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Four Types of Sciatic Nerve Pain

Four Types of Sciatic Nerve Pain

By April Mayer
Last Updated On January 25th, 2021

 

Sciatica is a form of radiculopathy—a mild to severe pain caused by the compression or pinching of a spinal nerve root. Sciatica radiates pain down the legs and feet, away from the source, and is a sign of nerve irritation or inflammation. It causes an electric shock sensation and numbness in the legs and feet.

While “sciatica” is often used to describe a sharp pain in the lower back and legs, not all sciatic nerve pain is sciatica. While the symptoms are similar from case-to-case, minor details signal different causes, such as whether your pain begins in your back versus your legs. Knowing the root of the issue is vital to treating sciatic nerve pain, as certain diagnoses require different treatments.

We discuss the most common types of sciatic nerve pain and an overview of what sciatic nerve pain is, its potential causes and risk factors, and various treatment options to give you a stronger understanding of the issue.

Neurogenic

Neurogenic sciatica is when the sciatic nerve is compressed or pinched, leading to pressure along the spine. The symptoms generally include sharp, shooting pain down the legs and weakened legs and feet. While the issue is rooted in the spine, the pain is usually worse in your legs than in your back.

Along with physical pain, neurogenic sciatica causes abnormal neurological changes. Individuals may suffer from a loss of reflexes, sensory issues, muscle weakness, and paresthesia (“pins-and-needles”) due to improper nerve conduction.

Referred

Referred sciatica is not a true form of sciatica, but mirrors the pain and symptoms. Rather than being a spinal issue, referred sciatica is pain related to a muscle or joint problem. Referred pain is one of the main reasons why a diagnosis for sciatica is vital, as it may need further evaluation treatment beyond home remedies.

As opposed to shooting pains, people with referred sciatica may feel dull and achy and their pain may be worse in their back than in their legs. Referred pain also does not cause abnormal neurological changes, either, such as worsened reflexes, sensory issues, or tingling.

Alternating Sciatica

Sciatica typically only affects one leg as the sciatic nerve is only pinched on one side of the body. However, alternating sciatica affects both legs successively. It may be a result of degenerative issues in the sacroiliac joint, the joint connecting the spine to the hips, or sacroiliac arthritis.

Bilateral Sciatica

Bilateral sciatica is when both ends of the sciatic nerve are pinched. This results in pain and symptoms occurring in both legs and buttocks at once. It’s a rarer form of sciatica, and the pain in one leg can be worse than in the other. Bilateral sciatica may be the result of multiple herniated discs or disc degeneration.

Sources of Sciatic Pain

There are 33 individual bones in your spine known as vertebrae. Each vertebra is divided into regions and classified according to the number of vertebra per region. The vertebrae are then labeled by a number and letter based on their placement, such as C1 for the first vertebra in the cervical spine. There are five regions of the spine: cervical, thoracic, lumbar spine, sacrum, and coccyx.

The most common regions associated with sciatica are the lumbar spine and sacrum, and the source of your sciatic pain slightly alters your symptoms.

L4 Nerve Root

Irritation to the L4 nerve root causes pain to the hips, thighs, inner knees, calf, and foot. Thigh and hips muscles may feel weak, and calves numb. When sciatica is in the L4 level, a person may be unable to flex their foot or walk on their heels, and they may have a reduced knee-jerk reflex.

L5 Nerve Root

Individuals with sciatica from the L5 nerve root typically experience pain in the buttocks, outer, thigh, and leg, as well as difficulty flexing their ankle or lifting their big toe. Sciatica from the L5 level might also cause numbness, mainly on the top of the foot and between the big toe and second toe.

S1 Nerve Root

Sciatica from the S1 nerve root is also known as classic sciatica as it’s most commonly rooted in the sacrum. Sciatica from the S1 level specifically causes pain and weakness in the buttocks, back of the calf, and outside of the foot. Individuals with sciatica from the S1 level may have numbness or tingling in their third, fourth, and fifth toes, and have difficulty walking on their tiptoes or raising their heels off of the ground. Individuals may also find they have a weakened ankle-jerk reflex.

Duration of Sciatic Pain

Sciatica and sciatic pain are categorized based on how long the symptoms and pain have occurred. The duration of your pain may be a signifier for the necessary treatment options you need.

Acute Sciatica

Acute sciatica lasts between a few days to a few weeks. Typically, it does not require medical attention from a doctor, and home remedies are usually enough to treat the pain. However, acute sciatica can be severe during the brief period of time it is present.

Chronic Sciatica

Chronic sciatica is characterized by symptoms lasting longer than 12 weeks. It’s often less severe than acute pain, but it may not respond well to self-management nor does it pass on its own. Chronic sciatica may require surgical or non-surgical treatment to improve.

Common Causes of Sciatic Pain

Sciatic pain is a result of different conditions or diseases aggravating the sciatic nerve. Not all the conditions listed are guaranteed to cause sciatic pain, but sciatic pain is a frequent symptom.

Herniated or Bulging Discs

Herniated or bulging discs occur when the spongy discs between your spinal vertebrae are compressed and bulge out of place. They can occur at any age, but become more common as you grow older or if you have degenerative disc disease, a condition where the discs lose fluid and wear down. Herniated discs are most common in the lumbar spine and near the sciatic nerve, so they can cause sciatic pain.

Bone Spurs

Bone spurs are small bone growths appearing near joints and are increasingly common with age. Bone spurs are the result of joint damage and linked to osteoarthritis, rheumatoid arthritis, and degenerative joint disease. After an injury or damage has occurred, your body attempts to heal the area by growing extra bone.

