Funded Projects

Millions of Americans undergo surgery each year, with fewer than half of patients reporting adequate postoperative pain relief and approximately 75 percent reporting moderate to severe postoperative pain. Gaps in postoperative pain management that lead to the unnecessary introduction and over-prescription of opioids continue to exacerbate the opioid crisis, but virtual reality (VR) has been demonstrated to be an effective strategy for pain management. This project will enhance and improve the functionality of a VR-based technology, AppliedVR, to provide acute perioperative pain management through a new software-based VR medical device, RelieVRx™. As a non-opioid alternative intended to reduce postoperative pain, RelieVRx can potentially reduce the need for and utilization of opioids in the postoperative setting.

While effective treatments exist for substance use disorders, adhering to treatment and retaining patients in treatment can be a challenge. The objectives of this project are to facilitate the implementation of loyalty/reward-based programs to increase adherence to medical treatment among patients with substance use disorders through innovative solutions to common challenges. Building on experience developing software to promote patient appointment attendance, the project will build a new tool to test on a sample of 10 providers and 10 patients who are prescribed but not fully adherent to substance use disorder treatment. Patients will receive tailored text messages (in English or Spanish) encouraging adherence, self-report their treatment adherence (which will be verified through smart pill caps and biological testing), earn points for adherence that can be exchanged for rewards customized for them based on a baseline survey, and report their satisfaction with the program and process at the end of the 4-week study. This pilot will assess the feasibility and perceived usefulness of the product in support of eventual larger-scale testing in a clinical trial.

Opioid agonist therapy (OAT), such as buprenorphine/naloxone (BUP/NAL), is proven effective against opioid use disorder (OUD), but poor medication adherence is a major barrier. This project aims to substantially increase adherence to oral BUP/NAL with Pillsy, a smart technology platform, which acts like a digital medication coach, providing education and reminders using a mobile app, text messages, and automated phone calls. The platform is built around a Bluetooth-based smart pill bottle cap that automatically tracks doses and timing, and sends intelligent reminders to create a unique feedback loop, which allows constant optimization of the incentive/reminder messages to meet user needs to increase adherence. A dashboard enables providers to easily track medication use and patient engagement. The Pillsy platform only nominally increases the cost of oral BUP/NAL treatment, and physicians can bill for monitoring time (CPT code 99091). The project team will adapt the current Pillsy platform and perform a randomized efficacy trial of BUP/NAL adherence.

Pain is one of the most common and debilitating symptoms of a wide range of injuries and diseases. Safe and effective alternatives for treating pain that reduce dependence on opioids are, therefore, a primary goal of the NIH. This project proposes a non-invasive, non-pharmacological alternative to treat pain by combining an innovative electroencephalography (EEG)-based Neurofeedback (NF) solution in an immersive virtual reality (VR) environment. NF and VR have been shown to independently produce ameliorative effects on pain, and it is hypothesized that an NF training in VR would have synergistic effects, as VR would distract from pain perception to improve patient compliance in more engaging NF protocols that improve their ability to control pain perception. In the scope of this project, we will initially focus our work on chronic low back pain (cLBP), as this is a growing segment of chronic pain sufferers with a 39 percent worldwide lifetime prevalence, and whose sufferers have historically been heavy users of opiates; later stages of this project will expand this application to address other forms of pain.

 Chronic persistent post-operative pain (CPOP) is a devastating outcome from any type of surgical procedure. Its incidence is anywhere between 20-85% depending on the type of surgery, with thoracotomies showing one of the highest annual incidences of 30-60%. Given that millions of patients (approximately 23 million yearly based on incidence) are affected by CPOP, the results are increased direct medical costs, increased indirect medical costs due to decreased productivity, and associated negative effects on an individual’s physical functioning, psychological state, and quality of life. Given these extensive public health and economic consequences there is a resurgence of research in the area of preventative analgesia.  The goal of this project is to evaluate a novel small molecule antagonist of MD2-TLR4, DT-001 in preclinical models of surgical pain representative of persistent post-operative pain. In collaboration with University of California, San Diego, DT-001 will be evaluated for its ability to block the development of neuropathic pain states. These studies will evaluate dose escalating efficacy of DT001 in rats in formalin and spinal nerve injury (SNI) models using both intrathecal and intravenous routes of administration. Tissues will be preserved to assess functional effects on relevant pain centers for analysis by Raft. With demonstration of efficacy, these studies will determine the optimal dose and route of administration of DT001 and guide a development path to IND and eventually clinical trials.