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The Lowdown on Living with Neuropathy

The Lowdown on Living with Neuropathy


May 7 to 13 is National Neuropathy Awareness Week. The week highlights the national effort to educate the public on neuropathy’s causes, treatments, and prevention strategies. If you or someone you care for is living with neuropathy, the week presents an excellent opportunity to learn more about this condition and help others.

What Is Neuropathy?

Approximately 20 million Americans are living with peripheral neuropathy. While the term “neuropathy” simply means “nerve damage,” peripheral neuropathy is the impairment of the nerves in the body’s outer extremities — such as the hands and feet. While the explanation for an individual’s neuropathy is sometimes unknown, a wide range of factors can cause it. Here are some causes of this chronic neurological disease.

  • Trauma from injury and repetitive stress is the most common cause, and medical treatments, like certain types of chemotherapy and surgeries, can damage nerves.
  • Nearly 70 percent of people with diabetes live with some level of neuropathy.
  • Inflammation from autoimmune diseases like lupus and rheumatoid arthritis can destroy nerve fibers.
  • The majority of people on dialysis for kidney disease develop neuropathy because excess toxic chemicals accumulate and damage nerves.
  • Infections, both bacterial and viral, are a major cause of neuropathy.
  • Heavy drinking can cause irreversible nerve damage.

Diagnosing Neuropathy

Symptoms of neuropathy depend on the type of nerve damaged. Associated with muscle weakness, motor nerve damage symptoms include decreased reflexes, twitching, and cramping. Sensory nerve damage leads to loss of sensation and is a leading cause of falls among older adults. It also causes difficult-to-treat neuropathic pain. Common symptoms of neuropathy include:

  • Tingling, burning, or numb sensations
  • Hypersensitive to touch
  • Stabbing or shooting pains
  • Muscle cramps and loss of muscle mass
  • Dizziness and balance issues
  • Weakness

To diagnose neuropathy, health care professionals begin with a physical and neurological exam, and gather your medical history. They may order any number of tests and screenings to expand their search or confirm suspicions. Tests might include skin and nerve biopsies and magnetic resonance imaging (MRI) scans. Nerve conduction velocity tests — used to determine damage to large nerve fibers — and those that measure muscles’ electrical activity help pinpoint neuropathy’s physical effects.

Treating Neuropathy

The good news for those living with neuropathy is that it is sometimes reversible. Peripheral nerves do regenerate. Simply by addressing contributing causes such as underlying infections, exposure to toxins, or vitamin and hormonal deficiencies, neuropathy symptoms frequently resolve themselves.

In most cases, however, neuropathy is not curable, and the focus for treatment is managing symptoms. Assistive devices, pain management, and physical therapy make a tremendous difference for those living with neuropathy. Technologies — from specialized footwear to electrical nerve stimulation devices — offer hope for the future.

Preventing Neuropathy

Whether you have to quit smoking, control blood sugar levels, avoid alcohol, or implement aggressive self-care, you can likely manage symptoms and stall neuropathy’s progression. Some people even make changes to their routine to greatly reduce their risk of ever acquiring it. Eating a healthy diet, exercising regularly, and avoiding bad habits are major steps in that direction.

Help make National Neuropathy Awareness Week a success by becoming a part of the effort. Learn what you can and share your experiences. If you’re living with neuropathy or caring for someone who is, know that your voice matters.

 

Article Provided By: dignityhealth

Carolina Pain Scrambler Logo, Chronic Pain, Greenville, SCIf you would like to discuss what Carolina Pain Scrambler do to help relieve your chronic pain symptoms or receive more information on our treatment process, please do not hesitate to call us at 864-520-5011 or you can email us at info@carolinapainscrambler.com

 

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How do I Exercise with Neuropathy?

How do I Exercise with Neuropathy?

Water aerobics is an exercise performed in a pool.
Water aerobics is an exercise performed in a pool.

To exercise with neuropathy, or nerve damage, you should aim for a moderate workout schedule rather than overdoing it. It’s important to have regular exercise sessions though, because it may lessen the extent or intensity of neuropathy over time. In general, exercises that don’t put a lot of pressure on the skeleton, especially the feet, are good for people with neuropathy.

Exercising in the water puts little stress on the joints and bones, and may be recommended for those with neuropathy.
Exercising in the water puts little stress on the joints and bones, and may be recommended for those with neuropathy.

Running, jogging, hiking, walking and step aerobics may be too much when exercising with nerve damage. If you have moderate to severe neuropathy in the feet or legs, overdoing or even moderately doing these activities may cause foot ulcers or joint damage. If the feet or legs aren’t swollen, sore or have a “pins and needles” feeling, then a limited amount of these types of exercises may be able to be done.

Running, jogging, hiking, and walking may be too much when exercising with nerve damage.
Running, jogging, hiking, and walking may be too much when exercising with nerve damage.

Aqua aerobics in the shallow end of a swimming pool may be fine in moderation, as the water helps cushion the feet and joints. However, as there is still contact with the feet on the pool floor, deep water aerobics can offer even more cushioning exercises. Swimming is often an excellent physical activity for those who exercise with neuropathy. Since it involves whole body movement, swimming can provide overall toning as well as cardiovascular benefits when done at a brisk pace.

While regular exercise is especially important for diabetics with neuropathy, as it can help lower blood sugar, proper fitting shoes and checks of the feet after workouts is important. Yoga can be an extremely beneficial exercise with neuropathy, as it’s gentle on the body, but if it’s done in bare feet, diabetics must be sure to take caution in not getting any scrapes or even a tiny pebble on either foot. Something as minor as a scratch on the foot may go unnoticed by those with neuropathy, as their feet are typically numb. If untreated, a foot infection may become so severe that amputation is necessary.

Individuals suffering from neuropathy may not notice scratches on their feet.
Individuals suffering from neuropathy may not notice scratches on their feet.

