BRAIN Initiative: Development and Validation of Novel Tools to Analyze Cell-Specific and Circuit-Specific Processes in the Brain (R01)

Funding Opportunity ID: 287311 Opportunity Number: RFA-MH-17-220 Opportunity Title: BRAIN Initiative: Development and Validation of Novel Tools to Analyze Cell-Specific and Circuit-Specific Processes in the Brain (R01)Opportunity Category: DiscretionaryOpportunity Category Explanation: Funding Instrument Type: GrantCategory of Funding Activity: EducationHealthIncome Security and Social ServicesCategory Explanation: CFDA Number(s): 93.17393.21393.24293.27393.27993.28693.85393.86593.86693.867Eligible Applicants: State governmentsCounty governmentsCity or township governmentsSpecial district governmentsIndependent school districtsPublic and State controlled institutions of higher educationNative American tribal governments (Federally recognized)Public housing authorities/Indian housing authoritiesNative American tribal organizations (other than Federally recognized tribal governments)Nonprofits having a 501(c)(3) status with the IRS, other than institutions of higher educationNonprofits that do not have a 501(c)(3) status with the IRS, other than institutions of higher educationPrivate institutions of higher educationFor profit organizations other than small businessesSmall businessesOthers (see text field entitled "Additional Information on Eligibility" for clarification)Additional Information on Eligibility: Other Eligible Applicants include the following: Alaska Native and Native Hawaiian Serving Institutions; Asian American Native American Pacific Islander ...
Source: Grants.gov - Category: Research Tags: Education Health Income Security and Social Services Source Type: funding

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Publication date: Available online 20 November 2019Source: Journal of Advanced ResearchAuthor(s): Sohail Mumtaz, Pradeep Bhartiya, Neha Kaushik, Manish Adhikari, Pradeep Lamichhane, Su-Jae Lee, Nagendra Kumar Kaushik, Eun Ha ChoiAbstractOver the past few decades, microwave (MW) radiation has been widely used, and its biological effects have been extensively investigated. However, the effect of MW radiation on human skin biology is not well understood. We study the effects of pulsed high-power microwaves (HPMs) on melanoma (G361 and SK-Mel-31) and normal human dermal fibroblast (NHDF) cells. A pulsed power generator (Chundo...
Source: Journal of Advanced Research - Category: Research Source Type: research
Passive measles immunity waned quickly, and most infants were no longer protected from measles by age 3 months, a study found; US experts say the age of vaccination should remain the same.Medscape Medical News
Source: Medscape Pulmonary Medicine Headlines - Category: Respiratory Medicine Tags: Infectious Diseases News Source Type: news
Suresh K. Mukherji
Source: Neuroimaging Clinics - Category: Radiology Source Type: research
SURESH K. MUKHERJI, MD, MBA, FACR
Source: Neuroimaging Clinics - Category: Radiology Source Type: research
Magnetoencephalography
Source: Neuroimaging Clinics - Category: Radiology Source Type: research
ELSEVIER
Source: Neuroimaging Clinics - Category: Radiology Source Type: research
NEUROIMAGING CLINICS OF NORTH AMERICA
Source: Neuroimaging Clinics - Category: Radiology Authors: Source Type: research
Source: Neuroimaging Clinics - Category: Radiology Source Type: research
Resting state functional connectivity (RSFC) has been widely studied in functional magnetic resonance imaging (fMRI) and is observed by a significant temporal correlation of spontaneous low-frequency signal fluctuations (SLFs) both within and across hemispheres during rest. Different hypotheses of RSFC include the biophysical origin hypothesis and cognitive origin hypothesis, which show that the role of SLFs and RSFC is still not completely understood. Furthermore, RSFC and age studies have shown an “age-related compensation” phenomenon. RSFC data analysis methods include time domain analysis, seed-based correl...
Source: Neuroimaging Clinics - Category: Radiology Authors: Source Type: research
ConclusionLL/MLD4, MLA, MLD, the degree of luminal diameter stenosis, CCO, RI, and %APV derived from cCTA can support the detection of hemodynamically significant coronary stenosis as compared with iFR®, with LL/MLD4 showing the greatest discriminatory power.
Source: European Journal of Radiology - Category: Radiology Source Type: research
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