Matt Gregas

Imaging of amyloid burden and distribution in cerebral amyloid angiopathy.

Cerebrovascular deposition of β‐amyloid (cerebral amyloid angiopathy [CAA]) is a major cause of hemorrhagic stroke and a likely contributor to vascular cognitive impairment. We evaluated positron emission tomographic imaging with the β‐amyloid–binding compound Pittsburgh Compound B (PiB) as a potential noninvasive method for detection of CAA. We hypothesized that amyloid deposition would be observed with PiB in CAA, and based on the occipital predilection of CAA pathology and associated hemorrhages, that specific PiB retention would be disproportionately greater in occipital lobes.

Immune Response to Influenza Vaccine in Children With Inflammatory Bowel Disease

OBJECTIVES:Patients with inflammatory bowel disease (IBD) frequently receive immunosuppressive therapy. The immune response in these patients to vaccines has not been well studied. We conducted a prospective, open label study to evaluate the serologic response to influenza vaccine in children with IBD.METHODS:Serum was obtained from 146 children and young adults with IBD (96 Crohns disease, 47 ulcerative colitis, and 3 indeterminate colitis) for baseline influenza titer, immediately followed by immunization with trivalent (A/Solomon Islands/3/2006 (H1N1), A/Wisconsin/67/2005 (H3N2), and B/Malaysia/2506/2004 (B)) inactivated influenza vaccine. Patients returned for repeat titers 3–9 weeks later. Seroprotection against each influenza strain was defined as hemagglutination inhibition titer ≥40. Patients were categorized as nonimmunosuppressed (NIS; aminosalicylates only, antibiotics only, or no therapy) or immunosuppressed (IS; any immunosuppressive agent). IS patients were further subcategorized as: (i) tacrolimus, (ii) tumor necrosis factor-α (TNF-α) inhibitor, (3) immunomodulator, and (4) corticosteroids only.RESULTS:More patients were seroprotected against strains A/H1N1 and A/H3N2 than B strain (P<0.02), regardless of immunosuppression status. The proportion of seroprotected patients and geometric mean titers at post-vaccination were similar between NIS and IS groups for all three strains. Subanalysis of patients not seroprotected at baseline showed that those receiving anti-TNF therapy were less likely to be seroprotected against strain B (14%) compared to patients in the NIS group (39%, P=0.025). There were no serious vaccine-associated adverse events.CONCLUSIONS:Influenza vaccination produces a high prevalence of seroprotection in IBD patients, particularly against A strains. The vaccine is well tolerated. Routine influenza vaccination in IBD patients is recommended, irrespective of whether patients receive immunosuppressive medications.

Safety, pharmacokinetics, and preliminary assessment of efficacy of mecasermin (recombinant human IGF-1) for the treatment of Rett syndrome

Significance This paper provides unique insights into mechanism-based therapeutics for Rett syndrome (RTT), a devastating neurodevelopmental disorder. This clinical trial was based on pioneer preclinical work from the laboratory of M.S. Outcome measures include clinical instruments, standardized behavioral measures, and biomarkers, the latter being not only objective but also applicable to experimental studies. We believe this work will a have major impact on the understanding and treatment of RTT, as well as other neurodevelopmental disorders. Rett syndrome (RTT) is a severe X-linked neurodevelopmental disorder mainly affecting females and is associated with mutations in MECP2, the gene encoding methyl CpG-binding protein 2. Mouse models suggest that recombinant human insulin-like growth factor 1 (IGF-1) (rhIGF1) (mecasermin) may improve many clinical features. We evaluated the safety, tolerability, and pharmacokinetic profiles of IGF-1 in 12 girls with MECP2 mutations (9 with RTT). In addition, we performed a preliminary assessment of efficacy using automated cardiorespiratory measures, EEG, a set of RTT-oriented clinical assessments, and two standardized behavioral questionnaires. This phase 1 trial included a 4-wk multiple ascending dose (MAD) (40–120 μg/kg twice daily) period and a 20-wk open-label extension (OLE) at the maximum dose. Twelve subjects completed the MAD and 10 the entire study, without evidence of hypoglycemia or serious adverse events. Mecasermin reached the CNS compartment as evidenced by the increase in cerebrospinal fluid IGF-1 levels at the end of the MAD. The drug followed nonlinear kinetics, with greater distribution in the peripheral compartment. Cardiorespiratory measures showed that apnea improved during the OLE. Some neurobehavioral parameters, specifically measures of anxiety and mood also improved during the OLE. These improvements in mood and anxiety scores were supported by reversal of right frontal alpha band asymmetry on EEG, an index of anxiety and depression. Our data indicate that IGF-1 is safe and well tolerated in girls with RTT and, as demonstrated in preclinical studies, ameliorates certain breathing and behavioral abnormalities.

