migraine headaches

Migraine

[mahy-greyn or, Brit., mee-]

Migraine is a neurological syndrome characterized by altered bodily experiences, painful headaches, and nausea. It is a common condition which affects women more frequently than men.

The typical migraine headache is one-sided and pulsating, lasting 4 to 72 hours. Accompanying complaints are nausea and vomiting, and a heightened sensitivity to bright lights (photophobia) and noise (hyperacusis). Approximately one third of people who experience migraines get a preceding aura, in which a patient may sense a strange light or unpleasant smell.

Although the exact cause of migraine remains unknown, the most widespread theory is that it is a disorder of the serotonergic control system. Recently, PET scans have demonstrated the aura to coincide with spreading cortical depression after an episode of greatly increased blood flow (up to 300% higher than baseline). There also appear to be migraine variants that originate in the brainstem and involve dysfunction in calcium and potassium ion transport between cell membranes. Genetic factors may also contribute. Studies on twins show that genes have a 60 to 65% influence on the development of migraine. Fluctuating hormone levels show a relation to migraine in several ways: three quarters of adult migraine patients are female while migraine affects approximately equal numbers of boys and girls before puberty, and migraine is known to disappear during pregnancy in a substantial number of sufferers.

The treatment of migraine begins with simple painkillers for headache and anti-emetics for nausea, and avoidance of triggers if present. Specific anti-migraine drugs can be used to treat migraine. If the condition is severe and frequent enough, preventative drugs might be considered.

The word migraine is French in origin and comes from the Greek hemicrania, as does the Old English term megrim. Literally, hemicrania means "half (the) head".

Classification

Migraines have been classified by the International Headache Society which periodically revises their classification.

Defining severity of pain

In addition to classifying the type of headache, the International Headache Society defines intensity of pain on a verbal 4-point scale:
Number Name Annotations
0 no pain
1 mild pain does not interfere with usual activities
2 moderate pain inhibits, but does not wholly prevent usual activities
3 severe pain prevents all activities

Migraine without aura

This is the most commonly seen form of migraine; patients who primarily suffer from migraine without aura may also have attacks of migraine with aura. The International Classification of Headache Disorders defines this condition as follows:

When these criteria are only partially met, the document specifies possible alternative diagnoses, including "probable migraine without aura" or "episodic tension-type headache".

Migraine with aura

This is the second most commonly seen form of migraine: patients who primarily suffer from migraine with aura may also have attacks of migraine without aura. According to the International Classification of Headache Disorders it is a recurrent disorder manifesting in attacks of reversible focal neurological symptoms that usually develop gradually over 5–20 minutes and last for less than 60 minutes. Headache with the features of "migraine without aura" usually follows the aura symptoms. Less commonly, the aura may occur without a subsequent headache or the headache may be non-migrainous in type.

In order to diagnose migraine with aura, there must have been at least two attacks not attributable to another cause that fulfill the following criteria:

  1. Aura consisting of at least one of the following, but no muscle weakness or paralysis:
    • Fully reversible visual symptoms (e.g. flickering lights, spots, lines, loss of vision)
    • Fully reversible sensory symptoms (e.g. pins and needles, numbness)
    • Fully reversible dysphasia (speech disturbance)
  2. Aura has at least two of the following characteristics:
    • Visual symptoms affecting just one side of the field of vision and/or sensory symptoms affecting just one side of the body
    • At least one aura symptom develops gradually over more than 5 minutes and/or different aura symptoms occur one after the other over more than 5 minutes
    • Each symptom lasts from 5 to 60 minutes

Where these criteria are not fully met, a diagnosis of "probable migraine with aura" may be considered, although other neurological causes must also be considered. If the picture complies with the criteria but includes one-sided muscular weakness or paralysis, a diagnosis of "sporadic hemiplegic migraine" or "familial hemiplegic migraine" should be considered.

Basilar type migraine

Basilar type migraine (BTM), formerly known as basilar artery migraine (BAM) or basilar migraine (BM), is an uncommon type of complicated migraine with symptoms that result from brainstem dysfunction. Serious episodes of BTM can lead to stroke, coma, or even death. The use of triptans and other vasoconstrictors as abortive treatments in BTM is contraindicated. Abortive treatments for BTM often focus on vasodilation and restoration of normal blood flow to the vertebrobasilar territory and subsequent return of normal brainstem function.

Familial hemiplegic migraine

Familial hemiplegic migraine 'FHM' is a type of migraine with a possible polygenetic component. These migraine attacks may last 4–72 hours and are apparently caused by ion channel mutations, three types of which have been identified to date. Patients who experience this syndrome have relatively typical migraine headaches preceded and/or accompanied by reversible limb weakness on one side as well as visual, sensory or speech difficulties. A non-familial form exists as well, "sporadic hemiplegic migraine" (SHM). It is often difficult to make the diagnosis between basilar-type migraine and hemiplegic migraine. When making the differential diagnosis is difficult, the deciding symptom is often the motor weakness or unilateral paralysis which can occur in FHM or SHM. While basilar-type migraine can present with tingling or numbness, true motor weakness and/or paralysis occur only in hemiplegic migraine.

Abdominal migraine

According to the International Classification of Headache Disorders, abdominal migraine is a recurrent disorder of unknown origin which occurs mainly in children. It is characterised by episodes of moderate to severe central abdominal pain lasting 1–72 hours. There is usually associated nausea and vomiting but the child is entirely well between attacks.

In order to diagnose abdominal migraine, there must be at least five attacks, not attributable to another cause, fulfilling the following criteria:

  1. Attacks lasting 1–72 hours when untreated
  2. Pain must have ALL of the following characteristics:
    • Location in the midline, around the umbilicus or poorly localised
    • Dull or 'just sore' quality
    • Moderate or severe intensity
  3. During an attack there must be at least two of the following:
    • Loss of appetite
    • Nausea
    • Vomiting
    • Pallor

Most children with abdominal migraine will develop migraine headache later in life and the two may co-exist during adolescence.

