Funded Projects

Myofascial pain syndrome is a prevalent and debilitating condition and can aggravate other conditions such as sickle cell disease. This project will use total body imaging using positron emission tomography/computed tomography (TB-PET/CT) to identify and monitor this pain syndrome and potential treatments over time. The research will use TB-PET/CT to assess myofascial tissue effects of chronic low back pain and sickle cell disease pain. The first phase of the project will assess health changes observed by TB-PET/CT imaging in painful and non-painful myofascial tissues compared to healthy myofascial tissue. The second phase of the research will be a randomized, controlled longitudinal interventional study to evaluate the effectiveness of acupuncture on myofascial pain syndrome, using TB-PET/CT imaging to assess changes.

Pain signals originate predominantly in a subset of peripheral sensory neurons that harbor a distinct subset of voltage-gated sodium (NaV) channels; however, current NaV channel blockers, such as local anesthetics, are non-selective and also block NaV channels vital for function of the heart, muscle, and central nervous system. Genetic studies have identified human NaV1.7, NaV1.8, and NaV1.9 channel subtypes as key players in pain signaling and as major contributors to action potential generation in peripheral neurons. ProTx-II is a highly potent and moderately selective peptide toxin that inhibits human NaV1.7 activation. This study will optimize ProTx-II selectivity, potency, and stability by exploiting the new structures of ProTx-II—human NaV1.7 channel complexes, advances in rational peptide optimization, and rigorous potency and efficacy screens to generate high-affinity, selective inhibitors of human NaV1.7, NaV1.8, and NaV1.9 channels that can define a new class of biologics to treat pain.

Buprenorphine has been shown to be is an effective method for treating Opioid Use Disorder (OUD). However, despite its success, treatment retention rates are notoriously low ? about half of those seeking treatment will have dropped out within the first 6 months. One factor known to negatively impact treatment adherence is stigma. This stigma derives from not only being viewed as individuals with OUD, but even as individuals seeking medications for OUD as these medications often include other forms of opioids. Additionally, individuals with OUD often suffer from other conditions, including psychiatric illness, leading them to live with multiple stigmatized identities. This study will develop tools to assess stigma associated with OUD, seeking medical treatment for OUD, and mental health. This knowledge will then be used to adapt the parent award?s mobile Health intervention intended to overcome stigma barriers and increase adherence to buprenorphine treatment for OUD.

Oral cancer pain is debilitating and difficult to treat, in part because even the most effective available pain remedies are limited by side effects. Opioid-based pain medications have several side effects including dependence and tolerance, in which the body gets used to a medicine so that either more medicine is needed or different medicine is needed. Another side effect is hyperalgesia, in which people taking opioids become more sensitive to certain painful stimuli and may misuse the drugs and risk addiction. This project will evaluate lab-made versions of cannabinoid molecules known to block pain signals in nerve cells, but which cannot enter the brain to cause neurological side effects. The research aims to advance promising versions of the molecules to testing in human research participants.

The overarching goal of the Greater Southern California Node (GSCN) of the National Drug Abuse Treatment Clinical Trials Network (CTN) is to expand access to and improve outcomes of treatments for substance use disorders (SUDs)—with a special emphasis on opioid use disorder (OUD). The specific aims of GSCN include the development of new research protocols, support of multi-site CTN projects, and dissemination of research findings. The GSCN research agenda includes four priority areas: (1) developing and testing effective interventions for OUD and related comorbidities, (2) applying implementation science to deliver and expand OUD treatment, (3) leveraging electronic health record systems and data science generation of innovative approaches to improve treatment for OUD, and (4) expanding OUD treatment access and utilization through mHealth and other technologies. The GSCN research agenda reflects its capacity to collaboratively expand CTN efforts to develop and implement innovative approaches to improve treatment for OUD.

