Fact-checked by Grok 2 weeks ago

Scintillating scotoma

A scintillating scotoma is a temporary visual disturbance characterized by a blind spot in the field of vision that flickers or shimmers between light and dark, often featuring jagged, zigzag, or wavy patterns expanding from a central point.^[1]^[2] This phenomenon, also known as a migraine aura, originates in the brain's visual cortex rather than the eyes and typically lasts 10 to 60 minutes before resolving completely.^[3]^[2] It most commonly precedes or accompanies migraine headaches but can occur without pain, a condition termed acephalgic or silent migraine.^[1]^[2] The symptoms of a scintillating scotoma usually begin with a small, sparkling spot or arc near the center of the visual field, gradually enlarging and migrating across the vision over time.^[3]^[1] Affected individuals may perceive shimmering lights, geometric patterns, or fortifications resembling a castle wall (teichopsia), which can interfere with reading, driving, or other visual tasks.^[2]^[1] It impacts both eyes simultaneously due to its cortical origin but may be confined to one hemifield of the visual field.^[2]^[4]^[5] In many cases, it is followed by a throbbing headache, nausea, or sensitivity to light and sound, but up to 30% of episodes occur without these additional migraine features.^[2]^[1] The primary cause of scintillating scotoma is cortical spreading depression, a wave of neuronal depolarization and suppression in the occipital lobe that disrupts normal visual processing.^[2] This is most frequently triggered by migraines, affecting about 20-30% of migraine sufferers who experience auras.^[2]^[1] Less commonly, it may result from other neurological conditions such as multiple sclerosis (due to optic nerve inflammation), transient ischemic attacks, glaucoma, or preeclampsia, necessitating medical evaluation to rule out serious underlying issues.^[2] Risk factors include a family history of migraines, female sex, stress, high blood pressure, pregnancy, and co-existing mental health conditions like depression.^[2] Diagnosis typically involves a detailed patient history and eye examination to exclude retinal or ocular pathologies, with neuroimaging such as MRI recommended if symptoms are atypical or recurrent without migraine association.^[1]^[2] Treatment is often unnecessary for isolated episodes, as they resolve spontaneously, but supportive measures include resting in a dark room, staying hydrated, and avoiding triggers like bright lights or stress.^[1]^[2] For frequent occurrences linked to migraines, preventive strategies may involve over-the-counter pain relievers (e.g., ibuprofen), prescription triptans, anti-seizure medications, or lifestyle modifications such as regular sleep and stress management.^[1]^[2] In rare cases of non-migraine causes, addressing the underlying condition (e.g., treating MS or hypertension) is essential.^[2]

Overview

Definition and Characteristics

A scintillating scotoma is defined as a transient visual aura featuring a shimmering or glittering border surrounding a central blind spot, often manifesting as a zigzag or fortress-like pattern known as teichopsia.^[6]^[7] This disturbance originates near the fixation point in the central visual field and progressively expands peripherally.^[8] It is most commonly associated with migraine auras, occurring in up to 30% of migraine patients.^[9] The typical progression begins with a small, flickering spot that enlarges over 20 to 30 minutes, potentially spanning a significant portion of the hemifield before fading. As it expands, it trails a negative scotoma—a dark, visionless patch—while the leading edge exhibits positive phenomena such as flashing or scintillating lights.^[6] The entire episode usually resolves spontaneously within 60 minutes, though a residual central scotoma may briefly persist.^[9] This visual phenomenon is characteristically binocular and homonymous, affecting corresponding parts of both visual fields due to its cortical origin, though rare monocular presentations can occur in retinal variants.^[8]^[10] It differs from floaters, which are stable, drifting opacities in the eye's vitreous humor, and phosphenes, which are unstructured perceptions of light without the dynamic, patterned expansion.^[10]

Epidemiology and Prevalence

Scintillating scotoma, as a common manifestation of visual aura in migraine, affects approximately 20-30% of individuals with migraine disorders.^[9] In the general population, the one-year prevalence of migraine with aura, which often includes scintillating scotoma, is estimated at 5.3% among women and 1.9% among men in the United States.^[11] Globally, migraine with aura accounts for about 15-20% of all migraine cases, with overall migraine prevalence around 12-15%.^[12] Demographic patterns show a higher incidence in women, with a female-to-male ratio of approximately 2:1 to 3:1, consistent with broader migraine epidemiology.^[9] The condition typically peaks in prevalence between ages 35 and 39, though onset often occurs before age 25 in about 50% of cases.^[13] A positive family history significantly increases risk, with genetic factors contributing up to 60% to susceptibility and higher concordance rates (1.5- to 2-fold) in monozygotic twins compared to dizygotic twins.^[14]^[15] Key risk factors include genetic predisposition, such as variants linked to familial hemiplegic migraine, alongside environmental triggers like stress and hormonal fluctuations, particularly in women during menstrual cycles or perimenopause.^[16]^[17] Prevalence estimates are similar across Western populations but may be underreported in low- and middle-income regions due to limited diagnostic access and awareness.^[18]

