neurostimulation | Headache NewsBlog

Can Magnetic Brain Stimulation (rTMS) Prevent Pain?

By: Dr. Mauskop

02-12-2024

Alternative Therapies, Brain disorders, Chronic migraine, Headaches, Headaches in children, Migraine, Migraine in pregnancy, neurostimulation, New treatments, Pain, Pain Research, Science of Migraine, TMJ

Modern technology may help manage or even prevent pain before it becomes chronic. A recent study exploring the effects of repetitive transcranial magnetic stimulation (rTMS) on pain sensitivity offers some intriguing insights.

What is rTMS?

rTMS is a non-invasive method of brain stimulation. It involves sending magnetic pulses to specific areas of the brain through a coil placed on the scalp. This technique has been used to treat conditions like depression and chronic pain, but researchers are now looking at its potential to prevent pain. We used rTMS at the New York Headache Center to treat chronic migraine, other pain and neurological conditions that do not respond to usual treatment.

In a controlled experiment, researchers led by Nahian Chowdhury examined the role of rTMS in reducing future pain in healthy volunteers. The results were published in the latest issue of Pain, a journal of the International Association for the Study of Pain.

The subjects were divided into two groups:

Active rTMS Group: Received high-frequency rTMS to the area of the brain responsible for hand movements.

Sham rTMS Group: Received a fake treatment for comparison.

Both groups were then given an injection of nerve growth factor (NGF) into their jaw muscles, which causes prolonged pain similar to temporomandibular disorders (TMD), a condition causing jaw pain and dysfunction.

Results:

Pain Reduction: Participants who received active rTMS reported significantly less pain when chewing or yawning than the sham group. This effect was more pronounced in the early stages after the injection but persisted for days and weeks.

Brain Activity: The study found an increase in what’s known as peak alpha frequency (PAF) after rTMS, which is linked to lower pain sensitivity.

What Does This Mean for Pain Management?

Preventive Potential: This research suggests that rTMS could be used prophylactically to reduce pain sensitivity when pain is expected, like before surgery.

Future Directions: While promising, this study opens the door to further research into how rTMS can be optimized for pain control, potentially exploring different frequencies, duration, and areas of stimulation.

Pre-Surgery: rTMS might be used to reduce postoperative pain, potentially preventing the transition to chronic pain.

Chronic Pain Management: For those already dealing with chronic pain, understanding how brain activity changes with rTMS could lead to more effective treatments.

Conclusion

While we are still in the early stages, this study of rTMS offers hope for pain sufferers. It suggests a future where we might not only treat pain more effectively but also prevent it from becoming a long-term problem. This could revolutionize our approach to pain management, making it less about reducing and enduring pain and more about preventing it from taking root in the first place.

A new textbook on headaches and facial pain.

By: Dr. Mauskop

21-11-2024

Alternative Therapies, Blocks, Botox, Brain disorders, Chronic migraine, Cluster headaches, Head trauma, Headache medications, Headaches, Headaches in children, injections, Migraine, Migraine in pregnancy, neurostimulation, New treatments, Trigeminal and other neuralgias

It’s an honor to have contributed, alongside Andrew Blumenfeld and Sait Ashina, a chapter on Botox injections to the upcoming textbook Headache and Facial Pain Medicine. Edited by Sait Ashina of Harvard Medical School and published by McGraw Hill, the book is set for release in 2025 but is already available on Amazon.

The book includes chapters on Primary Headaches, Secondary Headaches, Facial Pain and Cranial Neuralgias, Special Treatments and Procedures, Special Populations, and Special Topics. It is an excellent textbook for health care providers.

New Daily Persistent Headache may respond to TMS

By: Dr. Mauskop

06-10-2024

Alternative Therapies, Brain disorders, Chronic migraine, Headaches, Headaches in children, Migraine, Migraine in pregnancy, neurostimulation, New treatments, Pain

Researchers at a hospital in Northern India reported good results in treating New Daily Persistent Headache (NDPH) with repetitive transcranial magnetic stimulation (rTMS).

NDPH is a type of headache that begins suddenly and persists daily without specific features, distinct MRI presentation, or blood test abnormalities. It can present similarly to chronic migraines or chronic tension-type headaches. While published reports suggest NDPH is difficult to treat, this is often not the case. However, patients who do not respond to initial standard treatments may become discouraged.

