Clinical Research Directory

Mindfulness-Based Intervention for Pediatric Mild Traumatic Brain Injury

Formal MBIs, such as Mindfulness-Based Stress Reduction (MBSR), have been shown to increase resiliency and teach affect regulation. However, these formal interventions may not be suitable for acutely concussed youth as they are costly, not easily accessible (trained therapists are needed), and require commitment from parents and children for in-person weekly meetings and at-home practice of learned skills for 8 to 16 weeks. Further, MBSR programs may not be readily accessible immediately after a concussion. With the increasing use of mobile phones and tablets in youth, mobile health offers a powerful platform for mental health interventions. Advantages of app-based interventions include constant availability, greater access, tailored content, lower cost, immediate delivery, and increased service capacity and efficiency. Therefore, the anticipated benefit is to show the efficacy of a pragmatic and low-cost intervention and reduce barriers to care through a novel, innovative and accessible MBI treatment program. This will have both a benefit to public health and expand our understanding of the impact of MBIs on pediatric recovery.

Sport-Related Concussion Recovery in Athletes

The goal of this study is to enhance the accuracy and sensitivity of concussion evaluation by integrating traditional assessment tools with emerging neuroimaging technologies, such as Functional Near-Infrared Spectroscopy (fNIRS). By systematically collecting data across multiple assessment domains-including sideline evaluations, neurocognitive testing, balance assessments, vestibular/ocular-motor screening (VOMS), and brain activity measurements-this study aims to improve the diagnostic process and ensure a safer return-to-play protocol for athletes recovering from sport-related concussions. Research Questions: 1. How do traditional concussion assessment tools (SCAT, computerized neurocognitive tests, balance tests, and VOMS) compare to fNIRS in detecting changes in brain function following a sport-related concussion? 2. What is the relationship between pre-injury baseline measures, acute post- injury assessments, and recovery-phase evaluations in athletes diagnosed with a sport-related concussion? 3. Can fNIRS improve the sensitivity and specificity of concussion diagnosis compared to existing clinical assessments? 4. How do clinical symptoms, medical history, and other individual factors influence concussion recovery and return-to-play timelines? 5. Does integrating fNIRS with traditional assessment tools enhance the ability to track recovery progression and inform return-to-play decisions? This study provides a comprehensive evaluation of concussion diagnosis and recovery while assessing the added value of fNIRS technology in improving clinical decision-making.