Funded Projects

Rates of neonatal abstinence syndrome (NAS) have skyrocketed during the last decade, and estimates suggest that 5% of mothers use at least one addictive drug during their pregnancy. To address this public health crisis, multiple groups—including the American College of Obstetricians and Gynecologists and the American Academy of Pediatrics—recommend universal screening of substance use in pregnancy using standardized behavioral scoring tools. Unfortunately, such tools are often biased due to subjective scoring or self-reporting errors, and fail to identify babies who did not receive proper prenatal care. This project will develop a fast and accurate NAS screening tool that pairs a simple sample preparation protocol with a high-sensitivity panel of homogeneous enzyme immunoassays recognizing five common classes of drugs: fentanyl, morphine, amphetamine/methamphetamine, cocaine, and benzodiazepines. The potential benefits of such a system include reduced length of hospitalization for unaffected newborns, accelerated time to confirmatory results (under 2 hours), faster resolution of acute withdrawal symptoms, and improved referral to family/maternal support services.

Newborn Abstinence Syndrome, which results from maternal opioid drug use prior to birth, is a serious condition that affects approximately 6% of all neonates born today in the U.S. and which is increasing rapidly in incidence because of this epidemic. Availability of a rapid screening test that can be administered at the point of care to all neonates would allow for early intervention, reducing costs of treatment and reducing pain and suffering for this vulnerable and helpless patient population. Providing a platform to accurately monitor actual levels of these drugs and their metabolites in such patients would allow better-controlled use of these pain management treatments, personalized to the needs of the individual neonate, and would reduce the probability of addiction and resulting complications, which include deleterious neurological effects. The purpose of this FastTrack SBIR project is to expand upon preliminary results that a device can sensitively and accurately detect opioids and their primary urinary metabolites in one-microliter urine samples, in less than a minute after sample introduction into the device, and adapt the device into a point-of-care instrument for use in hospitals, clinics, and other venues in which such tests are likely to be deployed.

Pain caused by degenerative joint diseases such as osteoarthritis (OA) is a major public health challenge that significantly affects quality of life for millions of Americans. There are no therapies available that offer pain relief and reverse the course of OA.  This project will use state-of-the-art technologies to create a neuronal connectivity and molecular map of the mouse knee joint, which will help identify molecular signatures that can be targeted for therapy. The research will include animals of different ages and of both sexes and test joint effects after exercise, in animals with OA, and after gene therapy that delivers an experimental OA medication directly to the joint.

This study will examine the epidemiology of injection drug use, its infectious consequences, and service accessibility among young persons who inject drugs (PWID) in 15 rural counties in Maine, New Hampshire, and Vermont, then implement an integrated telemedicine approach to treat opioid use disorder (OUD) and reduce infections and overdose. The UG3 phase will characterize the risk environment and epidemiology of OUD, its infectious complications, opioid overdose, risk behaviors, service use, and needs in young PWID in these counties. An environmental assessment of policy and infrastructure will examine available services, needs, and gaps. The UH3 phase will evaluate the effectiveness of a regionalized integrated model of expanded service delivery for rural PWID. This project will provide in-depth understanding of high-risk rural PWID, inform community response strategies, and implement a comprehensive, integrated approach to treat OUD and reduce overdose and infectious complications among PWID in the rural United States.

With the entwined crises of opioid use and chronic pain, there is a need for alternative, safe therapies to manage opioid use disorder, opioid withdrawal symptoms, chronic pain, and/or associated anxiety and depression. A proof-of-concept preclinical study has already been conducted of a cannabinoid-opioid combination that demonstrated opioid-sparing and synergistic analgesic effects, with the combination providing greater analgesia in a rodent model of chronic pain than a standard dose of the opioid alone. This proposal aims to develop a fixed-dose combination (FDC) of the cannabinoid-opioid that may have improved analgesia with lower opioid doses and thereby lower the risk of dependence, withdrawal, diversion, abuse, and overdose. Preclinical pharmacokinetic and ?in vivo ?safety studies will help determine if co-administration alters the pharmacokinetics and/or respiratory depression related to either compound in rodents.

Most people with opioid use disorder are either not in treatment or receive inconsistent treatment. Peer support is proven to be effective at engaging patients who are unwilling or unable to seek traditional treatment, but commonly available group support models are often separate from other clinical care or are otherwise hard for patients to access. This research will test a novel, machine learning enabled, digital peer support program added to an anonymous text-based social network that can provide 24/7 support for patients at all stages of recovery. The project will examine the ability of this digital service to engage and retain patients with opioid use disorder and will also develop novel techniques to automatically analyze patient messages for clinical and social determinants of health-related needs.