Typically, bone spurs cause no symptoms at all, though depending on where they’ve developed, a growth can compress your sciatic nerve and lead to pain.

Spinal Stenosis

The spinal canal is the spinal cord’s pathway down the back. With spinal stenosis, the spinal canal becomes narrower, placing pressure on the spinal cord. There are two types of spinal stenosis: lumbar and cervical stenosis. Cervical spinal stenosis affects the neck, while lumbar spinal stenosis affects the lower back and may cause sciatica.

Lumbar spinal stenosis can be the result of arthritis, spinal degeneration with age, tumors, or cysts.

Spondylolisthesis

Spondylolisthesis is a condition where one vertebra in the spine slips over the one below it, particularly in the lumbar spine region. The condition is typically a result of disc degeneration, arthritis, certain cancers, and certain surgeries.

Stress fractures are another common cause of spondylolisthesis, especially in young people and athletes, though they can happen to anybody. Repeated stress to the vertebra,  injuries from motor vehicle accidents, or heavy lifting, can cause the vertebrae to fracture, leading to spondylolisthesis and sciatica.

Piriformis Syndrome

Piriformis syndrome is a neuromuscular disorder where the piriformis muscle (located where the femur and pelvis meet) compresses the sciatic nerve, resulting in spasms and pain in the buttocks and legs.

While the pain mimics sciatic pain, with tingling and numbness from the leg to the foot, it’s not sciatica since it’s not caused by spinal issues. Instead, it’s a referred pain beginning from the buttocks as opposed to the lower back.

Risk Factors

Sciatic Nerve Pain

Roughly 40 percent of people experience sciatica at some point in time, and while it’s most common for people 40 to 50 years old, it can happen at any age.

  • Pre-existing spinal condition(s): Conditions such as degenerative disc disease or spinal stenosis, while they may not initially trigger sciatic pain, can eventually progress and cause sciatica.
  • Diabetes: As a diabetic, your body becomes more vulnerable to nerve damage, increasing the possibility of sciatic nerve damage and sciatica.
  • A sedentary lifestyle: Sitting for long periods of time, such as at work or school, can weaken your muscles and cause them to become stiff over time. A weak back and core puts pressure on your lumbar spine and leaves you at risk for sciatica.
  • Heavy lifting: Heavy lifting such as at work, at the gym, or when gardening, can strain your back and lead to lower back issues, especially if you have improper form. When lifting heavy objects, carry the brunt of the weight with your legs as opposed to your back.
  • Age: As you age, your spinal discs and tissues wear down, leaving you at risk for herniated discs. You also are more prone to physical health conditions, such as spinal stenosis or arthritis, resulting in sciatic pain.
  • Weight: If you are overweight or obese, the extra weight in your midsection puts pressure and stress on your spine, leading to back strains and sciatica.

How to Treat Sciatic Pain

In some instances, simple home remedies are enough to ease and treat mild-to-moderate sciatic pain. However, if your sciatic pain is chronic or severe, receiving medical attention is the best step to take for proper treatment. Nearly all treatments—with a doctor or otherwise—are nonsurgical.

Massage Therapy

Massages improve blood circulation, relax muscles, reduce muscle tightness, and release endorphins, all of which are natural pain-relievers and can ease irritation. You can self-massage at home or visit a massage therapist for treatment.

Topical Treatments

A simple way to reduce this pain is to use topical treatments such as analgesic (pain-relief) ointments or hot and cold therapies. They provide temporary relief for localized pain and can be used throughout the day as needed.

For hot and cold therapies, use ice packs (wrapped in a towel to prevent ice burns), heat pads, or hot towels for twenty-minute intervals. Hot and cold ointments are another simple treatment and can be used on the go if needed.

Exercise

Physical activity can strengthen your back and core muscles and relieve pressure on your lower spine. Stretching and light aerobic exercises increase your body’s flexibility and potentially alleviate symptoms. However, avoid strenuous or heavy exercises and be sure your form is correct at all times so as not to worsen your pain.

Medications

While medications don’t directly treat sciatica, they can relieve pain temporarily and make daily activities easier. You can use over-the-counter (OTC) anti-inflammatory medications such as ibuprofen or aspirin, or your doctor might prescribe muscle relaxants, antidepressants, or higher doses of anti-inflammatory drugs. For more severe pain, your doctor may inject corticosteroids or epidural steroid injections in your lumbar spine to relieve inflammation for one to two months.

Chiropractic or Physical Therapy

Your doctor might refer you to a chiropractor or physical therapist for physical rehabilitation.

With a physical therapist, you learn techniques and exercises to strengthen your back and core, improve your posture, and how to avoid aggravating your sciatic nerve. Your physical therapist makes a home exercise routine for you to follow to reduce symptoms.

Chiropractors have an excellent understanding of the body’s musculoskeletal system and how to manipulate it to ease any pain. They complete different treatments to take the pressure off your sciatic nerve, including massage, hot and cold therapy, and spinal adjustments.

Surgery

It’s rare for sciatica patients to need surgery and is typically the final step if other nonsurgical treatment options have not shown improvement. If you have severe pain lasting beyond 6 to 12 weeks or you are debilitated by your pain, your doctor may suggest surgery.

The most common surgeries to treat sciatic pain are microdiscectomy, laminectomy, a spinal fusion, or disc replacement, and the surgery you are referred to is based on your diagnosis.

FAQs

When is sciatic pain a medical emergency?