If you begin the type of exercise that best suits your degree of neuropathy, you should aim for about 30 minutes three to five times a week, depending on your fitness level and physician’s recommendations. In addition to water exercises, cycling may be another activity that you find you can do with neuropathy. It’s important to begin any type of exercise with neuropathy slowly and build up your time spent on it gradually.

 

Article Provided By: thehealthboard

Olympic Photo by Alex Smith on Unsplash

 

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What Is Nerve Pain (and How Does It Differ From Other Kinds of Pain?)

What Is Nerve Pain (and How Does It Differ From Other Kinds of Pain?)

“Can you describe your pain?” This will likely be one of the first questions your doctor asks if you complain of chronic pain. Unless there’s an obvious reason for pain, your doctor needs a lot of information to identify the underlying cause. This includes the location, type, intensity and frequency of pain. The doctor is partly trying to determine whether the pain is nociceptive or neuropathic (also called nerve pain), or possibly both.

“This can be tricky because all pain is experienced through the nerves,” says sports medicine specialist Dominic King, DO. Damage to bodily tissues, such as muscles, tendons, ligaments or the capsules around joints, causes nociceptive pain. Nerve receptors adjacent to the damaged tissue, called nociceptors, transmit a pain signal to the brain. This type of pain tends to feel sharp, achy, dull or throbbing.

Understanding ‘electric pain’

If you’re experiencing something that feels more like burning, stabbing, or shooting pain ― especially if there also is numbness or tingling ― it’s likely to be neuropathic pain. This means there is direct damage or irritation to a nerve. “It can cause a lightning strike type of electric pain,” says Dr. King.

Nerve pain can arise from a variety of causes, including diabetes, infections (such as shingles), multiple sclerosis, the effects of chemotherapy or trauma. When it comes to orthopeadic issues, nerve pain often stems from a nerve being pinched by nearby bones, ligaments and other structures.

For example, a herniated disk in the spine or a narrowing of the spinal canal (stenosis) can press on a nerve as it leaves the spinal canal. This can cause pain along the path of the nerve. When nerves that originate in the lower spine are affected, symptoms might be felt in the buttocks or down a leg. If the compressed nerve is in the upper spine, the pain and other symptoms can shoot down the arm. Numbness or tingling may also occur because the brain is not receiving a consistent signal due to the compression.

Another common cause of nerve pain is carpal tunnel syndrome. A nerve and several tendons travel through a passageway in the wrist (the carpal tunnel) to the hand. Inflammation in the tunnel can press on the nerve, causing numbness and tingling in the thumb and fingers.

How is the cause of nerve pain found?

“There are so many orthopaedic conditions that overlap between pain stemming from problems with tendons, muscles, joints and nerves that you need a very discerning physician to do a good physical exam to figure out the cause,” says Dr. King. “I make my determination based on when the patient experiences pain, where the pain is located and what the pain feels like.”

Pain related to joints, such as from arthritis, will feel more like stiffness when going from sitting to standing. With tendon pain, it will feel sore when you push on the affected area. “Nerve pain is more of a burning, fiery pain,” says Dr. King. And it tends to come and go.

“Nerve pain typically gets worse with more and more use and can be associated with numbness,” says Dr. King.

Ultimately, getting the right treatment depends on getting the right diagnosis. For many bone and joint conditions, nondrug treatment will be tried first. Sometimes pain medication is needed. However, neuropathic pain does not respond to drugs commonly used for nociceptive pain, such as nonsteroidal anti-inflammatory drugs.

This article originally appeared in Cleveland Clinic Arthritis Advisor.

 

Article Provided By: clevelandclinic

 

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Managing & Coping with Neuropathy

Managing & Coping with Neuropathy

What predicts depression and anxiety among people with PN? Not necessarily the severity of the PN symptoms! The predictors are the psychological variables (i.e.: How do you feel? Hopeless, optimistic, anxious, etc.); social variables (i.e.: Are you active? Do you have support?) All of these variables can be changed!

Dwelling on what might have been if you were not diagnosed, self-pitying, ruminating about better times, and think of yourself primarily as a “PN patient” does not provide the escape from stress of the illness. These coping strategies are ineffective and can make your neuropathy symptoms worse.

Below are effective Self-Care and Coping Skills:

Managing Peripheral Neuropathy

The following suggestions can help you manage peripheral neuropathy:

Take care of your feet, especially if you have diabetes. Check your feet daily for signs of blisters, cuts or calluses. Tight shoes and socks can worsen pain and tingling and may lead to sores that won’t heal. Wear soft, loose cotton socks and padded shoes. You can use a semicircular hoop, which is available in medical supply stores, to keep bed covers off hot or sensitive feet.

Quit smoking. Cigarette smoking can affect circulation, increasing the risk of foot problems and possibly amputation.

Eat healthy meals. If you’re at high risk of neuropathy or have a chronic medical condition, healthy eating is especially important. Emphasize low-fat meats and dairy products and include lots of fruits, vegetables and whole grains in your diet. Drink alcohol in moderation.

Massage. Massage your hands and feet, or have someone massage them for you. Massage helps improve circulation, stimulates nerves and may temporarily relieve pain.

Avoid prolonged pressure. Don’t keep your knees crossed or lean on your elbows for long periods of time. Doing so may cause new nerve damage.

Skills for Coping With Peripheral Neuropathy

Living with chronic pain or disability presents daily challenges. Some of these suggestions may make it easier for you to cope:

Set priorities. Decide which tasks you need to do on a given day, such as paying bills or shopping for groceries, and which can wait until another time. Stay active, but don’t overdo.

Acceptance & Acknowledgement. Accept and acknowledge the negative aspects of the illness, but then move forward to become more positive to find what works best for you.

Find the positive aspects of the disorder. Of course you are thinking there is nothing positive about PN. Perhaps your outlook can help increase empathy, encourage you to maintain a balanced schedule or maintaining a healthier lifestyle.

Get out of the house. When you have severe pain, it’s natural to want to be alone. But this only makes it easier to focus on your pain. Instead, visit a friend, go to a movie or take a walk.