Social big data analysis of publicly available user data on social media platforms is a promising approach for attaining organic observations of behavior that can monitor and predict real-world public health problems, such as HIV incidence. In preliminary research, our team identified and collected tweets suggesting HIV risk behaviors (e.g., drug use, high-risk sexual behaviors), modeled them alongside CDC statistics on HIV diagnoses, and found a significant positive relationship between HIV-related tweets and county-level HIV cases. We propose to create a single automated platform that collects social media data, identifies and labels tweets that suggest HIV-related behaviors, and predicts regional HIV incidence. We will interview staff and participants at local and regional HIV organizations to understand ethical issues associated with mining people’s data. The software developed from this application will be shared with HIV researchers and health care workers to combat the spread of HIV.

A current obstacle to developing more effective therapies for chronic low back pain is the lack of clinical trials assessing the feasibility and potential effectiveness of promising new targets for neuromodulation. This project will explore the feasibility of using deep brain stimulation of a new brain target for treating chronic low back pain. The study will also explore imaging biomarkers in patients with chronic low back pain that can be used to predict whether someone is a candidate or may respond to deep brain stimulation therapy, to guide programming and patient selection for this therapy in the future.

Safe and effective options are urgently needed to prevent and treat opioid use disorder and polysubstance use disorders. Previous research in humans and animals suggests that activating the calcium-activated potassium channel KCa2.2 is a promising therapeutic approach for treating substance use disorders and associated health conditions. This project will perform a virtual high-throughput screen using novel machine learning approaches to discover new molecules that interact with the KCa2.2 channel. The newly discovered molecules help develop novel drugs for the treatment of opioid use disorder and associated health conditions.

Prescription opioids provide pain relief, but overdose can be fatal because opioids also depress breathing through opioid-induced persistent apnea, when breathing stops. This research will determine whether targeted activation of a specific, opioid-insensitive brain region that triggers exhalation can increase tolerance to fentanyl-induced apnea. The research also seeks to identify the receptors responsible for this exhalation, which could be targets for new medications that prevent the negative impact of opioids on breathing. This research lays the groundwork for more preclinical and translational studies to prevent opioid-induced persistent apnea. 

The California Clinical and Translational Pain Research Consortium (CCTPRC) consists of four University of California academic medical centers with considerable experience in pain management clinical trials, phenotyping, and biomarker validation. The network will leverage solid existing Clinical and Translational Science Award (CTSA) resources to make clinical trial execution efficient and rapid. The hub will be located at the University of California, San Diego, with spokes located on the other three campuses to provide maximum flexibility, ready to accommodate studies in a variety of pain conditions and provide successful recruitment and high-quality data collection.

The HEALthy Brain and Child Development National Consortium (HBCD-NC) Administrative Core (HCAC) will coordinate efforts across all sites in the HBCD-NC consortium to ensure that the consortium meets its primary objective to establish a normative model of developmental trajectories over the first 10 years of life. The HBCD-NC will collect neural, behavioral, physiological, and psychological measures, as well as biospecimens, to characterize neurodevelopmental trajectories. The HCAC will oversee study design and monitor the progress of each site’s ability to carry out a common research protocol and will assemble and distribute a comprehensive research dataset to the scientific community. This administrative core is located at the University of California, San Diego.

Opioid use during pregnancy is associated with adverse outcomes for pregnant individuals and offspring. The mechanisms through which these outcomes arise and the consequences of prenatal opioid exposure on child health and development remain largely unexplored. The HEALthy Brain and Child Development (HBCD) Study is a nationwide longitudinal prospective study of early child development that will assess a broad spectrum of biological, behavioral, social, and health factors among 7,500 pregnant women and their children from pregnancy to mid-childhood. This supplement will expand the biospecimen collection of the HBCD protocol at the University of North Carolina at Chapel Hill to include delivery specimens (placenta, cord tissue, and cord blood). This will provide an unprecedented resource-generating opportunity for the larger scientific community to comprehensively evaluate mechanisms that mediate the connection between substance use during pregnancy and adverse neonatal, infant, and/or maternal health outcomes and inform innovative preventive strategies.