Nicholas V. Stence

Vaccine strain varicella-zoster virus-induced central nervous system vasculopathy as the presenting feature of DOCK8 deficiency.

To the Editor: n nIn contrast to autosomal dominant forms of hyper-IgE syndrome resulting from mutations in the STAT3 gene, autosomal recessive dedicator of cytokinesis 8 (DOCK8) deficiency, results in susceptibility to cutaneous viral infections, eosinophilia, and allergic disease. CNS manifestations have been reported in patients with DOCK8 deficiency, but progressive multifocal leukoencephalopathy caused by JC virus has been considered the only known viral etiology to date (1, 2). n nA 6 year-old boy with atopy and recurrent peripheral blood eosinophilia developed acute intermittent vomiting, diarrhea, headache, and dizziness. Magnetic resonance imaging (MRI) of the brain was normal. One day later, he began giggling inappropriately, experienced left leg paresthesias, urinary incontinence, and fell upon attempting to stand. Repeat MRI with axial diffusion-weighted images revealed multiple areas of acute infarction in areas supplied by both anterior cerebral arteries, a branch of the anterior cerebral artery, the right posterior cerebral artery, and the left middle cerebral artery (Figure 1A). A complete blood count revealed a total eosinophil count of 2,160/μL, but no other abnormalities. He was treated with acetylsalicylic acid and intravenous methylprednisolone followed by oral prednisolone, 2 mg/kg for 3 days after which prednisolone was maintained at 1 mg/kg daily. n n n nFigure 1 n nManifestation of vaccine strain varicella zoster virus-induced central nervous system vasculopathy n n n nOn presentation to us one month later, he had developed paresthesias of his hands. Neurological examination showed only mild weakness in the hands. Computed tomography angiogram revealed diffuse vasculopathy. Subsequent 3-dimensional time of flight magnetic resonance angiographic imaging of the circle of Willis revealed vascular narrowing and post-stenotic dilatation (Figure 1B). Post-contrast T1W black blood arterial wall imaging illustrated avid enhancement and thickening of the distal supraclinoid internal carotid arterial walls bilaterally (Figure 1C). Cerebral spinal fluid (CSF) was obtained. While awaiting results of testing for viral CNS infections, the patient was treated with acyclovir, 30 mg/kg intravenous daily, and maintained on oral prednisolone, 2 mg/kg/day. n nThe CSF at the time of diagnosis of vasculopathy contained 21 mononuclear cells and no red blood cells; protein was 39 mg/dL and glucose was 72 mg/dL. Quantitative PCR (Focus Diagnostics Reference Laboratory, Cypress, CA) amplified 7,116 copies of VZV DNA/mL in the CSF. To determine the VZV genotype, Forster Resonance Energy Transfer PCR was used to identify specific VZV DNA sequence polymorphisms within VZV open reading frames 38, 54, and 62, which distinguishes vaccine VZV from wild-type virus (Online Supplement Table 1) (3). This confirmed Oka varicella vaccine strain in the CSF. The CSF also contained anti-VZV IgG antibodies, but no antibodies to HSV-1 or HSV-2, enterovirus, cytomegalovirus, or Epstein-Barr virus were detected and the respective PCR analysis were similarly negative. The serum to CSF ratio of anti-VZV IgG antibody was markedly decreased (ratio 2.3) compared to albumin (ratio 149). Two weeks after treatment with acyclovir, the neurologic examination was completely normal, the CSF was acellular, and PCR was negative for VZV DNA. n nThe patient received routine immunizations including VZV vaccination at 12 months of age. He had 3 episodes of vesicular rashes at ages 3, 4, and 5 years, which always occurred after completing a course of oral corticosteroids. The first rash tested positive for HSV. The second rash was identical. The third rash at age 5 years with vesicles on the lower thigh was diagnosed clinically as zoster. All rashes resolved on oral acyclovir. n nPast history included early-onset atopic dermatitis, food allergies often with anaphylaxis, biopsy-confirmed eosinophilic esophagitis, asthma and recurrent upper respiratory tract infections. Peripheral blood eosinophilia peaked at 9,000 eosinophils/μL and serum IgE at 472 IU/mL. During flares of respiratory or skin disease, he was treated with oral corticosteroids intermittently for 3 to 5 days, a few times annually. The frequency of such treatment increased and between ages 5½ and 6, he was treated with oral corticosteroids 1 to 2 times monthly during the prior 6 months. n nConventional comparative genomic hybridization array analysis revealed a large deletion of exons 1 to 13 in a single allele of the DOCK8 gene. PCR analysis of genomic DNA and DOCK8 gene sequencing identified a single base pair mutation on the opposite allele at exon 12, resulting in a frame shift and premature stop codon: c.1266delC, p.Y423TfsX18, based upon reference sequence NM_00193536.1, isoform 3 (Figure 2A). Western Blot analysis confirmed lack of DOCK8 protein expression (Figure 2B). Parental testing demonstrated that the large exon deletion was inherited from the mother while the point mutation was inherited from the father. Immunological findings are summarized in Supplemental Table 2. n n n nFigure 2 n nDOCK8 molecular analyses n n n nThe neurological symptoms and signs, imaging and CSF abnormalities, virological studies, and response to antiviral treatment were all features characteristically seen in VZV vasculopathy (4). Evidence of both focal and diffuse CNS disease was corroborated by widespread infarction produced by stenosis of multiple large cerebral arteries. The CSF examination revealed a pleocytosis as found in two-thirds of patients with VZV vasculopathy and both VZV DNA and anti-VZV IgG antibody with reduced serum/CSF ratios of anti-VZV IgG antibody were detected, indicative of intrathecal synthesis of anti-VZV IgG. Analysis of VZV DNA in CSF revealed that the VZV genotype was vaccine strain, demonstrating, for the first time, that VZV reactivation after vaccination in childhood can result in VZV vasculopathy. n nAlthough the underlying immunological consequences of DOCK8 deficiency remain to be fully elucidated, multiple immune system abnormalities may account for enhanced susceptibility to viral infection including impaired dendritic cell migration affecting T cell priming, lymphopenia, defective CD8 T cell activation and expansion, decreased production of the anti-viral cytokines IFN-γ and TNF-α, impaired T cell survival, decreased NK cell cytotoxicity, and antibody abnormalities (5-9). Germinal center formation and survival of germinal center B cells are impaired in DOCK8 deficiency, leading to defective long-lived antibody production (8). Responses to protein or polysaccharide-conjugated vaccines are often variable while responses to previously encountered viruses such as HSV and VZV have been normal as demonstrated here for VZV antibodies in serum and CSF. n nAs in some other young patients with DOCK8 deficiency, this patient tended toward the milder spectrum of the disease with a relatively limited history of cutaneous infections, absence of severe systemic infections other than chronic mild otitis, and the modestly elevated serum IgE level. Instead, eosinophilia and moderate-severe eczema, asthma, and food sensitivities predominated. To control these conditions, courses of oral corticosteroids were administered with increased frequency over time. Interestingly, each of the 3 episodes of cutaneous viral infections with HSV or VZV was preceded by a course of oral corticosteroids. It is possible corticosteroids alone enabled the activation of vaccine strain VZV infection. More likely, the use of oral corticosteroids to gain disease control reduced the patient’s “immunologic threshold” and together resulted in reactivation of vaccine strain VZV and subsequent vasculopathy. n nIn summary, a young patient with significant atopic disease and widespread infarction produced by stenosis of multiple large cerebral arteries was shown to express novel mutations on both alleles of the DOCK8 gene. For the first time, VZV vasculopathy was shown to be due to the vaccine strain. This case highlights the importance of considering the possibility of DOCK8 deficiency in the context of severe allergic disease and the potential risks for CNS infection including VZV vaccine-related vasculopathy.