Get moving.  Develop an exercise program that works for you to maintain your optimum fitness.   It gives you something you can control, and provides so many benefits to your physical and emotional well-being

Seek and accept support. It isn’t a sign of weakness to ask for or accept help when you need it. In addition to support from family and friends, consider joining a chronic pain support group. Although support groups aren’t for everyone, they can be good places to hear about coping techniques or treatments that have worked for others. You’ll also meet people who understand what you’re going through. To find a support group in your community, check with your doctor, a nurse or the county health department.

Prepare for challenging situations. If something especially stressful is coming up in your life, such as a move or a new job, knowing what you have to do ahead of time can help you cope.

Talk to a counselor or therapist. Insomnia, depression and impotence are possible complications of peripheral neuropathy. If you experience any of these, you may find it helpful to talk to a counselor or therapist in addition to your primary care doctor. There are treatments that can help.

How to Sleep With Neuropathy

Sleep is an essential part of living—sleep helps us avoid major health problems and it is essential to our mental and physical performance.  It affects our mood and stress and anxiety levels. Unfortunately, sleep disturbance or insomnia is often a side effect of neuropathy pain. It is a common complaint among people with living with chronic pain.

It’s no surprise that about 70 percent of pain patients, including those suffering from PN, back pain, headaches, arthritis and fibromyalgia, report they have trouble sleeping according to the Journal of Pain Medicine.

Pain can interfere with sleep due to a combination of issues. The list includes discomfort, reduced activity levels, anxiety, worry, depression and use of medications such as codeine that relieve pain but disturb sleep.

Most experts recommend a range of seven to nine hours of sleep per night for adults, regardless of age or gender. This may seem impossible to people with chronic pain, but there are steps you can take to improve your sleep, which may lead to less pain and lower levels of depression and anxiety. First, talk with your doctor to see if there are medications that may lessen your sleep disturbance. You should also check with your doctor to make sure your current medications aren’t causing some of your sleep disturbance.

Beyond medication, there are several things you can do yourself to improve your sleep. Here are some methods to try and help you fall asleep more quickly, help you sleep more deeply, help you stay asleep, and ultimately help keep you healthy.

Following are tips for improving your sleep:

  • Reduce your caffeine intake, especially in the afternoons
  • Quit smoking
  • Limit and/or omit alcohol consumption
  • Limit naps to less than one hour, preferably less
  • Don’t stay in bed too long—spending time in bed without sleeping leads to more shallow sleep
  • Adhere to a regular daily schedule including going to bed and getting up at the same time
  • Maintain a regular exercise program. Be sure to complete exercise several hours before bedtime
  • Make sure your bed is comfortable. You should have enough room to stretch and turn comfortably. Experiment with different levels of mattress firmness, foam or egg crate toppers, and pillows that provide more support
  • Keep your room cool. The temperature of your bedroom also affects sleep. Most people sleep best in a slightly cool room (around 65° F or 18° C) with adequate ventilation. A bedroom that is too hot or too cold can interfere with quality sleep.
  • Turn off your TV and Computer, many people use the television to fall asleep or relax at the end of the day. Not only does the light suppress melatonin production, but television can actually stimulate the mind, rather than relaxing it.
  • Don’t watch the clock – turn your alarm clock around so that it is not facing you
  • Keep a note pad and pencil by your bed to write down any thoughts that may wake you up at night so you can put them to rest
  • Refrain from taking a hot bath or shower right before bed; the body needs to cool a degree before getting into deep sleep
  • Try listening to relaxing soft music or audio books instead, or practicing relaxation exercises.

Visualizing a peaceful, restful place. Close your eyes and imagine a place or activity that is calming and peaceful for you. Concentrate on how relaxed this place or activity makes you feel.

Some patients find comfort from a pillow between their legs that keeps their knees from touching.  And there’s an added benefit:  A pillow between your legs at night will prevent your upper leg from pulling your spine out of alignment and reduces stress on your hips and lower back.

It may take three to four weeks of trying these techniques before you begin to see an improvement in your sleep. During the first two weeks, your sleep may actually worsen before it improves, but improved sleep may lead to less pain intensity and improved mood.

Article Provided By: foundationforPN

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What Is Reflex Sympathetic Dystrophy Syndrome?

What Is Reflex Sympathetic Dystrophy Syndrome?

Medically Reviewed by Melinda Ratini, DO, MS on September 16, 2020

Reflex sympathetic dystrophy syndrome (RSD) is a disorder that causes lasting pain, usually in an arm or leg, and it shows up after an injury, stroke, or even heart attack. But the severity of pain is typically worse than the original injury itself. Doctors don’t know exactly what causes it, but they are able to treat many cases.The term reflex sympathetic dystrophy syndrome is actually not a name that doctors use anymore. It’s an older term used to describe one form of Complex Regional Pain Syndrome (CRPS). RSD is sometimes called Type I CRPS, and it’s caused by injury to tissue with no related nerve damage.

What Causes RSD?

Doctors think the pain caused by RSD comes from problems in your sympathetic nervous system. Your sympathetic nervous system controls blood flow movements that help regulate your heart rate and blood pressure.

When you get hurt, your sympathetic nervous system tells your blood vessels to get smaller so you don’t lose too much blood at your injury site. Later, it tells them to open back up so blood can get to damaged tissue and repair it.

When you have RSD, your sympathetic nervous system gets mixed signals. It turns on after an injury, but doesn’t turn back off. This causes a lot of pain and swelling at your injury site.Sometimes, you can get RSD even if you haven’t had an injury, although it’s not as common.

Symptoms

When you get RSD, your symptoms may show up slowly. You may have pain first, and then it may get worse over time. You may not realize your pain is abnormal at first.

The types of injuries that can cause RSD include:

  • Amputation
  • Bruises
  • Burns
  • Cuts
  • Fractures
  • Minor surgery
  • Needle sticks
  • Radiation therapy
  • Sprains

It’s most common to get RSD in your arm, shoulder, leg, or hip. Usually the pain spreads beyond your injury site. In some cases, symptoms can spread to other parts of your body, too.

