Table of Contents
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What structures make up the back?
What causes lower back pain?
Who is most likely to develop low back pain?
What conditions are associated with low back pain?
How is low back pain diagnosed?
How is back pain treated?
Can back pain be prevented?
Quick tips to a healthier back
What research is being done?
Where can I get more information?
If you have lower back pain, you are not alone. Nearly everyone at some point has
back pain that interferes with work, routine
daily activities, or recreation
. Americans spend at least $50 billion each year on low back pain, the most common cause of
job-related disability and a leading contributor to missed work. Back pain is the second most common neurological ailment
in the United States — only headache is more common. Fortunately, most occurrences of low back pain go away within a few days.
Others take much longer to resolve or lead to more serious conditions.
Acute or short-term low back pain generally lasts from a few days to a few weeks. Most acute back pain is mechanical in nature
— the result of trauma to the lower back or a disorder such as arthritis. Pain from trauma may be caused by a sports injury,
work around the house or in the garden, or a sudden jolt such as a car accident or other stress on spinal bones and tissues.
Symptoms may range from muscle ache to shooting or stabbing pain, limited flexibility and/or range of motion, or an inability
to stand straight. Occasionally, pain felt in one part of the body may “radiate” from a disorder or injury elsewhere in the
body. Some acute pain syndromes can become more serious if left untreated.
Chronic back pain is measured by duration — pain that persists for more than 3 months is considered chronic. It is often progressive
and the cause can be difficult to determine.
What structures make up the back?
The back is an intricate structure of bones, muscles, and other tissues that form the posterior part of the body’s trunk,
from the neck to the pelvis. The centerpiece is the spinal column, which not only supports the upper body’s weight but houses
and protects the spinal cord — the delicate nervous system structure that carries signals that control the body’s movements
and convey its sensations. Stacked on top of one another are more than 30 bones — the vertebrae — that form the spinal column,
also known as the spine. Each of these bones contains a roundish hole that, when stacked in register with all the others,
creates a channel that surrounds the spinal cord. The spinal cord descends from the base of the brain and extends in the adult
to just below the rib cage. Small nerves (“roots”) enter and emerge from the spinal cord through spaces between the vertebrae.
Because the bones of the spinal column continue growing long after the spinal cord reaches its full length in early childhood,
the nerve roots to the lower back and legs extend many inches down the spinal column before exiting. This large bundle of
nerve roots was dubbed by early anatomists as the cauda equina, or horse’s tail. The spaces between the vertebrae are maintained
by round, spongy pads of cartilage called intervertebral discs that allow for flexibility in the lower back and act much like
shock absorbers throughout the spinal column to cushion the bones as the body moves. Bands of tissue known as ligaments and
tendons hold the vertebrae in place and attach the muscles to the spinal column.
Starting at the top, the spine has four regions:
- the seven cervical or neck vertebrae (labeled C1–C7),
- the 12 thoracic or upper back vertebrae (labeled T1–T12),
- the five lumbar vertebrae (labeled L1–L5), which we know as the lower back, and
- the sacrum and coccyx, a group of bones fused together at the base of the spine.
The lumbar region of the back, where most back pain is felt, supports the weight of the upper body.
What causes lower back pain?
As people age, bone strength and muscle elasticity and tone tend to decrease. The discs begin to lose fluid and flexibility,
which decreases their ability to cushion the vertebrae.
Pain can occur when, for example, someone lifts something too heavy or overstretches, causing a sprain, strain, or spasm in
one of the muscles or ligaments in the back. If the spine becomes overly strained or compressed, a disc may rupture or bulge
outward. This rupture may put pressure on one of the more than 50 nerves rooted to the spinal cord that control body movements
and transmit signals from the body to the brain. When these nerve roots become compressed or irritated, back pain results.
