Agencies

Disaster Recovery Center Opens in Breckinridge County

Published: 3 June 2025
Categories: FEMA News

RSS feed source: Federal Emergency Management Agency

FRANKFORT, Ky. –A Disaster Recovery Center has opened in Breckinridge County to offer in-person support to Kentucky uninsured and underinsured survivors who experienced loss as the result of the April severe storms, straight-line winds, flooding, landslides and mudslides. The new Disaster Recovery Center in Breckinridge County is located at:

McDaniels Community Center, 10762 S. Highway 259, McDaniels, KY 40152 

Working hours are 7 a.m. to 7 p.m. Central Time, Monday through Friday, closed Saturday and Sunday.

Disaster Recovery Centers are one-stop shops where you can get information and advice on available assistance from state, federal and community organizations. You can get help to apply for FEMA assistance, learn the status of your FEMA application, understand the letters you get from FEMA and get referrals to agencies that may offer other assistance. The U.S. Small Business Administration representatives and resources from the Commonwealth are also available at the Disaster Recovery Centers to assist you.

FEMA is encouraging Kentuckians affected by the April storms to apply for federal disaster assistance as soon as possible. The deadline to apply is June 25.

You can visit any Disaster Recovery Center to get in-person assistance. No appointment is needed. To find all other center locations, including those in other states, go to fema.gov/drc or text “DRC” and a Zip Code to 43362. 

You don’t have to visit a center to apply for FEMA assistance. There

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NSF announces new NextG wireless funding opportunity

Published: 3 June 2025
Categories: National Science Foundation

RSS feed source: Federal Emergency Management Agency

The U.S. National Science Foundation today announced a new funding opportunity to support research and technology development that will improve the next generation of wireless communication systems known as NextG.     In collaboration with industry, other government agencies, and international partners, the NSF Verticals-enabling Intelligent NEtwork  Systems (NSF VINES) program will invest up to $100 million to accelerate performance and capabilities of next-generation (NextG) advanced intelligent network systems  spanning the user-edge-core-cloud continuum. 

“NSF VINES will enhance U.S. competitiveness in advanced telecommunications technologies, including NextG wireless telecommunications and emerging potential NextG vertical industries, and prepare the American workforce for jobs available now and in the future,” said Brian Stone, performing the duties of the NSF Director.

“This important investment from NSF, in collaboration with industry and other government agencies, will help strengthen U.S. leadership and ensure the American people reap the benefits in areas such as self-driving cars, advanced manufacturing, energy infrastructure, and beyond,” said Dr. Lynne Parker, Principal Deputy Director of The White House Office of Science and Technology Policy. 

NSF VINES is in partnership with several major industry organizations and U.S. federal agencies, including Ericsson, Intel, Qualcomm, the U.S. Department of Homeland Security, U.S. Department of Defense Office of the Under Secretary for Research and Engineering, and U.S. Department of Commerce National Institute of Standards and Technology, as well as international partners from

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NSF advanced computing accelerates preeclampsia research and potential treatments

Published: 30 May 2025
Categories: National Science Foundation

RSS feed source: Federal Emergency Management Agency

Each year, preeclampsia—a life-threatening pregnancy complication—affects nearly 1 in 25 expectant mothers in the United States. Emerging suddenly after 20 weeks of pregnancy, it can lead to dangerously high blood pressure, premature birth, and long-term health issues for both mother and baby. Despite its severity, the root causes of preeclampsia remain poorly understood, and treatment options are limited.

Currently, the only effective treatment for preeclampsia is early delivery of the placenta, which often leads to premature birth and associated health risks for the baby. While researchers know the placenta plays a central role in the disease, the exact causes of its dysfunction remain unclear. This lack of understanding makes preeclampsia difficult to predict, prevent, or treat effectively.

Researchers at UC San Diego are tackling these challenges with help from NSF-supported computational resources. The team leveraged advanced computing systems like the San Diego Supercomputer Center’s Expanse to conduct large-scale RNA sequencing analysis to compare placental tissue from healthy and preeclamptic pregnancies—processing terabytes of next-generation sequencing data to identify genes that behave differently in the disease.

Expanse also enabled the team to develop a model system of preeclampsia using induced pluripotent stem cells (iPSCs), which allows scientists to recreate the disease in the lab and observe how stress conditions like low oxygen affect placental development. By replicating these abnormal conditions, the team identified biological pathways—like inflammation and

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