Acephalgic migraine

Acephalgic migraine is a neurological syndrome. It is a variant of migraine in which the patient may experience aura symptoms such as scintillating scotoma, nausea, photophobia, hemiparesis and other migraine symptoms but does not experience headache. Acephalgic migraine is also referred to as amigrainous migraine, ocular migraine, or optical migraine.

Sufferers of acephalgic migraine are more likely than the general population to develop classical migraine with headache.

The prevention and treatment of acephalgic migraine is broadly the same as for classical migraine. However, because of the absence of "headache", diagnosis of acephalgic migraine is apt to be significantly delayed and the risk of misdiagnosis significantly increased.

Visual snow might be a form of acephalgic migraine.

If symptoms are primarily visual, it may be necessary to consult an ophthalmologist to rule out potential eye disease before considering this diagnosis.

Menstrual migraine

Menstrual migraine is distinct from other migraines. Approximately 21 million women in the US suffer from migraines, and about 60% of them suffer from menstrual migraines.

  • There are two types of menstrual migraine – Menstrually Related Migraine (MRM) and Pure Menstrual Migraine (PMM)

*MRM is a headache of moderate-to-severe pain intensity that happens around the time of a woman’s period and at other times of the month as well.

*PMM is similar in every respect but only occurs around the time of a woman’s period.

  • The exact causes of menstrual migraine are uncertain but evidence suggest there may be a link between menstruation and migraine due to the drop in estrogen levels that normally occurs right before the period starts.
  • Menstrual migraine has been reported to be more likely to occur during a five-day window, from two days before to two days after menstruation.

When compared with migraines that occur at other times of the month, menstrual migraines have been reported to

  • Last longer—up to 72 hours
  • Be more severe
  • Occur more often with nausea and vomiting
  • Be more difficult to treat—occur more frequently

Signs and symptoms

The signs and symptoms of migraine vary among patients. Therefore, what a patient experiences before, during and after an attack cannot be defined exactly. The four phases of a migraine attack listed below are common but not necessarily experienced by all migraine sufferers. Additionally, the phases experienced and the symptoms experienced during them can vary from one migraine attack to another in the same migraineur:

  1. The prodrome, which occurs hours or days before the headache.
  2. The aura, which immediately precedes the headache.
  3. The pain phase, also known as headache phase.
  4. The postdrome.

Prodrome phase

Prodromal symptoms occur in 40–60% of migraineurs (migraine sufferers). This phase may consist of altered mood, irritability, depression or euphoria, fatigue, yawning, excessive sleepiness, craving for certain food (e.g. chocolate), stiff muscles (especially in the neck), constipation or diarrhea, increased urination, and other visceral symptoms. These symptoms usually precede the headache phase of the migraine attack by several hours or days, and experience teaches the patient or observant family how to detect that a migraine attack is near.

Aura phase

For the 20–30% of individuals who suffer migraine with aura, this aura comprises focal neurological phenomena that precede or accompany the attack. They appear gradually over 5 to 20 minutes and generally last fewer than 60 minutes. The headache phase of the migraine attack usually begins within 60 minutes of the end of the aura phase, but it is sometimes delayed up to several hours, and it can be missing entirely. Symptoms of migraine aura can be visual, sensory, or motor in nature.

Visual aura is the most common of the neurological events. There is a disturbance of vision consisting usually of unformed flashes of white and/or black or rarely of multicolored lights (photopsia) or forma­tions of dazzling zigzag lines (scintillating scotoma; often arranged like the battlements of a castle, hence the alternative terms "fortification spectra" or "teichopsia"). Some patients complain of blurred or shimmering or cloudy vision, as though they were look­ing through thick or smoked glass, or, in some cases, tunnel vision and hemianopsia. The somatosensory aura of migraine consists of digitolingual or cheiro-oral paresthesias, a feeling of pins-and-needles experienced in the hand and arm as well as in the nose-mouth area on the same side. Paresthesia migrate up the arm and then extend to involve the face, lips and tongue.

Other symptoms of the aura phase can include auditory or olfactory hallucinations, temporary dysphasia, vertigo, tingling or numbness of the face and extremities, and hypersensitivity to touch.

Pain phase

The typical migraine headache is unilateral, throbbing, moderate to severe and can be aggravated by physical activity. Not all of these features are necessary. The pain may be bilateral at the onset or start on one side and become generalized, and usually alternates sides from one attack to the next. The onset is usually gradual. The pain peaks and then subsides, and usually lasts between 4 and 72 hours in adults and 1 and 48 hours in children. The frequency of attacks is extremely variable, from a few in a lifetime to several times a week, and the average migraineur experiences from one to three headaches a month. The head pain varies greatly in intensity.

The pain of migraine is invariably accompanied by other features. Nausea occurs in almost 90 percent of patients, while vomiting occurs in about one third of patients. Many patients experience sensory hyperexcitability manifested by photophobia, phonophobia, osmophobia and seek a dark and quiet room. Blurred vision, nasal stuffiness, diarrhea, polyuria, pallor or sweating may be noted during the headache phase. There may be localized edema of the scalp or face, scalp tenderness, prominence of a vein or artery in the temple, or stiffness and tenderness of the neck. Impairment of concentration and mood are common. Lightheadedness, rather than true vertigo and a feeling of faintness may occur. The extremities tend to be cold and moist.

Postdrome phase

The patient may feel tired, have head pain, cognitive difficulties, "hungover", gastrointestinal symptoms, mood changes and weakness. Some people feel unusually refreshed or euphoric after an attack, whereas others note depression and malaise. Often, some of the minor headache phase symptoms may continue, such as loss of appetite, photophobia, and lightheadedness. For some patients, a 5 to 6 hour nap may reduce the pain, but slight headaches may still occur when standing or sitting quickly. Normally these symptoms go away after a good night's rest.