  • Redness
  • Skin that’s warm to the touch around the injury
  • Swelling

The pain you get with RSD is usually constant and severe. Many people describe RSD pain as:

  • Aching
  • Burning
  • Cold
  • Deep
  • Throbbing

Your skin may also feel sensitive when you do things that don’t normally hurt it, like taking a shower. Or it might hurt just to wear your clothes.

Other symptoms of RSD include:

  • Changes in your hair or nail growth, or skin’s texture
  • Excess sweat in certain areas of your body
  • Muscle weakness or spasms
  • Stiff joints
  • Trouble moving the injured area
  • White, mottled, red, or blue skin

Diagnosis

Often, doctors don’t know your pain is being caused by RSD until you’ve had it for some time. When pain doesn’t go away, or is more severe than it should be for your type of injury, it can be the first clue that it could be RSD.

Bone scan. This test can detect if any of your bones are wearing away at the ends or whether there are issues with regular blood flow.

MRI. Your doctor might order an MRI to look inside your body, specifically at your tissues, for noticeable changes.

Sweat test. This test can tell your doctor if you sweat more on one side of your body than the other.

Thermography test. This sympathetic nervous system test checks to see if the temperature or blood flow is different at your injury site than in other parts of your body.

X-rays. These are typically ordered if your syndrome is in later stages to look for mineral loss in your bones.

Treatment

Early detection is key in RSD treatment. The earlier you’re able to catch it, the better your treatment will work. Some cases of RSD don’t respond to treatment. RSD doesn’t have a cure, but it’s possible to recover from many of the symptoms.

  • Anesthetic creams like lidocaine
  • Antidepressants
  • Anti-inflammatory drugs, called NSAIDs
  • Anti-seizure medications that may help treat pain
  • Nasal spray that treats bone loss
  • Nerve blocking injections
  • Over-the-counter options like aspirin, ibuprofen, or naproxen for pain

Other ways to treat symptoms include:

  • Electrodes on your spinal cord that send small electric shocks to relieve pain
  • Physical therapy to help you move around more easily and take away pain
  • Psychotherapy that can teach you relaxation methods
  • Splints to help with hand pain

 

 

Article Provided By: webmd
Carolina Pain Scrambler Logo, Chronic Pain, Greenville, SCIf you would like to discuss what Carolina Pain Scrambler do to help relieve your chronic pain symptoms or receive more information on our treatment process, please do not hesitate to call us at 864-520-5011 or you can email us at info@carolinapainscrambler.com

 

 

 

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Hyperalgesia: What you need to know

Hyperalgesia: What you need to know

Hyperalgesia is a condition where a person develops an increased sensitivity to pain. What may not hurt most people can cause significant pain in an individual with hyperalgesia.

Although there are many potential causes associated with hyperalgesia, the condition is thought to be the result of changes to nerve pathways, which cause a person’s nerves to have an overactive response to pain.

Medications are available to prevent a person’s symptoms from worsening.

Fast facts on hyperalgesia:

  • Hyperalgesia can be very difficult for a doctor to diagnose.
  • Different types of hyperalgesia exist, and doctors have a variety of theories regarding why people experience hyperalgesia.
  • Researchers are also studying a potential genetic link to hyperalgesia
  • The condition closely resembles both drug tolerance and drug withdrawals.
Causes
Hyperalgesia is an extreme reaction to painful stimuli.

There are several nerve or “pain” pathways in the body where signals can start to miscommunicate with each other, resulting in hyperalgesia.

Some scientists think that hyperalgesia occurs when chemicals known to reduce pain are disrupted.

Others propose that hyperalgesia happens when “crossed wires” in the nervous system prevent pain signals from transmitting accurately.

Nociceptive and neuropathic pain

Nociceptive and neuropathic are two different types of pain. Nociceptive pain is acute and it usually has a specific cause, such as an injury.

Neuropathic pain results from damage to the nervous system. It can happen even when there is no injury or outside stimulus.

Hyperalgesia is considered a form of neuropathic pain.

Types

Doctors usually divide hyperalgesia into primary and secondary categories. Both of these conditions are due to initial tissue trauma and inflammation.

Primary hyperalgesia

This type of hyperalgesia is when the increased pain occurs in the tissue where the injury took place. An example would be when a person has surgery on their elbow, and the pain starts to worsen over time instead of improving.

Secondary hyperalgesia

This type occurs when the pain seems to spread to non-injured tissue or tissues.

Other types of hyperalgesia

Another kind of hyperalgesia is opioid-induced hyperalgesia (OIH). OIH occurs when a person experiences worsening or new pain as a result of taking opioids, such as morphine, hydrocodone, or fentanyl for pain relief.

Symptoms

The chief symptom of hyperalgesia is an increasingly extreme reaction to painful stimuli without any new injuries or worsening of a medical condition. An example would be a surgical incision that becomes more painful over time, yet the wound is not infected, and a person has not experienced any further injury.

Hyperalgesia is different from tolerance to medications although the two processes are similar.

If a person develops a tolerance to a particular drug, it usually means that their body has become accustomed to the presence of the drug at the current dosage, and the drug is no longer working properly. When a person has developed a tolerance to a drug, increasing the dosage will usually decrease a person’s pain.

Drug tolerance is different from hyperalgesia, where increasing pain medication will not reduce the amount of pain a person feels. Sometimes, increasing the pain medication makes the person’s pain worse.

Another similar medical condition is allodynia. This condition is where a person develops a significant pain response to non-painful stimuli. Even brushing against a person’s skin can cause pain.

In hyperalgesia, a person has experienced a painful stimulus, such as cancer pain or pain following surgery, but their response to the pain is greater than the expected level of pain.

How do doctors diagnose hyperalgesia?

doctor checking notes on a tablet
Diagnosing hyperalgesia may be difficult for a doctor.

