Innovation Pilot Award Winners
Each year, the Center offers internal pilot funding to UNC Health Care and UNC School of Medicine employees for health care innovations across a broad spectrum of interest areas including innovative care delivery models and care pathways, new technologies, new applications, advanced analytics, business model innovations, workforce development, and translational research. Since introducing the Innovation Pilot Awards in 2013, the Center has awarded 21 teams over $1,015,000 total to support innovative pilots.
The application period for the 2019 Innovation Pilot Awards is closed. Winners will be announced in early March 2019.
This team aims to be the first to apply drug-eluting technology to a string release system and the first to apply it to the esophagus. The incidence and prevalence of eosinophilic esophagitis (EoE) are rapidly rising and current treatments are rudimentary. Drug-eluting string technology is an innovative approach to delivering medication along the entire length of the esophagus for an extended period of time. The pilot award will be used to develop the technology and test its pharmacokinetics in a porcine model.
The focus of this project is to empower postpartum women affected by hypertensive disorders of pregnancy (HDP) to perform at-home blood pressure (BP) monitoring with the aid of digital technology. For a postpartum woman with a diagnosis of a HPD, the risk of complications extends beyond discharge from maternity care. Clinical guidelines recommend early postpartum follow-up in the form of a BP evaluation by a health care provider at 7-10 days postpartum. However, due to numerous barriers faced by new mothers, attendance at follow-up visits is poor and reflects significant disparities. This pilot project aims to measure adherence to the postpartum BP assessment among women who are provided with an at-home BP monitoring device and the feasibility of the use of such a device among a diverse population.
The goal of this project is to establish a novel, cost-effective, patient-centered financial navigation clinic in order to decrease the burden of financial difficulties among uninsured and underinsured cancer patients treated at the North Carolina Cancer Hospital. The team will use historical clinical and financial data to identify patient populations with the greatest financial burden in order to recruit them for this pilot intervention. The team will develop a financial distress screening strategy and design, implement, and evaluate a financial navigation clinic for patients in the targeted populations who screen positive for high levels of financial distress. The team will also collaborate with the UNC School of Social Work to staff the clinic with social work masters students.
The overarching aim of this study is to stage peripheral arterial disease (PAD) similar to the tumor staging criteria used to communicate with oncology patients. The spectrum of patients presenting with PAD is broad and treatment options are numerous. The team hopes that PAD staging will help inform patients of their survival and limb salvage probabilities based on their presenting characteristics. The team will initially focus on patients with critical limb ischemia by determining which covariates are associated with outcome status and then developing and evaluating a predictive model using machine learning that classifies subjects by outcome status.
Leveraging the rapidly developing technology known as augmented reality, this team will develop an augmented reality system for use in both open and endoscopic surgery. Augmented reality is defined as a live direct or indirect view of a physical environment whose elements are augmented by the fusion of computer-generated and real-time images. This augmented reality environment for the operating room would allow for localization of a patient’s specific pathology and normal anatomic landmarks. The ability to super-impose the exact location and dimensions of an underlying tumor, for example, on a surgeon’s direct view of the patient promises to positively impact both efficiency and patient safety in the operating room.
This team will develop and implement Fast Healthcare Interoperability Resource (FHIR) services at UNC to power a model that predicts the likelihood a patient will attend an appointment and a companion app that uses that model to optimize how patients are scheduled for gastrointestinal procedures (e.g., colonoscopies and upper endoscopies). UNC will gain infrastructure and experience with a single open-standards-based pipeline for data integration, standardization, and access to solve focused research and clinical problems. No-shows to gastroenterology procedure appointments are especially costly given the high demand for these appointments and significant fixed resources required to deliver these services. The app will combine patient-reported and clinical data to optimize how patients are scheduled and prepared for these procedures.
Building on the back of UNC Infectious Disease’s Outpatient Parenteral Antimicrobial Therapy (OPAT) Program, ID DOOR will positively disrupt the workflow surrounding hospital discharge for Infectious Disease patients at high risk of adverse outcomes, suboptimal completion of a therapeutic plan, and readmission. ID DOOR will expand access to clinical pharmacist outpatient services post-discharge to ensure medication safety, fidelity to discharge planning and to address any medication side effects. The pharmacist will work closely with UNC’s transition of care team as well as OPAT providers and the program is expected to improve safety, clinical efficiency, patient access, patient satisfaction, and clinical outcomes.