Low back pain may reflect nerve or muscle irritation or bone lesions. Most low back pain follows injury or trauma to the back,
but pain may also be caused by degenerative conditions such as arthritis or disc disease, osteoporosis or other bone diseases,
viral infections, irritation to joints and discs, or congenital abnormalities in the spine. Obesity, smoking, weight gain
during pregnancy, stress, poor physical condition, posture inappropriate for the activity being performed, and poor sleeping
position also may contribute to low back pain. Additionally, scar tissue created when the injured back heals itself does not
have the strength or flexibility of normal tissue. Buildup of scar tissue from repeated injuries eventually weakens the back
and can lead to more serious injury.
Occasionally, low back pain may indicate a more serious medical problem. Pain accompanied by fever or loss of bowel or bladder
control, pain when coughing, and progressive weakness in the legs may indicate a pinched nerve or other serious condition.
People with diabetes may have severe back pain or pain radiating down the leg related to neuropathy. People with these symptoms
should contact a doctor immediately to help prevent permanent damage.
Who is most likely to develop low back pain?
Nearly everyone has low back pain sometime. Men and women are equally affected. It occurs most often between ages 30 and 50,
due in part to the aging process but also as a result of sedentary life styles with too little (sometimes punctuated by too
much) exercise. The risk of experiencing low back pain from disc disease or spinal degeneration increases with age.
Low back pain unrelated to injury or other known cause is unusual in pre-teen children. However, a backpack overloaded with
schoolbooks and supplies can quickly strain the back and cause muscle fatigue. The U.S. Consumer Product Safety Commission
estimates that more than 13,260 injuries related to backpacks were treated at doctors’ offices, clinics, and emergency rooms
in the year 2000. To avoid back strain, children carrying backpacks should bend both knees when lifting heavy packs, visit
their locker or desk between classes to lighten loads or replace books, or purchase a backpack or airline tote on wheels.
What conditions are associated with low back pain?
Conditions that may cause low back pain and require treatment by a physician or other health specialist include:
Bulging disc (also called protruding, herniated, or ruptured disc). The intervertebral discs are under constant pressure. As discs degenerate and weaken, cartilage can bulge or be pushed into
the space containing the spinal cord or a nerve root, causing pain. Studies have shown that most herniated discs occur in
the lower, lumbar portion of the spinal column.
A much more serious complication of a ruptured disc is cauda equina syndrome, which occurs when disc material is pushed into the spinal canal and compresses the bundle of lumbar and sacral nerve roots.
Permanent neurological damage may result if this syndrome is left untreated.
Sciatica is a condition in which a herniated or ruptured disc presses on the sciatic nerve, the large nerve that extends down the
spinal column to its exit point in the pelvis and carries nerve fibers to the leg. This compression causes shock-like or burning
low back pain combined with pain through the buttocks and down one leg to below the knee, occasionally reaching the foot.
In the most extreme cases, when the nerve is pinched between the disc and an adjacent bone, the symptoms involve not pain
but numbness and some loss of motor control over the leg due to interruption of nerve signaling. The condition may also be
caused by a tumor, cyst, metastatic disease, or degeneration of the sciatic nerve root.
Spinal degeneration from disc wear and tear can lead to a narrowing of the spinal canal. A person with spinal degeneration may experience stiffness
in the back upon awakening or may feel pain after walking or standing for a long time.
Spinal stenosis related to congenital narrowing of the bony canal predisposes some people to pain related to disc disease.
Osteoporosis is a metabolic bone disease marked by progressive decrease in bone density and strength. Fracture of brittle, porous bones
in the spine and hips results when the body fails to produce new bone and/or absorbs too much existing bone. Women are four
times more likely than men to develop osteoporosis. Caucasian women of northern European heritage are at the highest risk of developing the condition.
Skeletal irregularities produce strain on the vertebrae and supporting muscles, tendons, ligaments, and tissues supported by spinal column. These
irregularities include scoliosis, a curving of the spine to the side; kyphosis, in which the normal curve of the upper back is severely rounded; lordosis, an abnormally accentuated arch in the lower back; back extension, a bending backward of the spine; and back flexion, in which the spine bends forward.
Fibromyalgia is a chronic disorder characterized by widespread musculoskeletal pain, fatigue, and multiple “tender points,” particularly
in the neck, spine, shoulders, and hips. Additional symptoms may include sleep disturbances, morning stiffness, and anxiety.