Hyperalgesia can present difficulties for a doctor to treat because a person may have developed OIH.

To make a diagnosis, a doctor will take a medical history and review a person’s medication.

They may also ask them questions about the nature of their pain.

Some of the signs that could indicate hyperalgesia include:

  • Pain extends beyond the area where a person experienced an initial injury or previously felt pain. Examples could include headaches, neck pain, leg pain, or back pain.
  • Some people describe the pain as “diffuse” or spreading. Some may report all-over body pain and aches.
  • The quality or experience of the pain is different than it used to be. The pain may become sharp, aching, or stabbing where previously the person felt the pain differently.

Currently, there are no definitive diagnostic tests for hyperalgesia.

Article Provided By: medicalnewstoday

Carolina Pain Scrambler Logo, Chronic Pain, Greenville, SCIf you would like to discuss what Carolina Pain Scrambler do to help relieve your chronic pain symptoms or receive more information on our treatment process, please do not hesitate to call us at 864-520-5011 or you can email us at info@carolinapainscrambler.com

 

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The Common Symptoms of Neuralgia

The Common Symptoms of Neuralgia

Neuralgia is nerve pain that may be caused by many different things, including nerve damage, nerve irritation, infection, or other diseases. It is caused by irritation or damage to a nerve and is a sharp and very intense pain that follows the path of the nerve.

Neuralgia is also sometimes called neuropathyneuropathic pain, or neurogenic pain. It is most common in older adults but can affect people of all ages.

The nerves of the lower body
MedicalRF.com / Getty Images

 

Symptoms

How can you tell if the pain you are experiencing is neuralgia or some other type of pain? Neuralgia is typically more severe and has some distinct symptoms:

  • Increased sensitivity: The skin along the path of the damaged nerve will be very sensitive, and any touch or pressure, even gentle, is painful.
  • Sharp or stabbing pain: Pain will occur along the path or the damaged nerve and will be felt in the same location each time. It often comes and goes but can also be constant and burning and may feel more intense when you move that area of your body.
  • Weakness: Muscles supplied by the damaged nerve may feel very weak or become completely paralyzed.

 

Types

Certain painful conditions are classified as neuralgia because they are caused by nerve damage and lead to nerve pain. You can also experience neuralgia as a side effect of surgery. The pain can range in severity based on the extent of nerve damage and what nerves are affected.

Some common types of neuralgia include:

 

Treatment

Unfortunately, treating neuralgia is not an easy task and treatment will vary depending on the cause, location, and severity of your pain. The first step your doctor will likely take will be to identify the cause of the nerve problem and work to reverse or control it. He or she will also likely recommend pain medications to control your symptoms, including:1

  • Antidepressant medications
  • Antiseizure medications
  • Over-the-counter pain medications, such as aspirin, acetaminophen or ibuprofen
  • Narcotic analgesics for short-term pain
  • Lidocaine patch
  • Capsaicin or lidocaine medicated skin creams

Other treatment options may include anesthetic shots, nerve blocks, physical therapy, surgery, nerve ablation, or complementary and alternative therapies. Talk to your doctor to discover the source of your pain and find out what treatments may work for you.

 

Article Provided By:verywellhealth
Carolina Pain Scrambler Logo, Chronic Pain, Greenville, SCIf you would like to discuss what Carolina Pain Scrambler do to help relieve your chronic pain symptoms or receive more information on our treatment process, please do not hesitate to call us at 864-520-5011 or you can email us at info@carolinapainscrambler.com

 

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Calmare Scrambler, Pain Therapy, Carolina Pain Scrambler, Greenville South Carolina

Mayo Clinic Researchers Test Scrambler Therapy For Pain

Mayo Clinic researchers test scrambler therapy for pain

Scrambler therapy is a pain management approach that uses a machine to block the transmission of pain signals by providing non-pain information to nerve fibers that have been receiving pain messages.
The first study on scrambler therapy was published in 2003 by a team of researchers led by Giuseppe Marineo, professor in delta research and development at University of Rome Tor Vergata in Italy. He and colleagues reported that scrambler therapy was effective at reducing pain symptoms in patients with severe, drug-resistant pain from terminal cancer.

 