Clinical Presentation

Signs and Symptoms

A scintillating scotoma typically begins with a gradual onset of visual disturbances, manifesting as flickering, shimmering, or sparkling lights in a specific area of the visual field. These phenomena often appear as zigzag lines, fortification-like patterns, arcs, or wavy edges that alternate between light and dark, progressing to a central blind spot where vision is partially or completely obscured.^[19]^[2] The disturbance usually starts small, near the center of vision, and expands outward, creating a smeared or distorted effect that interferes with clear sight.^[2] Accompanying the primary visual symptoms, individuals may experience mild sensory effects such as the onset of a headache, increased sensitivity to light (photophobia), or nausea, though these are not always present.^[19]^[2] In some cases, the episode occurs without significant pain, but when linked to migraine, these symptoms can intensify. Scintillating scotoma often precedes a migraine headache.^[2] The episode typically unfolds over 5 to 60 minutes, with the visual pattern gradually emerging and expanding before fading and resolving.^[19]^[2] Overall, the entire event typically resolves spontaneously within 5 to 60 minutes, though it rarely persists longer.^[19] Patients commonly report the experience as disruptive, likening it to viewing through a kaleidoscope or heat haze that distorts the air, which can hinder activities such as reading, driving, or operating machinery due to the obscured visual field.^[19]^[2] In certain instances, the scotoma may follow a hemianopic pattern, affecting one half of the visual field and further complicating spatial awareness.^[2]

Associated Features and Variations

Scintillating scotoma commonly precedes the headache phase in classic migraine with aura, occurring in approximately 90% of aura episodes where visual disturbances are predominant.^[9] It may also co-occur with other neurological symptoms in complex auras, such as sensory paresthesia involving numbness or tingling in the limbs or face, and speech difficulties like aphasia or dysarthria, affecting up to 30% of patients with multifaceted auras.^[20] These associations typically develop gradually over 5 to 20 minutes and resolve within an hour, often transitioning into the headache phase.^[9] Variations of scintillating scotoma include persistent forms lasting longer than one hour, which are rare and may indicate prolonged cortical spreading depression without progression to headache.^[21] Acephalgic migraine represents another variant, where the scotoma occurs without subsequent headache, sometimes termed visual or silent migraine, and is reported in approximately 5% of patients with migraine. Acephalgic episodes may become more common with age, particularly in older adults.^[12]^[22] Bilateral or multifocal patterns, involving both visual fields or multiple discrete spots, are less common than unilateral presentations but can occur, particularly in atypical or evolving auras.^[8] Rare forms of scintillating scotoma can be exercise-induced, triggered by physical exertion in otherwise healthy individuals, leading to transient visual episodes without underlying vascular issues.^[23] Triggers such as bright lights or high-contrast visual stimuli may also provoke episodes, exacerbating the flickering blind spot in susceptible patients.^[9] In children, scintillating scotoma episodes tend to be shorter in duration, often lasting 5 to 30 minutes, and more frequently bilateral compared to the predominantly unilateral occurrences in adults.^[24] Adults, by contrast, experience longer-lasting auras averaging 20 to 60 minutes, with symptoms that may recur more predictably over time.^[9] Scintillating scotoma episodes can cause temporary visual impairment, leading to brief disability in daily activities such as reading, driving, or operating machinery during the event.^[19] Recurrent experiences often induce anxiety due to the unpredictable nature and fear of progression to more severe symptoms, impacting quality of life in chronic sufferers.^[9]

Pathophysiology

Underlying Mechanisms

The primary underlying mechanism of scintillating scotoma is cortical spreading depression (CSD), a self-propagating wave of neuronal and glial depolarization that sweeps across the cerebral cortex, followed by a prolonged phase of suppressed neural activity. This phenomenon originates in the occipital lobe's visual cortex and disrupts normal visual processing, leading to the characteristic flickering lights and blind spots. CSD is characterized by a breakdown in ionic homeostasis, where neurons and astrocytes undergo near-complete depolarization, resulting in temporary silencing of cortical excitability.^[25] The sequence of CSD begins with an initial trigger, such as heightened neuronal firing, which propagates outward from the visual cortex at a velocity of 2-5 mm/min—a rate that precisely matches the observed expansion of the scintillating scotoma in affected individuals. This slow propagation allows the wave to activate successive regions of the visual association areas, producing the dynamic, marching progression of visual symptoms. The process involves a front of depolarization lasting about 1-2 minutes, succeeded by a depressive phase that can persist for 5-60 minutes, during which neural activity is markedly reduced.^[26]^[27] At the ionic level, CSD is driven by a profound extracellular accumulation of potassium ions (K+), rising from normal levels of ~3 mM to 30-60 mM, coupled with the release of glutamate, the primary excitatory neurotransmitter. This K+ efflux depolarizes adjacent cells via gap junctions and ephaptic transmission, while glutamate activates NMDA and AMPA receptors, amplifying the wave through calcium influx and further ion dysregulation. The resulting neuronal swelling and metabolic demand contribute to the temporary silencing, as cells enter a recovery phase to restore ion gradients via ATP-dependent pumps.^[28]^[29] Supporting evidence derives from animal models, where CSD is induced via KCl application or electrical stimulation in rodents and rabbits, revealing direct correlations between the wave's path and transient visual evoked potential disruptions. In humans, functional MRI studies demonstrate BOLD signal changes propagating at CSD-like speeds during migraine auras, while EEG recordings capture high-amplitude slow waves and suppression consistent with the phenomenon. These findings, including intracranial EEG in epilepsy patients experiencing auras, confirm CSD's role in generating scintillating scotoma symptoms.^[7]^[30]^[31]