Spondylitis refers to chronic back pain and stiffness caused by a severe infection to or inflammation of the spinal joints. Other painful
inflammations in the lower back include osteomyelitis (infection in the bones of the spine) and sacroiliitis (inflammation in the sacroiliac joints).
How is low back pain diagnosed?
A thorough medical history and physical exam can usually identify any dangerous conditions or family history that may be associated
with the pain. The patient describes the onset, site, and severity of the pain; duration of symptoms and any limitations in
movement; and history of previous episodes or any health conditions that might be related to the pain. The physician will
examine the back and conduct neurologic tests to determine the cause of pain and appropriate treatment. Blood tests may also
be ordered. Imaging tests may be necessary to diagnose tumors or other possible sources of the pain.
A variety of diagnostic methods are available to confirm the cause of low back pain:
X-ray imaging includes conventional and enhanced methods that can help diagnose the cause and site of back pain. A conventional x-ray, often the first imaging technique used, looks for broken bones or an injured vertebra. A technician passes a concentrated
beam of low-dose ionized radiation through the back and takes pictures that, within minutes, clearly show the bony structure
and any vertebral misalignment or fractures. Tissue masses such as injured muscles and ligaments or painful conditions such
as a bulging disc are not visible on conventional x-rays. This fast, noninvasive, painless procedure is usually performed
in a doctor’s office or at a clinic.
Discography involves the injection of a special contrast dye into a spinal disc thought to be causing low back pain. The dye outlines
the damaged areas on x-rays taken following the injection. This procedure is often suggested for patients who are considering
lumbar surgery or whose pain has not responded to conventional treatments. Myelograms also enhance the diagnostic imaging of an x-ray. In this procedure, the contrast dye is injected into the spinal canal, allowing
spinal cord and nerve compression caused by herniated discs or fractures to be seen on an x-ray.
Computerized tomography (CT) is a quick and painless process used when disc rupture, spinal stenosis, or damage to vertebrae is suspected as a cause of
low back pain. X-rays are passed through the body at various angles and are detected by a computerized scanner to produce
two-dimensional slices (1 mm each) of internal structures of the back. This diagnostic exam is generally conducted at an imaging
center or hospital.
Magnetic resonance imaging (MRI) is used to evaluate the lumbar region for bone degeneration or injury or disease in tissues and nerves, muscles, ligaments,
and blood vessels. MRI scanning equipment creates a magnetic field around the body strong enough to temporarily realign water
molecules in the tissues. Radio waves are then passed through the body to detect the “relaxation” of the molecules back to
a random alignment and trigger a resonance signal at different angles within the body. A computer processes this resonance
into either a three-dimensional picture or a two-dimensional “slice” of the tissue being scanned, and differentiates between
bone, soft tissues and fluid-filled spaces by their water content and structural properties. This noninvasive procedure is
often used to identify a condition requiring prompt surgical treatment.
Electrodiagnostic procedures include electromyography (EMG), nerve conduction studies, and evoked potential (EP) studies. EMG assesses the electrical
activity in a nerve and can detect if muscle weakness results from injury or a problem with the nerves that control the muscles.
Very fine needles are inserted in muscles to measure electrical activity transmitted from the brain or spinal cord to a particular
area of the body. With nerve conduction studies the doctor uses two sets of electrodes (similar to those used during an electrocardiogram)
that are placed on the skin over the muscles. The first set gives the patient a mild shock to stimulate the nerve that runs
to a particular muscle. The second set of electrodes is used to make a recording of the nerve’s electrical signals, and from
this information the doctor can determine if there is nerve damage. EP tests also involve two sets of electrodes — one set
to stimulate a sensory nerve and the other set on the scalp to record the speed of nerve signal transmissions to the brain.
Bone scans are used to diagnose and monitor infection, fracture, or disorders in the bone. A small amount of radioactive material is
injected into the bloodstream and will collect in the bones, particularly in areas with some abnormality. Scanner-generated
images are sent to a computer to identify specific areas of irregular bone metabolism or abnormal blood flow, as well as to
measure levels of joint disease.