Diagnosis

Migraines are underdiagnosed and misdiagnosed. The diagnosis of migraine without aura, according to the International Headache Society, can be made according to the following criteria, the "5, 4, 3, 2, 1 criteria":

  • 5 or more attacks
  • 4 hours to 3 days in duration
  • 2 or more of - unilateral location, pulsating quality, moderate to severe pain, aggravation by or avoidance of routine physical activity
  • 1 or more accompanying symptoms - nausea and/or vomiting, photophobia, phonophobia

For migraine with aura, only two attacks are required to justify the diagnosis.

The mnemonic POUNDing (Pulsating, duration of 4–72 hOurs, Unilateral, Nausea, Disabling) can help diagnose migraine. If 4 of the 5 criteria are met, then the positive likelihood ratio for diagnosing migraine is 24.

The presence of either disability, nausea or sensitivity, can diagnose migraine with:

Migraine should be differentiated from other causes of headaches such as cluster headaches. These are extremely painful, unilateral headaches of a piercing quality. The duration of the common attack is 15 minutes to three hours. Onset of an attack is rapid, and most often without the preliminary signs that are characteristic of a migraine.

Pathophysiology

Migraines were once thought to be initiated exclusively by problems with blood vessels. The vascular theory of migraines is now considered secondary to brain dysfunction and claimed to have been discredited by others.

The effects of migraine may persist for some days after the main headache has ended. Many sufferers report a sore feeling in the area where the migraine was, and some report impaired thinking for a few days after the headache has passed.

Migraine headaches can be a symptom of hypothyroidism.

Depolarization theory

A phenomenon known as cortical spreading depression can cause migraines. In cortical spreading depression, neurological activity is depressed over an area of the cortex of the brain. This situation results in the release of inflammatory mediators leading to irritation of cranial nerve roots, most particularly the trigeminal nerve, which conveys the sensory information for the face and much of the head.

This view is supported by neuroimaging techniques, which appear to show that migraine is primarily a disorder of the brain (neurological), not of the blood vessels (vascular). A spreading depolarization (electrical change) may begin 24 hours before the attack, with onset of the headache occurring around the time when the largest area of the brain is depolarized. A French study in 2007, using the Positron Emission Tomography (PET) technique identified the hypothalamus as being critically involved in the early stages.

Vascular theory

Migraines can begin when blood vessels in the brain contract and expand inappropriately. This may start in the occipital lobe, in the back of the brain, as arteries spasm. The reduced flow of blood from the occipital lobe triggers the aura that some individuals who have migraines experience because the visual cortex is in the occipital area.

When the constriction stops and the blood vessels dilate, they become too wide. The once solid walls of the blood vessels become permeable and some fluid leaks out. This leakage is recognized by pain receptors in the blood vessels of surrounding tissue. In response, the body supplies the area with chemicals which cause inflammation. With each heart beat, blood passes through this sensitive area causing a throb of pain.

The vascular theory of migraines is now seen as secondary to brain dysfunction.

Serotonin theory

Serotonin is a type of neurotransmitter, or "communication chemical" which passes messages between nerve cells. It helps to control mood, pain sensation, sexual behaviour, sleep, as well as dilation and constriction of the blood vessels among other things. Serotonin levels in the brain may lead to a process of constriction and dilation of the blood vessels which trigger a migraine. Triptans activate serotonin receptors to stop a migraine attack.

Neural theory

When certain nerves or an area in the brain stem become irritated, a migraine begins. In response to the irritation, the body releases chemicals which cause inflammation of the blood vessels. These chemicals cause further irritation of the nerves and blood vessels and results in pain. Substance P is one of the substances released with first irritation. Pain then increases because substance P aids in sending pain signals to the brain.

Unifying theory

Both vascular and neural influences cause migraines.

  1. stress triggers changes in the brain
  2. these changes cause serotonin to be released
  3. blood vessels constrict
  4. chemicals including substance P irritate nerves and blood vessels causing pain

Epidemiology

Migraine is an extremely common condition which will affect 12–28% of people at some point in their lives. However this figure — the lifetime prevalence — does not provide a very clear picture of how many patients there are with active migraine at any one time. Typically, therefore, the burden of migraine in a population is assessed by looking at the one-year prevalence — a figure that defines the number of patients who have had one or more attacks in the previous year. The third figure, which helps to clarify the picture, is the incidence — this relates to the number of first attacks occurring at any given age and helps understanding of how the disease grows and shrinks over time. Based on the results of a number of studies, one year prevalence of migraine ranges from 6–15% in adult men and from 14–35% in adult women. These figures vary substantially with age: approximately 4–5% of children aged under 12 suffer from migraine, with little apparent difference between boys and girls. There is then a rapid growth in incidence amongst girls occurring after puberty, which continues throughout early adult life. By early middle age, around 25% of women experience a migraine at least once a year, compared with fewer than 10% of men. After menopause, attacks in women tend to decline dramatically, so that in the over 70s there are approximately equal numbers of male and female sufferers, with prevalence returning to around 5%.

At all ages, migraine without aura is more common than migraine with aura, with a ratio of between 1.5:1 and 2:1. Incidence figures show that the excess of migraine seen in women of reproductive age is mainly due to migraine without aura. Thus in pre-pubertal and post-menopausal populations, migraine with aura is somewhat more common than amongst 15–50 year olds.

There is a strong relationship between age, gender and type of migraine.

Geographical differences in migraine prevalence are not marked. Studies in Asia and South America suggest that the rates there are relatively low, but they do not fall outside the range of values seen in European and North American studies.

