Funded Projects

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Project #	Project Title	Research Focus Area	Research Program	Administering IC	Institution(s)	Investigator(s)	Location(s)	Year Awarded Sort descending
3S06GM128073-02S1 Show Summary	Native American Research Centers For Health (NARCH X)	New Strategies to Prevent and Treat Opioid Addiction	Preventing Opioid Use Disorder	NIGMS	INDIAN HEALTH COUNCIL, INC.	CALAC, DANIEL J.	Valley Center, CA	2018
NOFO Title: Native American Research Centers for Health (NARCH) (S06) NOFO Number: PAR-16-297
1R21AT010118-01 Show Summary	COMPREHENSIVE CBT VIA RESET FOR A HUB AND SPOKE MAT SYSTEM OF CARE	New Strategies to Prevent and Treat Opioid Addiction		NCCIH	Pennsylvania State University Hershey Medical Center	KAWASAKI, SARAH SHARFSTEIN; NUNES, EDWARD V.	Hershey, PA	2018
NOFO Title: Clinical Trials or Observational Studies of Behavioral Interventions for Prevention of Opioid Use Disorder or Adjunct to Medication Assisted Treatment-SAMHSA Opioid STR Grants (R21/R33) NOFO Number: RFA-AT-18-002 Summary: This study proposes to test the delivery of a comprehensive cognitive behavioral therapy, reSET, to determine whether it can improve treatment adherence and long-term outcome among patients with opioid use disorder initiating medication-assisted treatment within a community-based"Hub and Spoke” Model of buprenorphine maintenance in central Pennsylvania. reSET (Pear Therapeutics, Inc.) is a commercially available version of the web-based Therapeutic Education System (TES) delivered as a mobile app and recently approved by the FDA as the first digital therapeutic adjunct for the treatment of substance use disorders. Through a series of interactive therapy lessons, the program teaches patients cognitive-behavioral coping skills to resist drug use and to address factors such as craving, depression, and other mood problems and relationship issues that are associated with risk of relapse. The CM component provides concrete rewards contingent on performance of key target behaviors.
3U54DA038999-05S1 Show Summary	MEDICATION DEVELOPMENT CENTER FOR COCAINE USE DISORDER	Novel Therapeutic Options for Opioid Use Disorder and Overdose		NIDA	VIRGINIA COMMONWEALTH UNIVERSITY	MOELLER, FREDERICK GERARD	Richmond, VA	2018
NOFO Title: Medications Development Centers of Excellence Cooperative Program (U54) NOFO Number: RFA-DA-15-003 Summary: This U54 Center will use translational research from brain to bedside as a tool for medication development in cocaine use disorder. Preclinical and early phase I clinical PK/PD data will provide information for go/no-go decisions on phase II–III clinical trials with medications that show promise for cocaine use disorder. The overall goal of this research is to create a center that can provide important preclinical and early phase I clinical data to NIDA and pharmaceutical industry partners on novel compounds for cocaine use disorder. The aims related to the theme of the center will be achieved through two cores and three projects: The Administrative Core serves as a general resource for the other projects and the Educational Core, including oversight of fiscal and compliance matters, and will oversee interactions with outside entities, including NIDA and the pharmaceutical industry. The Educational Core will focus on training translational researchers for medication development for addictions across the two institutions.
3R01NS098826-02S1 Show Summary	PROTEASE ACTIVATED RECEPTOR TYPE 2 TARGETING FOR MIGRAINE PAIN	Preclinical and Translational Research in Pain Management		NINDS	UNIVERSITY OF TEXAS DALLAS	PRICE, THEODORE J; BOITANO, SCOTT; DUSSOR, GREGORY O; VAGNER, JOSEF	RICHARDSON, TX	2018
NOFO Title: Administrative Supplements to Existing NIH Grants and Cooperative Agreements (Parent Admin Supp Clinical Trial Optional) NOFO Number: PA-18-591 Summary: Migraine is the most common neurological disorder. Currently available treatments fail to effectively manage migraine in most patients. Development of new therapeutics has been slow due in large part to a poor understanding of the underlying pathology of migraine. Endogenous proteases, released in the meninges by resident mast cells, have been proposed as a potential driver of migraine pain via an action on protease activated receptor type 2 (PAR2). The central hypothesis is that PAR2 expression in nociceptors that project to the meninges plays a key role in the pathogenesis of migraine pain. The aims are to: 1) use the established PAR2 development pipeline to design new PAR2 antagonists with improved drug-like properties; 2) use pharmacological tools in a novel mouse migraine model to further understand the potential role of PAR2 in migraine; and 3) use mouse genetics to study the cell type–specific role of PAR2 in migraine pain.
5R01NS094461-04 Show Summary	Clustering of individual and diverse ion channels together into complexes, and their functional coupling, mediated by A-kinase anchoring protein 79/150 in neurons	Preclinical and Translational Research in Pain Management	Discovery and Validation of Novel Targets for Safe and Effective Treatment of Pain	NINDS	UNIVERSITY OF TEXAS HLTH SCI CTR SAN ANTONIO	SHAPIRO, MARK S	San Antonio, TX	2018
NOFO Title: Administrative Supplements for Validation of Novel Non-Addictive Pain Targets (Clinical Trials Not Allowed) NOFO Number: NOT-NS-18-073 Summary: Multi-protein complexes have emerged as a mechanism for spatiotemporal specificity and efficiency in the function and regulation of cellular signals. Many ion channels are clustered either with the receptors that modulate them or with other ion channels whose activities are linked. Often, the clustering is mediated by scaffolding proteins, such as AKAP79/150. We will probe complexes containing AKAP79/150 and three different channels critical to nervous function: KCNQ/Kv7, TRPV1, and CaV1.2. We will use"super-resolution" STORM imaging of primary sensory neurons and heterologously expressed tissue-culture cells, in which individual complexes can be visualized at 10–20 nm resolution with visible light. We hypothesize that AKAP79/150 brings several of these channels together to enable functional coupling, which we will examine by patch-clamp electrophysiology of the neurons. Since all three of these channels bind to AKAP79/150, we hypothesize that they co-assemble into complexes in neurons and that they are dynamically regulated by other cellular signals.