Thermography involves the use of infrared sensing devices to measure small temperature changes between the two sides of the
body or the temperature of a specific organ. Thermography may be used to detect the presence or absence of nerve root compression.
Ultrasound imaging, also called ultrasound scanning or sonography, uses high-frequency sound waves to obtain images inside the body. The sound
wave echoes are recorded and displayed as a real-time visual image. Ultrasound imaging can show tears in ligaments, muscles,
tendons, and other soft tissue masses in the back.
How is back pain treated?
Most low back pain can be treated without surgery. Treatment involves using analgesics, reducing inflammation, restoring proper
function and strength to the back, and preventing recurrence of the injury. Most patients with back pain recover without residual
functional loss. Patients should contact a doctor if there is not a noticeable reduction in pain and inflammation after 72
hours of self-care.
Although ice and heat (the use of cold and hot compresses) have never been scientifically proven to quickly resolve low back injury, compresses
may help reduce pain and inflammation and allow greater mobility for some individuals. As soon as possible following trauma,
patients should apply a cold pack or a cold compress (such as a bag of ice or bag of frozen vegetables wrapped in a towel)
to the tender spot several times a day for up to 20 minutes. After 2 to 3 days of cold treatment, they should then apply heat
(such as a heating lamp or hot pad) for brief periods to relax muscles and increase blood flow. Warm baths may also help relax
muscles. Patients should avoid sleeping on a heating pad, which can cause burns and lead to additional tissue damage.
Bed rest — 1–2 days at most. A 1996 Finnish study found that persons who continued their activities without bed rest following onset
of low back pain appeared to have better back flexibility than those who rested in bed for a week. Other studies suggest that
bed rest alone may make back pain worse and can lead to secondary complications such as depression, decreased muscle tone,
and blood clots in the legs. Patients should resume activities as soon as possible. At night or during rest, patients should
lie on one side, with a pillow between the knees (some doctors suggest resting on the back and putting a pillow beneath the
may be the most effective way to speed recovery from low back pain and help strengthen back and abdominal muscles. Maintaining
and building muscle strength is particularly important for persons with skeletal irregularities. Doctors and physical therapists
can provide a list of gentle exercises that help keep muscles moving and speed the recovery process. A routine of back-healthy
activities may include stretching exercises, swimming, walking, and movement therapy to improve coordination and develop proper
posture and muscle balance. Yoga is another way to gently stretch muscles and ease pain. Any mild discomfort felt at the start
of these exercises should disappear as muscles become stronger. But if pain is more than mild and lasts more than 15 minutes
during exercise, patients should stop exercising and contact a doctor.
Medications are often used to treat acute and chronic low back pain. Effective pain relief may involve a combination of prescription
drugs and over-the-counter remedies. Patients should always check with a doctor before taking drugs for pain relief. Certain
medicines, even those sold over the counter, are unsafe during pregnancy, may conflict with other medications, may cause side
effects including drowsiness, or may lead to liver damage.
- Over-the-counter analgesics, including nonsteroidal anti-inflammatory drugs (aspirin, naproxen, and ibuprofen), are taken orally to reduce stiffness,
swelling, and inflammation and to ease mild to moderate low back pain. Counter-irritants applied topically to the skin as a cream or spray stimulate the nerve endings in the skin to provide feelings of warmth or
cold and dull the sense of pain. Topical analgesics can also reduce inflammation and stimulate blood flow. Many of these compounds
contain salicylates, the same ingredient found in oral pain medications containing aspirin.
- Anticonvulsants — drugs primarily used to treat seizures — may be useful in treating certain types of nerve pain and may also be prescribed
- Some antidepressants, particularly tricyclic antidepressants such as amitriptyline and desipramine, have been shown to relieve pain (independent
of their effect on depression) and assist with sleep. Antidepressants alter levels of brain chemicals to elevate mood and
dull pain signals. Many of the new antidepressants, such as the selective serotonin reuptake inhibitors, are being studied
for their effectiveness in pain relief.
