Digital therapeutics leader Biofourmis to take part in pioneering heart failure research with Yale University-Mayo Clinic Center of Excellence in Regulatory Science and Innovation (CERSI)
Biofourmis' innovative technology to measure patient-centric endpoints to inform future drug development
BOSTON, July 16, 2019 /PRNewswire/ -- Biofourmis, a fast-growing global leader in digital therapeutics, has entered a research partnership with the Yale University-Mayo Clinic Center of Excellence in Regulatory Science and Innovation (CERSI). Biofourmis' mobile platform BiovitalsHFTM will be leveraged in a study of patients with heart failure to monitor functional capacity and quality of life to see if greater emphasis should be placed on these measures in the drug approval process.
"This joint project has the potential to advance the science of clinical trial design," said Kuldeep Singh Rajput, CEO of Biofourmis. "Ultimately, this study could open the door for regulatory agencies to consider including patient-centric endpoints in the drug approval process—which could potentially speed the regulatory approval process."
The Yale-Mayo CERSI is a joint effort between Yale University, Mayo Clinic and the U.S. Food & Drug Administration (FDA). CERSIs are collaborations between FDA and academic institutions to advance regulatory science through innovative research, training and scientific exchanges.
Heart failure afflicts approximately 6.5 million patients in the United States and 26 million worldwide, causing substantial mortality and morbidity, and has major effects on physical function and quality of life. FDA recognizes in its recent draft guidance, Treatment for Heart Failure: Endpoints for Drug Development Guidance for Industry, that an effect on symptoms or physical function, without a favorable effect on survival or risk of hospitalization, can be a basis for approving drugs to treat heart failure.
"Heart failure is a highly prevalent disease that not only carries high morbidity, but also significantly lowers a patient's quality of life," Rajput said. "While hard outcomes such as mortality and hospitalization rates have served as the traditional endpoints in clinical studies, we also should take into consideration the patients' levels of satisfaction and well-being while being treated with a heart failure drug during a trial. Not only is quality of life important in a disease such as heart failure, but patient-centric endpoints can be identified much more quickly than traditional hard outcomes."
How BiovitalsHFTM will capture and analyze patient-centric endpoints
To demonstrate the feasibility and reliability of capturing these new patient-centric endpoints, Biofourmis and Yale-Mayo CERSI will conduct a multicenter study beginning in August 2019 of recently discharged patients with heart failure, who will be screened and then monitored at home for 60 days.
Patients will be monitored using Biofourmis' BiovitalsHFTM, which is a sensor-agnostic mobile health platform compatible with leading clinically validated, FDA cleared, and medical CE-marked wearable biosensors. BiovitalsHFTM captures raw biosensor data and uses advanced machine learning to derive dozens of physiology biomarkers and is able to detect heart failure decompensation using multi-variate physiology analytics, weeks in advance.
In this study, BiovitalsHFTM will be used to capture multiple physiology biomarkers and physical activity continuously in real-world settings, using two wearable biosensors: a medical-grade device called Everion® and the consumer wearable smartwatch Apple Watch Series 4. Apart from using the BiovitalsHFTM patient-facing companion app for syncing physiology data from sensors, it will be used to capture electronic patient-reported outcomes (ePROs) such as medication adherence, symptoms, the Kansas City Cardiomyopathy Questionnaire (KCCQ) responses, and the guided mobile-based 2-minute-step-test.
The primary goal of the study is to measure the correlation between physiology and actigraphy biomarkers with clinical endpoints such as lab results, the KCCQ, and the six-minute walk test (6MWT). The data also will be used to assess medication adherence, dose changes and percentage of patients on target dosages of Guideline Directed Heart Failure Therapies.
"Biofourmis is a leader in the emerging field of digital therapeutics, and we are thrilled to be partnering with them on this important study," said Nilay Shah, PhD, Principal Investigator at the Yale University-Mayo Clinic CERSI. "This study will not only advance science, but will also provide insights to the FDA on how these measures can be used as alternative trial endpoints."
Rajput explained: "We have entered into a new era in clinical trial design that encourages patient engagement and values quality of life. By leveraging our user experience, powerful data-analytic capabilities and vendor-agnostic sensor compatibility, we are excited about the prospect that Biofourmis will play a part in establishing new patient-centric endpoints for clinical trials, starting with heart failure."
Biofourmis, a fast-growing global leader in digital therapeutics, discovers, develops and delivers clinically validated software-based therapeutics to provide better outcomes for patients, advanced tools for clinicians to deliver personalized care, and cost-effective solutions for payers. Biofourmis has built Biovitals™, a highly sophisticated personalized AI-powered health analytics platform that predicts clinical exacerbation in advance before a critical event, which is the backbone of their digital therapeutics product pipeline across therapeutic areas including heart failure, acute coronary syndrome, COPD and chronic pain.
For more information visit: www.biofourmis.com
About Yale-Mayo CERSI
The Yale University-Mayo Clinic Center of Excellence in Regulatory Science and Innovation (CERSI) is a joint effort between Yale University, Mayo Clinic and the U.S. Food and Drug Administration (FDA) to create infrastructure for regulatory science knowledge generation, conduct research to address key gaps in knowledge, and develop tools to support regulatory decision-making and the overall mission of FDA.
Amendola Communications for Biofourmis
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