Neurological and Vascular Basis

Scintillating scotoma primarily originates in the occipital lobe, particularly within the visual cortex encompassing Brodmann areas 17 through 19. Area 17, the primary visual cortex, processes basic visual information along the calcarine sulcus, while areas 18 and 19 handle higher-order visual integration.^[32] The retinotopic organization of these regions—where adjacent neurons respond to adjacent parts of the visual field—accounts for the characteristic spatial progression and field-specific patterns observed in scintillating scotoma, such as the expansion of zigzag lines or shimmering borders that mirror the cortical representation of the visual field.^[33] This anatomical mapping ensures that disruptions in these areas produce predictable, localized visual disturbances rather than diffuse effects.^[34] Vascular changes play a supportive role in the phenomenon, involving transient oligemia—a temporary reduction in regional cerebral blood flow—that follows the initial neuronal excitation but does not constitute primary ischemia. This oligemia spreads posteriorly from the site of onset, correlating with the duration and progression of the visual symptoms, and is typically reversible without tissue damage.^[35] Unlike ischemic events, the reduced perfusion here is a secondary consequence of neuronal activity changes, preserving overall brain viability.^[36] In familial cases, genetic mutations contribute to heightened susceptibility, particularly those in the CACNA1A gene (familial hemiplegic migraine type 1) and ATP1A2 gene (type 2), which encode ion channel proteins involved in neuronal excitability. These mutations lower the threshold for initiating neuronal waves, facilitating the conditions that lead to visual auras like scintillating scotoma.^[37] Such genetic factors are identified in a subset of familial hemiplegic migraine pedigrees, where visual symptoms often accompany motor and sensory auras.^[38] Additional contributors include serotonin dysregulation, characterized by fluctuating levels that influence vascular tone and neuronal sensitivity during the aura phase, and trigeminovascular activation, which bridges the visual disturbance to the subsequent headache by sensitizing pain pathways in the meninges and brainstem.^[39] Low interictal serotonin may predispose to these events, while activation of trigeminal afferents propagates nociceptive signals, linking the aura to the pain phase.^[40] Cortical spreading depression serves as the primary trigger for these neurological and vascular elements.^[33]

Diagnosis

Diagnostic Approach

The diagnostic approach to scintillating scotoma begins with a detailed history taking, where the clinician elicits the patient's description of the visual disturbance, including characteristic patterns such as a slowly expanding blind spot bordered by shimmering or zigzag lights (fortification spectra).^[41] Key elements include the gradual onset and progression over 5 to 60 minutes, unilateral involvement, positive visual phenomena like flickering lights, potential association with headache, and any identifiable triggers such as stress or hormonal changes, alongside a personal or family history of migraine.^[42] This aligns with the International Classification of Headache Disorders (ICHD-3) criteria for migraine with aura, requiring at least two attacks with fully reversible visual symptoms that spread gradually and last 5-60 minutes, often followed by headache.^[41] A comprehensive physical examination follows, focusing on neurological and ophthalmological assessments to confirm the transient nature of the scotoma and exclude persistent deficits. Visual field testing, such as confrontation visual field testing or automated perimetry (e.g., Humphrey visual field analyzer), is employed to map the scotoma's location, extent, and resolution, typically revealing a homonymous hemianopic or quadrantanopic defect that migrates across the visual field.^[43] The remainder of the neurological exam, including fundoscopy and assessment for focal deficits, is generally normal in primary cases, supporting a benign migrainous etiology.^[42] To exclude emergencies such as stroke or seizure, the clinician evaluates the rapidity of onset and accompanying features; scintillating scotoma typically develops gradually over minutes, without acute focal neurological signs like weakness or altered consciousness, distinguishing it from vascular events that present abruptly.^[44] Red flags prompting urgent evaluation include sudden maximal-intensity symptoms, persistent visual loss beyond 60 minutes, or associated systemic signs like fever or neck stiffness.^[45] Patients should seek medical care for a first episode of scintillating scotoma, particularly if occurring after age 50, or for recurrent episodes interfering with daily activities, as early evaluation facilitates accurate diagnosis and management of underlying migraine.^[46] In older adults, prompt assessment is crucial due to higher risk of secondary causes mimicking aura.^[44]

