filter
that removes waste products. The
clean blood is returned to your
body. Hemodialysis is usually
performed at a dialysis center
three times per week for 3 to 4
hours.
In peritoneal
dialysis, a fluid is put into
your abdomen. This fluid
captures the waste products from
your blood. After a few hours,
the fluid containing your body?s
wastes is drained away. Then, a
fresh bag of fluid is dripped
into the abdomen. Patients can
perform peritoneal dialysis
themselves. Patients using
continuous ambulatory peritoneal
dialysis (CAPD) change fluid
four times a day. Another form
of peritoneal dialysis, called
continuous cycling peritoneal
dialysis (CCPD), can be
performed at night with a
machine that drains and refills
the abdomen automatically.
Transplantation
A donated
kidney may come from an
anonymous donor who has recently
died or from a living person,
usually a relative. The kidney
that you receive must be a good
match for your body. The more
the new kidney is like you, the
less likely your immune system
is to reject it. Your immune
system protects you from disease
by attacking anything that is
not recognized as a normal part
of your body. So your immune
system will attack a kidney that
appears too ?foreign.? You will
take special drugs to help trick
your immune system so it does
not reject the transplanted
kidney.
Hope Through Research
As our
understanding of the causes of
kidney failure increases, so
will our ability to predict and
prevent these diseases. Recent
studies have shown that
intensive control of diabetes
and high blood pressure can
prevent or delay the onset of
kidney disease.
In the area
of genetics, researchers
supported by the National
Institute of Diabetes and
Digestive and Kidney Diseases
(NIDDK) have located two genes
that cause the most common form
of PKD and learned that a person
must have two defective copies
of the PKD1 gene to develop PKD.
Researchers have also found a
gene in the roundworm that is
identical to the PKD1 gene. This
new knowledge will be used in
the search for effective
therapies to prevent or treat
PKD.
In the area
of transplantation, new drugs to
help the body accept foreign
tissue increase the likelihood
that a transplanted kidney will
survive and function properly.
Scientists at NIDDK are also
developing new techniques to
induce tolerance for foreign
tissue in patients before they
receive transplanted organs.
This technique will eliminate or
reduce the need for
immunosuppressive drugs and
thereby reduce expense and
complications. In the future,
scientists may develop an
artificial kidney for
implantation.
Points to Remember
-
Your
kidneys are vital organs
that keep your blood clean
and chemically balanced.
-
The
progression of kidney
disease can be slowed, but
it cannot always be
reversed.
-
End-stage
renal disease (ESRD) is the
total loss of kidney
function.
-
Dialysis
and transplantation can
extend the lives of people
with ESRD.
-
Diabetes
and high blood pressure are
the two leading causes of
kidney failure.
-
You
should see a nephrologist
regularly if you have renal
disease.
-
Chronic
kidney disease (CKD)
increases the risk of heart
attacks and strokes.
-
If you
are in the early stages of
renal disease, you may be
able to save your remaining
renal function for many
years by
-
controlling your blood
glucose
-
controlling your blood
pressure
-
following a low-protein
diet
-
maintaining healthy
levels of cholesterol in
your blood
-
taking an ACE inhibitor
or an ARB
-
quitting smoking