The Indian researchers conducted a pilot study with 50 NDPH patients who received 10 Hz rTMS sessions on the left prefrontal cortex of the brain for three consecutive days. They found that after 4 weeks:

70% of patients had at least a 50% reduction in headache severity
Patients gained an average of 11 headache-free days per month
76% had significant improvements in headache-related disability
Depression and anxiety scores also improved significantly

The treatment was well-tolerated, with only minor side effects in a few patients. The benefits seemed especially pronounced in patients who had NDPH that resembled chronic migraine.

I never give the diagnosis of NDPH, but diagnose it as a condition it most resembles and treat the person with a wide variety of available options. Many respond. For those who do not, we offer rTMS, a procedure that uses magnetic fields to stimulate nerve cells in the brain. An electromagnetic coil device is placed against the scalp near the forehead. The coil painlessly delivers a magnetic pulse that stimulates the brain with the goal of reducing headache symptoms. The FDA has approved it for the treatment of depression, anxiety, and OCD. We use it for various neurological conditions, including headaches that do not respond to standard therapies. To treat migraines and other types of pain, we usually stimulate not only the left prefrontal cortex, as was done in this study, but also two additional sites that have been reported to help with pain and migraines. These additional sites are either the motor cortex or the occipital cortex, on both sides.

Sometimes, we obtain a functional magnetic resonance imaging (fMRI) scan to better target rTMS. fMRI is a research procedure that is not available commercially (and is not covered by insurance).

What can you do about long COVID

By: Dr. Mauskop

26-08-2024

Alternative Therapies, Brain disorders, Chronic migraine, neurostimulation, New treatments

Long COVID, also known as post-COVID conditions, can present with a wide range of symptoms that persist for weeks or months after the initial COVID-19 infection. The most common symptoms of long COVID include:

Neurological Symptoms

Headaches
Difficulty thinking or concentrating, often referred to as “brain fog”
Memory problems
Changes in smell or taste

Psychological Symptoms

Depression or anxiety
Mood changes

Other Symptoms

Fatigue or tiredness that interferes with daily life
Shortness of breath or difficulty breathing
Cough
Chest pain or heart palpitations
Sleep problems
Dizziness when standing up (orthostatic hypotension)
Joint or muscle pain
Fever
Stomach pain or other gastrointestinal issues
Changes in menstrual cycles

There is evidence of persistent inflammation in people with long COVID. This inflammation of blood vessels, brain tissues, and other organs is likely the cause of all of the above symptoms.

Receiving a COVID vaccination may prolong the symptoms of long-term COVID-19 in people who have already contracted COVID and now suffer from long COVID. However, vaccines seem to reduce the risk of severe COVID and long COVID.

Unfortunately, we do not have any proven therapies for long COVID. However, it is very important to make sure that nutritional deficiencies do not contribute to long COVID symptoms. I often find a deficiency of vitamin B12 and other B vitamins, vitamin D, magnesium, CoQ10, omega-3 fatty acids, zinc, and others. I recommend looking at your test results yourself since doctors may glance at the report and tell you everything is fine if nothing is flagged. The normal ranges for vitamins are too wide, and if you are at the bottom of the normal range, you are probably deficient. For example, vitamin B12 levels are considered normal between 200 and 1,200. Most neurologists will tell you that your level should be above 500. The same applies to RBC magnesium level – normal is 4.0 to 6.4, but you need to be above 5. Vitamin D should be well above 40, while 30 is still considered normal.

Another supplement I often recommend is NAC. A small study by Yale neurologists showed that 600 mg of NAC improved working memory, concentration, and executive functions. NAC helps the body produce glutathione, an important antioxidant. We sometimes give glutathione infusions along with other vitamins.

Supplements that reduce inflammation include ginger and turmeric extracts.

For brain fog and other neurological symptoms, we have had some success with transcranial magnetic stimulation (TMS). Other neurostimulation methods, such as tDCS, are also worth trying.

Some patients benefit from intravenous infusion of immune globulin, which is approved for some types of neuropathies.

Low-dose naltrexone (LDN) may also help, but no studies prove this.

Probiotics can help people with gastrointestinal symptoms.

Stimulants can be tried to treat fatigue and brain fog. They can also help with depression.