Differential Diagnosis

Scintillating scotoma is most commonly associated with the visual aura of migraine, where it manifests as a gradually expanding, shimmering blind spot often followed by headache. However, this symptom can mimic or be mimicked by several other conditions, necessitating careful differentiation to rule out serious underlying pathology. The primary differentials include occipital epilepsy, transient ischemic attack (TIA), and various ocular or systemic disorders.^[9] Occipital epilepsy presents with seizure-like visual phenomena, including scintillating scotomas that onset abruptly and may include elemental hallucinations or ictal nystagmus, often without the stereotypical migrainous progression or postictal headache. Distinction typically requires electroencephalography (EEG) to detect epileptiform activity, particularly if symptoms recur frequently or are accompanied by altered consciousness.^[47]^[48] Transient ischemic attack (TIA), particularly in the posterior circulation, can produce sudden, transient visual field defects resembling scotomas, but these are usually monocular or hemianopic without the characteristic scintillating border and are linked to vascular risk factors such as hypertension or atrial fibrillation. In contrast to the slow march of migraine aura (typically 5-20 minutes), TIA symptoms peak immediately and resolve within minutes to an hour; neuroimaging with MRI or CT is essential to exclude infarction.^[9]^[8] Other potential mimics encompass retinal detachment, which causes persistent, non-scintillating vision loss often with floaters or a curtain-like defect, requiring urgent ophthalmologic evaluation via fundoscopy or ultrasound. Glaucoma may lead to pressure-induced scotomas, but these are typically arcuate or nasal and lack the dynamic, flickering quality, diagnosed through tonometry and visual field testing. Drug-induced visual disturbances, such as those from hallucinogens like LSD or even certain prescription medications, can produce transient scintillating effects but are distinguished by a clear history of exposure and resolution upon discontinuation.^[19]^[2] Red flags warranting immediate investigation include symptoms persisting beyond 1 hour, bilateral involvement, or associated focal neurological deficits such as weakness or speech impairment, which raise concern for stroke or other cerebrovascular events and prompt emergent imaging.^[9]

Management

Treatment Options

For acute episodes of scintillating scotoma, particularly when associated with migraine aura, patients are often advised to rest in a dark, quiet room to alleviate visual disturbances and prevent exacerbation by light or noise.^[9] If a headache follows the aura, abortive medications such as triptans (e.g., sumatriptan) can be administered at the onset of symptoms to interrupt the migraine progression, with evidence showing efficacy in reducing attack severity when taken early.^[9]^[1] Symptomatic relief for accompanying nausea includes antiemetics like metoclopramide or prochlorperazine, which not only control vomiting but may also enhance the absorption of other acute treatments.^[49]^[50] During an episode, avoiding potential triggers such as caffeine is recommended to minimize symptom intensification, aligning with broader migraine management strategies.^[51] In cases of persistent or recurrent scintillating scotoma, prophylactic therapies aim to reduce episode frequency. Beta-blockers such as propranolol have demonstrated significant reductions in migraine attacks, including those with visual auras, in randomized trials.^[52] Anticonvulsants like topiramate are also effective for prevention, showing comparable benefits to propranolol in decreasing headache frequency, intensity, and duration.^[52]^[53] Non-pharmacological approaches provide additional options for symptom control. Biofeedback training has been shown to decrease migraine frequency by 45-60% in clinical reviews, helping patients manage stress-related triggers that may precipitate auras.^[54]^[55]^[56] Acupuncture offers relief for chronic migraine symptoms, with studies indicating reduced attack frequency and pain scores similar to prophylactic drugs.^[57]^[58]

Prevention Strategies

Lifestyle modifications play a key role in reducing the frequency and severity of scintillating scotoma episodes, which are often linked to migraine triggers. Maintaining a regular sleep schedule of 7-9 hours per night helps stabilize circadian rhythms and minimize aura occurrences, as irregular sleep patterns can provoke migraines. Similarly, consistent meal timing to avoid skipping meals or fasting prevents blood sugar fluctuations that may trigger visual auras. Stress management techniques, such as practicing yoga for 45-60 minutes several times a week, have been shown to decrease migraine frequency by up to 50% in some patients through improved relaxation and reduced sympathetic nervous system activity.^[46]^[59]^[60] Dietary adjustments can further mitigate risks by targeting known migraine precipitants. Some individuals may benefit from limiting intake of tyramine-rich foods, such as aged cheeses, red wine, and cured meats, although evidence linking tyramine to migraine triggers is inconsistent. For some patients, magnesium supplementation at 400-600 mg per day of magnesium citrate or oxide has demonstrated efficacy in reducing migraine attacks, including those with visual auras, by supporting neuronal stability and countering deficiency-related excitability. These changes should be personalized, with monitoring for gastrointestinal side effects from supplements.^[61]^[62]^[63] For individuals experiencing more than four episodes per month, pharmacological prophylaxis is advised per clinical guidelines. Per the American Headache Society's 2024 position statement, calcitonin gene-related peptide (CGRP) inhibitors are recommended as a first-line option for migraine prevention. Valproate, at doses of 500-1000 mg daily, is effective for preventing frequent migraine auras by modulating neuronal excitability, though it requires monitoring for hepatic and teratogenic risks. Calcitonin gene-related peptide (CGRP) inhibitors, such as erenumab administered subcutaneously at 70-140 mg monthly, represent a targeted option that reduces aura frequency by blocking CGRP-mediated vasodilation, with evidence from randomized trials showing a 50% reduction in monthly migraine days. These therapies should be initiated under specialist guidance, considering comorbidities and contraindications like pregnancy for valproate.^[64]^[65]^[66]^[67] Ongoing monitoring enhances prevention efforts by identifying personal patterns. Keeping a headache diary to log episode timing, triggers, diet, and sleep can reveal correlations, such as stress or specific foods, allowing tailored adjustments that decrease recurrence rates. For those with familial migraine history, genetic counseling is beneficial to assess hereditary risks, particularly for subtypes like familial hemiplegic migraine involving auras, and to discuss implications for family planning.^[68]^[69]^[70]