Sciatic pain is rarely an emergency, but if your sciatic pain is paired with incontinence, fever, loss of appetite, worsening numbness and tingling, swollen legs or lower back, or it began after an accident, seek immediate medical care.

What causes sciatica to flare up?

Some potential triggers for sciatica flare-ups include:

  • Stress and anxiety: Sciatica can be exacerbated by anxious thoughts as, when stressed, the brain deprives the nerves of needed oxygen and can result in weakness and tingling in the legs.
  • Wallet sciatica: Wallet sciatica is a term used to describe sciatica aggravated by sitting on your wallet, keys, or cellphone. When an item is in your back pocket, it directly presses up against the sciatica nerve and causes a flare-up.
  • High heels: When wearing high heels, your center of gravity shifts and stretches your hamstring and sciatic nerve. Walking on your toes, as you do in heels, might also irritate your sciatica.
  • Poor posture: Having poor posture when sitting or standing puts stress on your lower back and spine, resulting in a flare-up.
  • Tight clothing: Some clothing may be just tight enough to press against your sciatic nerve and trigger your sciatica pain.

Why is sciatica so painful at night?

Sciatica pain can be aggravated when lying down, making it difficult to sleep and find a comfortable position. In some instances, sciatic pain can be severe to the point of waking you up at night. Adjusting your sleep position, as well as using a supportive mattress, can ease your pain.

Side sleeping may place pressure directly onto the nerve roots and tilt your hips out of alignment with your spine. It’s best to lay on your unaffected side and use a pillow between your knees to keep your spine aligned and prevent pain.

Lying on your back emphasizes the lumbar spine’s curve, potentially pinching the sciatic nerve’s roots and causing pain. Elevate your legs using a pillow under your knees or an adjustable base to reduce the pressure and relieve your symptoms.

Stomach sleeping can overextend your lower back and irritate your sciatica, so it’s best to try a different sleeping position. However, if it’s too difficult to switch positions, temporarily use a pillow under your hips to protect your back.

Can sciatica be caused by a bad mattress?

While it’s unlikely a bad mattress is the cause of your sciatica, your mattress can definitely worsen pain if it’s unsupportive. Older mattresses tend to be rather unsupportive and lumpy, but even new mattresses can aggravate your sciatica if they’re not suited for your sleeping position.

It’s best to use a high-quality mattress built for your sleeping position and body weight to keep your spine aligned and minimize your pain as much as possible.

Should I push through sciatic pain?

If you’re experiencing any sciatic pain while exercising or completing any daily activities, don’t ignore it. Instead, take a few minutes to rest and allow your pain to pass. However, if your sciatic pain makes it difficult to complete daily activities as normal, speak with your doctor for treatment options.

Conclusion

If you’re experiencing sciatic nerve pain, it’s best to get diagnosed and figure out what type of sciatic pain it truly is, as it can be a sign of a larger underlying condition. Although what you’re experiencing may feel like sciatica, it can be caused by an unrelated issue such as piriformis syndrome. In order to protect your body and prevent worsening the issue, always get a doctor’s opinion if you are unsure.

 

This article is for informational purposes and should not replace advice from your doctor or other medical professional.

 

Article Provided By: amerisleep

Photo by Joseph Chan on Unsplash
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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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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Does Neuropathy from Chemo Go Away?

Does Neuropathy from Chemo Go Away?

What is peripheral neuropathy?

Peripheral neuropathy is a blanket term for pain and discomfort and other symptoms that result from damage to peripheral nerves, which are the nerves that extend away from the brain and spinal cord.

The peripheral nervous system carries signals from the brain and spinal cord to the rest of your body, and then returns nerve signals from the periphery to be received by the spinal cord and brain. Any problems along the way can affect the skin, muscles, and joints of your hands, feet, and other parts of the body.

Many things can cause neuropathy, including certain chemotherapy drugs. Damage to peripheral nerves by these drugs is called chemotherapy-induced peripheral neuropathy, abbreviated as CIPN.

CIPN isn’t uncommon. Of people with cancer who are treated with chemotherapy, about 30 to 40 percent develop CIPN. It’s one of the reasons that some stop cancer treatment early.

What are the symptoms of CIPN?

CIPN generally affects both sides of your body the same way. Symptoms are likely to begin in your toes but can move to your feet, legs, hands, and arms. Symptoms range from mild to severe. Some of the more common symptoms are:

  • tingling or pins-and-needles sensation
  • sharp, stabbing pain
  • burning or shock-like sensations
  • loss of sensation or complete numbness
  • trouble with small motor skills such as writing, texting, and buttoning
  • gripping problems (dropping things)
  • clumsiness
  • weakness

You might also experience:

  • oversensitivity to touch
  • balance and coordination problems, which can lead to stumbling or falling when walking
  • differences in your sensitivity to temperature, making it harder to gauge heat and cold
  • reduced reflexes
  • swallowing difficulties
  • jaw pain
  • hearing loss
  • constipation
  • trouble urinating

Severe peripheral neuropathy can lead to serious health problems such as:

  • changes to blood pressure
  • changes to heart rate
  • breathing difficulties
  • injury due to falling
  • paralysis
  • organ failure
What causes CIPN?

Chemotherapy drugs are systemic treatments — that is, they affect your entire body. These powerful medications can take a toll, and some can damage your peripheral nervous system.

It’s hard to say exactly what causes CIPN since each chemotherapy drug is different, as is each person who receives treatment.