For headaches, we often give Botox injections.

Depression can be treated with antidepressants or TMS.

Some people respond well to physical therapy, acupuncture, herbs, meditation, cognitive-behavioral therapy, and other mind-body techniques.

If two antidepressants fail, TMS may offer relief.

By: Dr. Mauskop

11-08-2024

Alternative Therapies, Brain disorders, Chronic migraine, Headache medications, neurostimulation, Psychology of headaches

The FDA approved transcranial magnetic stimulation (TMS) to treat anxiety, depression, and OCD about 15 years ago. Most insurers cover this treatment. However, it remains highly underutilized.

A study just published by Dutch researchers in Psychiatry Online compared TMS with a third antidepressant in people who did not respond well to two different antidepressants.

Both treatments were combined with psychotherapy.

89 people with depression who hadn’t improved with at least two previous treatments took part.
They were randomly assigned to either TMS or a new antidepressant.
The treatment lasted eight weeks.
TMS involved 25 sessions of magnetic stimulation.
The medication group switched to a new antidepressant following standard guidelines.

The primary outcome measure was the degree of improvement in depression symptoms.

TMS was more effective than switching medications. More people responded well to MS (38% vs 15%) and more people’s depression went into remission with TMS (27% vs 5%).

TMS was better at improving symptoms of anxiety and lack of enjoyment (anhedonia)

Both treatments were equally effective for improving sleep, overthinking, and negative thought patterns. People’s expectations about their treatment were linked to how much their depression improved.

In conclusion, for people with depression that hasn’t responded well to a couple of medication attempts, TMS might be a more effective option than trying another antidepressant. The study also suggests that the choice between TMS and medication might depend on which specific symptoms a person struggles with most.

We started using TMS for people with migraine headaches if they do not respond to multiple standard therapies. About half of these patients respond well. However, we do not have large controlled trials to confirm that TMS effectively treats migraines.

Focused ultrasound to specific brain regions relieves pain

By: Dr. Mauskop

04-08-2024

Alternative Therapies, Brain disorders, Chronic migraine, neurostimulation, New treatments, Pain

The use of focused ultrasound to treat brain disorders was one of the topics discussed at the 2024 NYC Neuromodulation Conference in NYC.

Coincidentally, a study on this topic was published last month by Jan Kubanek and his colleagues in Pain, the journal of the International Association for the Study of Pain: “Noninvasive targeted modulation of pain circuits with focused ultrasonic waves”.

Researchers developed a technique that targets the anterior cingulate cortex, a deep brain region involved in processing pain. By using focused ultrasound, this region can be modulated without surgery. This breakthrough has the potential to revolutionize pain management.

Twenty patients with chronic pain participated in a randomized crossover trial. They received two 40-minute sessions of either active or sham stimulation and were monitored for one week. The results were remarkable:

60% of patients experienced a significant reduction in pain on day 1 and day 7 after active stimulation.
Sham stimulation only benefited 15% and 20% of patients, respectively.
Active stimulation reduced pain by 60.0% immediately after the intervention and by 43.0% and 33.0% on days 1 and 7.
Sham stimulation only reduced pain by 14.4%, 12.3%, and 6.6% on the same days.

The stimulation was well tolerated and the side effects were mild and resolved within 24 hours.

Since we have been using transcranial magnetic stimulation (TMS) to treat refractory migraines and other neurological conditions, it was good to read this part of the authors’ conclusion:

“The ultrasonic intervention is conceptually related to TMS applied to the motor cortex, which can provide improvements in chronic pain in certain groups of patients. The key difference is that ultrasonic waves can directly modulate the deep brain regions involved in chronic pain, including the anterior cingulate cortex. Transcranial magnetic stimulation is believed to modulate deep brain regions only indirectly, which may contribute to its variable response and the need for frequent re-administrations. Nonetheless, the effects of both modalities may be complementary, and their combined application may provide stronger effects than either approach alone.”

Another MRI study attempts to diagnose migraine

By: Dr. Mauskop

22-07-2024

Brain disorders, Chronic migraine, Headaches, Migraine, neurostimulation, Science of Migraine

The diagnosis of migraine still relies on the patient’s description of symptoms. We do not have an objective test to confirm the diagnosis.