Charles L. Loprinzi

The Calmare scrambler therapy device has since received FDA clearance in the United States for use in patients experiencing pain from cancer and chemotherapy, pain as a result of chronic diseases such as diabetes, multiple sclerosis and arthritis, back and neck pain, failed back surgery syndrome, and phantom limb pain among others.
HemOnc Today asked Charles L. Loprinzi, MD, Regis professor of breast cancer research at Mayo Clinic in Rochester, Minnesota, about the safety and efficacy of scrambler therapy, as well as his ongoing research efforts.
Question: Can you describe scrambler therapy and how it came about?
Answer: Scrambler therapy is an electro-cutaneous treatment. Although people may think of it as being similar to transcutaneous electrical nerve stimulation (TENS) therapy, scrambler therapy is felt to work through a different mechanism. TENS is thought to work through the gateway theory of pain relief, whereby normal touch sensations blocks pain sensations. Scrambler therapy, on the other hand, is proposed to provide normal-self, non-pain electrical information via nerves that have been transmitting chronic pain information. Through a process termed plasticity, this is able to retrain the brain so that it does not ascribe pain to the chronic pain area. Scrambler therapy consists of a machine, which looks somewhat like an electrocardiogram machine. Leads are placed on patients, around the areas of chronic pain. Scrambled electrical signals are then sent to the brain that perceives them as normal, non-pain signals. Via this process, the brain is retrained to think that there really is not pain in the area that is being treated.
Q: How and when did you become involved with this treatment approach?
A: I was introduced to scrambler therapy in 2010 by Thomas J. Smith, MD, now at Johns Hopkins University, who had heard about scrambler therapy and decided to try it in patients with chemotherapy-induced peripheral neuropathy (CIPN). He subsequently published a pilot trial that supported that scrambler therapy was an effective approach for treating established CIPN. After some internal debate as to whether I should look further into this treatment approach, which sounded quite strange to me, I did agree to study it. Having now treated more than 200 patients at Mayo, we published a paper on the use of this treatment for chemotherapy neuropathy, which concurred with Dr. Smith’s report, further supporting that this therapy was helpful for CIPN.
Q: What other published data support the value of scrambler therapy?
A: I am aware of 19 published reports regarding scrambler therapy, involving more than 800 patients. Seventeen of these are published manuscripts, whereas two are only published as meeting abstracts. These reports include clinical practice summaries, prospective non-randomized clinical trials and randomized controlled trials, including two trials that sought to double blind patients and investigators. The authors of 18 of the 19 reports concluded that scrambler therapy was a beneficial treatment approach, whereas one report — published only as a meeting abstract and only involving 14 patients — concluded that this was not an effective treatment. Of note, one relatively large randomized trial, with a non-blinded control arm consisting of optimizing medical management of pain, reported substantially more benefit from scrambler therapy than was observed in the control arm. Additionally, a relatively small placebo-controlled, patient-blinded trial reported a statistically significantly beneficial effect for scrambler therapy in a small number of patients with chronic low back pain. Thus, there are substantial data that support the value of scrambler therapy. Having said this, I readily admit that scrambler therapy has not yet been clearly proven to be beneficial. Ideally, additional randomized clinical trials will be reported to provide for more substantial clinical data regarding the true value of scrambler therapy. Dr. Smith is conducting one trial at Johns Hopkins and we, at Mayo, are gearing up for another one. This all takes time, energy and funds.
Q: Can you briefly discuss the findings from the clinical study you reported regarding the use of scrambler therapy in patients with established CIPN?
A: When we received the scrambler therapy machine, we decided to treat patients on a clinical trial as opposed to just using it for routine clinical practice. For this, we developed an open-label clinical trial to document our results and to learn how to provide this therapy. Prior to treating patients on this trial, we went to Rome for training. We then treated patients on this clinical trial, who had chronic pain or neuropathy with a pain and/or tingling score of at least 4 out of 10. In order to report data on a series of these patients, we took the first 37 patients who entered on this clinical trial who had CIPN as their designated clinical problem. We prospectively collected patient-reported outcome data on each of 10 days of treatment and then weekly for 10 weeks following that. Results, reported in Supportive Care in Cancer, illustrated that, during the treatment days, there was approximately a 50% reduction from baseline for pain, tingling and numbness scores. When we then followed the patients weekly, after the 10 days of therapy, the benefit, on the whole, persisted.
Q: Can you describe the treatment process and when beneficial results appear?
A: The area of pain/neuropathy is first defined and a set of leads is placed in normal sensation skin sites, close to the area of pain/neuropathy. The electrodes are then turned on with a gradual increase in intensity to a point where the patient is able to feel sensations, short of pain. When successful, the patient reports that the buzzing sensation has replaced an area of pain/neuropathy. This generally occurs within a minute or two. At times, electrodes need to be moved to obtain this sort of success. Sometimes, several sets of electrodes are needed to cover the area of discomfort. The scrambler machine stays on for about 30 minutes following successful electrode placements. The electricity is then turned off and the patient commonly reports that the pain/tingling is still markedly improved. After one treatment, the benefit is often relatively short-lived, lasting for minutes to hours. With repetitive days of treatment (standardly up to 10 treatments, although stopped earlier if the problem goes away completely and lasts overnight), the period of benefit increases until it lasts for a couple days. The benefit largely persists for weeks to months. Some patients relapse and can be successfully retreated, oftentimes only needing an additional few doses.
Q: Is this therapy routinely offered at Mayo Clinic?
A: Mayo recently began offering scrambler therapy as part of clinical practice. As with many new practice approaches, there are many questions that arise: How effective is the therapy? Who should be treated and for which conditions? How well is this approach covered by different insurance carriers? Admittedly, we do not have ideal answers for these and many other questions, but we are cautiously proceeding forward. There is considerable demand for scrambler therapy along with concerns that efficacy has not been proven and that the reported results from it sound too good to be true. But, these concerns are not too surprising, as there is often a wariness when a new therapy is initiated.
Q: Is this therapy routinely offered at places other than Mayo Clinic?
A: Yes, it is available at other select places. I understand there are more than 30 institutions in Italy and even more institutions in South Korea that provide scrambler therapy as a part of clinical practice. Multiple United States military institutions also offer scrambler therapy. In the United States, I estimate that there are between 15 and 30 sites that are actively offering this treatment. It should be noted that there is a learning curve in terms of making this therapy work. For example, in our paper where we looked at CIPN, even though we had reasonably good experience which included visiting the inventor in Rome and being trained by him, we did a whole lot better with the later patients we treated than we did the first 25% we treated.
Q: What type of feedback have you received on the therapy?
A: There are patient testimonials, which can be found on the Internet, whereby patients swear by this therapy. In line with this, I have seen some phenomenal results in patients. We have clinical trial data that asked patients, daily while they were receiving 2 weeks of outpatient therapy and then weekly for 10 weeks of follow-up, whether they would recommend this treatment to others. Approximately 80% of the replies noted that they would recommend it, 1% said that they would not and the rest said that they were unsure. There, admittedly, are some people who say this therapy did not work for them.
Q: How much of an issue is cost?
A: There are the issues regarding the cost of the machine, the cost of training and whether insurance companies cover this therapy. There are some insurance companies that cover the therapy, having realized that it is a lot cheaper than alternative therapies that might be employed for the same patient problem. This is certainly an evolving process. The cost can run anywhere between $200 and $500 per session, and up to 10 sessions may be recommended. This is less expensive than some other procedures and therapies employed for chronic pain, such as spinal cord stimulators. There are some patients who choose to pay for the treatments on their own, if not covered by insurance.
Q: Are there any side effects associated with this therapy? Do they outweigh the benefit, in your opinion?
A: There have not been many documented side effects with this therapy. People feel a buzzing sensation when the machine is working and sometimes this can be uncomfortable. If pain happens during the procedure, the signal intensity should be turned down and/or off. At times the electrode leads can be moved to an alternative site, sometimes by just a couple centimeters. Occasionally, patients may develop some skin irritation or bruising under the sites of the leads. There have been some patients who report more pain in the day or days following the treatment, but it is not apparent that this is more than the normal process of a waxing and waning of the baseline pain. Overall, the reports in the literature have been largely free of side effects.
Q: Is there anything else you would like to add?
A: Although if I consider myself to be a fairly conservative clinician and have not been shy about publishing negative results from many clinical trials, I do believe that scrambler therapy works. This contention is based on the knowledge that the majority of the reports in the literature are positive an also the personal experience I have observed in many patients, including seeing dramatic reductions of symptoms in some patients that did not derive similar benefit from previous treatment approaches. – by Jennifer Southal