- Opioids such as codeine, oxycodone, hydrocodone, and morphine are often prescribed to manage severe acute and chronic back pain but
should be used only for a short period of time and under a physician’s supervision. Side effects can include drowsiness, decreased
reaction time, impaired judgment, and potential for addiction. Many specialists are convinced that chronic use of these drugs
is detrimental to the back pain patient, adding to depression and even increasing pain.
Spinal manipulation is literally a "hands-on" approach in which professionally licensed specialists (such as chiropractors, osteopaths, and physical
therapists) use leverage and a series of exercises to adjust spinal structures and restore back mobility. These specialists
do not prescribe drugs or use surgery in their treatment of low back pain.
When back pain does not respond to more conventional approaches, patients may consider the following options:
Acupuncture involves the insertion of needles the width of a human hair along precise points throughout the body. Practitioners believe
this process triggers the release of naturally occurring painkilling molecules called peptides and keeps the body’s normal
flow of energy unblocked. Clinical studies are measuring the effectiveness of acupuncture in comparison to more conventional
procedures in the treatment of acute low back pain.
Biofeedback is used to treat many acute pain problems, most notably back pain and headache. Using a special electronic machine, the patient
is trained to become aware of, to follow, and to gain control over certain bodily functions, including muscle tension, heart
rate, and skin temperature (by controlling local blood flow patterns). The patient can then learn to effect a change in his
or her response to pain, for example, by using relaxation techniques. Biofeedback is often used in combination with other
treatment methods, generally without side effects.
Interventional therapy can ease chronic pain by blocking nerve conduction between specific areas of the body and the brain. Approaches range from
injections of local anesthetics, steroids, or narcotics into affected soft tissues, joints, or nerve roots to more complex
nerve blocks and spinal cord stimulation. When extreme pain is involved, low doses of drugs may be administered by catheter
directly into the spinal cord. Chronic use of steroid injections may lead to increased functional impairment.
Traction involves the use of weights to apply constant or intermittent force to gradually “pull” the skeletal structure into better
alignment. Traction is not recommended for treating acute low back symptoms.
Transcutaneous electrical nerve stimulation (TENS) is administered by a battery-powered device that sends mild electric pulses along nerve fibers to block pain signals to the
brain. Small electrodes placed on the skin at or near the site of pain generate nerve impulses that block incoming pain signals
from the peripheral nerves. TENS may also help stimulate the brain’s production of endorphins (chemicals that have pain-relieving
Ultrasound is a noninvasive therapy used to warm the body’s internal tissues, which causes muscles to relax. Sound waves pass through
the skin and into the injured muscles and other soft tissues.
Minimally invasive outpatient treatments to seal fractures of the vertebrae caused by osteoporosis include vertebroplasty and kyphoplasty. Vertebroplasty uses three-dimensional imaging to help a doctor guide a fine needle into the vertebral body. A glue-like
epoxy is injected, which quickly hardens to stabilize and strengthen the bone and provide immediate pain relief. In kyphoplasty,
prior to injecting the epoxy, a special balloon is inserted and gently inflated to restore height to the bone and reduce spinal
In the most serious cases, when the condition does not respond to other therapies, surgery may relieve pain caused by back
problems or serious musculoskeletal injuries. Some surgical procedures may be performed in a doctor’s office under local anesthesia,
while others require hospitalization. It may be months following surgery before the patient is fully healed, and he or she
may suffer permanent loss of flexibility. Since invasive back surgery is not always successful, it should be performed only
in patients with progressive neurologic disease or damage to the peripheral nerves.
- Discectomy is one of the more common ways to remove pressure on a nerve root from a bulging disc or bone spur. During the procedure
the surgeon takes out a small piece of the lamina (the arched bony roof of the spinal canal) to remove the obstruction below.
- Foraminotomy is an operation that “cleans out” or enlarges the bony hole (foramen) where a nerve root exits the spinal canal. Bulging discs or joints thickened with age can cause narrowing of the space through
which the spinal nerve exits and can press on the nerve, resulting in pain, numbness, and weakness in an arm or leg. Small
pieces of bone over the nerve are removed through a small slit, allowing the surgeon to cut away the blockage and relieve
the pressure on the nerve.
