What is complex regional pain syndrome?

Complex Regional Pain SyndromeComplex regional pain syndrome (CRPS) is a chronic (lasting greater than six months) pain condition that most often affects one limb (arm, leg, hand, or foot) usually after an injury.  The peripheral nervous system involves nerve signaling from the brain and spinal cord to the rest of the body.  CRPS is characterized by prolonged or excessive pain and changes in skin color, temperature, and/or swelling in the affected area.

CRPS symptoms vary in severity and duration, although some cases are mild and eventually go away.  In more severe cases, individuals may not recover and may have long-term disability.

Who can get CRPS?

Although it is more common in women, CRPS can occur in anyone at any age, with a peak at age 40.  CRPS is rare in the elderly. Very few children under age 10 and almost no children under age 5 are affected.

What are the symptoms of CRPS?

The key symptom is prolonged severe pain that may be constant.  It has been described as “burning,” “pins and needles” sensation, or as if someone were squeezing the affected limb.  The pain may spread to the entire arm or leg, even though the injury might have only involved a finger or toe. In rare cases, pain can sometimes even travel to the opposite extremity.  There is often increased sensitivity in the affected area, known as allodynia, in which normal contact with the skin is experienced as very painful.

People with CRPS also experience changes in skin temperature, skin color, or swelling of the affected limb.  This is due to abnormal microcirculation caused by damage to the nerves controlling blood flow and temperature.  As a result, an affected arm or leg may feel warmer or cooler compared to the opposite limb.  The skin on the affected limb may change color, becoming blotchy, blue, purple, pale, or red.

Other common features of CRPS include:

  • changes in skin texture on the affected area; it may appear shiny and thin
  • the abnormal sweating pattern in the affected area or surrounding areas
  • changes in nail and hair growth patterns
  • stiffness in affected joints
  • problems coordinating muscle movement, with decreased ability to move the affected body part
  • abnormal movement in the affected limb, most often fixed abnormal posture (called dystonia) but also tremors in or jerking of the limb.

What causes CRPS?

It is unclear why some individuals develop CRPS while others with similar trauma do not. CRPS represents an abnormal response that magnifies the effects of the injury.

Peripheral nerve abnormalities found in individuals with CRPS usually involve the small unmyelinated and thinly myelinated sensory nerve fibers (axons) that carry pain messages and signals to blood vessels. (Myelin is a mixture of proteins and fat-like substances that surround and insulate some nerve fibers.) Because small fibers in the nerves communicate with blood vessels, injuries to the fibers may trigger the many different symptoms of CRPS.  Molecules secreted from the ends of hyperactive small nerve fibers are thought to contribute to inflammation and blood vessel abnormalities.  These peripheral nerve abnormalities in turn trigger damage in the spinal cord and brain.

Blood vessels in the affected limb may dilate (open wider) or leak fluid into the surrounding tissue, causing red, swollen skin.  The dilation and constriction of small blood vessels are controlled by small nerve fiber axons as well as chemical messengers in the blood.  The underlying muscles and deeper tissues can become starved of oxygen and nutrients, which causes muscle and joint pain as well as damage.  The blood vessels may over-constrict (clamp down), causing old, white, or bluish skin.

CRPS also affects the immune system. High levels of inflammatory chemicals (cytokines) have been found in the tissues of people with CRPS.  These contribute to the redness, swelling, and warmth reported by many patients. CRPS is more common in individuals with other inflammatory and autoimmune conditions such as asthma.

Genetics & CRPS

Limited data suggest that CRPS also may be influenced by genetics.  Rare family clusters of CRPS have been reported.  Familial CRPS may be more severe with earlier onset, greater dystonia, and more than one limb being affected.

Occasionally CRPS develops without any known injury.  In these cases, an infection, a blood vessel problem, or entrapment of the nerves may have caused an internal injury.  A physician will perform a thorough examination in order to identify a cause.

In many cases, CRPS results from a variety of causes.  In such instances, treatments are directed at all of the contributing factors.

Currently, there is no specific test that can confirm CRPS.   Since other conditions can cause similar symptoms, careful examination is important.  As most people improve gradually over time, the diagnosis may be more difficult later in the course of the disorder.

