Amy A. Gelfand

Ophthalmoplegic ''Migraine'' or Recurrent Ophthalmoplegic Cranial Neuropathy: New Cases and a Systematic Review

Ophthalmoplegic migraine is a poorly understood neurologic syndrome characterized by recurrent bouts of head pain and ophthalmoplegia. By reviewing cases presenting to our centers in whom the phenotype has been carefully dissected, and systematically reviewing all published cases of ophthalmoplegic migraine in the magnetic resonance imaging (MRI) era, this review sets out to clearly define the syndrome and discuss possible etiologies. We found that in up to one-third of patients, the headache was not migrainous or associated with migrainous symptoms. In three-quarters of the cases involving the third nerve, there was focal nerve thickening and contrast enhancement on MRI. Observational data suggest systemic corticosteroids may be beneficial acutely. The etiology remains unclear, but may involve recurrent bouts of demyelination of the oculomotor nerve. “Ophthalmoplegic migraine” is a misnomer in that it is probably not a variant of migraine but rather a recurrent cranial neuralgia. A more appropriate name might be “ophthalmoplegic cranial neuropathy.”

Cranial autonomic symptoms in pediatric migraine are the rule, not the exception

Objective: The presence of cranial autonomic symptoms often leads to a misdiagnosis of “sinus headache” in adult migraineurs, leading to unnecessary treatments and delaying appropriate migraine therapy. In this study, we examined the frequency of cranial autonomic symptoms in pediatric/adolescent patients with migraine. Methods: This cross-sectional study included all pediatric and adolescent patients with migraine evaluated by a single investigator at 4 different sites over the course of the study period. Results: Of 125 pediatric migraineurs, 62% had at least one cranial autonomic symptom based on current International Classification of Headache Disorders, second edition (ICHD-II) criteria, and 70% based on proposed ICHD-III criteria. The majority had more than one cranial autonomic symptom and the symptoms tended to be bilateral. Age, sex, laterality of headache, presence of aura, and whether migraine was episodic vs chronic did not influence the likelihood of having cranial autonomic symptoms. Conclusions: In pediatric/adolescent migraine, the presence of cranial autonomic symptoms appears to be the rule rather than the exception. Clinicians should be careful to consider migraine when evaluating a child with headache and associated ocular or nasal symptoms so as to avoid giving a misdiagnosis of sinus headache.

Migraine and childhood periodic syndromes in children and adolescents.

PURPOSE OF REVIEW This review covers recent advances in our understanding of migraine and childhood periodic syndromes in children and adolescents, as well as the treatment of these disorders. RECENT FINDINGS The childhood periodic syndromes include benign paroxysmal torticollis, benign paroxysmal vertigo, abdominal migraine, and cyclic vomiting syndrome. Recent research suggests infant colic may also fit into this category. Migraine headache is common in children and adolescents, and chronic migraine effects 0.8-1.8% of adolescents and 0.6% of children. Two triptans are now FDA-approved for the acute treatment of migraine in pediatric patients. For preventive therapy, a number of medications have been studied and a major national trial is ongoing. SUMMARY Childhood periodic syndromes are thought to be early life expressions of those genes that later in life are expressed as migraine headache. Future research into mechanisms of identifying children with these disorders prior to extensive and often invasive testing would be of benefit to these families and children. Migraine-specific therapies are now approved for the acute treatment of migraine in pediatric patients. Preventive migraine therapy is indicated in appropriate patients, although which medications are most effective in children is an area of active research.

A Neurologist’s Guide to Acute Migraine Therapy in the Emergency Room

Migraine is a common reason for visits to the emergency room. Attacks that lead patients to come to the emergency room are often more severe, refractory to home rescue medication, and have been going on for longer. All of these features make these attacks more challenging to treat. The purpose of this article is to review available evidence pertinent to the treatment of acute migraine in adults in the emergency department setting in order to provide neurologists with a rational approach to management. Drug classes and agents reviewed include opioids, dopamine receptor antagonists, triptans, nonsteroidal anti-inflammatory drugs, corticosteroids, and sodium valproate.

Candidate Genes and Risk for CP: A Population-Based Study

Studies suggest that genetic polymorphisms may increase an individuals susceptibility to CP. Most findings have yet to be corroborated in an independent cohort. This case-control study is nested within all 334,333 infants ≥36 wk gestation born at Kaiser Permanente Medical Care Program, 1991–2002. We included only non-Hispanic whites who had a neonatal blood sample available. Case patients (n = 138) were identified from medical records to have spastic or dyskinetic CP. Controls (n = 165) were randomly selected from the population. We genotyped polymorphisms previously associated with CP: inducible NOS (iNOS)-231, apolipoprotein E (apoE) ε2 and ε4 alleles, TNF-α-308, IL-8 −251, lymphotoxin 60, endothelial NOS −922, endothelial protein C receptor 219, mannose-binding lectin 54 and 52, factor V Leiden, methyltetrahydrofolate reductase 1298 and 667, prothrombin 20210, and platelet activator inhibitor 11053. Similar to previous reports, the iNOS-231 T allele (25.7 versus 18.9%, p = 0.04) and the apoE ε4 allele (19.3 versus 13.2%, p = 0.04) were more common in patients with CP than in controls. However, there was no statistically significant association between any genetic polymorphism and CP after correction for multiple comparisons.

Genetic risk factors for perinatal arterial ischemic stroke.

