Faculty Bibliography

Background: Alzheimer's disease (AD) is a progressive neurodegenerative disease that currently accounts for over 70% of cases of dementia in adults over 65 worldwide, and is the only cause of death among the top ten with no effective treatments. Clinically, AD is characterized by progressive deterioration in memory and other areas of cognitive function. Neuropathologically, the disease is characterized by extracellular aggregations of amyloid-B (AB) and intraneuronal neurofibrillary tangles (NFTS) composed of abnormally phosphorylated tau, causing progressive neuronal death. The aim of this study was to investigate whether the affibody ZSYM73-ABD (a portion of the active antibody molecule) can reverse AD pathology in an AD mouse model, without also causing significant neuroinflammation and/or microhemorrhage.
Method(s): APP/PS1 double transgenic mice were injected twice weekly with either ZSYM-ABD or a non-AB specific affibody, Ztaq2, as a control. Mice underwent behavioral testing and their brains were then sacrificed for immunohistochemistry.
Result(s): Semi-quantitative analysis of amyloid burden, performed using 6E10/4G8 antibodies, showed a statistically significant reduction in amyloid burden in the hippocampus, and a trend towards reduction in amyloid burden in the cortex. Inflammation was assessed using GFAP and Iba1(markers of gliosis) which showed a statistically significant reduction of GFAP in the cortex and in the hippocampus, and a slight reduction of microgliosis in ZSYM73-ABD affibody treated mice. Finally, mice treated with ZSYM73-ABD performed significantly better on a novel object recognition task than control mice, suggesting a correlation between the histological findings above and improvement in cognitive function.
Conclusion(s): In conclusion, this study demonstrates that passive immunization with an affibody molecule improves cognitive function and significantly decreases amyloid burden in the hippocampus of a transgenic mouse model of AD, without inducing inflammation. This has potential implications for treatment of AD in humans

BACKGROUND:Following the results of randomized clinical trials supporting the use of mechanical thrombectomy (MT) with tissue plasminogen activator for emergent large vessel occlusion (ELVO), our state Stroke Task Force convened to: update legislation to recognize differences between Primary Stroke Centers (PSCs) and Comprehensive Stroke Centers (CSCs); and update Emergency Medical Services (EMS) protocols to triage direct transport of suspected ELVO patients to CSCs. PURPOSE/OBJECTIVE:We developed a single-session training curriculum for EMS personnel focused on the Los Angeles Motor Scale (LAMS) score, its use to correctly triage patients as CSC-appropriate in the field, and our state-wide EMS stroke protocol. We assessed the effect of our training on EMS knowledge. METHODS:We assembled a focus group to develop a training curriculum and assessment questions that would mimic real-life conditions under which EMS personnel operate. Ten questions were formulated to assess content knowledge before and after training, and scores were compared using generalized mixed models. RESULTS:Training was provided for 179 EMS providers throughout the state.Average pre-test score was 52.4% (95% CI 49% to 56%). Average post-test score was 85.6% (83%-88%, P<0.0001). Each of the 10 questions was individually assessed and all showed significant gains in EMS knowledge after training (P<0.0001). CONCLUSIONS:A brief educational intervention results in substantial improvements in EMS knowledge of prehospital stroke severity scales and severity-based field triage protocols. Further study is needed to establish whether these gains in knowledge result in improved real-world performance.

Purpose of Study Autism spectrum disorders (ASDs) are neurodevelopmental disorders with lifelong consequences and poorly understood pathophysiology. Dysregulated cholesterol metabolism is implicated in ASD etiology. Cholesterol is essential for neuroactive steroid production, myelin sheath formation, and normal brain development. Early postnatal or in utero exposure to the antiepileptic drug valproic acid (VPA), a branched short-chain fatty acid, causes autism-like neural and behavioral deficits in humans and rodents. This study examines the link between VPA and cholesterol deficit in cultured human neurons and microglia. Methods Used SHSY-5Y human neuroblastoma cells and HMC3 human microglial cells were exposed to VPA at 0, 250, 1000 and 5000 muM for 24h, N=3 per condition. Expression of critical genes that regulate cholesterol transport were quantified by RT-PCR using specific primers for each. These include the efflux proteins ABCA1, ABCG1, 27-hydroxylase (27-OHase) and 24-hydroxylase (24-OHase), and the influx scavenger receptor CD36 - all vital for brain cholesterol balance. Expression of these target genes was normalized to concurrently measured GAPDH mRNA levels. Summary of Results In SH-SY5Y neurons, VPA exposure caused a concentration-dependent increase in ABCA1 (P <0.001), ABCG1, 27-OHase (P <0.001) (figure 1), and CD36 (P=0.015). In HMC3, VPA exposure caused a concentration- dependent increase in ABCG1 (80-fold at highest dose, P<=0.001) and 24-OHase (P < 0.001) with a reduction in ABCA-1 (P=0.002) and an increase in CD36 (P<0.001). Conclusions This study shows that VPA has a dramatic hypocholesterolemic effect on two key cell types that compose the developing brain. The net impact of the changes observed in these cholesterol-related genes would be outflow and metabolism. Further, enhanced 27-OHase activity produces an oxysterol metabolite with neurotoxic effects that include downregulating synaptic proteins and decreasing neurite number and length. Together, our results suggest that VPA impairs brain cholesterol homeostasis. A better understanding of the involvement of cholesterol in the mechanisms by which VPA leads to ASDs may translate into novel preventative therapies for this serious disorder