Some of the chemotherapy drugs associated with CIPN are:

  • nanoparticle albumin bound-paclitaxel (Abraxane)
  • bortezomib (Velcade)
  • cabazitaxel (Jevtana)
  • carboplatin (Paraplatin)
  • carfilzomib (Kyprolis)
  • cisplatin (Platinol)
  • docetaxel (Taxotere)
  • eribulin (Halaven)
  • etoposide (VP-16)
  • ixabepilone (Ixempra)
  • lenalidomide (Revlimid)
  • oxaliplatin (Eloxatin)
  • paclitaxel (Taxol)
  • pomalidomide (Pomalyst)
  • thalidomide (Thalomid)
  • vinblastine (Velban)
  • vincristine (Oncovin, Vincasar PFS)
  • vinorelbine (Navelbine)

Besides chemotherapy, peripheral neuropathy can be due to the cancer itself, such as when a tumor presses on a peripheral nerve.

Other cancer treatments such as surgery and radiation therapy can also lead to peripheral neuropathy. Even if you’re receiving chemotherapy, the neuropathy can be caused or aggravated by other conditions such as:

  • alcohol use disorder
  • autoimmune disorders
  • diabetes mellitus
  • HIV
  • infections that lead to nerve damage
  • poor peripheral blood circulation
  • shingles
  • spinal cord injury
  • vitamin B deficiency
How long does it last?

Symptoms can appear as soon as chemotherapy begins. Symptoms tend to get worse as the chemotherapy regimen progresses.

It’s a temporary problem for some, lasting only a few days or weeks.

For others, it can last for months or years and can even become a lifelong problem. This may be more likely if you have other medical conditions that cause neuropathy or take other prescription drugs that cause it.

How is CIPN treated?

Once your oncologist (a doctor who specializes in cancer treatment) determines that your peripheral neuropathy is caused by chemotherapy, they will monitor your treatment to see if symptoms are worsening. In the meantime, symptoms can be treated with:

  • steroids to reduce inflammation
  • topical numbing medicines
  • antiseizure medications, which can help relieve nerve pain
  • prescription-strength pain relievers such as narcotics (opioids)
  • antidepressants
  • electrical nerve stimulation
  • occupational and physical therapy

If symptoms continue, your doctor may decide to:

  • lower the dose of your chemotherapy drug
  • switch to a different chemotherapy drug
  • delay chemotherapy until symptoms improve
  • stop chemotherapy
Managing symptoms

It’s very important to work with your doctor to prevent neuropathy from getting worse. In addition, there are a few other things you can do, such as:

  • relaxation therapy, guided imagery, or breathing exercises
  • massage therapy
  • acupuncture
  • biofeedback

Pain, numbness, or strange sensations can make it difficult to work with your hands, so you should be extra careful with sharp objects. Wear gloves for yardwork or when working with tools.

If symptoms involve your feet or legs, walk slowly and carefully. Use handrails and grab bars when available and put no-slip mats in your shower or tub. Remove loose area rugs, electrical cords, and other tripping hazards in your home.

Wear shoes indoors and out to protect your feet. And if you have severe numbness in your feet, be sure to inspect them every day for cuts, injuries, and infection that you can’t feel.

Temperature sensitivity can also be a problem.

Make sure your water heater is set to a safe level, and check the temperature of the water before getting in the shower or bath.

Check the air temperature before going outside in winter. Even though you might not feel the cold, gloves and warm socks can help protect your feet and hands from frostbite.

If you find it helps to relieve your peripheral neuropathy symptoms, you can apply an ice pack on your hands or feet, but only for less than 10 minutes at a time with at least 10 minutes of breaktime between each repeat application.

Here are a few additional tips:

  • Don’t wear tight clothes or shoes that interfere with circulation.
  • Avoid alcoholic beverages.
  • Take all your medications as directed.
  • Get plenty of rest while in treatment.
  • Follow your doctor’s recommendations for diet and exercise.
  • Keep your oncologist informed about new or worsening symptoms.

Currently, there’s no scientifically proven way to prevent neuropathy caused by chemotherapy. And there’s no way to know in advance who’ll develop it and who won’t.

Some research, such as this 2015 studyTrusted Source and this 2017 studyTrusted Source, suggests that taking glutathione, calcium, magnesium, or certain antidepressant or antiseizure drugs might help mitigate the risk for certain people. However, the research is limited, weak, or shows mixed results at best.

Before starting chemotherapy, tell your oncologist about other health conditions, such as diabetes mellitus, that could lead to peripheral neuropathy. This can help them choose the best chemotherapy drug for you.

Your oncologist may try to lessen the risk by prescribing lower doses of chemotherapy drugs over a longer period of time. If symptoms start, it may be appropriate to stop chemotherapy and restart when symptoms improve. It’s something that must be decided on a case-by-case basis.

While mild symptoms may resolve within a short time frame, more severe cases can linger for months or years. It can even become permanent. That’s why it’s so important to keep your oncologist informed about all your symptoms and side effects.

Addressing CIPN early may help ease symptoms and prevent it from getting worse.

Last medically reviewed on January 24, 2019

 

Article Provided By: healthline
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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Postherpetic Neuralgia

Postherpetic Neuralgia

 

Postherpetic neuralgia is a painful condition that affects your nerves and skin. It’s a complication of herpes zoster, commonly called shingles.

Shingles is a painful, blistering skin rash caused by a reactivation of the varicella-zoster virus.

People usually contract this virus in childhood or adolescence as chickenpox. The virus can remain dormant in the body’s nerve cells after childhood and reactivate decades later.

When the pain caused by shingles doesn’t go away after the rash and blisters clear up, the condition is called postherpetic neuralgia.

Postherpetic neuralgia is the most common shingles complication. It occurs when a shingles outbreak damages the nerves.