The incidence of migraine is related to the incidence of epilepsy in families, with migraine twice as prevalent in family members of epilepsy sufferers, and more common in epilepsy sufferers themselves.

Triggers

A migraine trigger is any factor that, on exposure or withdrawal, leads to the development of an acute migraine headache. Triggers may be categorized as behavioral, environmental, infectious, dietary, chemical, or hormonal. In the medical literature, these factors are known as 'precipitants.'

The MedlinePlus Medical Encyclopedia, for example, offers the following list of migraine triggers:

Sometimes the migraine occurs with no apparent "cause". The trigger theory supposes that exposure to various environmental factors precipitates, or triggers, individual migraine episodes. Migraine patients have long been advised to try to identify personal headache triggers by looking for associations between their headaches and various suspected trigger factors and keeping a "headache diary" recording migraine incidents and diet to look for correlations in order to avoid trigger foods. It must be mentioned, that some trigger factors are quantitative in nature, i.e., a small block of dark chocolate may not cause a migraine, but half a slab of dark chocolate almost definitely will, in a susceptible person. In addition, being exposed to more than one trigger factor simultaneously will more likely cause a migraine, than a single trigger factor in isolation, e.g., drinking and eating various known dietary trigger factors on a hot, humid day, when feeling stressed and having had little sleep will probably result in a migraine in a susceptible person, but consuming a single trigger factor on a cool day, after a good night's rest with minimal environmental stress may mean that the sufferer will not develop a migraine after all. Migraines can be complex to avoid, but keeping an accurate migraine diary and making suitable lifestyle changes can have a very positive effect on the sufferer's quality of life. Some trigger factors are virtually impossible to avoid, e.g. the weather or emotions, but by limiting the avoidable trigger factors, the unavoidable ones may have less of an impact on the sufferer.

Food

A 2005 literature review found that the available information about dietary trigger factors relies mostly on the subjective assessments of patients. Some suspected dietary trigger factors appear to genuinely promote or precipitate migraine episodes, but many other suspected dietary triggers have never been demonstrated to trigger migraines. The review authors found that alcohol, caffeine withdrawal, and missing meals are the most important dietary migraine precipitants, that dehydration deserved more attention, and that some patients report sensitivity to red wine. Little or no evidence associated notorious suspected triggers like chocolate, cheese, histamine, tyramine, nitrates, or nitrites with migraines. The artificial sweetener aspartame has not been shown to trigger headache, but in a large and definitive study monosodium glutamate (MSG) in large doses (2.5 grams) was associated with adverse symptoms including headache more often than was placebo. The review authors also note that while general dietary restriction has not been demonstrated to be an effective migraine therapy, it is beneficial for the individual to avoid what has been a definite cause of the migraine.

The National Headache Foundation has a specific list of triggers based on the tyramine theory, detailing allowed, with caution and avoid triggers.

Weather

Several studies have found some migraines are triggered by changes in weather. One study noted 62% of the subjects thought weather was a factor but only 51% were sensitive to weather changes. Among those whose migraines did occur during a change in weather, the subjects often picked a weather change other than the actual weather data recorded. Most likely to trigger a migraine were, in order:

  1. Temperature mixed with humidity. High humidity plus high or low temperature was the biggest cause.
  2. Significant changes in weather
  3. Changes in barometric pressure

Another study examined the effects of warm chinook winds on migraines, with many patients reporting increased incidence of migraines immediately before and/or during the chinook winds. The number of people reporting migrainous episodes during the chinook winds was higher on high-wind chinook days. The probable cause was thought to be an increase in positive ions in the air.

Other

One study found that for some migraineurs in India, washing hair in a bath was a migraine trigger. The triggering effect also had to do with how the hair was later dried.

Treatment

Conventional treatment focuses on three areas: trigger avoidance, symptomatic control, and preventive drugs. Patients who experience migraines often find that the recommended migraine treatments are not 100% effective at preventing migraines, and sometimes may not be effective at all.

Children and adolescents, are often first given drug treatment, but the value of diet modification should not be overlooked. The simple task of starting a diet journal to help modify the intake of trigger foods like hot dogs, chocolate, cheese and ice cream could help alleviate symptoms

Abortive treatment

Migraine sufferers usually develop their own coping mechanisms for the pain of a migraine attack. Hot or cold water applied to the head, or resting in a dark and silent room may be helpful for some patients. Caffeine can be helpful during an attack, despite the fact that in general migraine-sufferers are advised to limit their caffeine intake.

For patients who have been diagnosed with recurring migraines, migraine abortive medications can be used to treat the attack, and may be more effective if taken early, losing effectiveness once the attack has begun. Treating the attack at the onset can often abort it before it becomes serious, and can reduce the near-term frequency of subsequent attacks.

Paracetamol or non-steroidal anti-inflammatory drug (NSAIDs)

The first line of treatment is over-the-counter abortive medication.

Patients themselves often start off with paracetamol (known as acetaminophen in the USA), aspirin, ibuprofen, or other simple analgesics that are useful for tension headaches. OTC drugs may provide some relief, although they are typically not effective for most sufferers. It is one of doctors' practical diagnoses of migraine head pain when patients say typical OTC drugs "won't touch it".

Analgesics combined with antiemetics

Anti-emetics by mouth may help relieve symtoms of nausea and help prevent vomiting, which can diminish the effectiveness of orally taken analgesia. In addition some antiemetics such as metoclopramide are prokinetics and help gastric emptying which is often impaired during episodes of migraine. In the UK there are three combination antiemetic and analgesic preparations available: MigraMax (aspirin with metoclopramide), Migraleve (paracetamol/codeine for analgesia, with buclizine as the antiemetic) and paracetamol/metoclopramide (Paramax in UK). The earlier these drugs are taken in the attack, the better their effect.