Deep brain stimulation (DBS) is an effective treatment for Parkinson's disease (PD) patients with motor fluctuations and dyskinesias. The key DBS efficacy studies were performed in PD patients with unknown genotypes; however, given the estimated monogenic mutation prevalence of approximately 5-10%, most commonly LRRK2, PRKN, PINK1 and SNCA, and risk-increasing genetic factors such as GBA, proper characterization is becoming increasingly relevant. We performed a systematic review of 46 studies that reported DBS effects in 221 genetic PD patients. The results suggest that monogenic PD patients have variable DBS benefit depending on the mutated gene. Outcome appears excellent in patients with the most common LRRK2 mutation, p.G2019S, and good in patients with PRKN mutations but poor in patients with the more rare LRRK2 p.R1441G mutation. The overall benefit of DBS in SNCA, GBA and LRRK2 p.T2031S mutations may be compromised due to rapid progression of cognitive and neuropsychiatric symptoms. In the presence of other mutations, the motor changes in DBS-treated monogenic PD patients appear comparable to those of the general PD population.

Bioelectronic devices should optimally merge a soft, biocompatible tissue interface with capacity for local, advanced signal processing. Here, we introduce an organic mixed-conducting particulate composite material (MCP) that can form functional electronic components by varying particle size and density. We created MCP-based high-performance anisotropic films, independently addressable transistors, resistors, and diodes that are pattern free, scalable, and biocompatible. MCP enabled facile and effective electronic bonding between soft and rigid electronics, permitting recording of neurophysiological data at the resolution of individual neurons from freely moving rodents and from the surface of the human brain through a small opening in the skull. We also noninvasively acquired high-spatiotemporal resolution electrophysiological signals by directly interfacing MCP with human skin. MCP provides a single-material solution to facilitate development of bioelectronic devices that can safely acquire, transmit, and process complex biological signals.

INTRODUCTION/BACKGROUND:This clinical trial evaluates the efficacy and safety of a 6-week course of daily neuroAD™ therapy. METHODS:131 subjects between 60 and 90 years old, unmedicated for Alzheimer's disease (AD), or on stable doses of an acetylcholinesterase inhibitor and/or memantine, with Mini-Mental State Examination scores between 18 and 26, clinical dementia rating scale scores of 1 or 2, enrolled for a prospective, randomized, double-blind, sham-controlled, multicenter clinical trial. Structural brain MRIs were obtained for transcranial magnetic stimulation targeting. Baseline Alzheimer's disease assessment scale-cognitive (ADAS-Cog) and Clinical Global Impression of Change were assessed. 129 participants were randomized to active treatment plus standard of care (SOC) or sham treatments plus SOC. RESULTS:Subjects with baseline ADAS-Cog ≤ 30 (~85% of study population) showed a statistically significant benefit favoring active over sham. Responder analysis showed 31.7% participants in the active group with ≤ -4 point improvement on ADAS-Cog versus 15.4% in the sham group. DISCUSSION/CONCLUSIONS:neuroAD™ Therapy System provides a low-risk therapeutic benefit for patients with milder AD (baseline ADAS-Cog ≤30) beyond pharmacologic SOC.