The damaged nerves can’t send messages from the skin to the brain, and the messages become confused. This results in chronic, severe pain that can last for months.

According to a 2017 review, about 20 percent of people who get shingles also develop postherpetic neuralgia. Additionally, this condition is more likely to occur in people over the age of 50.

What are the symptoms of postherpetic neuralgia?

Shingles typically causes a painful, blistering rash. Postherpetic neuralgia is a complication that only occurs in people who have already had shingles.

Common signs and symptoms of postherpetic neuralgia include:

  • severe pain that continues for more than 1 to 3 months in the same place that the shingles occurred, even after the rash goes away
  • burning sensation on the skin, even from the slightest pressure
  • sensitivity to touch or temperature changes
What are the risk factors for postherpetic neuralgia?

Age is a major risk factor for getting both shingles and postherpetic neuralgia. Risk begins to increase at age 50 and rises exponentially the older you get.

People who have acute pain and severe rash during shingles also have a higher risk for developing postherpetic neuralgia.

People with lowered immunity due to conditions like HIV or Hodgkin’s lymphoma have an increased risk for developing shingles. The risk of shingles is 20 to 100 greater in this group.

How is postherpetic neuralgia diagnosed and treated?

Most of the time, your doctor is able to make a diagnosis of postherpetic neuralgia based on how long you’ve experienced pain following shingles. Tests are unnecessary in confirming a diagnosis.

Treatment for postherpetic neuralgia aims to manage and reduce the pain until the condition goes away.

How can postherpetic neuralgia be prevented?

Two doses of a herpes zoster vaccine called Shingrix reduce the risk of shingles by more than 90 percentTrusted Source. The vaccine also protects against postherpetic neuralgia.

The Centers for Disease Control and Prevention (CDC)Trusted Source recommends healthy people ages 50 and up get the Shingrix vaccine.

Postherpetic neuralgia is treatable and preventable. Most cases disappear in 1 to 2 months. In rare cases, it can last longer than a year.

If you’re older than 50, it’s wise to get vaccinated against shingles and postherpetic neuralgia.

If you do develop postherpetic neuralgia, you have many treatment options to manage the pain. Talk with your doctor to find the best treatment for you.

Article Provided By: healthline
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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
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Neuralgia

Neuralgia

Neuralgia is a stabbing, burning, and often severe pain due to an irritated or damaged nerve. The nerve may be anywhere in the body, and the damage may be caused by several things, including:

  • aging
  • diseases such as diabetes or multiple sclerosis
  • an infection, such as shingles

Treatment for the pain of neuralgia depends on the cause.

Types of neuralgia

Postherpetic neuralgia

This type of neuralgia occurs as a complication of shingles and may be anywhere on the body. Shingles is a viral infection characterized by a painful rash and blisters. Neuralgia can occur wherever the outbreak of shingles was. The pain can be mild or severe and persistent or intermittent. It can also last for months or years. In some cases, the pain may occur before the rash. It will always occur along the path of a nerve, so it’s usually isolated to one side of the body.

Trigeminal neuralgia

This type of neuralgia is associated with pain from the trigeminal nerve, which travels from the brain and branches to different parts of the face. The pain can be caused by a blood vessel pressing down on the nerve where it meets with the brainstem. It can also be caused by multiple sclerosis, injury to the nerve, or other causes.

Trigeminal neuralgia causes severe, recurrent pain in the face, usually on one side. It’s most common in people who are older than 50 years.

Glossopharyngeal neuralgia

Pain from the glossopharyngeal nerve, which is in the throat, is not very common. This type of neuralgia produces pain in the neck and throat.

Causes of neuralgia

The cause of some types of nerve pain is not completely understood. You may feel nerve pain from damage or injury to a nerve, pressure on a nerve, or changes in the way the nerves function. The cause may also be unknown.

Infection

An infection can affect your nerves. For example, the cause of postherpetic neuralgia is shingles, an infection caused by the chickenpox virus. The likelihood of having this infection increases with age. An infection in a specific part of the body may also affect a nearby nerve. For example, if you have an infection in a tooth, it may affect the nerve and cause pain.

Multiple sclerosis

Multiple sclerosis (MS) is a disease caused by the deterioration of myelin, the covering of nerves. Trigeminal neuralgia may occur in someone with MS.

Pressure on nerves

Pressure or compression of nerves may cause neuralgia. The pressure may come from a:

  • bone
  • ligament
  • blood vessel
  • tumor

The pressure of a swollen blood vessel is a common cause of trigeminal neuralgia.

Diabetes

Many people with diabetes have problems with their nerves, including neuralgia. The excess glucose in the bloodstream may damage nerves. This damage is most common in the hands, arms, feet, and legs.

Less common causes

If the cause of neuralgia isn’t infection, MS, diabetes, or pressure on the nerves, it may be from one of many less-common factors. These include:

  • chronic kidney disease
  • medications prescribed for cancer
  • fluoroquinolone antibiotics, used to treat some infections
  • trauma, such as from surgery
  • chemical irritation
When to seek medical help

The pain of neuralgia is usually severe and sometimes debilitating. If you have it, you should see your doctor as soon as possible.

You should also see your doctor if you suspect you have shingles. Besides neuralgia, shingles also causes a red, blistering rash. It’s usually on the back or the abdomen, but it may also be on the neck and face. Shingles should be treated as soon as possible to prevent complications. These can include postherpetic neuralgia, which can cause debilitating and lifelong pain.