Cavernous Sinus Thrombosis in Children: Imaging Characteristics and Clinical Outcomes.

Background and Purpose— Cavernous sinus thrombosis (CST) is a rare life-threatening cerebrovascular disease known to cause carotid artery narrowing (CAN) and arterial ischemic stroke. The imaging features of CST and related complications have been reported in adults, but rarely in children. Methods— We performed a retrospective review of children with imaging confirmed CST from 2003 to 2014, describing presenting symptoms, imaging findings, and treatment. Results— Ten patients with CST were identified. All had CAN and 6 of 10 developed infarcts. Of 8 patients treated with anticoagulation therapy, 3 developed new infarcts. None required discontinuation of anticoagulation therapy because of bleeding. Visual impairment secondary to infectious neuritis was common. Imaging characteristics include cavernous sinus expansion, filling defects, restricted diffusion, arterial wall enhancement, empyema, superior ophthalmic vein enlargement and thrombosis, orbital cellulitis, and pituitary inflammation. CAN resolved in 60% of cases. Outcomes were mostly good, with a modified Rankin Scale score of ⩽1 for 7 of 10 patients at discharge and 1 death. Conclusions— CAN and infarcts were common in this modest cohort of children with CST. Despite the high incidence of CAN and infarction, outcomes were often favorable. Although this is the largest cohort of childhood CST reported to date, large multicenter cohorts are needed to confirm our findings and determine the preferred therapeutic strategies for childhood CST.