The outcome of CRPS is highly variable.  Younger persons, children, and teenagers tend to have better outcomes.  While older people can have good outcomes, there are some individuals who experience severe pain and disability despite treatment.

Rehabilitation and physical therapy.  An exercise program to keep the painful limb or body part moving can improve blood flow and lessen the circulatory symptoms.  Additionally, exercise can help improve the affected limb’s flexibility, strength, and function.  Occupational therapy can help the individual learn new ways to work and perform daily tasks.

Psychotherapy.  People with CRPS may develop depression, anxiety, or post-traumatic stress disorder, all of which heighten the perception of pain and make rehabilitation efforts more difficult.  Treating these secondary conditions is important for helping people cope and recover from CRPS.

Drugs to treat CRPS include:

  • bisphosphonates, such as high dose alendronate or intravenous pamidronate
  • non-steroidal anti-inflammatory drugs to treat moderate pain, including over-the-counter aspirin, ibuprofen, and naproxen
  • corticosteroids that treat inflammation/swelling and edema, such as prednisolone and methylprednisolone (used mostly in the early stages of CRPS)
  • drugs initially developed to treat seizures or depression but now shown to be effective for neuropathic pain, such as gabapentin, pregabalin, amitriptyline, nortriptyline, and duloxetine
  • botulinum toxin injections
  • opioids such as oxycontin, morphine, hydrocodone, fentanyl, and Vicodin.
  • N-methyl-D-aspartate (NMDA) receptor antagonists such as dextromethorphan and ketamine, and
  • topical local anesthetic creams and patches such as lidocaine.

All drugs or combination of drugs can have various side effects such as drowsiness, dizziness, increased heartbeat, and impaired memory. Inform a healthcare professional of any changes once drug therapy begins.

Types of Drug Therapy

Sympathetic nerve block. Sympathetic blocks involve injecting an anesthetic next to the spine to directly block the activity of sympathetic nerves and improve blood flow.

Surgical sympathectomy.  The use of this operation that destroys some of the nerves is controversial.  Some experts think it is unwarranted and makes CRPS worse, whereas others report a favorable outcome.

Spinal cord stimulation.  Placing stimulating electrodes through a needle into the spine near the spinal cord provides a tingling sensation in the painful area.  Electrodes may be placed temporarily for a few days in order to assess whether stimulation is likely to be helpful.   Approximately 25 percent of individuals develop equipment problems that may require additional surgeries.

Other types of neural stimulation.  These include near injured nerves (peripheral nerve stimulators), outside the membranes of the brain (motor cortex stimulation with dural electrodes), and within the parts of the brain that control pain (deep brain stimulation).  A recent option involves the use of magnetic currents applied externally to the brain (known as repetitive Transcranial Magnetic Stimulation, or rTMS).

Intrathecal drug pumps.  These devices pump pain-relieving medications directly into the fluid that bathes the spinal cord, typically opioids, local anesthetic agents, clonidine, and baclofen.  There are no studies that show benefit specifically for CRPS.

Emerging treatments for CRPS include:

  • Intravenous immunoglobulin (IVIG).  Researchers in Great Britain report low-dose IVIG reduced pain intensity in a small trial of 13 patients with CRPS for 6 to 30 months who did not respond well to other treatments.  Those who received IVIG had a greater decrease in pain scores than those receiving saline during the following 14 days after infusion.
  • Ketamine. Investigators are using low doses of ketamine—a strong anesthetic—given intravenously for several days to either reduce substantially or eliminate the chronic pain of CRPS.
  • Graded Motor imagery.  Several studies have demonstrated the benefits of graded motor imagery therapy for CRPS pain.  Individuals do mental exercises including identifying left and right painful body parts while looking into a mirror and visualizing moving those painful body parts without actually moving them.

Options include behavior modification, acupuncture, relaxation techniques (such as biofeedback, progressive muscle relaxation, and guided motion therapy), and chiropractic treatment.

Where can I get more information?

For more information on neurological disorders or research programs funded by the National Institute of Neurological Disorders and Stroke, contact the Institute’s Brain Resources and Information Network (BRAIN) at:

BRAIN
P.O. Box 5801
Bethesda, MD 20824
800-352-9424
www.ninds.nih.gov