What to expect at a doctor’s appointment

When you see your doctor for neuralgia, you can expect to be asked a series of questions about your symptoms. Your doctor will want you to describe the pain and to tell them how long the pain has been a problem. You will also need to inform them of any medications you take and any other medical issues you have. This is because neuralgia may be a symptom of another disorder, such as diabetes, MS, or shingles.

Your doctor will also perform a physical exam to pinpoint the location of the pain and the nerve that’s causing it, if possible. You may also need to have a dental exam. For example, if the pain is in your face, your doctor may want to rule out other possible dental causes, such as an abscess.

To find an underlying cause of your pain, your doctor may order certain tests. You may need to have blood drawn to check your blood sugar levels and kidney function. A magnetic resonance imaging (MRI) test can help your doctor determine if you have MS. A nerve conduction velocity test can determine nerve damage. It shows how fast signals are moving through your nerves.

Treatment of neuralgia

If your doctor can pinpoint the cause of your neuralgia, your treatment will focus on treating the underlying cause. If the cause is not found, treatment will focus on relieving your pain.

Potential treatments may include:

  • surgery to relieve the pressure on the nerve
  • better control of blood sugar levels in people with diabetes-caused neuralgia
  • physical therapy
  • nerve block, which is an injection directed at a particular nerve or nerve group and that is intended to “turn off” pain signals and reduce inflammation
  • medications to relieve the pain

Medications prescribed may include:

  • antidepressants such as amitriptyline or nortriptyline, which are effective in treating nerve pain
  • antiseizure medications such as carbamazepine, which is effective for trigeminal neuralgia
  • short-term narcotic pain medications, such as codeine
  • topical creams with capsaicin

There is no cure for neuralgia, but treatment can help improve your symptoms. Some types of neuralgia improve over time. More research is being done to develop better treatments for neuralgia.

 

Article Provided By: healthline
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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Trigeminal Neuralgia

Trigeminal Neuralgia
Trigeminal neuralgia (TN), also known as tic douloureux, is sometimes described as the most excruciating pain known to humanity. The pain typically involves the lower face and jaw, although sometimes it affects the area around the nose and above the eye. This intense, stabbing, electric shock-like pain is caused by irritation of the trigeminal nerve, which sends branches to the forehead, cheek and lower jaw. It usually is limited to one side of the face. The pain can be triggered by an action as routine and minor as brushing your teeth, eating or the wind. Attacks may begin mild and short, but if left untreated, trigeminal neuralgia can progressively worsen.

Although trigeminal neuralgia cannot always be cured, there are treatments available to alleviate the debilitating pain. Normally, anticonvulsive medications are the first treatment choice. Surgery can be an effective option for those who become unresponsive to medications or for those who suffer serious side effects from the medications.
The Trigeminal Nerve
The trigeminal nerve is one set of the cranial nerves in the head. It is the nerve responsible for providing sensation to the face. One trigeminal nerve runs to the right side of the head, while the other runs to the left. Each of these nerves has three distinct branches. “Trigeminal” derives from the Latin word “tria,” which means three, and “geminus,” which means twin. After the trigeminal nerve leaves the brain and travels inside the skull, it divides into three smaller branches, controlling sensations throughout the face:
Ophthalmic Nerve (V1): The first branch controls sensation in a person’s eye, upper eyelid and forehead.
Maxillary Nerve (V2): The second branch controls sensation in the lower eyelid, cheek, nostril, upper lip and upper gum.
Mandibular Nerve (V3): The third branch controls sensations in the jaw, lower lip, lower gum and some of the muscles used for chewing.
Prevalence and Incidence
It is reported that 150,000 people are diagnosed with trigeminal neuralgia (TN) every year. While the disorder can occur at any age, it is most common in people over the age of 50. The National Institute of Neurological Disorders and Stroke (NINDS) notes that TN is twice as common in women than in men. A form of TN is associated with multiple sclerosis (MS).
Causes
There are two types of TN — primary and secondary. The exact cause of TN is still unknown, but the pain associated with it represents an irritation of the nerve. Primary trigeminal neuralgia has been linked to the compression of the nerve, typically in the base of the head where the brain meets the spinal cord. This is usually due to contact between a healthy artery or vein and the trigeminal nerve at the base of the brain. This places pressure on the nerve as it enters the brain and causes the nerve to misfire. Secondary TN is caused by pressure on the nerve from a tumor, MS, a cyst, facial injury or another medical condition that damages the myelin sheaths.
Symptoms
Most patients report that their pain begins spontaneously and seemingly out of nowhere. Other patients say their pain follows a car accident, a blow to the face or dental work. In the cases of dental work, it is more likely that the disorder was already developing and then caused the initial symptoms to be triggered. Pain often is first experienced along the upper or lower jaw, so many patients assume they have a dental abscess. Some patients see their dentists and actually have a root canal performed, which inevitably brings no relief. When the pain persists, patients realize the problem is not dental-related.
The pain of TN is defined as either type 1 (TN1) or type 2 (TN2). TN1 is characterized by intensely sharp, throbbing, sporadic, burning or shock-like pain around the eyes, lips, nose, jaw, forehead and scalp. TN1 can get worse resulting in more pain spells that last longer. TN2 pain often is present as a constant, burning, aching and may also have stabbing less intense than TN1.
TN tends to run in cycles. Patients often suffer long stretches of frequent attacks, followed by weeks, months or even years of little or no pain. The usual pattern, however, is for the attacks to intensify over time with shorter pain-free periods. Some patients suffer less than one attack a day, while others experience a dozen or more every hour. The pain typically begins with a sensation of electrical shocks that culminates in an excruciating stabbing pain within less than 20 seconds. The pain often leaves patients with uncontrollable facial twitching, which is why the disorder is also known as tic douloureux.
Pain can be focused in one spot or it can spread throughout the face. Typically, it is only on one side of the face; however, in rare occasions and sometimes when associated with multiple sclerosis, patients may feel pain in both sides of their face. Pain areas include the cheeks, jaw, teeth, gums, lips, eyes and forehead.
Attacks of TN may be triggered by the following:
Touching the skin lightly
Washing
Shaving
Brushing teeth
Blowing the nose
Drinking hot or cold beverages
Encountering a light breeze
Applying makeup
Smiling
Talking
The symptoms of several pain disorders are similar to those of trigeminal neuralgia. The most common mimicker of TN is trigeminal neuropathic pain (TNP). TNP results from an injury or damage to the trigeminal nerve. TNP pain is generally described as being constant, dull and burning. Attacks of sharp pain can also occur, commonly triggered by touch. Additional mimickers include:
Temporal tendinitis
Ernest syndrome (injury of the stylomandibular ligament
Occipital neuralgia
Cluster headaches/ migraines
Giant cell arteritis
Dental pain
Post-herpetic neuralgia
Glossopharyngeal neuralgia
Sinus infection
Ear infection
Temporomandibular joint syndrome (TMJ)
Diagnosis
TN can be very difficult to diagnose, because there are no specific diagnostic tests and symptoms are very similar to other facial pain disorders. Therefore, it is important to seek medical care when feeling unusual, sharp pain around the eyes, lips, nose, jaw, forehead and scalp, especially if you have not had dental or other facial surgery recently. The patient should begin by addressing the problem with their primary care physician. They may refer the patient to a specialist later.
Testing