Prognosis and History

Prognosis and Outcomes

Scintillating scotoma is typically a benign and self-limiting condition, particularly when it occurs as a visual aura in migraine, with episodes resolving spontaneously without permanent visual deficits or other sequelae in the overwhelming majority of cases. Most attacks last 5 to 60 minutes, after which vision fully recovers, and no specific intervention is required for resolution.^[71]^[2] The overall prognosis is favorable, with a high likelihood of remission or reduced frequency over time; for instance, in patients with migraine with aura, attacks ceased entirely in approximately 41% of those experiencing isolated visual auras compared to 25% with additional aura symptoms. Factors influencing outcomes include the presence of underlying chronic migraine, which may lead to more persistent episodes, whereas isolated auras tend to have a better course with lower recurrence rates. Rare cases of progression to permanent vision loss can occur if an associated neurological condition is present, but this is exceptional in otherwise healthy individuals.^[72]^[73] Long-term implications are generally positive, as the frequency of episodes often decreases with age, aligning with the natural remission of migraine auras in many adults. In elderly patients, however, ongoing monitoring is advisable to rule out evolving conditions such as cerebrovascular disease that could mimic or complicate the presentation. Regarding quality of life, the episodic nature of scintillating scotoma permits normal daily functioning between attacks, though the unpredictability and fear of recurrence can induce anxiety and temporarily impair activities like driving. Patients with frequent auras report modestly reduced vision-specific quality of life scores compared to controls.^[72]^[74]^[71]

Historical Context and Etymology

The term "scintillating scotoma" derives from the Latin scintillare, meaning "to sparkle" or "to emit sparks," referring to the shimmering or flickering visual disturbance, and the Greek skotoma, from skotos meaning "darkness," denoting a blind spot or area of impaired vision.^[75]^[76] The full phrase emerged in the 19th century to describe a specific type of visual aura associated with migraine, building on earlier medical observations of transient visual phenomena. Descriptions of visual auras resembling scintillating scotoma appear in ancient texts, with Hippocrates around 400 BCE noting a patient who perceived "something shining before him like a light, usually in part of the right eye," followed by severe headache and vomiting.^[77] The phenomenon was first systematically documented and visualized in modern terms by British physician Hubert Airy in 1870, who illustrated his own recurrent migraines as "fortification spectra"—zigzag, fortified patterns expanding across the visual field—marking a pivotal shift toward empirical depiction of the aura.^[78] Prior to the 20th century, such episodes were often broadly termed "sick headache" or "megrim," encompassing unilateral pain with prodromal visual symptoms, as detailed in Edward Liveing's 1873 treatise On Megrim, Sick-Headache, and Some Allied Disorders.^[79] Understanding evolved in the mid-20th century through Karl Lashley's 1941 self-study, which mapped the slow progression of his scotoma across the visual cortex, suggesting a spreading cortical disturbance at about 3 mm per minute.^[80] This laid groundwork for Aristides Leão's 1944 discovery of cortical spreading depression (CSD), a wave of neuronal depolarization followed by suppression, initially observed in rabbit cortex during epilepsy research.^[81] Confirmation of CSD's role in human migraine came in the 1980s via regional cerebral blood flow studies, where Jes Olesen and Martin Lauritzen demonstrated a slowly propagating wave of oligemia (reduced blood flow) matching aura symptoms in patients.^[35] Key milestones include the 2018 third edition of the International Classification of Headache Disorders (ICHD-3), which refined migraine aura subtypes, including typical visual auras like scintillating scotoma, under code 1.2 Migraine with aura.^[41] In the 2020s, genome-wide association studies have identified genetic variants specific to migraine with aura, such as those in HMOX2, MPPED2, and CACNA1A, highlighting hereditary factors in susceptibility.^[82]

