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COVID Rapid Acceleration of Diagnostics Data Hub
- Alternate Title(s)
- RADx Data Hub
- Description
The NIH Rapid Acceleration of Diagnostics Data Hub (RADx® Data Hub) supports researchers in accessing curated and de-identified COVID-19 data, allowing them to find, aggregate, and perform data analyses in a cloud-enabled platform. The RADx Data Hub supports efforts to understand COVID-19 and factors associated with disparities in COVID-19 morbidity and mortality in underserved and vulnerable populations....
- Subject
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Big DataCOVID-19
- Access Rights
- Free to all with registrationApplication Required
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Acute Stroke Database
Internal Dataset- Authors
- Pina SanelliAngela HoangBo YangJoseph O'Hara21 more author(s)...
- Description
The Acute Stroke Database is a REDCAP database based off of the Get With the Guidelines (GWTG) stroke program. The database contains data on all stroke patients 18+ who came to North Shore University Hospital, which is a comprehensive stroke center (CSC). As a CSC, stroke patients from outside hospitals would transfer in for advanced care in both hemorrhagic and ischemic stroke. The database contains...
- Subject
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Electronic Health RecordsStrokeTertiary Care Centers
- Access Rights
- Application Required
- Local Expert
- Pina Sanelli
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Acute Stroke Initial Imaging Selection Decision Model
Internal Dataset- Authors
- Pina SanelliGabriella MartinezJeffrey KatzJason Wang2 more author(s)...
- Description
Performing Comprehensive-CT (NCCT+CTA+CTP) at initial presentation in patients presenting with suspected acute ischemic stroke in the anterior circulation with last-known-well-to-arrival time 0–24 hours at comprehensive stroke centers is cost-effective compared to Comprehensive-MR and stepwise approaches. We have created a simplified depiction of the decision model demonstrating the imaging-based algorithmic...
- Subject
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Ischemic StrokeStrokeTomography, X-Ray Computed
- Access Rights
- Free to All
- Local Expert
- Pina Sanelli
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Blood-brain barrier deterioration and hippocampal gene expression in polymicrobial sepsis: an evaluation of endothelial MyD88 and the vagus nerve
Internal Dataset- Authors
- Gerard HonigSimone MaderHuiyi ChenAmit Porat4 more author(s)...
- Description
Systemic infection can initiate or exacerbate central nervous system (CNS) pathology, even in the absence of overt invasion of bacteria into the CNS. Recent epidemiological studies have demonstrated that human survivors of sepsis have an increased risk of long-term neurocognitive decline. There is thus a need for improved understanding of the physiological mechanisms whereby acute sepsis affects the...
- Subject
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miceVagus Nerve
- Access Rights
- Free to All
- Local Expert
- Betty DiamondBruce Volpe