The cause of perinatal arterial ischemic stroke is unknown in most cases. We explored whether genetic polymorphisms modify the risk of perinatal arterial ischemic stroke. In a population-based case-control study of 1997-2002 births at Kaiser Permanente Northern California, we identified 13 white infants with perinatal arterial ischemic stroke. Control subjects included 86 randomly selected white infants. We genotyped polymorphisms in nine genes involved in inflammation, thrombosis, or lipid metabolism previously linked with stroke, and compared genotype frequencies in case and control individuals. We tested several polymorphisms: tumor necrosis factor-α -308, interleukin-6, lymphotoxin A, factor V Leiden, methyltetrahydrofolate reductase 1298 and 667, prothrombin 20210, and apolipoprotein E ε2 and ε4 alleles. Patients with perinatal arterial ischemic stroke were more likely than control subjects to demonstrate at least one apolipoprotein E ε4 allele (54% vs 25%, P = 0.03). More patients with perinatal arterial ischemic stroke carried two ε4 alleles than did control subjects (15% vs 2%, P = 0.09), although this finding lacked statistical significance. Proinflammatory and prothrombotic polymorphisms were not associated with perinatal arterial ischemic stroke. The apolipoprotein E polymorphism may confer genetic susceptibility for perinatal arterial ischemic stroke. Larger population-based studies are required to confirm this finding.

Is migraine a risk factor for pediatric stroke

Importance Our understanding of risk factors for childhood stroke is incomplete. In adults, migraine with aura is associated with a two-fold increase in ischemic stroke risk. Objective In this cohort study we examine the association between migraine and stroke among children in Kaiser Permanente Northern California (KPNC). Design, setting, and participants Children ages 2–17 years who were members of KPNC for ≥6 months between 1997 and 2007 were included. Migraine cohort members had one or more of: an ICD-9 code for migraine, migraine listed as a significant health problem, or a prescription for a migraine-specific medication. The comparison group was children with no evidence of headache. Main outcome measures Main outcome measures included stroke incidence rates and incidence rate ratios (IR). Results Among the 1,566,952 children within KPNC during the study period, 88,164 had migraine, and 1,323,142 had no evidence of headache. Eight migraineurs had a stroke (three (38%) hemorrhagic; five (63%) ischemic). Eighty strokes occurred in children without headache (53 (66%) hemorrhagic; 27 (34%) ischemic). The ischemic stroke incidence rate was 0.9/100,000 person-years in migraineurs vs. 0.4/100,000 person-years in those without headache; IR 2.0 (95% CI 0.8–5.2). A post-hoc analysis of adolescents (12–17 years) showed an increased risk of ischemic stroke among those with migraine; IR 3.4 (95% CI 1.2–9.5). The hemorrhagic stroke incidence rate was 0.5/100,000 person-years in migraineurs and 0.9/100,000 person-years in those without headache; IR 0.6 (95% CI 0.2–2.0). Conclusions There was no statistically significant increase in hemorrhagic or ischemic stroke risk in pediatric migraineurs in this cohort study. A post-hoc analysis found that ischemic stroke risk was significantly elevated in adolescents with migraine. Future studies should focus on identifying risk factors for ischemic stroke among adolescent migraineurs. Based on adult data, we recommend that migraine aura status should be studied as a possible risk factor for ischemic stroke among adolescent migraineurs.

Treatment of Pediatric Migraine in the Emergency Room

Migraine constitutes a relatively common reason for pediatric emergency room visits. Given the paucity of randomized trials involving pediatric migraineurs in the emergency department setting compared with adults, recommendations for managing these children are largely extrapolated from adult migraine emergency room studies and trials involving outpatient home pediatric migraine therapy. We review current knowledge about pediatric migraineurs presenting at the emergency room and their management, and summarize the best evidence available to guide clinical decision-making.

Acute Treatment Therapies for Pediatric Migraine: A Qualitative Systematic Review.

We sought to conduct a qualitative systematic review to evaluate the safety and efficacy of available treatments for pediatric patients with migraine or benign primary headache in the emergency department, in an effort to inform future practice.

Outcomes of Greater Occipital Nerve Injections in Pediatric Patients With Chronic Primary Headache Disorders

BACKGROUND Chronic migraine is common in pediatrics and generally disabling. In adults, infiltration of the area around the greater occipital nerve can provide short- to medium-term benefit in some patients. This study reports the efficacy of greater occipital nerve infiltrations in pediatric patients with chronic primary headache disorders. METHODS Retrospective chart review of patients <18 years with a chronic primary headache disorder undergoing a first-time injection. Infiltrations were unilateral and consisted of a mixture of methylprednisolone acetate, adjusted for weight, and lidocaine 2%. RESULTS Forty-six patients were treated. Thirty-five (76%) had chronic migraine, 9 (20%) new daily persistent headache (NDPH), and 2 (4%) a chronic trigeminal autonomic cephalalgia. Medication overuse was present in 26%. Ages ranged from 7 to 17 years. Follow-up data were available for 40 (87%). Overall, 53% (21/40) benefitted, and 52% (11/21) benefitted significantly. Benefit onset ranged from 0 to 14 days, mean 4.7 (SD 4.3), with mean benefit duration of 5.4 (SD 4.9) weeks. In chronic migraine, 62% (18/29) benefitted, and 56% (10/18) significantly benefitted. In NDPH, 33% (3/9) benefitted; 33% (n = 1) significantly. Neither child with a chronic trigeminal autonomic cephalalgia benefitted. In logistic regression modeling, medication overuse, age, sex, and sensory change in the distribution of the infiltrated nerve did not predict outcome. There were no serious side effects. CONCLUSIONS Greater occipital nerve injections benefitted 53% of pediatric patients with chronic primary headache disorders. Efficacy appeared greater in chronic migraine than NDPH. Given the benign side effect profile, a greater occipital nerve infiltration seems appropriate before more aggressive approaches.