- IntraDiscal Electrothermal Therapy (IDET) uses thermal energy to treat pain resulting from a cracked or bulging spinal disc. A special needle is inserted via a catheter
into the disc and heated to a high temperature for up to 20 minutes. The heat thickens and seals the disc wall and reduces
inner disc bulge and irritation of the spinal nerve.
- Nucleoplasty uses radiofrequency energy to treat patients with low back pain from contained, or mildly herniated, discs. Guided by x-ray
imaging, a wand-like instrument is inserted through a needle into the disc to create a channel that allows inner disc material
to be removed. The wand then heats and shrinks the tissue, sealing the disc wall. Several channels are made depending on how
much disc material needs to be removed.
- Radiofrequency lesioning is a procedure using electrical impulses to interrupt nerve conduction (including the conduction of pain signals) for 6 to12
months. Using x-ray guidance, a special needle is inserted into nerve tissue in the affected area. Tissue surrounding the
needle tip is heated for 90-120 seconds, resulting in localized destruction of the nerves.
- Spinal fusion is used to strengthen the spine and prevent painful movements. The spinal disc(s) between two or more vertebrae is removed
and the adjacent vertebrae are “fused” by bone grafts and/or metal devices secured by screws. Spinal fusion may result in
some loss of flexibility in the spine and requires a long recovery period to allow the bone grafts to grow and fuse the vertebrae
- Spinal laminectomy (also known as spinal decompression) involves the removal of the lamina (usually both sides) to increase the size of the
spinal canal and relieve pressure on the spinal cord and nerve roots.
Other surgical procedures to relieve severe chronic pain include rhizotomy, in which the nerve root close to where it enters the spinal cord is cut to block nerve transmission and all senses from
the area of the body experiencing pain; cordotomy, where bundles of nerve fibers on one or both sides of the spinal cord are intentionally severed to stop the transmission
of pain signals to the brain; and dorsal root entry zone operation, or DREZ, in which spinal neurons transmitting the patient’s pain are destroyed surgically.
Can back pain be prevented?
Recurring back pain resulting from improper body mechanics or other nontraumatic causes is often preventable. A combination
of exercises that don't jolt or strain the back, maintaining correct posture, and lifting objects properly can help prevent
Many work-related injuries are caused or aggravated by stressors such as heavy lifting, contact stress (repeated or constant
contact between soft body tissue and a hard or sharp object, such as resting a wrist against the edge of a hard desk or repeated
tasks using a hammering motion), vibration, repetitive motion, and awkward posture. Applying ergonomic principles — designing
furniture and tools to protect the body from injury — at home and in the workplace can greatly reduce the risk of back injury
and help maintain a healthy back. More companies and homebuilders are promoting ergonomically designed tools, products, workstations,
and living space to reduce the risk of musculoskeletal injury and pain.
The use of wide elastic belts that can be tightened to “pull in” lumbar and abdominal muscles to prevent low back pain remains
controversial. A landmark study of the use of lumbar support or abdominal support belts worn by persons who lift or move merchandise
found no evidence that the belts reduce back injury or back pain. The 2-year study, reported by the National Institute for
Occupational Safety and Health (NIOSH) in December 2000, found no statistically significant difference in either the incidence
of workers’ compensation claims for job-related back injuries or the incidence of self-reported pain among workers who reported
they wore back belts daily compared to those workers who reported never using back belts or reported using them only once
or twice a month.
Although there have been anecdotal case reports of injury reduction among workers using back belts, many companies that have
back belt programs also have training and ergonomic awareness programs. The reported injury reduction may be related to a
combination of these or other factors.
Quick tips to a healthier back
Following any period of prolonged inactivity, begin a program of regular low-impact exercises. Speed walking, swimming, or
stationary bike riding 30 minutes a day can increase muscle strength and flexibility. Yoga can also help stretch and strengthen
muscles and improve posture. Ask your physician or orthopedist for a list of low-impact exercises appropriate for your age
and designed to strengthen lower back and abdominal muscles.