The Carolina Digital Health Research Initiative (CaDHRI) will provide a catalyst for disruptive innovation in digital health research at UNC. The CaDHRI will support digital health researchers through consultations, digital device lending, and events. The program will create a comprehensive digital health device collection housed at the Health Sciences Library. This device collection will be available for researchers to test the devices and applications, as well as, incorporate the devices into their research. In addition to the device collection, the CaDHRI will also host a series of digital health workshops, seminars, and speakers.
The team will build upon the success of the recently launched PPD ACT iPhone app which was developed to engage women in a genetics research study about postpartum depression (PPD). The study, which enrolled over 10,000 women in the first month, aims to help researchers understand why some women suffer from PPD and others do not – critical knowledge to help researchers find more effective treatments. Specifically, the team will enhance the functionality of the pre-existing app by adding innovative, clinically relevant enhancements including the ability to track and display self-reported symptoms and physiological data captured via wearable devices. The app will be able to deliver education about PPD, send participants feedback based on trends in daily assessments, and allow users to participate in a PPD online-community. The team will conduct pilot testing of the app in women with PPD at UNC, and data collected and displayed via the app will be used in the evaluation and delivery of personalized treatment for these patients.
UNC Cardiology will partner with a well-established primary care office to improve the detection and treatment of aortic valve disease in the community and the surrounding area. In order to accomplish this goal, PCP’s will be trained and empowered to use hand-held ultrasound units to perform bedside cardiac ultrasound screenings for aortic valve disease and will partner with UNC Cardiology in Chapel Hill to confirm the diagnosis, complete the evaluation, and establish a treatment plan.
The primary objective of this study is to demonstrate superiority of the computerized cognitive behavioral therapy program “Beating the Blues” in reducing psychological symptoms and improving patient satisfaction in women who have completed active treatment for non-metastatic breast cancer.
The Emergency Department currently employs a 5-point Emergency Severity Index (ESI) scale to triage patients; however, the rating tool groups over half of the UNC patients into the “3 – urgent” category without further specificity. Using innovative advanced analytics, this project seeks to expand and enhance the existing scale by identifying the predictors of complexity of acuity among patients currently grouped in the ESI 3 category and develop novel operational strategies using the new classification.
Although it is common for AF patients who present at the ED to be hospitalized, management of AF symptoms rarely requires inpatient resources. This project aims to reduce unnecessary hospitalization by implementing and evaluating a new protocol-based care pathway for AF patients who present at the ED, directing those without complications to an AF Transitions Clinic staffed by clinical pharmacists and overseen by Cardiology and Electrophysiology. The Transitions Clinic will provide patient education, and multidisciplinary care coordination of AF and comorbidities. The clinic will also ensure communication with the patients’ primary care provider and schedule follow-up appointments.
To evaluate the efficacy of existing hypertrophic burn treatment options in a prospective, randomized, controlled, single-blinded trial, compared to medical therapy alone, and determine the feasibility of a SMART (Sequential, Multiple Assignment, Randomized Trial) design in burn patients.
To optimize speech outcomes with cochlear implants by measuring and monitoring cochlear function during implantation.
To build and validate a new low-cost prototype ultrasound system designed specifically for penile and scrotal imaging that will expand the existing advantages of ultrasound and is more easily deployed to, and used at, a wide range of clinics and hospitals.
To develop and measure the impact of a peer support program to provide evidence-based, compassionate and timely peer support to UNC caregivers involved in adverse patient events.
To develop a proto-type of a patient portal that is easily comprehended and organized in a way that is meaningful to patients.
To create an infrastructure to objectively assess workload and performance for providers performing routine clinical tasks that require human-computer interactions.
To develop and test an EHR-based CHD prevention program to promote CHD risk calculation, appropriate prescribing and patient adherence to prescribed medications
An innovative approach to training certified medical assistants in the team-based concepts behind patient centered medical homes.