As part of Intel’s $50 million pandemic response, Intel and Medical Informatics Corp. (MIC) today announced the Scale to Serve Program to help hospitals rapidly install and scale MIC’s Sickbay platform. The platform is designed to help hospitals rapidly expand intensive care unit (ICU) bed capacity and create more efficient care of the most critical patients while also reducing risk of COVID-19 exposure for critical care providers who are at a higher risk of exposure due to the nature of their work. Through the Scale to Serve program, Intel has agreed to fund the implementation fees and MIC will waive the first 90 days of software subscription licensing fees for the first 100 hospitals that qualify.
“Intel technology has a role to help accelerate the core capabilities our medical community requires to combat COVID-19. This is why we’re committed to applying our technology to helping protect our front-line healthcare providers who are providing care for ICU patients by accelerating the access to virtual patient monitoring solutions. The solution improves the efficiency of ICU patient care from anywhere while protecting the health of caregivers on the front line of this crisis.”
–Lisa Spelman, Intel corporate vice president and general manager of the Xeon and Memory Group
Hospitals are facing challenges due to the pandemic: from ramping ICU capacity and staffing the front lines to getting providers access to the data they need to effectively intervene. They are challenged with meeting these needs because patient data is currently tied to medical devices at the bedside and locked down in proprietary formats that don’t easily integrate with each other. The Sickbay platform helps address these issues by unlocking and unifying this disparate data from the bedside to enable flexible, scalable remote monitoring from any web-enabled device to create clinical distancing and help protect providers from exposure to COVID-19. The solution allows hospitals to turn any acute care bed into a monitored ICU bed in minutes and create flexible remote workflows, including the ability for one provider to remotely direct care for up to 100 patients in a single dashboard or “virtual ICU” (vICU) and/or create flexible virtual rounding of patients from conference rooms, offices or home on any PC. This flexibility helps hospitals rapidly expand staff capacity, including staff that may be in quarantine or coming out of retirement, to get more eyes on patients and help hospitals save more lives – both from patients and healthcare workers. Remote views bring together data from multiple medical devices, including ventilators and cardiac monitors from different vendors, to ensure that all members of the care team have the data they need to take action.
“In healthcare today, less than 1% of the data being generated by patients makes it into the electronic health record, forcing clinicians to work without a complete picture. We unlock that data to allow for predictive analytics, remote patient monitoring, AI and machine learning applications that will ultimately help providers create a new standard of care tomorrow,” said Emma Fauss, chief executive officer, MIC. “What COVID has done is crystallize the immediate need around reducing interactions in the room and looking at resource limitations in a new way. How can you monitor more patients with less, without sacrificing the quality of care? It requires being able to monitor patients remotely, monitor multiple patients at once, and leverage data for patient trajectory, analytics and risk scoring.
“Scale to Serve embodies what MIC and Intel believe: We’re here to serve healthcare providers on the front line to do their job effectively. We want to be there to support that mission and ultimately transform the standard of care.”
In March 2020, Houston Methodist Hospital deployed Sickbay as part of its telehealth initiative to create a vICU. Within one day of go-live, Houston Methodist began to see COVID-19 patients. Due to Sickbay’s software-based design, Houston Methodist was able to turn on new COVID-19 ICU beds in minutes. The hospital’s staff currently has the ability to monitor up to 180 COVID-19 patients remotely from their on-site command center, conference rooms and offices.
Other MIC clients are also beginning to expand capacity for COVID-19, including the University of Alabama at Birmingham Hospital.
“We plan to use Sickbay in a centralized monitoring area where a single physician or nurse can monitor patients remotely and leverage hierarchical categorization of patients. We also plan to give our physicians who may be at higher risk of infection the opportunity to provide highly important consultation, without having to be in the line of fire, by logging in from a remote site on a web-based, secure, HIPPA-compliant system,” said Dr. Dan Berkowitz, M.D., chair of the Department of Anesthesiology and Perioperative Medicine at University of Alabama at Birmingham Hospital. “Every time a physician goes into an ICU room, there’s a risk of exposure and a need to utilize PPE. We can reduce exposure risk by enabling the physicians to access the physiologic patient data remotely and save precious PPE.”
MIC Sickbay is the only scalable FDA-cleared clinical surveillance and analytics platform created for ICUs. The software-based monitoring and analytics platform is vendor-agnostic, integrating seamlessly with medical devices that hospitals use. Sickbay utilizes Intel® Xeon® processor-based platforms to deliver data visualization and analytics, and can be accessed by providers using any connected PC, tablet or phone. Once deployed, Sickbay supports evidence-based care decisions by providing providers with near real-time waveform data across connected devices integrated into a single view, along with patient history for the entire length of stay, to help care teams automate the building of trends and create patient-specific analytics at scale.
Intel and MIC are talking to hospitals across the U.S. to enable them to quickly deploy Sickbay and protect their critical care providers.