Some patients find relief from taking other sedative antihistamines which have anti-nausea properties, such as Benadryl which in the US contains diphenhydramine (but a different non-sedative product in the UK).

Serotonin agonists

Sumatriptan and related selective serotonin receptor agonists are excellent for severe migraines or those that do not respond to NSAIDs or other over-the-counter drugs. Triptans are a mid-line treatment suitable for many migraineurs with typical migraines. They may not work for atypical or unusually severe migraines, transformed migraines, or status (continuous) migraines.

Ergot alkaloids

Until the introduction of sumatriptan in 1991, ergot derivatives (see ergoline) were the primary oral drugs available to abort a migraine once it is established.

Ergot drugs can be used either as a preventive or abortive therapy, though their relative expense and cumulative side effects suggest reserving them as an abortive rescue medicine. However, ergotamine tartrate tablets (usually with caffeine), though highly effective, and long lasting (unlike triptans), have fallen out of favour due to the problem of ergotism. Oral ergotamine tablet absorption is reliable unless the patient is nauseated. Anti-nausea administration is available by ergotamine suppository (or Ergostat sublingual tablets made until circa 1992). Ergot drugs themselves can be so nauseating it is advisable for the sufferer to have something at hand to counteract this effect when first using this drug. Ergotamine-caffeine 1/100 mg fixed ratio tablets (like Cafergot, Ercaf, etc.) are much less expensive per headache than triptans, and are commonly available in Asia. They are difficult to obtain in the USA. Ergotamine-caffeine can't be regularly used to abort evening or night onset migraines due to debilitating caffeine interference with sleep. Pure ergotamine tartrate is highly effective for evening-night migraines, but is rarely or never available in the USA. Dihydroergotamine (DHE), which must be injected or inhaled, can be as effective as ergotamine tartrate, but is much more expensive than $2 USD Cafergot tablets.

Steroids

Based on a recent meta analysis a single dose of iv dexamethasone, when added to standard treatment, is associated with a 26% decrease in headache recurrence.

Other agents

If over-the-counter medications do not work, or if triptans are unaffordable, the next step for many doctors is to prescribe Fioricet or Fiorinal, which is a combination of butalbital (a barbiturate), Paracetamol (in Fioricet) or acetylsalicylic acid (more commonly known as aspirin and present in Fiorinal), and caffeine. While the risk of addiction is low, butalbital can be habit-forming if used daily, and it can also lead to rebound headaches. Barbiturate-containing medications are not available in many European countries.

Amidrine (a cocktail of a pain reliever, a sedative, and a vasoconstrictor) is sometimes prescribed for migraine headaches.

Anti-emetics may need to be given by suppository or injection where vomiting dominates the symptoms.

Status migrainosus
Status migrainosus is characterized by migraine lasting more than 72 hours, with not more than four hours of relief during that period. It is generally understood that status migrainosus has been refractory to usual outpatient management upon presentation.

Treatment of status migrainosus consists of managing comorbidities (i. e. correcting fluid and electrolyte abnormalities resulting from anorexia and nausea/vomiting often accompanying status migr.), and usually administering parenteral medication to "break" (abort) the headache.

Although the literature is full of many case reports concerning treatment of status migrainosus, first line therapy consists of intravenous fluids, metoclopramide, and triptans or DHE.

Herbal treatment
The herbal supplement feverfew (more commonly used for migraine prevention, see below) is marketed by the GelStat Corporation as an OTC migraine abortive, administered sublingually (under the tongue) in a mixture with ginger. An open-label study (funded by GelStat) found some tentative evidence of the treatment's effectiveness, but no scientifically sound study has been done. Cannabis in addition to prevention, is also known to relieve pain during the onset of a migraine.

Comparative studies

Regarding comparative effectiveness of these drugs used to abort migraine attacks, a 2004 placebo-controlled trial reveals that high dose acetylsalicylic acid (1000 mg), sumatriptan 50 mg and ibuprofen 400 mg are equally effective at providing relief from pain, although sumatriptan was superior in terms of the more demanding outcome of rendering patients entirely free of pain and all other migraine-related symptoms.

Another randomized controlled trial, funded by the manufacturer of the study drug, found that a combination of sumatriptan 85 mg and naproxen sodium 200 mg was better than either drug alone.

Preventive treatment

Preventive (also called prophylactic) treatment of migraines can be an important component of migraine management. Such treatments can take many forms, including everything from taking certain drugs or nutritional supplements, to lifestyle alterations such as increased exercise and avoidance of migraine triggers. One such book that outlines these preventative measures quite well is "7 Steps To A Healthy Brain" by Dr. Winner.

The goals of preventive therapy are to reduce the frequency, painfulness, and/or duration of migraines, and to increase the effectiveness of abortive therapy. Another reason to pursue these goals is to avoid medication overuse headache (MOH), otherwise known as rebound headache, which is a common problem among migraneurs. This is believed to occur in part due to overuse of pain medications, and can result in chronic daily headache.

Prescription drugs

A 2006 review article by S. Modi and D. Lowder offers some general guidelines on when a physician should consider prescribing drugs for migraine prevention:

Preventive medication has to be taken on a daily basis, usually for a few weeks, before the effectiveness can be determined. Supervision by a neurologist is advisable. A large number of medications with varying modes of action can be used. Selection of a suitable medication for any particular patient is a matter of trial and error, since the effectiveness of individual medications varies widely from one patient to the next. Often preventive medications do not have to be taken indefinitely. Sometimes as little as six months of preventive therapy is enough to "break the headache cycle" and then they can be discontinued.

