Clinical Research Directory

Efficacy and Feasibility Trial of a Portable Near Infra-Red Hematoma Imager (NIRD-HI)

Traumatic Brain Injury (TBI) is a leading cause of death and disability among military personnel, Veterans, and civilians. One of the most dangerous complications of moderate-to-severe TBI is intracranial hemorrhage (ICH). If not identified and treated promptly, ICH can rapidly lead to worsening neurological damage or death. Current diagnostic tools, such as CT scans, are highly effective but impractical for battlefield or resource-limited environments due to their large size and infrastructure dependency. The Near-Infrared Detection-Head Imaging (NIRD-HI) system is an innovative, noninvasive device using Near-Infrared Spectroscopy (NIRS) to identify abnormal blood accumulation. Unlike traditional tools, NIRD-HI is compact, lightweight, and portable, making it suitable for remote or austere settings. By dynamically imaging the brain, it generates 3D visualizations that pinpoint the size and location of bleeds, including complex bilateral injuries. This offers a significant improvement over current point-of-injury technologies that lack the resolution to reliably diagnose all forms of ICH. This study supports the FY24 Combat Readiness Medical Research Program by advancing battlefield diagnostic and triage capabilities. The research will: * Evaluate NIRD-HI's accuracy compared to CT imaging. * Assess feasibility in real-world acute care settings. * Investigate its ability to monitor changes in ICH over time. These objectives address the military's need for tools that improve rapid diagnosis and decision-making during emergencies. Implementing this research can revolutionize TBI management. For Service Members, NIRD-HI promises a field-ready solution for early detection, enabling faster intervention and more effective triage. By reducing diagnostic delays, it could save lives and prevent long-term complications. Furthermore, the system supports prolonged field care by providing continuous monitoring of evolving injuries. The benefits extend to civilian healthcare, particularly in rural or underserved areas lacking advanced imaging. This accessibility can improve trauma care outcomes for millions, reduce the burden on healthcare systems, and provide equitable distribution of life-saving technology. By addressing gaps in battlefield medicine, this project aims to enhance medical readiness and improve survivability in the most challenging environments.

Upper Airway Ultrasound Evaluation

Current guidelines support the use of predictive clinical tests in the evaluation of difficult airway, meaning either difficult bag and mask ventilation, conventional laryngoscopy and/or endotracheal intubation. However, despite the clinical use of these predictive tests, unpredictive difficult laryngoscopy complicates 1.5-13% of cases. Life threatening scenarios may be encountered in patients with difficult or impossible bag and mask ventilation. Anaesthesiologists are familiar with the use of ultrasound, with peripheral nerve blockade and central vascular access representing the most popular applications during the last decades. The ultrasound provides real time and accurate images. According to the current literature, there are only a handful of studies relevant to the application of point of care ultrasound (POCUS), as a new tool in the upper airway evaluation. It is a new field of research with high interest. This is a prospective observational study to investigate if specific ultrasound measurements of the anterior neck can serve as predictors of difficult airway. The ultrasound parameters will be measured preoperatively, during the preanaesthetic evaluation, along with standard clinical prognostic tools, like the mallampati score. The ultrasound parameters to be investigated are: 1. the distance from thyroid isthmus to skin surface, 2. the distance from the hyoid bone to the skin surface, 3. the distance from the anterior commissure of vocal cords to the skin surface, 4. the distance from skin to the trachea at the level of jugular notch, 5. the distance from skin to epiglottis corresponding to half of the distance between thyroid cartilage and hyoid bone, 6. and the angle between glottis and epiglottis. After the induction in anaesthesia, the Cormack Lehane score (grading of the laryngoscopy view) and the Han scale (grading of the degree of difficulty of bag and mask ventilation) will also be recorded. The goal of this study is the investigation of the role of POCUS in the evaluation of difficult bag and mask ventilation and difficult intubation. The primary endpoint is the incidence of difficult bag and mask ventilation and the incidence of difficult laryngoscopy and intubation. Secondary endpoints are the correlations between clinical prognostic tools of difficult airway and the POCUS parameters under investigation.