Several studies using functional MRI (fMRI) attempted to identify people with migraines. A new study published by Korean doctors in The Journal of Headache and Pain used a different imaging technique to achieve this goal.

The researchers used diffusion MRI, a technique that focuses on the movement of water molecules within the brain’s tissues (fMRI measures blood flow to different areas of the brain). It is particularly useful for mapping the brain’s white matter tracts, which are the pathways that connect different brain regions.

47 patients with migraine were compared to 41 healthy controls

Significant differences were found in brain regions such as the orbitofrontal cortex, temporal pole, and sensory/motor areas.

Changes in connections between deeper brain structures (like the amygdala, accumbens, and caudate nuclei) were also noted.

Using machine learning, the researchers could distinguish between migraine patients and healthy individuals based on these brain connectivity features.

Hopefully, larger studies and easier access to advanced imaging techniques may eventually lead to an objective test of migraines. More importantly, identifying specific connectivity patterns may lead to more individualized treatments. These could be treatments with pharmaceuticals or neurostimulation techniques such as transcranial magnetic stimulation (TMS), which we use in our clinic.

Abnormal functional connectivity in patients with post-traumatic headaches

By: Dr. Mauskop

03-06-2024

Alternative Therapies, Brain disorders, Chronic migraine, Head trauma, Headaches, Migraine, neurostimulation

A new study from Mayo Clinic researchers, published in The Journal of Headache and Pain, has examined the brain changes associated with acute post-traumatic headaches (PTH). These headaches can occur after a head injury or trauma and can be debilitating. The study involved 60 participants with acute PTH and 60 age-matched healthy controls. Using functional MRI (fMRI), the researchers found two key differences in the brains of PTH patients compared to healthy individuals.

Increased Iron Accumulation in Specific Brain Regions

First, the PTH patients showed higher levels of iron deposition in two brain areas: the left posterior cingulate and the bilateral cuneus regions. These areas are involved in various functions, including pain processing, attention, and visual processing. The accumulation of iron in these regions may disrupt normal brain function and contribute to the development and persistence of post-traumatic headaches.

Abnormal Functional Connectivity Patterns

Secondly, the researchers observed stronger functional connectivity between the bilateral cuneus (the visual processing area) and the right cerebellum (a region involved in motor control and coordination, and other functions) in PTH patients compared to healthy controls. Functional connectivity refers to the communication and synchronization between different brain regions. The abnormal connectivity patterns seen in PTH patients suggest disruptions in the brain networks responsible for processing sensory information, including pain signals.

Implications for Targeted Therapy

While these findings may have lacked utility in the past, they now have important implications for the treatment of post-traumatic headaches. We have been treating patients with repetitive transcranial magnetic stimulation (rTMS), a non-invasive technique that can modulate brain activity in specific regions. By stimulating the areas with abnormal connectivity, rTMS may help restore normal brain function and alleviate headache symptoms and other neurological and psychiatric symptoms. When possible, we perform fMRI scans on individual patients to identify the specific brain regions involved in their headache disorder. However, fMRI is still only a research tool, and when individual fMRI data is not available, studies like this one provide information on common brain changes associated with post-traumatic headaches that can be targeted with TMS.

Abnormal functional connectivity in brains of patients with vestibular migraine

By: Dr. Mauskop

27-05-2024

Alternative Therapies, Brain disorders, Chronic migraine, Headaches, Migraine, Migraine in pregnancy, neurostimulation, New treatments, Pain, post-traumatic headache, Science of Migraine

Functional MRI (fMRI) studies have shown that people with migraines have altered functional connectivity and activation patterns in pain-processing brain regions like the insula, thalamus, somatosensory cortex, as well as visual cortex. Some patients also have changes in the default mode and salience networks involved in attention and stimulus processing.

A study published this month by Chinese researchers in the Journal of Headache and Pain reports on connectivity changes in people with vestibular migraines.

They found abnormal resting-state functional connectivity in brain regions involved in multi-sensory and autonomic processing as well as impaired ocular motor control, pain modulation, and emotional regulation.

Until now, there has been little practical application for fMRI findings. However, with the help of Omniscient Neurotechnology, we have just started using fMRI data to better target our treatment with transcranial magnetic stimulation (TMS). TMS applied to motor and visual cortices has been reported to help relieve migraine headaches. We have also found it effective in a significant proportion of patients who did not respond to various other treatments. We have not yet accumulated enough data to determine if fMRI-guided TMS treatment is superior to TMS administered over a predetermined set of targets.