Magnetic resonance imaging (MRI) can detect if a tumor or MS is affecting the trigeminal nerve. A high-resolution, thin-slice or three-dimensional MRI can reveal if there is compression caused by a blood vessel. Newer scanning techniques can show if a vessel is pressing on the nerve and may even show the degree of compression. Compression due to veins is not as easily identified on these scans. Tests can help rule out other causes of facial disorders. TN usually is diagnosed based on the description of the symptoms provided by the patient, detailed patient history and clinical evaluation. There are no specific diagnostic tests for TN, so physicians must rely heavily on symptoms and history. Physicians base their diagnosis on the type pain (sudden, quick and shock-like), the location of the pain and things that trigger the pain. Physical and neurological examinations may also be done in which the doctor will touch and examine parts of your face to better understand where the pain is located.
Treatment
Non-Surgical Treatments
There are several effective ways to alleviate the pain, including a variety of medications. Medications are generally started at low doses and increased gradually based on patient’s response to the drug.
Carbamazepine, an anticonvulsant drug, is the most common medication that doctors use to treat TN. In the early stages of the disease, carbamazepine controls pain for most people. When a patient shows no relief from this medication, a physician has cause to doubt whether TN is present. However, the effectiveness of carbamazepine decreases over time. Possible side effects include dizziness, double vision, drowsiness and nausea.
Gabapentin, an anticonvulsant drug, which is most commonly used to treat epilepsy or migraines can also treat TN. Side effects of this drug are minor and include dizziness and/or drowsiness which go away on their own.
Oxcarbazepine, a newer medication, has been used more recently as the first line of treatment. It is structurally related to carbamazepine and may be preferred, because it generally has fewer side effects. Possible side effects include dizziness and double vision.
Other medications include: baclofen, amitriptyline, nortriptyline, pregabalin, phenytoin, valproic acid, clonazepam, sodium valporate, lamotrigine, topiramate, phenytoin and opioids.
There are drawbacks to these medications, other than side effects. Some patients may need relatively high doses to alleviate the pain, and the side effects can become more pronounced at higher doses. Anticonvulsant drugs may lose their effectiveness over time. Some patients may need a higher dose to reduce the pain or a second anticonvulsant, which can lead to adverse drug reactions. Many of these drugs can have a toxic effect on some patients, particularly people with a history of bone marrow suppression and kidney and liver toxicity. These patients must have their blood monitored to ensure their safety.
Surgery
If medications have proven ineffective in treating TN, several surgical procedures may help control the pain. Surgical treatment is divided into two categories: 1) open cranial surgery or 2) lesioning procedures. In general, open surgery is performed for patients found to have pressure on the trigeminal nerve from a nearby blood vessel, which can be diagnosed with imaging of the brain, such as a special MRI. This surgery is thought to take away the underlying problem causing the TN. In contrast, lesioning procedures include interventions that injure the trigeminal nerve on purpose, in order to prevent the nerve from delivering pain to the face. The effects of lesioning may be shorter lasting and in some keys may result in numbness to the face.
Open Surgery
Microvascular decompression involves microsurgical exposure of the trigeminal nerve root, identification of a blood vessel that may be compressing the nerve and gentle movement of the blood vessel away from the point of compression. Decompression may reduce sensitivity and allow the trigeminal nerve to recover and return to a more normal, pain-free condition. While this generally is the most effective surgery, it also is the most invasive, because it requires opening the skull through a craniotomy. There is a small risk of decreased hearing, facial weakness, facial numbness, double vision, stroke or death.
Lesioning Procedures
Percutaneous radiofrequency rhizotomy treats TN through the use of electrocoagulation (heat). It can relieve nerve pain by destroying the part of the nerve that causes pain and suppressing the pain signal to the brain. The surgeon passes a hollow needle through the cheek into the trigeminal nerve. A heating current, which is passed through an electrode, destroys some of the nerve fibers.
Percutaneous balloon compression utilizes a needle that is passed through the cheek to the trigeminal nerve. The neurosurgeon places a balloon in the trigeminal nerve through a catheter. The balloon is inflated where fibers produce pain. The balloon compresses the nerve, injuring the pain-causing fibers, and is then removed.
Percutaneous glycerol rhizotomy utilizes glycerol injected through a needle into the area where the nerve divides into three main branches. The goal is to damage the nerve selectively in order to interfere with the transmission of the pain signals to the brain.
Stereotactic radiosurgery (through such procedures as Gamma Knife, Cyberknife, Linear Accelerator (LINAC) delivers a single highly concentrated dose of ionizing radiation to a small, precise target at the trigeminal nerve root. This treatment is noninvasive and avoids many of the risks and complications of open surgery and other treatments. Over a period of time and as a result of radiation exposure, the slow formation of a lesion in the nerve interrupts transmission of pain signals to the brain.
Overall, the benefits of surgery or lesioning techniques should always be weighed carefully against its risks. Although a large percentage of TN patients report pain relief after procedures, there is no guarantee that they will help every individual.
Neuromodulation
For patients with TNP, another surgical procedure can be done that includes placement of one or more electrodes in the soft tissue near the nerves, under the skull on the covering of the brain and sometimes deeper into the brain, to deliver electrical stimulation to the part of the brain responsible for sensation of the face. In peripheral nerve stimulation, the leads are placed under the skin on branches of the trigeminal nerve. In motor cortex stimulation (MCS), the area which innervates the face is stimulated. In deep brain stimulation (DBS), regions that affect sensation pathways to the face may be stimulated.
How to Prepare for a Neurosurgical Appointment
Write down symptoms. This should include: What the pain feels like (for example, is it sharp, shooting, aching, burning or other), where exactly the pain is located (lower jaw, cheek, eye/forehead), if it is accompanied by other symptoms (headache, numbness, facial spasms), duration of pain (weeks, months, years), pain-free intervals (longest period of time without pain or in between episodes), severity of pain (0=no pain, 10=worst pain)
Note any triggers of pain (e.g. brushing teeth, touching face, cold air)
Make a list of medications and surgeries related to the face pain (prior medications, did they work, were there side effects), current medications (duration and dose)
Write down questions in advance
Understand that the diagnosis and treatment process for TN is not simple. Having realistic expectations can greatly improve overall outcomes.
Follow-up
Patients should follow-up with their primary care providers and specialists regularly to maintain their treatment. Typically, neuromodulation surgical patients are asked to return to the clinic every few months in the year following the surgery. During these visits, they may adjust the stimulation settings and assess the patient’s recovery from surgery. Routinely following-up with a doctor ensures that the care is correct and effective. Patients who undergo any form of neurostimulation surgery will also follow-up with a device representative who will adjust the device settings and parameters as needed alongside their doctors.