Article Provided By:healio.com
Carolina Pain Scrambler Logo, Chronic Pain, Greenville, SCIf you would like to discuss what Carolina Pain Scrambler do to help relieve your chronic pain symptoms or receive more information on our treatment process, please do not hesitate to call us at 864-520-5011 or you can email us at info@carolinapainscrambler.com

 

 

 

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Carpal Tunnel Syndrome

Carpal tunnel syndrome

Carpal tunnel syndrome is caused by pressure on the median nerve. The carpal tunnel is a narrow passageway surrounded by bones and ligaments on the palm side of your hand. When the median nerve is compressed, the symptoms can include numbness, tingling and weakness in the hand and arm.

The anatomy of your wrist, health problems and possibly repetitive hand motions can contribute to carpal tunnel syndrome.
Proper treatment usually relieves the tingling and numbness and restores wrist and hand function.

Symptoms
Carpal tunnel syndrome symptoms usually start gradually and include:
Tingling or numbness. You may notice tingling and numbness in your fingers or hand. Usually the thumb and index, middle or ring fingers are affected, but not your little finger. You might feel a sensation like an electric shock in these fingers.
The sensation may travel from your wrist up your arm. These symptoms often occur while holding a steering wheel, phone or newspaper, or may wake you from sleep.
Many people “shake out” their hands to try to relieve their symptoms. The numb feeling may become constant over time.
Weakness. You may experience weakness in your hand and drop objects. This may be due to the numbness in your hand or weakness of the thumb’s pinching muscles, which are also controlled by the median nerve.
When to see a doctor
See your doctor if you have signs and symptoms of carpal tunnel syndrome that interfere with your normal activities and sleep patterns. Permanent nerve and muscle damage can occur without treatment.

Causes
Carpal tunnel syndrome is caused by pressure on the median nerve.
The median nerve runs from your forearm through a passageway in your wrist (carpal tunnel) to your hand. It provides sensation to the palm side of your thumb and fingers, except the little finger. It also provides nerve signals to move the muscles around the base of your thumb (motor function).
Anything that squeezes or irritates the median nerve in the carpal tunnel space may lead to carpal tunnel syndrome. A wrist fracture can narrow the carpal tunnel and irritate the nerve, as can the swelling and inflammation caused by rheumatoid arthritis.
Many times, there is no single cause of carpal tunnel syndrome. It may be that a combination of risk factors contributes to the development of the condition.
Risk factors
A number of factors have been associated with carpal tunnel syndrome. Although they may not directly cause carpal tunnel syndrome, they may increase the risk of irritation or damage to the median nerve. These include:
Anatomic factors. A wrist fracture or dislocation, or arthritis that deforms the small bones in the wrist, can alter the space within the carpal tunnel and put pressure on the median nerve.
People who have smaller carpal tunnels may be more likely to have carpal tunnel syndrome. Carpal tunnel syndrome is generally more common in women. This may be because the carpal tunnel area is relatively smaller in women than in men.
Women who have carpal tunnel syndrome may also have smaller carpal tunnels than women who don’t have the condition.
Nerve-damaging conditions. Some chronic illnesses, such as diabetes, increase your risk of nerve damage, including damage to your median nerve.
Inflammatory conditions. Rheumatoid arthritis and other conditions that have an inflammatory component can affect the lining around the tendons in your wrist and put pressure on your median nerve.
Medications. Some studies have shown a link between carpal tunnel syndrome and the use of anastrozole (Arimidex), a drug used to treat breast cancer.
Obesity. Being obese is a risk factor for carpal tunnel syndrome.
Body fluid changes. Fluid retention may increase the pressure within your carpal tunnel, irritating the median nerve. This is common during pregnancy and menopause. Carpal tunnel syndrome associated with pregnancy generally gets better on its own after pregnancy.
Other medical conditions. Certain conditions, such as menopause, thyroid disorders, kidney failure and lymphedema, may increase your chances of carpal tunnel syndrome.
Workplace factors. Working with vibrating tools or on an assembly line that requires prolonged or repetitive flexing of the wrist may create harmful pressure on the median nerve or worsen existing nerve damage, especially if the work is done in a cold environment.
However, the scientific evidence is conflicting and these factors haven’t been established work as direct causes of carpal tunnel syndrome.
Several studies have evaluated whether there is an association between computer use and carpal tunnel syndrome. Some evidence suggests that it is mouse use, and not the use of a keyboard, that may be the problem. However, there has not been enough quality and consistent evidence to support extensive computer use as a risk factor for carpal tunnel syndrome, although it may cause a different form of hand pain.
Prevention
There are no proven strategies to prevent carpal tunnel syndrome, but you can minimize stress on your hands and wrists with these methods:
Reduce your force and relax your grip. If your work involves a cash register or keyboard, for instance, hit the keys softly. For prolonged handwriting, use a big pen with an oversized, soft grip adapter and free-flowing ink.
Take short, frequent breaks. Gently stretch and bend hands and wrists periodically. Alternate tasks when possible. This is especially important if you use equipment that vibrates or that requires you to exert a great amount of force. Even a few minutes each hour can make a difference.
Watch your form. Avoid bending your wrist all the way up or down. A relaxed middle position is best. Keep your keyboard at elbow height or slightly lower.
Improve your posture. Incorrect posture rolls shoulders forward, shortening your neck and shoulder muscles and compressing nerves in your neck. This can affect your wrists, fingers and hands, and can cause neck pain.
Change your computer mouse. Make sure that your computer mouse is comfortable and doesn’t strain your wrist.
Keep your hands warm. You’re more likely to develop hand pain and stiffness if you work in a cold environment. If you can’t control the temperature at work, put on fingerless gloves that keep your hands and wrists warm.