The most effective prescription medications include several drug classes:

Other drugs:

  • Sansert was withdrawn from the US market by Novartis, but is available in Canadian pharmacies. Although highly effective, it has rare but serious side effects, including retroperitoneal fibrosis.
  • Namenda, memantine HCI tablets, which is used in the treatment of Alzheimer's Disease, is beginning to be used off label for the treatment of migraines. It has not yet been approved by the FDA for the treatment of migraines.
  • ASA or Aspirin can be taken daily in low doses such as 80 to 81 mg, the blood thinners in ASA have been shown to help some migrainures, especially those who have an aura.

Trigger avoidance

Patients can attempt to identify and avoid factors that promote or precipitate migraine episodes. Moderation in alcohol and caffeine intake, consistency in sleep habits, and regular meals may be helpful. General dietary restriction has not been demonstrated to be an effective approach to treating migraine, and migraine is remarkably resistant to the placebo effect

Herbal and nutritional supplements

Butterbur
50 mg or 75 mg/day of butterbur (Petasites hybridus) rhizome extract was shown in a controlled trial to provide 50% or more reduction in the number of migraines to 68% of participants in the 75 mg dose group, 56% in the 50 mg dose group and 49% in the placebo group after four months. Native butterbur contains some carcinogenic compounds, but a purified version, Petadolex, does not.
Cannabis
Cannabis was a standard treatment for migraines from 1874 and 1942. It has been reported to help people through an attack by relieving the nausea and dulling the head pain, as well as possibly preventing the headache completely when used as soon as possible after the onset of pre-migraine symptoms, such as aura. A pharmaceutical company is currently conducting trials of a whole cannabis extract spray for migraine
Coenzyme Q10
Supplementation of coenzyme Q10 has been found to have a beneficial effect on the condition of some sufferers of migraines. In an open-label trial, Young and Silberstein found that 61.3% of patients treated with 100 mg/day had a greater than 50% reduction in number of days with migraine, making it more effective than most prescription prophylactics. Fewer than 1% reported any side effects. A double-blind placebo-controlled trial has also found positive results.
Feverfew
The plant feverfew (Tanacetum parthenium) is a traditional herbal remedy believed to reduce the frequency of migraine attacks. A number of clinical trials have been carried out to test this claim, but a 2004 review article concluded that the results have been contradictory and inconclusive. However, since then, more studies have been carried out. As well as its prophylactic properties, feverfew is also touted as a migraine abortative.
Magnesium Citrate
Magnesium citrate has reduced the frequency of migraine in an experiment in which the magnesium citrate group received 600 mg per day oral of trimagnesium dicitrate. In weeks 9–12, the frequency of attacks was reduced by 41.6% in the magnesium citrate group and by 15.8% in the placebo group.
Riboflavin
The supplement Riboflavin (also called Vitamin B2) has been shown (in a placebo-controlled trial) to reduce the number of migraines, when taken at the high dose of 400 mg daily for three months.
Vitamin B12
There is tentative evidence that Vitamin B12 may be effective in preventing migraines. In particular, in an open-label pilot study, 1 mg of intranasal hydroxocobalamin (a form of Vitamin B12), taken daily for three months, was shown to reduce migraine frequency by 50% or more in 10 of 19 participants. Although the study was not placebo-controlled, this response is larger than the typical placebo effect in migraine prophylaxis.

Surgical treatments

Surgery may be used to treat migraines by severing the corrugator supercilii muscle and zygomaticotemporal nerve. The treatment may reduce or eliminate headaches in some individuals.

In 2005, research was published indicating that in some people with a patent foramen ovale (PFO), a hole between the upper chambers of the heart, suffer from migraines which may have been caused by the PFO. The migraines reduce in frequency if the hole is patched. Several clinical trials are currently under way in an effort to determine if a causal link between PFO and migraine can be found. Early speculation as to this relationship has centered on the idea that the lungs detoxify blood as it passes through. The PFO allows uncleaned blood to go directly from the right side of the heart to the left without passing through the lungs.

Botulin toxin has been used to treat individuals with frequent or chronic migraines. It appears to be effective for chronic migraines but not useful in the treatment of episodic migraine.

Spinal cord stimulators are an implanted medical device sometimes used for those who suffer severe migraines several days each month.

Noninvasive medical treatments

Transcranial Magnetic Stimulation (TMS): At the 49th Annual meeting of the American Headache Society in June 2006, scientists from Ohio State University Medical Center presented medical research on 47 candidates that demonstrated that TMS — a medically non-invasive technology for treating depression, obsessive compulsive disorder and tinnitus, among other ailments — helped to prevent and even reduce the severity of migraines among its patients. This treatment essentially disrupts the aura phase of migraines before patients develop full-blown migraines. In about 74% of the migraine headaches, TMS was found to eliminate or reduce nausea and sensitivity to noise and light. Their research suggests that there is a strong neurological component to migraines. A larger study will be conducted soon to better assess TMS's complete effectiveness. In June 2008, a hand-held apparatus designed to apply TMS as a preemptive therapy to avert a migraine attack at the onset of the aura phase was introduced in California.

Biofeedback has been used successfully by some to control migraine symptoms through training and practice.

Hyperbaric oxygen therapy has been used successfully in treating migraines. This suggests that sufferers might be treated during an attack with a hyperbaric chamber of some sort, such as a Gamow bag (as is done in the treatment of "The Bends" and altitude sickness).

Bruxism, clenching or grinding of teeth, especially at night, is a trigger for many migraineurs. A device called a nociceptive trigeminal inhibitor (NTI) takes advantage of a reflex limiting the force of clenching. It can be fitted by dentists and clips over the front teeth at night, preventing contact between the back teeth. It has a success rate similar to butterbur and co-enzyme Q10, although it has not been subjected to the same rigorous testing as the supplements. Massage therapy of the jaw area can also reduce such pain.