Article Provided By: aans.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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How Pets Can Help Your Chronic Pain Symptoms

How Pets Can Help Your Chronic Pain Symptoms

By Jeanne Faulkner
Reviewed by QualityHealth’s Medical Advisory Board

Pet owners love their companions for a variety of reasons. But can having a pet relieve your chronic pain? In fact, studies have found that, yes, pets can help relieve many of the symptoms associated with chronic pain conditions and help patients live better lives. Here are five ways that pets can help patients with chronic pain:
1. Provide distraction. It’s hard to focus on pain when you’re watching a kitten chase her tail or when a dog is cuddled up next to you. Animals give patients opportunities to enjoy life through simple moments and events, like throwing your dog a ball, playing with your cat or listening to your bird sing. Plus, being a responsible pet owner requires that you feed, water, walk, care for and clean up after your animal, which gives you something to focus on outside of your diagnosis.
2. Increase activity. Even if all you do is walk to the pantry to open a can, owning a pet makes you get up and move. Dogs are particularly effective pets for bumping up your physical activity level because they require walking and demand playful interaction. Cats, on the other hand, are more independent, which might provide a better pet-match for patients with mobility issues.
3. Improve your mood. Studies show that the very act of petting an animal reduces anxiety, symptoms of depression, and stress. Pets provide companionship, opportunities to connect with others and reduce feelings of isolation. What’s more, dogs are effective at sensing and absorbing people’s moods. Often they’re used in hospitals, schools, and other care facilities to provide therapy and personal services. That’s not just a benefit for dog owners, however. Cats, horses, birds, chickens, and other animals can provide companionship and services that help people experience a better sense of wellbeing.
4. Improve your heart health. According to the American Pain Foundation, pet owners who suffer heart attacks have higher one-year survival rates than patients who are not pet owners. Animal owners also have lower triglyceride and cholesterol levels, fewer minor health problems such as headaches and injuries, and are able to cope better with stressful life events. Petting a dog has been proven to reduce blood pressure dramatically in some patients.
5. Provide unconditional love. Animals don’t care what you look like, how much you complain, or how exhausted you are. They love you regardless of the circumstances. Through their eyes, you’re perfect. Their inexhaustible patience and ability to stay present in the moment provides their owners valuable lessons in how to be better humans.
Want to Reap the Benefits of Owning a Pet?
Contact a veterinarian and find out what types of pets would work for your home, family and health condition. Visit the Humane Society or local animal shelter and consider adopting an animal that needs you as much as you need him. If owning your own pet doesn’t work for you, contact the Delta Society and find out about pet therapy dogs in your area.

Article Provided By: qualityhealth
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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