References

[1]
Scotoma (Blind Spot in Vision): Types, Causes & Treatment
It's a disruption of electrical signals. This kind of scotoma often happens if you have a migraine with aura. Scintillating scotomas often don't last long.
[2]
Scintillating Scotoma: Causes, Treatment, Risk Factors - Healthline
Nov 12, 2020 · A scintillating scotoma may affect one or both of your eyes. It's a blind spot that flickers and wavers between light and dark. They're typically not permanent.
[3]
https://www.ncbi.nlm.nih.gov/medgen/66716
[4]
Migraine Headache - StatPearls - NCBI Bookshelf
Jul 5, 2024 · The most common positive visual symptom is scintillating scotoma (an area of absent vision with a shimmering or glittering zigzag border).
[5]
Migraine Visual Aura and Cortical Spreading Depression—Linking ...
... scintillating scotoma [8,9] and are not considered in the current review. Figure 1. Figure 1 · Open in a new tab. Time course of the stages of migraine. The ...
[6]
Differential Diagnosis of Visual Phenomena Associated with Migraine
Jan 9, 2023 · Scintillating scotomas are typically in one hemifield with visual field defects beginning around fixation and spreading outward [14]. Although ...
[7]
Migraine With Aura - StatPearls - NCBI Bookshelf
Feb 29, 2024 · ... scintillating scotoma. This visual disturbance then expands to involve a quadrant or hemifield of vision. Upon resolution, the central ...
[8]
Retinal Migraine Headache - StatPearls - NCBI Bookshelf - NIH
Ocular or retinal migraines are generally defined as a transient monocular scotoma or loss of vision that is accompanied or followed by a headache within 60 ...
[9]
The Clinical Features of Migraine With and Without Aura
Apr 30, 2014 · According to the ICHD,3rd edition criteria, migraine aura is considered to be of typical duration when lasting between five and sixty minutes.Missing: definition | Show results with:definition
[10]
Migraine Variants: Overview, Pathophysiology, Epidemiology
Sep 14, 2025 · About 80% of migraineurs have migraine without aura, whereas migraine with typical aura accounts for 15–20% of cases. Isolated migraine aura ...
[11]
Giving Researchers a Headache – Sex and Gender Differences in ...
According to the 2017 data, the migraine point prevalence peaks for both sexes between ages 35–39 reaching 34.5% (95% UI 29.9–39.3) and 20.3% (95% UI 17.5–27.2) ...
[12]
Genetics of migraine aura: an update
Jun 5, 2020 · Epidemiological studies have shown that migraine runs in families and that migraine concordance rates are 1.5- to 2-fold higher in monozygotic ...
[13]
Genetics and migraine
It is estimated that up to 60% of the reason people get migraine is because of their genes. These genes make people more sensitive to changes in their ...
[14]
Migraine: A Review on Its History, Global Epidemiology, Risk ...
Epidemiological research has found that genetic factors play a substantial role in the development of both migraine with aura and migraine without aura (65, 66) ...
[15]
Genetics, pathophysiology, diagnosis, treatment, management, and ...
Most of the triggering factors associated with migraine are associated with metabolic derangements. Fasting; changes in sleep pattern; changes in ovarian ...
[16]
Migraine and other headache disorders
Oct 24, 2025 · Prevalence. Globally, headache disorders affect approximately 40% of the population, or 3.1 billion people in 2021, and are more common in ...
[17]
Variation in migraine prevalence by race - Neurology.org
In contrast, the prevalence of migraine with aura was higher in African American men compared with Caucasian men (PR = 1.18), although the difference was not ...Methods · Results · Headache Features And...
[18]
Scintillating Scotoma: Causes, Duration & Treatment
and the ...Missing: teichopsia | Show results with:teichopsia
[19]
Migraine Aura—Catch Me If You Can with EEG and MRI—A ...
Sep 2, 2023 · During the migraine aura, the patient experiences transient neurological deficits, such as visual, sensory, speech, motor, brainstem, or retinal ...Missing: exercise- | Show results with:exercise-
[20]
Persistent negative visual aura in migraine without headache
Feb 19, 2014 · Common descriptions of visual aura consist of various positive or negative phenomena including bright spots, flashes of light or scintillating ...
[21]
Exercise-induced transient visual events in young healthy adults
Six patients with a variety of exercise-induced transient visual events are described. Each patient was in excellent health and most exercised regularly.
[22]
Visual Disturbances Spectrum in Pediatric Migraine - PMC
Apr 8, 2023 · In adults, symptoms are generally unilateral, while in pediatric age are bilateral in more than 50% of cases, with a duration of visual aura ...
[23]
Role of cortical spreading depression in the pathophysiology of ...
Migraine aura is thought to be a result of the neurovascular phenomenon of cortical spreading depression (SD), a self-propagating wave of depolarization that ...
[24]
Clinical relevance of cortical spreading depression in neurological ...
Cortical spreading depression (CSD) is a depolarization wave in cerebral gray matter that propagates across the brain at slow velocity, 2 to 5 mm/min (Leao, ...
[25]
Cortical Spreading Depression - an overview | ScienceDirect Topics
Cortical spreading depression (CSD) is a spreading wave of neuronal and glial depolarization that is thought to correlate with the aura preceding migraine ...
[26]
Dynamics of Ionic Shifts in Cortical Spreading Depression
Apr 2, 2015 · Cortical spreading depression is characterized by neuronal swelling, profound elevation of extracellular potassium and glutamate, multiphasic ...<|control11|><|separator|>
[27]
Cortical spreading depression—new insights and persistent questions
For example, the firing of action potentials and associated synaptic transmitter release may initiate CSD by increasing extracellular K+ and glutamate.