Characterizing spinal muscular atrophy with electrical impedance myography

Electrical impedance myography (EIM) is a non‐invasive, painless technique for the evaluation of neuromuscular disease, and here we evaluate its potential application in spinal muscular atrophy (SMA). Twenty‐one SMA patients and 18 healthy children underwent EIM of biceps brachii and tibialis anterior using a commercially available impedance device. Hand‐held dynamometry and ultrasound assessment of subcutaneous fat thickness were also performed. All EIM parameters differed significantly between both SMA patients and normal subjects and between type 2 and type 3 SMA patients. In addition, EIM had an accuracy level as high as 93% for correctly categorizing patients as type 2 or type 3. Multiple regression analyses confirmed a strong association between EIM and dynamometry. These results confirm that EIM can accurately categorize patients with SMA. Because EIM requires no patient effort and is rapid to apply, it may serve a useful role in future SMA clinical trials. Muscle Nerve 42: 915–921, 2010

Electrical impedance myography in spinal muscular atrophy: A longitudinal study

Introduction: New approaches for assessing disease progression in spinal muscular atrophy (SMA) are needed. In this study, we evaluate whether electrical impedance myography (EIM) can detect disease progression in SMA compared with a group of healthy children of similar age. Methods: Twenty‐eight children with SMA and 20 normal children underwent repeated EIM testing in four muscles at regular intervals for up to 3 years. An average rate of change of EIM was calculated for each subject and normalized to subcutaneous fat thickness and muscle girth. Results: Multiple EIM parameters showed a change in normal subjects over a mean of 16.7 months; however, no change was found in SMA patients over this period. Conclusions: EIM could detect non–mass‐dependent muscle maturation in healthy children. In contrast, the muscle in children with SMA, as measured by EIM, was virtually static, showing no evidence of growth or active deterioration. Muscle Nerve, 2012

Longer duration of epilepsy and earlier age at epilepsy onset correlate with impaired cognitive development in infancy

We assessed the impact of age at onset of epilepsy and duration and frequency of seizures on cognitive development in children less than 3 years old. Retrospective analysis was conducted on clinical data and neuropsychological testing of 33 infants with epilepsy. Developmental quotients were calculated and were correlated with age at epilepsy onset, duration of epilepsy, seizure frequency, brain pathology, and types of seizures (with/without spasms) as potential predictors. Infants with longer duration and earlier onset of epilepsy performed worse on developmental neuropsychological testing. Regression analyses showed that age at epilepsy onset and percentage of life with epilepsy were both strongly associated (regression model P<0.0001) with developmental quotient. There was no correlation with seizure frequency. Infants with spasms had worse developmental quotients than infants without spasms (P<0.001). These results suggest that duration of epilepsy and age at onset may be the best developmental predictors during the first years of life in patients with epilepsy. Early aggressive intervention should be considered.

Relationship of fMRI activation to clinical trial memory measures in Alzheimer disease

Background: Functional MRI (fMRI) has shown promise as a tool to characterize altered brain function in Alzheimer disease (AD) and for use in proof of concept clinical trials. FMRI studies of subjects with AD have demonstrated altered hippocampal and neocortical activation while encoding novel stimuli compared to older controls. However, the relationship between fMRI activation and performance on standardized clinical trial memory measures has not been fully investigated. Objective: To determine whether patterns of activation during an associative-memory fMRI paradigm correlate with performance on memory measures used in AD clinical trials. Methods: Twenty-nine subjects with AD underwent neuropsychological testing, including the AD Assessment Scale (ADAS-Cog), and an associative-encoding fMRI paradigm. Scores were entered as regressors in SPM2 analyses of the differential fMRI activation to novel-vs-repeated (NvR) stimuli. To account for cerebral atrophy, native-space structure-function analyses were performed with subjects’ high-resolution structural images. Results: Performance on the ADAS-Cog verbal memory component, and the ADAS-Cog total score, correlated with NvR activation in left superior temporal (p = 0.0003; r = −0.51) and left prefrontal (p = 0.00001; r = −0.63) cortices. In a subgroup with more extensive neuropsychological testing (n = 14), performance on the Free and Cued Selective Reminding Test was correlated with activation in these same regions. fMRI activation remained correlated with performance even when accounting for atrophy. Conclusions: The relationship between functional MRI (fMRI) activation and standardized memory measures supports the potential use of fMRI to investigate regional mechanisms of treatment response in clinical trials of novel therapies for Alzheimer disease. GLOSSARY: AD = Alzheimer disease; ADAS-Cog = AD Assessment Scale; EPI = echoplanar imaging sequence; FA = flip angle; FCSRT = Free and Cued Selective Reminding Test; FLAME = FMRIB’s Local Analysis of Mixed Effects; fMRI = Functional MRI; FOV = field of view; GLM = general linear model; HRF = hemodynamic response function; LFG = left fusiform gyrus; LPFC = left prefrontal cortex; LSTG = left superior temporal gyrus; MMSE = Mini-Mental State Examination; MTL = medial temporal lobe; NvR = novel-vs-repeated; ROI = region of interest; TE = echo time; TR = repetition time.