- Always stretch before exercise or other strenuous physical activity.
- Don’t slouch when sitting or standing. When standing, keep your weight balanced on your feet. Your back supports weight most
easily when curvature is reduced.
- At home or work, make sure your work surface is at a comfortable height for you.
- Sit in a chair with good lumbar support and proper position and height for the task. Keep your shoulders back. Switch sitting
positions often and periodically walk around the office or gently stretch muscles to relieve tension. A pillow or rolled-up
towel placed behind the small of your back can provide some lumbar support. If you must sit for a long period of time, rest
your feet on a low stool or a stack of books.
- Wear comfortable, low-heeled shoes.
- Sleep on your side to reduce any curve in your spine. Always sleep on a firm surface.
- Ask for help when transferring an ill or injured family member from a reclining to a sitting position or when moving the patient
from a chair to a bed.
- Don’t try to lift objects too heavy for you. Lift with your knees, pull in your stomach muscles, and keep your head down and
in line with your straight back. Keep the object close to your body. Do not twist when lifting.
- Maintain proper nutrition and diet to reduce and prevent excessive weight, especially weight around the waistline that taxes
lower back muscles. A diet with sufficient daily intake of calcium, phosphorus, and vitamin D helps to promote new bone growth.
- If you smoke, quit. Smoking reduces blood flow to the lower spine and causes the spinal discs to degenerate.
What research is being done?
The National Institute of Neurological Disorders and Stroke, a component of the National Institutes of Health (NIH) within
the U.S. Department of Health and Human Services, is the nation’s leading federal funder of research on disorders of the brain
and nervous system and one of the primary NIH components that supports research on pain and pain mechanisms. Other institutes
at NIH that support pain research include the National Institute of Dental and Craniofacial Research, the National Cancer
Institute, the National Institute on Drug Abuse, the National Institute of Mental Health, the National Center for Complementary
and Alternative Medicine, and the National Institute of Arthritis and Musculoskeletal and Skin Diseases. Additionally, other
federal organizations, such as the Department of Veterans Affairs and the Centers for Disease Control and Prevention, conduct
studies on low back pain.
Scientists are examining the use of different drugs to effectively treat back pain, in particular daily pain that has lasted
at least 6 months. Other studies are comparing different health care approaches to the management of acute low back pain (standard
care versus chiropractic, acupuncture, or massage therapy). These studies are measuring symptom relief, restoration of function,
and patient satisfaction. Other research is comparing standard surgical treatments to the most commonly used standard nonsurgical
treatments to measure changes in health-related quality of life among patients suffering from spinal stenosis. NIH-funded
research at the Consortial Center for Chiropractic Research encourages the development of high-quality chiropractic projects.
The Center also encourages collaboration between basic and clinical scientists and between the conventional and chiropractic
Other researchers are studying whether low-dose radiation can decrease scarring around the spinal cord and improve the results
of surgery. Still others are exploring why spinal cord injury and other neurological changes lead to an increased sensitivity
to pain or a decreased pain threshold (where normally non-painful sensations are perceived as painful, a class of symptoms
called neuropathic pain), and how fractures of the spine and their repair affect the spinal canal and intervertebral foramena (openings around the
Also under study for patients with degenerative disc disease is artificial spinal disc replacement surgery. The damaged disc
is removed and a metal and plastic disc about the size of a quarter is inserted into the spine. Ideal candidates for disc
replacement surgery are persons between the ages of 20 and 60 who have only one degenerating disc, do not have a systemic
bone disease such as osteoporosis, have not had previous back surgery, and have failed to respond to other forms of nonsurgical
treatment. Compared to other forms of back surgery, recovery from this form of surgery appears to be shorter and the procedure
has fewer complications.
Where can I get more information?
Click here to visit our Spine Care Links page for additional lower back pain resources
The material in this Lower Back Pain Fact Sheet is provided for informational purposes only. Advice on the treatment or care of an individual patient should be obtained through consultation with a physician who has examined that patient or is familiar with that patient's medical history.
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