Funded Projects

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Project #	Project Title	Research Focus Area	Research Program	Administering IC	Institution(s)	Investigator(s) Sort descending	Location(s)	Year Awarded
1R61DA057660-01 Show Summary	Fatal Overdose Review Teams – Research to Enhance Surveillance Systems (FORTRESS)	Cross-Cutting Research	Translating Data 2 Action to Prevent Overdose	NIDA	INDIANA UNIV-PURDUE UNIV AT INDIANAPOLIS	AALSMA, MATTHEW (contact); RAY, BRADLEY ; REDA, KHAIRI	Indianapolis, IN	2022
NOFO Title: HEAL Initiative: HEAL Data2Action Innovation Projects (R61/R33 Clinical Trial Optional) NOFO Number: RFA-DA-22-051 Summary: Overdose fatality review teams review cases of overdose deaths to identify system gaps and innovative prevention and intervention strategies. With the rise in overdose deaths, these multidisciplinary teams require more timely population-level data to inform their recommendations. This project will develop the Overdose Touchpoints Dashboard that uses real-time data and records from multiple sources to help visualize common “overdose touchpoints” for harm reduction services and treatment opportunities. This research will compare use of the dashboard to standard overdose fatality review practices. The project will assess multiple aspects related to use of the dashboard, including process, staff attitudes, implementation successes, and usability.
1DP2NS130454-01 Show Summary	Using Mouse Pain Scales to Discover Unusual Pain Sensitivity and New Pain Targets	Cross-Cutting Research	Training the Next Generation of Researchers in HEAL	NINDS	COLUMBIA UNIV NEW YORK MORNINGSIDE	ABDUS-SABOOR, ISHMAIL JOHN	New York, NY	2022
NOFO Title: Emergency Awards: HEAL Initiative- New Innovator Award (DP2 Clinical Trial Not Allowed) NOFO Number: RFA-TR-22-013 Summary: Acute and chronic pain vary widely across patients, due in large part to genetic differences between individuals. The same variation occurs in preclinical animal models with diverse genetic backgrounds. The development of automated mouse “pain scales” using high-speed videography, machine learning, and custom software allows pain to be assessed in a quantitative manner in nonverbal animals. This technology will be used to identify genetically different mice with high or low pain sensitivity, which will facilitate the development of new therapeutic strategies to treat pain and reduce reliance on opioids.
3U24HD095254-03S1 Show Summary	DATA COORDINATING CENTER FOR THE NICHD NEONATAL RESEARCH NETWORK (U24)	Enhanced Outcomes for Infants and Children Exposed to Opioids	Advancing Clinical Trials in Neonatal Opioid Withdrawal (ACT NOW)	NICHD	Research Triangle Institute	Abhik Das	Research Triangle Park, NC	2020
NOFO Number: PA-18-591 Summary: Neonatal opioid withdrawal syndrome (NOWS) has emerged as a tragic by-product of the opioid epidemic. Newborns whose mothers used opioids while pregnant can experience symptoms of opioid withdrawal in the days following birth, such as tremors, irritability, seizures, sleep, digestive, and feeding problems. However, little is known about the effect of antenatal opioid exposure on longer-term infant development over time. To address this gap in understanding, the ACT NOW Longitudinal study is examining a crucial developmental period from birth to two years of life through a comprehensive battery of assessments, including MRI imaging, neurodevelopmental behavioral assessments, and family report measures. This longitudinal cohort study is projected to include a total of 375 infants, 250 who were exposed to opioids and 125 matched controls.
3UG3DA047793-01S1 Show Summary	tDCS to decrease opioid relapse	Novel Therapeutic Options for Opioid Use Disorder and Overdose	Focusing Medication Development to Prevent and Treat Opioid Use Disorder and Overdose	NIDA	BUTLER HOSPITAL (PROVIDENCE, RI)	Abrantes, Ana M	Providence, RI	2019
NOFO Title: Administrative Supplements to Existing NIH Grants and Cooperative Agreements (Parent Admin Supp Clinical Trial Optional) NOFO Number: PA-18-591 Summary: Neurostimulation techniques, such as transcranial direct current stimulation (tDCS), have been used as interventions for substance use disorders. This is a supplement to the currently NIDA-funded UG3 DA047793, “tDCS to Decrease Opioid Relapse,” which will measure behavioral and brain responses following tDCS stimulation delivered during tasks that use a particular brain network involved in cognitive control, and utilizing FMRI to assess the effects. This supplement allows the researchers to add an EEG measurement to the study, to get a complete picture of how tDCS might affect the function of key brain networks in ways that could be helpful for SUDs.
1UG3DA047793-01 Show Summary	TDCS TO DECREASE OPIOID RELAPSE	New Strategies to Prevent and Treat Opioid Addiction	Translational Research to Advance Testing of Novel Drugs and Human Cell-Based Screening Platforms to Treat Pain and Opioid Use Disorder	NIDA	Butler Hospital	ABRANTES, ANA M.; STEIN, MICHAEL D	PROVIDENCE, RI	2018
NOFO Title: Device-Based Treatments for Substance Use Disorders (UG3/UH3, Clinical Trial Optional) NOFO Number: PAR-18-494 Summary: Neurostimulation techniques, such as transcranial direct current stimulation (tDCS), have been used as interventions for substance use disorders. This is a supplement to the currently NIDA-funded UG3 DA047793, “tDCS to Decrease Opioid Relapse,” which will measure behavioral and brain responses following tDCS stimulation delivered during tasks that use a particular brain network involved in cognitive control, and utilizing FMRI to assess the effects. This supplement allows the researchers to add an EEG measurement to the study, to get a complete picture of how tDCS might affect the function of key brain networks in ways that could be helpful for SUDs.