Funded Projects

Chronic pain affects over 100 million Americans, costing society about $600 billion annually. Despite numerous pharmacological and non-pharmacological therapies, over 50% of chronic pain sufferers feel little control over their pain. CognifiSense has developed a patent-pending Virtual Reality Psychological Therapy (VRPT), which is designed to create lasting reduction of chronic pain by addressing the maladaptive learning processes driving pain chronification. VRPT is an experiential learning system, which provides the brain a new set of signals that teaches it that the pain is not as bad as it perceived and that it has greater control over the pain than it perceived. VRPT combines the immersive power and the ability to individualize the therapy of Virtual Reality with well-researched principles of self-distancing, self-efficacy, and extinction to retrain the brain. The goal of this study is to determine the clinical feasibility of VRPT in achieving a lasting reduction of chronic pain, establish brain mechanisms associated with treatment response, and collect comprehensive user feedback to enable further refinement of the current product prototype. CognifiSense's VRPT has the potential to be a significant clinical and business opportunity in the treatment of chronic pain.

Adolescents and young adults in justice settings (AYAJS) have some of the highest rates of opioid use disorder (OUD), with national rates approaching 20%. Multiple studies have established effectiveness of the Adolescent Community Reinforcement Approach with Assertive Continuing Care (ACRA/ACC) in reducing non-opioid substance use disorder (SUD); however, none have evaluated it as an OUD prevention strategy. SUD is common and costly among AYAJS; thus, ACRA/ACC-based approaches are likely to be effective and cost-beneficial OUD prevention strategies for this group. However, the optimal intensity of an ACRA/ACC-based OUD prevention intervention for AYAJS with and without non-opioid SUD is not known, as these groups are likely to have differing prevention needs. Seattle Children’s Hospital (SCH), University of Washington (UW), and Washington State Juvenile Rehabilitation (WSJR) will collaboratively evaluate ACRA/ACC-based OUD prevention strategies of different intensity levels among SUD and non-SUD youth.

Acute and chronic pain vary widely across patients, due in large part to genetic differences between individuals. The same variation occurs in preclinical animal models with diverse genetic backgrounds. The development of automated mouse “pain scales” using high-speed videography, machine learning, and custom software allows pain to be assessed in a quantitative manner in nonverbal animals. This technology will be used to identify genetically different mice with high or low pain sensitivity, which will facilitate the development of new therapeutic strategies to treat pain and reduce reliance on opioids.