Preparing for a “Pediatric Stroke Alert”

BACKGROUNDnChildhood arterial ischemic stroke is an important cause of morbidity and mortality in children. Hyperacute treatment strategies remain controversial and challenging, especially in the setting of increasingly proven medical and endovascular options in adults. Although national and international pediatric guidelines have given initial direction about acute therapy and management, pediatric centers have traditionally lacked the infrastructure to triage, diagnose, and treat childhood arterial ischemic stroke quickly.nnnMETHODSnIn the past 10 years, researchers in the International Pediatric Stroke Study and Thrombolysis in Pediatric Stroke study have initiated early strategies for establishing pediatric specific stroke alerts.nnnRESULTSnWe review the rationale, process and components necessary for establishing a pediatric stroke alert.nnnCONCLUSIONnDevelopment of pediatric stroke protocols and pathways, with evidence-based acute management strategies and supportive care where possible, facilitates the evaluation, management, and treatment of an acute pediatric stroke.

Fractionated stereotactic radiosurgery for recurrent ependymoma in children

Outcomes for children with relapsed ependymoma are poor. Re-irradiation is a potentially viable salvage option in these patients. Data were reviewed for 12 patients (median age 5.6xa0years) with relapsed ependymoma who received fractionated stereotactic radiosurgery (fSRS) following maximal surgical resection from 1995 to 2012. Four patients experienced a second recurrence, including 2 in-field and 2 distant failures. Median time to second recurrence (32xa0months) was significantly longer than time to first recurrence (24xa0months) (pxa0=xa00.008). Three-year local control was 89xa0%, and median event free survival from fSRS was 3.4xa0years. Radiation necrosis was observed in 6 patients, 3 who were symptomatic. In conclusion, fSRS offers durable response with a tolerable toxicity profile in children with recurrent EPN.

Cerebral radiation necrosis in pediatric patients.

Radiation necrosis is a well-described toxicity following radiation therapy in the brain. There is little data regarding the incidence of radiation necrosis in pediatric patients. We retrospectively reviewed our experience with 101 children with solid brain tumors. Radiation necrosis was diagnosed by examination of magnetic resonance imaging. Median follow-up for all patients was 13 months (range 3–51). Radiation necrosis occurred in 5% (5/101) of cases with a median time to onset of 1.2 months. In three of these children, the child was symptomatic, requiring management with steroids and bevacizumab. Radiation necrosis did not correlate with the administration of chemotherapy, age at treatment, or planning treatment volume. Our experience with pediatric patients treated with radiotherapy for solid brain tumor suggests that children may have an increased likelihood to develop radiation necrosis compared to adults.

Distinctive pattern of restricted diffusion in a neonate with molybdenum cofactor deficiency

We present a neonate with molybdenum cofactor deficiency imaged at presentation during the first month of life and at 5xa0months with diffusion-weighted brain MRI. While the imaging features of this disease have previously been reported, this case highlights a distinctive initial pattern of widespread restricted diffusion involving cortex at the depths of sulci. Other case series have published diffusion-weighted images (DWI) with this pattern but never specifically commented on this finding. This distinct DWI pattern also accounts for the configuration of ulegyria frequently described on later imaging. Early recognition of this unique initial DWI pattern could avoid misdiagnosis and better direct counseling and management.

The Potential for Advanced Magnetic Resonance Neuroimaging Techniques in Pediatric Stroke Research