There is a speculative connection between vision correction (particular with prism eyeglasses) and migraines. Two British studies, one from 1934 and another from 1956 claimed that many patients were provided with complete relief from migraine symptoms with proper eyeglass prescriptions, which included prescribed prism. However, both studies are subject to criticism because of sample bias, sample size, and the lack of a control group. A more recent study found that precision tinted lenses may be an effective migraine treatment. (Most optometrists avoid prescribing prism because, when incorrectly prescribed, it can cause headaches.)

Behavioral treatments

Many physicians believe that exercise for 15–20 minutes per day is helpful for reducing the frequency of migraines.

Sleep is often a good solution if a migraine is not so severe as to prevent it, as when a person awakes the symptoms will have most likely subsided.

Diet, visualization, and self-hypnosis are also alternative treatments and prevention approaches.

Sexual activity has been reported by a proportion of male and female migraine sufferers to relieve migraine pain significantly in some cases.

In many cases where a migraine follows a particular cycle, attempting to interrupt the cycle may prolong the symptoms. Letting a headache "run its course" by not using painkillers can sometimes decrease the length of an episode. This is especially true of cases where vomiting is common, as often the headache will subside immediately after vomiting. Curbing the pain may delay vomiting, and prolong the headache.

Alternative medicine

A number of forms of alternative medicine, particularly bodywork, are used in preventing migraines.

Massage therapy and physical therapy are often very effective forms of treatment to reduce the frequency and intensity of migraines. However, it is important to be treated by a well-trained therapist who understands the pathophysiology of migraines. Deep massage can 'trigger' a migraine attack in a person who is not used to such treatments. It is advisable to start sessions as short in duration and then work up to longer treatments. Likewise, some migraine sufferers find relief through chiropractic care.

Frequent migraines can leave the sufferer with a stiff neck which can cause stress headaches that can then exacerbate the migraines. Claims have been made that Myofascial Release can relieve this tension and in doing so reduce or eliminate the stress headache element.

Some migraine sufferers find relief through acupuncture, which is usually used to help prevent headaches from developing. Sometimes acupuncture is used to relieve the pain of an active migraine headache. In one controlled trial of acupuncture with a sham control in migraine, the acupuncture was not more effective than the sham acupuncture but was more effective than delayed acupuncture.

Additionally acupressure is used by some for relief. For instance pressure between the thumbs and index finger to help subside headaches if the headache or migraine isn't too severe.

Incense and scents are shown to help. The smell and incense of peppermint and lavender have been proven to help with migraines and headaches more so than most other scents. However, some scents can be a trigger factor.

History

9000 year old skulls exist with evidence of trepanation. It is hypothesized that this drastic step was taken in response to headaches, though there is no clear evidence proving this. . Headache with neuralgia was recorded in the medical documents of the ancient Egyptians as early as 1200 BC. In 400 BC Hippocrates described the visual aura that can precede the migraine headache and the relief which can occur through vomiting. Aretaeus of Cappadocia is credited as the "discoverer" of migraines because of his second century description of the symptoms of a unilateral headache associated with vomiting, with headache-free intervals in between attacks. Galenus of Pergamon used the term "hemicrania" (half-head), from which the word "migraine" was derived. He thought there was a connection between the stomach and the brain because of the nausea and vomiting that often accompany an attack. For relief of migraine, Andalusian-born physician Abulcasis, also known as Abu El Quasim, suggested application of a hot iron to the head or insertion of garlic into an incision made in the temple. In the Medieval Ages migraine was recognized as a discrete medical disorder with treatment ranging from hot irons to blood letting and even witchcraft. Followers of Galenus explained migraine as caused by aggressive yellow bile. Ebn Sina (Avicenna) described migraine in his textbook "El Qanoon fel teb" as "... small movements, drinking and eating, and sounds provoke the pain... the patient cannot tolerate the sound of speaking and light. He would like to rest in darkness alone." Abu Bakr Mohamed Ibn Zakariya Râzi noted the association of headache with different events in the lives of women, "...And such a headache may be observed after delivery and abortion or during menopause and dysmenorrhea."

In Bibliotheca Anatomica, Medic, Chirurgica, published in London in 1712, five major types of headaches are described, including the "Megrim", recognizable as classic migraine. Graham and Wolff (1938) published their paper advocating ergotamine tart for relieving migraine. Later in the 20th century, Harold Wolff (1950) developed the experimental approach to the study of headache and elaborated the vascular theory of migraine, which has come under attack as the pendulum again swings to the neurogenic theory.

Economic impact

In addition to being a major cause of pain and suffering, chronic migraine attacks are a significant source of both medical costs and lost productivity. Medical costs per migraine sufferer (mostly physician and emergency room visits) averaged $107 USD over six months in one 1988 study, with total costs including lost productivity averaging $313. Annual employer cost of lost productivity due to migraines was estimated at $3,309 per sufferer. Total medical costs associated with migraines in the United States amounted to one billion dollars in 1994, in addition to lost productivity estimated at thirteen to seventeen billion dollars per year. Employers may benefit from educating themselves on the effects of migraines in order to facilitate a better understanding in the workplace. The workplace model of 9–5, 5 days a week may not be viable for a migraine sufferer. With education and understanding an employer could compromise with an employee to create a workable solution for both.

Migraine and cardiovascular risks

The risk of stroke may be increased two- to threefold in migraine sufferers. Young adult sufferers and women using hormonal contraception appear to be at particular risk. The mechanism of any association is unclear, but chronic abnormalities of cerebral blood vessel tone may be involved. Women who experience auras have been found to have twice the risk of strokes and heart attacks over non-aura migraine sufferers and women who do not have migraines. Migraine sufferers seem to be at risk for both thrombotic and hemorrhagic stroke as well as transient ischemic attacks. Death from cardiovascular causes was higher in people with migraine with aura in a Women's Health Initiative study, but more research is needed to confirm this.