[28]
Mechanisms of migraine aura revealed by functional MRI in human ...
Cortical spreading depression (CSD) has been suggested to underlie migraine visual aura. However, it has been challenging to test this hypothesis in human ...
[29]
Intracranial recording of cortical spreading depression in migraine ...
Mar 8, 2025 · Intracranial stereotactic electroencephalographic recording demonstrated cortical spreading depression during migraine with aura.
[30]
Neuroanatomy, Occipital Lobe - StatPearls - NCBI Bookshelf - NIH
The occipital lobe is the visual processing area of the brain. ... Brodmann area 17, surrounds the calcarine sulcus on the occipital lobe's medial aspect.Missing: scintillating scotoma
[31]
Mechanisms of migraine aura revealed by functional MRI in human ...
These data strongly suggest that an electrophysiological event such as CSD generates the aura in human visual cortex.
[32]
Visual Aura | The Migraine Brain: Imaging Structure and Function
Visual Cortex: Retinotopic Organization. Neurons in the visual cortex are organized spatially to reflect the visual space, in an orderly arrangement. The ...
[33]
History of migraine with aura and cortical spreading depression from ...
Despite these scattered pieces of evidence, the prevailing theory was that the migraine aura was caused by a vasospasm and cortical ischaemia.
[34]
Cortical spreading depression as a target for anti-migraine agents
Jul 23, 2013 · CSD has been shown to be a common therapeutic target for currently prescribed migraine prophylactic drugs.
[35]
Unravelling the Genetic Landscape of Hemiplegic Migraine
To date, three genes, CACNA1A, ATP1A2, and SCN1A, have been established to have a causal relationship with FHM. These three genes are responsible for encoding ...
[36]
Hemiplegic Migraine - Symptoms, Causes, Treatment | NORD
Jul 24, 2023 · Variants in the CACNA1A gene cause familial hemiplegic migraine type 1. Variants in the ATP1A2 gene cause familial hemiplegic migraine type 2.
[37]
Serotonin and migraine: a reconsideration of the central theory
Jul 31, 2008 · Generally, it was stated that migraine patients have low platelet 5-HT, a sign of hyposerotonergic status of migraine. However, the vast ...
[38]
Migraine and the trigeminovascular system—40 years and counting
The aura is characterised by a propagating wave of cellular excitability that is followed by a long period of hyperpolarisation and a consequent headache that ...Missing: dysregulation | Show results with:dysregulation
[39]
1.2 Migraine with aura - ICHD-3
May 10, 2018 · Diagnostic criteria: · at least one aura symptom spreads gradually over ≥5 minutes · two or more aura symptoms occur in succession · each ...1.2.1 Migraine with typical aura1.2.1.2 Typical aura without ...1.2.2 Migraine with brainstem ...1.2.3 Hemiplegic migraine1.2.1.1 Typical aura with ...
[40]
Migraine with aura - Diagnosis & treatment - Mayo Clinic
Your healthcare professional might diagnose migraine with aura based on your symptoms, your medical and family history, and a physical exam.
[41]
Humphrey Visual Field - StatPearls - NCBI Bookshelf - NIH
Jan 20, 2025 · Perimetry is a critical diagnostic tool for detecting and evaluating visual field defects, playing a key role in diagnosing and monitoring ...
[42]
Red and orange flags for secondary headaches in clinical practice
Positional headache is a red flag as it is a common symptom of intracranial hypotension. The symptoms of intracranial hypotension can be masked by other ...
[43]
Red flags in headache care - PMC - NIH
Feb 4, 2022 · Definition: In patients with an undetermined headache, a sign or symptom is a Red Flag if a secondary headache is more likely in its presence ...
[44]
Migraine with aura - Symptoms & causes - Mayo Clinic
Migraine with aura, once called classic migraine, is a recurring headache that strikes after or at the same time as nervous system symptoms called aura.Overview · Symptoms · CausesMissing: scintillating | Show results with:scintillating
[45]
Ophthalmologic Manifestations of Epilepsy - EyeWiki
Epilepsy is a condition characterized by recurrent, unprovoked seizures, which are episodes of abnormally hypersynchronous brain activity.
[46]
Visual Aura and Scotomas: What Do They Indicate?
Sep 15, 2015 · A visual aura is a transient or longstanding visual perceptual disturbance experienced with migraine or seizure that may originate from the retina or the ...
[47]
Acute Migraine Headache: Treatment Strategies - AAFP
Feb 15, 2018 · Nausea is a common and significant adverse effect, and metoclopramide (Reglan) is often administered first. Because of its vasoconstrictive ...Abstract · General Treatment Principles · First-Line Therapies · Refractory Migraine
[48]
Optimal management of severe nausea and vomiting in migraine
In fact, patients who have a high frequency of nausea and vomiting during their migraines should combine an oral antiemetic (such as 10 mg of metoclopramide or ...Management Of Nausea And... · Nsaids · Triptans
[49]
Migraine: What It Is, Types, Causes, Symptoms & Treatments
Researchers aren't sure of the exact cause of migraines, but studies show genetics play a role. When you have a headache, specific nerves in your blood vessels ...
[50]
A double-blind, randomized trial of low-dose topiramate vs ...
This study demonstrated that both low-dose topiramate and propranolol could significantly reduce migraine headache frequency, intensity, and duration.
[51]
Prophylaxis of Childhood Migraine: Topiramate Versus Propranolol
A 50-100 mg dosage of Topiramate is of great effect in migraine prevention. However, 14% of the Topiramate-treated group stopped receiving medicine due to its ...Missing: scintillating scotoma
[52]
Could biofeedback help your migraines? - Harvard Health
May 27, 2025 · A nondrug therapy called biofeedback could play a role. This treatment has been shown to help prevent the debilitating headache pain of a migraine.
