U.S. Department of Health & Human Services
Funded Projects
Explore our currently funded projects. You may search with all three fields, then focus your results by applying any of the dropdown filters. After customizing your search, you may download results and even save your specific search for later.
| Project # | Project Title | Research Focus Area | Research Program | Administering IC Sort ascending | Institution(s) | Investigator(s) | Location(s) | Year Awarded |
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1U24NS113844-01
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EPPIC-NET DCC | Clinical Research in Pain Management | Early Phase Pain Investigation Clinical Network (EPPIC-Net) | NINDS | NEW YORK UNIVERSITY SCHOOL OF MEDICINE | PETKOVA, EVA (contact); TROXEL, ANDREA B | New York, NY | 2019 |
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NOFO Title: HEAL Initiative: Early Phase Pain Investigation Clinical Network - Data Coordinating Center (U24 Clinical Trials Not Allowed)
NOFO Number: RFA-NS-19-024 Summary: The Data Coordinating Center (DCC) of the Early Phase Pain Investigation Clinical Network (EPPIC-Net) will be the data and biospecimen manager for pain research within the HEAL Partnership. As such, it will host, manage, standardize, curate, and provide a sharing platform for data and biospecimens for HEAL initiatives, such as the Acute to Chronic Pain Signatures initiative and the BACPAC, in addition to EPPIC-Net studies. The DCC will develop and maintain a databank for depositing data, will link these data with a repository for biological samples, and will create a platform for teams to work together to analyze and interpret data. Further, the DCC will provide leadership in the statistical design and analysis of EPPIC-Net studies and will deploy advanced systems and processes for data collection, management, quality assurance, and reporting. The DCC will create, sustain, and continually advance a robust organization for the rapid design, implementation, and performance of high-quality rigorous Phase II clinical trials to test promising therapeutics for pain. |
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1K24NS126570-01
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Mentorship in Precision Pain Medicine via the Early Phase Pain Investigation Clinical Network | Clinical Research in Pain Management | NINDS | Brigham and Women's Hospital | Edwards, Robert R | Boston, MA | 2021 | |
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NOFO Title: Midcareer Investigator Award in Patient-Oriented Research (Parent K24 Independent Clinical Trial Required)
NOFO Number: PA-20-193 Summary: Throughout clinical pain research, there is a need to increase the workforce of researchers familiar with individualized treatment strategies known as precision pain medicine. This mentoring award will leverage EPPIC-Net’s Clinical Coordinating Center resources to encourage interest in clinical pain management, in particular through multidisciplinary pain research projects. A selected clinician-researcher will mentor early career investigators and provide them with hands-on training activities and other skill-building experiences in clinical pain research, with a focus on precision pain medicine, biomarker development, and pain assessment. Mentoring activities will include formal educational coursework, inclusion in EPPIC-Net working groups, and collaborative writing experiences. |
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1K24NS126861-01
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Promoting high-quality chronic pain treatment trials through mentorship of junior investigators: A focus on study conduct and method development | Clinical Research in Pain Management | NINDS | UNIVERSITY OF ROCHESTER | Gewandter, Jennifer | Rochester, NY | 2021 | |
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NOFO Title: Midcareer Investigator Award in Patient-Oriented Research (Parent K24 Independent Clinical Trial Required)
NOFO Number: PA-20-193 Summary: Enhancing the workforce of pain investigators and practitioners is a key goal of the NIH HEAL Initiative. This mentoring award leverages the resources at one of EPPIC-Net’s Specialized Clinical Centers to encourage interest in clinical pain management, in particular through multidisciplinary pain research projects. A selected investigator will train early career clinical researchers on how to develop and validate relevant pain measures and outcomes in chronic pain conditions, including chemotherapy-induced peripheral neuropathy and neuropathic chronic low back pain. Mentoring activities will include formal research and analysis, active inclusion in EPPIC-Net working groups, and collaborative writing experiences. |
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3UG3NS123958-01S1
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Neuroimmune Mechanisms of a Humanized CCK-B Receptor scFv as Therapy for Chronic Pain Patients | Cross-Cutting Research | Training the Next Generation of Researchers in HEAL | NINDS | University of New Mexico | WESTLUND-HIGH, KARIN N | Albuquerque, NM | 2022 |
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NOFO Title: Research Supplements to Promote Diversity in Health-Related Research (Admin Supp Clinical Trial Not Allowed)
NOFO Number: PA21-071 Summary: There are currently few effective therapies available for chronic nerve injury-induced pain, associated anxiety, and depression. This project aims to extend previous research aiming to uncover the mechanism of action of artificially modified immune molecules (humanized cholecystokinin-2 receptor [CCKBR] single-chain variable fragments [scFv]) on human neurons and how it reverses chronic pain and anxiety-like behaviors in mouse models. This potential treatment approach offers important advantages over existing therapies, including extreme specificity, higher affinity, brain/nerve penetrance, safety, and reduced self-immunogenicity. |
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1UH3NS113661-01
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Deep Brain Stimulation of the Subgenual Cingulate Cortex for the Treatment of Medically Refractory Chronic Low Back Pain | Preclinical and Translational Research in Pain Management | Translating Discoveries into Effective Devices to Treat Pain | NINDS | UNIVERSITY OF CALIFORNIA LOS ANGELES | BARI, AUSAF (contact); POURATIAN, NADER | Los Angeles, CA | 2019 |
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NOFO Title: HEAL Initiative: Clinical Devices to Treat Pain (UH3 Clinical Trial Optional)
NOFO Number: RFA-NS-19-018 Summary: This study aims to address critical gaps and unmet therapeutic needs of chronic low back pain (CLBP) patients using a next-generation deep brain stimulation (DBS) device with directional steering capability to engage networks known to mediate the affective component of CLBP. Researchers will utilize patient-specific probabilistic tractography to target the subgenual cingulate cortex (SCC) to engage the major fiber pathways mediating the affective component of chronic pain. The objective is to conduct an exploratory first-in-human clinical trial of SCC DBS for treatment of medically refractory CLBP. The research team aims to: (1) assess the preliminary efficacy of DBS of SCC in treatment of medically refractory CLBP; (2) demonstrate the safety and feasibility of SCC DBS for CLBP; and (3) develop diffusion tensor imaging–based blueprints of response to SCC DBS for CLBP. |
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