Article Provided By: mayoclinic.org
Carolina Pain Scrambler Logo, Chronic Pain, Greenville, SCIf you would like to discuss what Carolina Pain Scrambler do to help relieve your chronic pain symptoms or receive more information on our treatment process, please do not hesitate to call us at 864-520-5011 or you can email us at info@carolinapainscrambler.com

 

 

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Nerve Pain in the Leg

Nerve Pain in the Leg

By Grant Cooper, MD

Nerves in the leg may become inflamed, compressed, or degenerated as a result of mechanical or chemical irritants. Nerves may also become damaged due to associated conditions such as diabetes or nutritional deficiencies. Depending on the cause of nerve damage, the specific leg symptoms may differ.
Nerve pain is typically described as sharp, shooting, electric-like, or searing pain. It may also produce a sensation of hot or warm water running down the thigh and/or leg. In some individuals, a dull ache may occur. The pain may be intermittent or constant.

The most common types of nerve pain in the leg are described below.

Sciatica is radicular nerve pain that occurs when the sciatic nerve roots in the lower back are irritated or compressed.
Radiculopathy
The medical term for leg pain that originates from a problem in the nerve roots of the lumbar and/or sacral spine is radiculopathy (the lay term is sciatica). This pain may be caused when the nerve roots are inflamed, irritated, or compressed. The characteristics of this pain depend on the specific nerve root(s) affected.

Research indicates 95% of radiculopathy in the lumbosacral spine occurs at the L4-L5 and L5-S1 levels. The pain from these nerve roots is characterized by:
Pain that originates in the lower back or buttock and travels down the thigh, calf, and foot.
Numbness in the calf, foot, and/or toes.
Weakness in the hip, thigh, and/or foot muscles.
Depending on the individual, additional sensations may occur, such as a feeling of pins-and-needles in the leg, warm water running down the thigh, or the foot immersed in hot water. Radiculopathy typically affects one leg.

Peripheral Neuropathy
Damage to one or more nerves in the peripheral nervous system (outside the brain and spinal cord) is called peripheral neuropathy. This form of neuropathy in the leg most commonly occurs due to diabetes.
Pain that originates in the toes and gradually spreads toward the knee (also called stocking-glove pattern; the action of putting on a stocking)
Numbness in the legs and feet
Weakness in the toes and ankles during the later stages of the condition
Peripheral neuropathy pain typically affects both legs.

Lumbosacral Radiculoplexus Neuropathy
This condition occurs due to inflammation of small blood vessels in the legs leading to reduced blood supply to the nerves, resulting in nerve damage. This condition is commonly seen in diabetic individuals and may also be caused by other issues. Common symptoms include:
Pain that usually begins in a specific location, such as the buttock, hip, thigh, leg, or foot and gradually spreads to other areas of the leg
Numbness and a prickling feeling in the affected areas
Weakness in the leg muscles
Loss of balance, which may cause falls.
Typically, several nerves are affected together. The condition may develop in one leg and over time involve both legs.

Peroneal Neuropathy
Compression of the peroneal nerve near the knee may cause symptoms in the leg. Typical symptoms include:
Foot drop, characterized by the inability to lift the foot, or a catch in the toes while walking
Numbness along the side of the leg, the upper part of the foot, and/or the first toe web space
Pain is not a typical feature of this condition but may be present when peroneal neuropathy occurs as a result of trauma.

Meralgia Paresthetica
Compression of the lateral femoral cutaneous nerve in the thigh may cause a condition called meralgia paresthetica. Symptoms typically include:
Burning or achy pain in the outer side and/or front of the thigh
Coldness in the affected areas
Buzzing or vibrations (such as from a cell phone) in the thigh region
Meralgia paresthetica pain typically increases while standing or walking and alleviates while sitting.

Tarsal Tunnel Syndrome
Dysfunction of the tibial nerve due to nerve compression within the foot’s tarsal tunnel causes this syndrome. Common symptoms include:
Sharp, shooting pain in the inner ankle joint and along the sole of the foot
Numbness in the sole of the foot
Tingling and/or burning sensation in the foot
The symptoms typically worsen at night, with walking or standing, and/or after physical activity; and get better with rest.

Neurogenic Claudication
This type of leg pain occurs due to narrowing of the spinal canal (spinal stenosis) causing compression of the spinal cord. This compression may occur due to bone spurs (abnormal bone growth), lumbar disc herniation, or spondylolisthesis (forward slippage of a vertebra).
The symptoms of neurogenic claudication typically occur in both legs and include:
Pain and numbness while walking, standing, or performing upright exercises
Weakness during leg movements
Neurogenic claudication pain typically increases while bending the spine backward and decreases while bending forward at the waist, sitting, or lying down.

A qualified medical professional can help diagnose the exact cause of nerve pain in the leg based on the type of presenting symptoms, medical history, and by performing certain clinical tests.

Article Provided By: spine-helath.com
Carolina Pain Scrambler Logo, Chronic Pain, Greenville, SCIf you would like to discuss what Carolina Pain Scrambler do to help relieve your chronic pain symptoms or receive more information on our treatment process, please do not hesitate to call us at 864-520-5011 or you can email us at info@carolinapainscrambler.com

 

 

 

 

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