Analysis of EEG patterns and genotypes in patients with Angelman syndrome

We prospectively analyzed EEGs from participants in the ongoing NIH Rare Diseases Clinical Research Network Angelman Syndrome Natural History Study. Of the one-hundred-sixty enrolled patients (2006-2010), 115 had complete data (58 boys, median age 3.6 years). Distinct EEG findings were intermittent rhythmic delta waves (83.5%), interictal epileptiform discharges (74.2%), intermittent rhythmic theta waves (43.5%), and posterior rhythm slowing (43.5%). Centro-occipital and centro-temporal delta waves decreased with age (p=0.01, p=0.03). There were no specific correlations between EEG patterns and genotypes. A classification tree allowed the prediction of deletions class-1 (5.9 Mb) in patients with intermittent theta waves in <50% of EEG and interictal epileptiform abnormalities; UPD, UBE3A mutation or imprinting defects in patients with intermittent theta in <50% of EEG without interictal epileptiform abnormalities; deletions class-2 (5.0 Mb) in patients with >50% theta and normal posterior rhythm; atypical deletions in patients with >50% theta but abnormal posterior rhythm. EEG patterns are important biomarkers in Angelman syndrome and may suggest the underlying genetic etiology.

Serum Transaminase Levels in Boys With Duchenne and Becker Muscular Dystrophy

OBJECTIVE: Serum alanine transaminase (ALT) and aspartate transaminase (AST) levels are commonly used as biochemical indicators of hepatocellular injury but can also detect occult muscle disease. High concomitant serum creatine phosphokinase (CPK) levels can point to muscle as the source of high transaminase levels. Nevertheless, clinicians may be reluctant to attribute high transaminase levels to muscle. METHODS: Study patients were boys with a genetic or biopsy-confirmed dystrophinopathy whose concomitant serum CPK, ALT, and AST levels were measured. RESULTS: We report 82 enzyme data sets from 46 patients with Duchenne muscular dystrophy (DMD) and 9 with Becker muscular dystrophy. Our results show a linear relationship between serum CPK and serum ALT and AST and a logarithmic relationship between serum enzyme levels and age for boys with DMD. We developed a mathematical model to predict serum ALT and AST levels when the serum CPK level and age are known. For 6 boys, initial failure to consider muscle as a cause of high transaminase levels led to delay of diagnosis and extensive testing for hepatic dysfunction. A second group of 4 boys with known DMD were investigated for liver disease after high transaminase levels were detected. Serum transaminase levels were highest in ambulant boys with DMD, whose levels reached 1220 U/L (ALT) (22.6 times higher than upper-limit normal levels) and 801 U/L (AST) (12.3 times higher than upper-limit normal levels). CONCLUSIONS: By recognizing muscle as a potential source of serum transaminase levels, clinicians can avoid unnecessary and invasive procedures, expedite clinical diagnosis, and avoid unnecessary cessation of concomitant drug therapy.

Cardiopulmonary complications during pediatric seizures: A prelude to understanding SUDEP

Sudden unexpected death in epilepsy (SUDEP) is an important, unexplained cause of death in epilepsy. Role of cardiopulmonary abnormalities in the pathophysiology of SUDEP is unclear in the pediatric population. Our objective was to assess cardiopulmonary abnormalities during epileptic seizures in children, with the long‐term goal of identifying potential mechanisms of SUDEP.