References

Migraine triggers

  • Federation of American Societies for Experimental Biology [FASEB] [1995]. Analysis of adverse reactions to monosodium glutamate (MSG). Bethesda, MD: Life Sciences Research Office, FASEB.
  • Ravishankar, K (2006). 'Hair wash' or 'Head bath' triggering migraine - observations in 94 Indian patients". Cephalagia 26 (11): 1330–1334. ISSN 0333-1024.

Treatment

  • Pearce, J.M.S. (1994). Headache. Neurological Management series. Journal of Neurology Neurosurgery and Psychiatry. 57, 134–144.
  • Mayo Clinic Staff. (2005). Migraine Headache Retrieved August 14, 2005
  • Cathy Wong, ND. (2005). Migraine Elimination Diet Retrieved August 14, 2005
  • Treatment Articles (2005). Butterbur, Co-enzyme Q-10, Melatonin, Folic Acid
  • Buchholz, D. (2002) Heal your headache: The 1-2-3 Program, New York: Workman Publishing, ISBN 0-7611-2566-3
  • Livingstone, I. and Novak, D. (2003) Breaking the Headache Cycle, New York: Henry Holt and Co. ISBN 0-8050-7221-7
  • Izecksohn L, and Izecksohn C. . Fluids' Hypertension Syndromes, ISBN 978-85-906664-0-0.

Triptans

  • Cohen JA, Beall D, Beck A, et al. Sumatriptan treatment for migraine in a health maintenenace organization: economic, humanistic, and clinical outcomes. Clin Ther 1999;21:190–205.
  • Adelman JU, Sharfman M, Johnson R, et al. Impact of oral sumatriptan on workplace productivity, health-related quality of life, healthcare use, and patient satisfaction with medication in nurses with migraine. Am J Manag Care 1996;2:1407–1416.
  • Cohen JA, Beall DG, Miller DW, Beck A, Pait G, Clements BD. Subcutaneous sumatriptan for the treatment of migraine: humanistic, economic, and clinical consequences. Fam Med 1996;28:171–177.
  • Jhingran P, Cady RK, Rubino J, Miller D, Grice RB, Gutterman DL. Improvements in health-related quality of life with sumatriptan treatment for migraine. J Med Econ 1996;42:36–42.
  • Solomon GD, Nielsen K, Miller D. The effects of sumatriptan on migraine: health-related quality of life. Med Interface 1995;June:134–141.
  • Solomon GD, Skobieranda FG, Genzen JR. Quality of life assessment among migraine patients treated with sumatriptan. Headache 1995;35:449–454.
  • Santanello NC, Polis AB, Hartmaier SL, Kramer MS, Block GA, Silberstein SD. Improvement in migrainespecific quality of life in a clinical trial of rizatriptan. Cephalalgia 1997;17:867–872.
  • Caro JJ, Getsios D. Pharmacoeconomic evidence and considerations for triptan treatment of migraine. Expert Opin Pharmacother 2002;3:237–248.
  • Lofland JH, Johnson NE, Batenhorst AS, Nash DB. Changes in resource use and outcomes for patients with migraine treated with sumatriptan: a managed care perspective. Arch Intern Med 1999;159: 857–863.
  • Cady RC, Ryan R, Jhingran P, O’Quinn S, Pait DG. Sumatriptan injection reduces productivity loss during a migraine attack. Arch Intern Med 1998;158: 1013–1018.
  • Litaker DG, Solomon GD, Genzen JR. Impact of sumatriptan on clinic utilization and costs of care in migraineurs. Headache 1996;36:538–541.
  • Greiner DL, Addy SN. Sumatriptan use in a large group-model health maintenance organization. Am J Health Syst Pharm 1996;53:633–638.
  • Lofland JH, Kim SS, Batenhorst AS, et al. Cost-effectiveness and cost-benefit of sumatriptan in patients with migraine. Mayo Clin Proc 2001;76:1093–1101.
  • Biddle AK, Shih YC, Kwong WJ. Cost-benefit analysis of sumatriptan tablets versus usual therapy for treatment of migraine. Pharmacotherapy 2000;20: 1356–1364.
  • Caro JJ, Getsios D, Raggio G, Caro G, Black L. Treatment of migraine in Canada with naratriptan: a costeffectiveness analysis. Headache 2001;41:456–464.

General

  • Sacks, Oliver (1999) Migraine, Vintage ISBN 0-520-08223-0
  • Relouzat, Raoul & Thiollet, Jean-Pierre, Vaincre la migraine, Anagramme, 2006 ISBN 2-35035046

Economic impact

  • Edmeads J, Mackell JA. The economic impact of migraine: an analysis of direct and indirect costs. Headache 2002;42:501–509.
  • Gerth WC, Carides GW, Dasbach EJ, Visser WH, Santanello NC. The multinational impact of migraine symptoms on healthcare utilisation and work loss. Pharmacoeconomics 2001;19:197–206.
  • Hu XH, Markson LE, Lipton RB, Stewart WF, Berger ML. Burden of migraine in the United States: disability and economic costs. Arch Intern Med 1999;159:813–818.
  • Osterhaus JT, Gutterman DL, Plachetka JR. Healthcare resource and low labour costs of migraine headaches in the US. Pharmacoeconomics 1992;2:2–11.

Clinical picture

  • Blau JN. Classical migraine: symptoms between visual aura and headache onset. Lancet 1992;340:355-6.
  • Silberstein SD: Migraine symptoms: Results of a survey of self-reported migraineurs. Headache 1995;35:387-96.
  • Silberstein SD, Saper JR, Freitag F. Migraine: Diagnosis and treatment. In: Silberstein SD, Lipton RB, Dalessio DJ, eds. Wolff's headache and other head pain. 7th ed. New York: Oxford University Press, 2001:121–237.

Footnotes

External links

General information

Organizations

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