The main obstacle to wider use of TMS in clinical practice is the cost. TMS is approved by the FDA and is covered by insurance for the treatment of anxiety and depression, but not migraines or pain. fMRI is an expensive research tool and is also not covered by insurance. Hopefully, the NIH and other research foundations will provide the funds needed to study this promising treatment.

Visit with the Nolan Williams’ TMS team at Stanford

By: Dr. Mauskop

24-04-2024

Alternative Therapies, Brain disorders, Chronic migraine, Head trauma, Headaches, Migraine, neurostimulation, New treatments, Pain, Pain Research, post-traumatic headache

Nolan Williams has been at the forefront of developing breakthrough TMS protocols for the treatment of depression and other psychiatric indications. It was very stimulating and informative to discuss techniques, protocols, indications, and research into TMS for various neurological and psychiatric indications with the members of Nolan Williams’ lab Greg Sahlem and Ika Kaloiani. Thank you for sharing your knowledge.

Pain relief from transcranial magnetic stimulation is possibly opioid-mediated

By: Dr. Mauskop

07-04-2024

Alternative Therapies, Brain disorders, Chronic migraine, Cluster headaches, Headaches, Headaches in children, Migraine, neurostimulation, New treatments, Pain, Pain Research, Science of Migraine

Repetitive transcranial magnetic stimulation (rTMS) is approved by the FDA for the treatment of depression and anxiety. We have been using it to treat migraine headaches and other neurological conditions that are not responsive to standard therapies. Improvement in headaches and pain may be at least in part due to improvement in depression. However, additional mechanisms play a role since we see patients who are not depressed but whose pain improves with rTMS.

A new study by Chinese and Australian researchers published in Pain suggests that opioid mechanisms (endorphins, encephalin, and other peptides) may underlie the mechanism of pain relief produced by rTMS.

This was a double-blind, placebo-controlled study. 45 healthy participants were randomized into 3 groups: one receiving rTMS over the primary motor cortex (M), dorsolateral prefrontal cortex (DLPFC), or sham stimulation. Experimental pain was induced by applying capsaicin (hot pepper extract) over the skin of the right hand followed by application of heat.

Participants received intravenous naloxone (an opioid receptor antagonist) or saline before the first rTMS session to block or allow opioid effects, respectively. After 90 minutes to allow naloxone metabolism, participants received a second rTMS session.

For the M1 group, naloxone abolished the analgesic effects of the first rTMS session compared to saline. Pain relief returned in the second session after naloxone was washed out of the body. For the DLPFC group, only the second prolonged rTMS session induced significant analgesia in the saline condition compared to naloxone. rTMS over M1 selectively increased plasma ?-endorphin levels, while rTMS over DLPFC increased encephalin levels.

The results suggest that opioid mechanisms mediate rTMS-induced analgesia. The specific opioid peptides and rTMS dosage requirements differ between M1 and DLPFC stimulation.

However, these results are far from definitive. The study was small and the study protocol was complicated (e.g. using a double dose of rTMS to DLPFC), which increases the likelihood of an error. Also, these results apply to conditions of acute pain. In patients with chronic pain and headaches, rTMS likely provides relief by improving network connectivity between different parts of the brain.

If you are healthcare provider, attend the annual meeting of the Headache Cooperative of the Northeast

By: Dr. Mauskop

10-02-2024

Alternative Therapies, Blocks, Botox, Brain disorders, Chronic migraine, Head trauma, Headache medications, Headaches, injections, Migraine, neurostimulation, Psychology of headaches

I am once again honored to participate in the annual meeting of the Headache Cooperative of the Northeast to be held March 7-9 at the Stamford Marriott Hotel and Spa in Stamford, CT.

You will get a chance to learn about the latest scientific breakthroughs from Rami Burstein, president of the International Headache Society. You will also hear from other prominent figures in the field, renowned for their pioneering work and extensive contributions over several decades – Drs. Steven Baskin, Elizabeth Loder, Thomas Ward, Morris Levin, Richard Lipton, Steven Silberstein, Allan Purdy, Alan Rapaport, Paul Rizzoli, Sait Ashina, and others.