BACKGROUNDnThis article was written to provide clinicians and researchers with an overview of a number of advanced neuroimaging techniques in an effort to promote increased utilityxa0and the design of future studies using advanced neuroimaging in childhood stroke. The current capabilities of advanced magnetic resonance imaging techniques provide the opportunity to build on our knowledge of the consequences of stroke on the developing brain. These capabilities include providing information about the physiology, metabolism, structure, and function of the brain that are not routinely evaluated in the clinical setting.nnnMETHODSnDuring the Proceedings of the Stroke Imaging Laboratory for Childrenxa0Workshop in Toronto in June 2015, a subgroup of clinicians and imaging researchers discussed how the application of advanced neuroimaging techniques could further our understanding of the mechanisms of stroke injury and repair in the pediatric population. This subgroup was established based on their interest and commitment to design collaborative, advanced neuroimaging studies in the pediatric stroke population.nnnRESULTSnIn working towardxa0this goal, we first sought to describe here the magnetic resonance imaging techniques that are currently available for use, and how they have been applied in other stroke populations (e.g., adult and perinatal stroke).nnnCONCLUSIONSnWith the continued improvement in advanced neuroimaging techniques, including shorter acquisition times, there is an opportunity to apply these techniques to their full potential in the research settingxa0and learn more about the effects of stroke in the developing brain.

Pathways for Neuroimaging of Neonatal Stroke

PURPOSEnTo provide consensus-based, suggested imaging protocols to facilitate the accurate and timely diagnosis of a neonate with symptoms concerning for stroke.nnnMETHODSnThe Writing Group, an international collaboration of pediatric neurologists and neuroradiologists with expertise in perinatal and childhood stroke, participated in a series of pediatric stroke neuroimaging symposia. These discussions, in conjunction with extensive literature review, led to a consensus for imaging protocols to guide practitioners in the diagnosis of neonatal stroke subtypes as defined by the National Institute of Neurological Disorders and Stroke Common Data Elements. The epidemiology, clinical presentation, and associated risk factors for arterial ischemic stroke, cerebral sinovenous thrombosis, and hemorrhagic stroke are reviewed, with a focused discussion regarding the role of neuroimaging for each subtype.nnnRESULTSnIn a neonate with suspected stroke, magnetic resonance imaging is the preferred modality, given the lack of X-irradiation, superior anatomic resolution, and sensitivity for acute ischemia. Core recommended sequences include diffusion-weighted imaging and apparent diffusion coefficient mapping to diagnose acute ischemia, gradient-recalled echo or susceptibility-weighted imaging to detect intracranial blood and its breakdown products, and T1- and T2-weighted imaging to assess for myelination, extra-axial blood, and edema. Magnetic resonance angiography of the brain may be useful to detect vascular abnormalities, with venography if venous sinus thrombosis is suspected. The application of more novel sequences, as well as the utility of follow up-imaging, is also discussed.

Occult head injury is common in children with concern for physical abuse

BackgroundStudies evaluating small patient cohorts have found a high, but variable, rate of occult head injury in children <2xa0years old with concern for physical abuse. The American College of Radiology (ACR) recommends clinicians have a low threshold to obtain neuroimaging in these patients.ObjectivesOur aim was to determine the prevalence of occult head injury in a large patient cohort with suspected physical abuse using similar selection criteria from previous studies. Additionally, we evaluated proposed risk factors for associations with occult head injury.Materials and methodsThis was a retrospective, secondary analysis of data collected by an observational study of 20xa0U.S. child abuse teams that evaluated children who underwent subspecialty evaluation for concern of abuse. We evaluated children <2xa0years old and excluded those with abnormal mental status, bulging fontanelle, seizure, respiratory arrest, underlying neurological condition, focal neurological deficit or scalp injury.ResultsOne thousand one hundred forty-three subjects met inclusion criteria and 62.5% (714) underwent neuroimaging with either head computed tomography or magnetic resonance imaging. We found an occult head injury prevalence of 19.7% (141). Subjects with emesis (odds ratio [OR] 3.5, 95% confidence interval [CI] 1.8–6.8), macrocephaly (OR 8.5, 95% CI 3.7–20.2), and loss of consciousness (OR 5.1, 95% CI 1.2–22.9) had higher odds of occult head injury.ConclusionOur results show a high prevalence of occult head injury in patients <2xa0years old with suspected physical abuse. Our data support the ACR recommendation that clinicians should have a low threshold to perform neuroimaging in patients <2xa0years of age.

Infection of the spheno-occipital synchondrosis: A morbid complication following adenoidectomy

Two 2-year-old males presented post-operatively following adenoidectomy with persistent fever and neck stiffness. After multiple office visits, both patients were admitted and found to have a widened spheno-occipital synchondrosis and other imaging findings indicative of skull base osteomyelitis. Treatment with antibiotics allowed for recovery with good long-term outcomes. Infection involving the spheno-occiptal synchondrosis is rare and its circuitous presentation of these two children no doubt led to delayed diagnosis.