Current clinical screening measures for opioid misuse are underused and susceptible to bias. This project will develop Beacon-OUD, a digital opioid misuse assessment. The tool generates an automated, standardized score, preventing potential judgements related to patient’s status and circumstances, limiting stigma. The research will further advance Beacon-OUD into a commercial product for use both as a stand-alone tool and as an electronic health record-integrated solution to encourage objective opioid misuse screening in large health care systems. 

Neuropathic pain is a chronic and difficult to treat condition that affects people in different ways. This project aims to personalize treatments based on individual pain profiles. The research will develop an inexpensive test using a technique called quantitative sensory testing to predict how a patient will respond to two common pain medications. The research will also look for other factors in blood that enhance the accuracy of these predictions.

The opioid antagonist naltrexone (NTX) is a proven treatment for opioid use disorder (OUD); however, lack of adherence is a serious limitation that has prevented NTX from reaching its maximum therapeutic potential. To address this limitation, BioCorRx is developing BICX102, a subcutaneous solid depot pellet of NTX, a single implantation of which can provide continual blockade of opioid receptors for up to 3 months. This can prevent patients from being adversely affected by almost any opioid relapse event, while improving efficacy and adherence to behavioral programs that support long-term management and recovery. This proposal comprises the steps required to achieve FDA approval. Successful development of BICX102 would result in a safe and effective 3-month subcutaneous depot pellet/implant containing NTX (1,000 mg) that would be far less reliant on patient compliance.

There are no FDA-approved medications for stimulant use disorders, and therapies for opioid use disorders remain suboptimal in ways that are now a focus of national attention. Thus, there is a clear need to identify new targets and explore new approaches for addiction medication development. Several lines of evidence suggest that PTPRD (receptor type protein tyrosine phosphatase D) may be a promising target for development of pharmacotherapeutics to treat not only stimulant use disorders but opioid use disorders as well. This research will focus on improving existing PTPRD ligands, identifying their effects on the dopamine and opioid systems, and moving the best novel, patentable PTPRD ligands toward human studies. If successful, this project will generate novel, well-tolerated, and bioavailable PTPRD ligands that display in vitro potency, selectivity and stability, and in vivo modulation of both cocaine and opioid-mediated reward at doses that present no significant toxicity.

Opioids like morphine and hydrocodone are generally the most effective therapeutics for treatment of moderate to severe pain. However, their use is limited by serious side effects: tolerance, constipation, respiratory depression, physical dependence, and high addictive potential. Alternative pain relievers with the analgesic potency of conventional opioids, but devoid of narcotic side effects, are an immediate need. The goal of this project is to develop and commercialize an alternative to conventional opioid analgesics with reduced side effects and without the addictive properties common to mu-opioid agonists, targeting a new molecule in the central nervous system. This project will perform the necessary preliminary studies to prepare this new molecule for an investigational new drug application with the FDA.

The HEALthy Brain and Child Development National Consortium (HBCD-NC) will establish a normative model of developmental trajectories over the first 10 years of life. All sites in the HBCD-NC will carry out a common research protocol and will assemble and distribute a comprehensive research dataset to the scientific community. The HBCD-NC will collect neural, behavioral, physiological, and psychological measures, as well as biospecimens, to characterize neurodevelopmental trajectories. Most  participants will be recruited in the second trimester of pregnancy, with a smaller subset recruited at birth, and followed for the first 10 years of life. The Boston Children’s Hospital study site is in Massachusetts, which has the fifth highest rate of opioid use in the U.S., and twice the U.S. average incidence of opioid use disorder in delivering mothers.

High rates of relapse and overdose deaths pose significant challenges to the treatment of Opioid Use Disorder (OUD). Anti-opioid immunotherapies (i.e., vaccines and monoclonal antibodies) have great potential to reduce long-term opioid use and overdose, with minimal risk of side effects, when used in conjunction with pharmacological treatments and/or behavioral therapies. The ability of an anti-opioid vaccine to induce antibodies that render an opioid less effective, or less rewarding, and protect from accidental overdose could provide an important therapeutic option for patients undergoing treatment for OUD. The goal of this collaborative study is to design, develop, and evaluate vaccines for use in the treatment of opioid use disorder