[53]
Efficacy of biofeedback for migraine: a meta-analysis. Pain 128(1-2)
Aug 6, 2025 · A meta-analysis of 12 studies on acupuncture showed a 25−30% reduction in migraine frequency per month, [9] which was similar to the beneficial ...
[54]
Acupuncture and Its Role in the Treatment of Migraine Headaches
Oct 1, 2020 · One of the most common applications of acupuncture is to treat chronic pain, especially headache and migraine pain.
[55]
Migraine headaches Information | Mount Sinai - New York
In some cases, acupuncture may assist with prevention of migraine attacks. Treatment uses medications that provide quick pain relief when attacks occur. These ...
[56]
Role of Yoga as Adjunctive Therapy for Migraines - PubMed Central
Nov 7, 2023 · The current data suggest that yoga can be beneficial in helping patients suffering from migraine headaches by reducing their frequency, duration, and pain.
[57]
Preventive Effects of a Three-month Yoga Intervention on ... - NIH
This study provides preliminary evidence that integrated yoga therapy can be an effective treatment for migraine and also improve vascular function.
[58]
Biochemistry, Tyramine - StatPearls - NCBI Bookshelf - NIH
Oct 10, 2022 · [14] Although not completely understood, tyramine-containing foods are known triggers for patients with migraines.
[59]
Magnesium - Health Professional Fact Sheet
Jun 2, 2022 · Three of four small, short-term, placebo-controlled trials found modest reductions in the frequency of migraines in patients given up to 600 mg ...
[60]
Magnesium in Migraine Prophylaxis-Is There an Evidence-Based ...
Prophylactic treatment of migraine by means of high levels of magnesium dicitrate (600 mg) seems to be a safe and cost efficient strategy in clinical use.
[61]
Pharmacologic Treatment for Episodic Migraine Prevention in Adults
The objective of this guideline is to provide updated evidence-based recommendations for the preventive treatment of migraine headache.
[62]
Clinical Practice Guidelines | American Headache Society
View AHS-endorsed headache and migraine treatment guidelines to support clinical decision-making and improve patient care outcomes.
[63]
New ACP Guideline on Migraine Prevention, Shows No Clinically ...
Feb 4, 2025 · “This guideline assessed the comparative effectiveness of medications to help clinicians select which medications to use for prevention of ...
[64]
Migraine - Diagnosis and treatment - Mayo Clinic
Jul 8, 2025 · Keep a headache diary. Recording your symptoms in a headache diary can help you learn more about what triggers your migraines and what ...
[65]
Familial Hemiplegic Migraine - GeneReviews® - NCBI Bookshelf
Jul 17, 2001 · Approximately 40%-50% of families with CACNA1A-FHM have cerebellar signs ranging from nystagmus to progressive, usually late-onset mild ataxia.Missing: scintillating | Show results with:scintillating
[66]
Familial hemiplegic migraine: MedlinePlus Genetics
Jan 1, 2014 · Familial hemiplegic migraine is a form of migraine headache that runs in families. Migraines usually cause intense, throbbing pain in one area of the head.
[67]
Neuro-ophthalmology and migraine: visual aura and its neural basis
Aug 11, 2025 · Scintillating scotoma, A blind patch or partial loss of vision accompanied by flashes, flickers, or shimmering lights (often appearing as zigzag ...Types Of Migraine Visual... · Table 3 · Abbreviations<|control11|><|separator|>
[68]
Prognosis of migraine with aura - PubMed
Attacks had ceased in 55% of males and 31% of females (P = 0.17). Attacks had ceased in 41% of patients with visual aura without other aura symptoms and in 25% ...
[69]
The visual aura rating scale as an outcome predictor for persistent ...
In conclusion, the prognosis of persistent VD was poor, and higher VARS scores, i.e. more typical of migraine visual aura, predicted a better outcome.
[70]
Significance of scintillating scotoma of late onset - ScienceDirect
Scintillating hemianopic scotomas are usually caused either by migraine or, more rarely, vertebral-basilar insufficiency. We report two patients in whom ...Missing: precedes | Show results with:precedes<|control11|><|separator|>
[71]
Scintillate - Etymology, Origin & Meaning
Originating in the 1620s from Latin scintillatus, meaning "to sparkle," the word means to sparkle, twinkle, or gleam like fixed stars.
[72]
scotoma - Wiktionary, the free dictionary
From Late Latin scotoma, from Ancient Greek σκότωμα (skótōma), from σκότος (skótos, “darkness”).
[73]
From “Transient Hemiopsia” to Migraine Aura - PMC - PubMed Central
Nov 5, 2021 · Steadily, inexorably, “Airy's hemiopsia” became “teichopsia”, and then just “aura”. ... Scintillating Scotoma. Migraine, Aura, and Perception in ...2. Models And Metaphor · Figure 1 · Figure 4Missing: definition | Show results with:definition
[74]
Visualizing Migraines: The Attempts of Hubert Airy and Others to ...
May 17, 2021 · Fothergill was detailing, with the architectural language of fortification, what has been subsequently named scintillating scotomata: serrated ...
[75]
The History of Headaches and Migraines: Treatments Through Time
Ancient Greek & Roman scholars. Hippocrates – in 400 BC – was the first to describe visual symptoms of migraine. He described a shining light, usually in the ...
[76]
https://www.neurosci.cn/content/archives/2014/volume30issue52014/reviews/202101/P020250716626009943534.pdf
[77]
Leao's cortical spreading depression: from experimental "artifact" to ...
Cortical spreading depression was described in 1943 by Aristides Leão, a Brazilian neurophysiologist. Initially considered to be a mysterious event as it ...
[78]
Researchers Discover New Genetic Variants for Migraine
May 4, 2022 · The GWAS identified three genetic variants specific to migraine with aura, including variants in genes called HMOX2, MPPED2, and CACNA1A.