Funded Projects

Despite the need for non-opioid treatments for chronic pain, few alternative treatment approaches exist. Transcutaneous auricular neurostimulation (tAN) is a safe and effective treatment for pain during opioid withdrawal; however, researchers do not understand how tAN reduces pain, which limits its clinical use. A better understanding of how tAN affects neurophysiological processes to provide pain relief would likely expand tAN development and use. This interdisciplinary project will conduct research in both healthy adults and those with chronic pain to explain the neurochemical and neurophysiological mechanisms for tAN-based pain relief, and also help optimize treatments and their use.

Despite psychopathology robustly increasing the risk for later substance use disorders (SUD), remarkably few studies have examined the impact of treating psychopathology on reducing rates of opioid use disorder (OUD), nicotine, and SUD. The main aims of this study are to implement a pragmatic set of office-based instrumentation using patient related outcome measures linked to electronic health records (EPIC) for intake and follow-up assessments to evaluate psychopathology, OUD, nicotine use disorder, and other SUDs in young people aged 16-30 years old who are receiving psychopathology treatment as part of routine outpatient clinical care. The study will also examine similar age patients with non-opioid SUD in outpatient SUD treatment settings to examine the impact of treatment in mitigating the development of OUD. Data derived from this study will help inform clinical guidelines and public health policy and provide important secondary outcomes for further work on the prevention of OUD, nicotine use disorder, and other SUDs in relation to early-onset psychopathology.

Inhibitors of the epigenetic enzymes histone deacetylases (HDACs) produce analgesic responses and are therefore therapeutic targets for pain. The research team recently resolved a PET imaging agent, [11C]Martinostat, that selectively binds to a subset of HDAC enzymes. A series of initial proof-of-concept clinical validation studies will be conducted to evaluate whether [11C]Martinostat PET is a sensitive biomarker to detect the typical (axial) chronic low back pain (cLBP). The research team will validate [11C]Martinostat PET’s ability to differentiate subtypes of pain by comparing axial cLBP and other cLBP patients with radiculopathy and longitudinally study subacute LBP patients (sLBP) to investigate whether there is a unique imaging signature that differentiates patients who develop cLBP and those who recover from low back pain. Using [11C]Martinostat to understand HDAC expression changes in chronic pain patients will validate an epigenetic drug target, refine patient selection based on HDAC expression, and facilitate proof of mechanism in developing novel analgesics.