OBJECTIVE:Survivors of prolonged (> 2 weeks) post-cardiac arrest (CA) coma are expected to remain permanently disabled. We aimed to investigate three outlier patients who ultimately achieved independent functional outcomes after prolonged post-CA coma to identify electroencephalographic (EEG) markers of their recovery potential. For validation purposes, we also aimed to evaluate these markers in an independent cohort of post-CA patients. METHODS:We identified three patients with late recovery from coma (17-37 days) following CA who recovered to functionally independent behavioral levels. We performed spectral power analyses of available EEGs during prominent burst suppression patterns (BSP) present in all three patients. Using identical methods, we also assessed the relationship of intra-burst spectral power and outcomes in a prospectively enrolled cohort of post-CA patients. We performed chart reviews of common clinical, imaging, EEG prognostic variables and clinical outcomes for all patients. RESULTS:All three patients with late recovery from coma lacked evidence of overwhelming cortical injury but demonstrated prominent BSP on EEG. Spectral analyses revealed a prominent theta (~4-7Hz) feature dominating the bursts during BSP in these patients. In the prospective cohort, similar intra-burst theta spectral features were evident in patients with favorable outcomes; patients with BSP and unfavorable outcomes showed either no features, transient burst features or decreasing intra-burst frequencies with time. INTERPRETATION/CONCLUSIONS:BSP with theta (~4-7Hz) peak intra-burst spectral power after CA may index a recovery potential. We discuss our results in the context of optimizing metabolic substrate availability and stimulating the cortico-thalamic system during recovery from prolonged post-CA coma. This article is protected by copyright. All rights reserved.

BACKGROUND AND PURPOSE/OBJECTIVE:The increased severity of white matter disease is associated with worse outcomes and an increased rate of intracerebral hemorrhage in patients with ischemic stroke undergoing thrombolytic treatment. However, whether white matter disease is associated with outcomes in patients undergoing endovascular treatment remains unclear. MATERIALS AND METHODS/METHODS:In this prespecified exploratory analysis of our prospective multi-institutional study that enrolled consecutive adult patients with anterior circulation ischemic stroke undergoing endovascular treatment from November 2017 to September 2018, we compared the following outcomes between patients with none-to-minimal (van Swieten score, 0-2) and moderate-to-severe (van Swieten score, 3-4) white matter disease using logistic regression: 90-day mRS 3-6, death, intracerebral hemorrhage, successful recanalization, and early neurologic recovery. RESULTS:< .001). No associations between white matter disease severity and intracerebral hemorrhage, successful recanalization, and early neurologic recovery were observed. CONCLUSIONS:Moderate-to-severe white matter disease is associated with worse outcomes in patients undergoing endovascular treatment without a significant increase in hemorrhagic complications. Studies comparing patients with and without endovascular treatment are necessary to determine whether the benefit of endovascular treatment is attenuated with greater white matter disease.

Background/UNASSIGNED:The costs of multiple sclerosis (MS) disease-modifying therapies (DMTs) and certain symptomatic treatments (ie, dalfampridine [DFP]) are high. Consolidated billing models require that medication costs be covered by skilled nursing facilities (SNFs) after hospitalization. As a result, patients may experience suboptimal discharge, off of medication or without rehabilitation. Methods/UNASSIGNED:To characterize the frequency with which MS pharmaceutical costs lead to suboptimal discharge, we performed a retrospective chart review of admissions to a large academic medical center from January 2013 to December 2017 among patients with MS on DMT and/or DFP with SNF rehabilitation recommendations. We quantified the burden of suboptimal discharge due to medication discontinuation, limited medication supplies, or forgone rehabilitation. Results/UNASSIGNED:< .001). Conclusions/UNASSIGNED:High costs of MS medications in conjunction with SNF consolidated payment models result in misaligned incentives and often lead to medication discontinuation or other suboptimal discharge for patients with MS.

OBJECTIVE:R) in surgical tissue from patients with temporal lobe epilepsy and hippocampal sclerosis (TLE/HS) with SUDEP risk factors. METHODS:R in seven regions of interest: temporal cortex, temporal lobe white matter, CA1, CA4, dentate gyrus, subiculum, and amygdala and relative to glial and neuronal densities with glial fibrillary acidic protein (GFAP) and neuronal nuclear antigen (NeuN). RESULTS:R was present in the amygdala in high-risk than in low-risk cases. There was no significant difference in neuronal loss or gliosis between the risk groups or differences for ADK labeling. SIGNIFICANCE/CONCLUSIONS:R in the high-risk group could contribute to periictal amygdala dysfunction in SUDEP.