The University of Tennessee College of Medicine in Memphis, Tenn. today introduced the world’s most comprehensive Mobile Stroke Unit, capable of conducting and producing advanced quality imaging for stroke diagnosis and noninvasive CT-angiography with a Siemens SOMATOM Scope CT scanner. This is the first time CT capabilities of this magnitude have been available in a mobile setting, creating the ability to diagnose and launch treatment including tissue plasminogen activator (tPA) treatment and the potent blood pressure drug nicardipine within the critical first hour time frame and select patients for endovascular interventions, neurosurgery and neuro-critical care directly from the prehospital arena.
While other Mobile Stroke Units have been launched in a small number of communities, the combination of many firsts in terms of mobile application and utilization make UT’s the most complete Mobile Stroke Unit in the world. Those other Mobile Stroke Units allow for initial treatment to begin quickly and for prepping for emergency room arrival, while the sophistication of The UT College of Medicine Mobile Stroke Unit means a patient will be prepped to go straight to the catheterization laboratory, Neuro Intensive Care Unit or Hospital Stroke Unit, bypassing the stop in the emergency department entirely.
“We are thrilled to have this medical first in Memphis. I want to stress that the Mobile Stroke Unit is a product of worldwide industry leaders brought together to create the first-of-its-kind vehicle,” said David Stern M.D., the Robert Kaplan Executive Dean and Vice-Chancellor for Clinical Affairs for The University of Tennessee College of Medicine and The University of Tennessee Health Science Center. “The vehicle framework is from Canada, the Siemens SOMATOM Scope CT scanner was developed by a German company, the custom assembly took place in New York, with the oversight and direction coming from UT College of Medicine in Memphis, Tenn. led by Dr. Andrei V. Alexandrov, the Chairman of the Department of Neurology at The University of Tennessee Health Science Center and Semmes-Murphey Professor, who is originally from Russia.”
The Mobile Stroke Unit, weighing in at more than 14 tons, includes features and capabilities never before assembled for mobile deployment. These include:
A hospital-quality CT scanner with advanced imaging capabilities to not only allow brain imaging, but also imaging of blood vessels in the brain. Other Mobile Stroke Units in the U.S. and Europe use smaller portable CT scans that only image the brain (without vessels) and also require the team to move the patient for each slice (picture) that is taken. UT’s Mobile Stroke Unit provides the same number of slices in high resolution as obtained and expected in the hospital setting since it is equipped with a dedicated gantry that automatically moves the patient to obtain images.
Due to these advanced imaging capabilities, the Mobile Stroke Unit will be able to bypass hospital emergency departments and take patients directly to endovascular suites, operating rooms, stroke or neurocritical units.
It is the largest Mobile Stroke Unit in the world, complete with an internal power source capable of matching regular electrical outlet access.
The Mobile Stroke Unit is the first in the world to be staffed with stroke fellowship-trained, doctorally-prepared nurses certified as advanced neurovascular practitioners, ANVP-BC.
The Mobile Stroke Unit capacity includes the ability to transport trainees and researchers interested in building the science of early stroke management.
Mobile Stroke Unit Will Serve a Community with a Major Stroke Health Problem
“We have a tremendous burden of stroke in Shelby County, with a stroke rate per 100,000 population that is 37 percent higher than the national average*,” said Dr. Stern. “The goal of the Mobile Stroke Unit is to minimize morbidity and mortality, to have more patients walk out of the hospital fully functional. Time is everything for stroke treatment; the quicker we are able to assess and attend to a patient, the better his or her chances are for recovery.”
“If we eliminate the treatment delay getting to and through the emergency room, we can save up to 90 minutes, and as a neurologist, I know that time is brain, so the more time we save, the less likely it is that permanent brain damage will occur in a patient. Our hypothesis is that we will deliver hospital-level standard of stroke care faster, equally safe, but with better outcomes due to the ability to intervene much earlier,” said Dr. Alexandrov. “Our ‘time to treatment’ target is less than one hour.”
The UT Mobile Stroke Unit is funded through a public-private collaboration for which more than $3 million has been raised, which will enable operation for up to three years. The Unit will operate 12 hours a day, one week on and one week off beginning late April 2016.
“The Mobile Stroke Unit will be based in the heart of a 10-mile, most critical needs areas of Memphis with the highest incidence of stroke, but can be deployed within the entire metro region. We estimate that 300 patients will need to be treated by the Mobile Stroke Unit to prove its effectiveness over the course of three years,” said Dr. Alexandrov. “We believe this study will help establish a baseline of results that medical communities worldwide can use to develop and deploy similar programs to affect stroke outcomes. Our goal is a sustainable model for future funding and an overall lowering of morbidity and mortality through early treatment.”
“The launch of this Mobile Stroke Unit is a true community collaboration of donors, hospitals, local EMS and the University,” said Dr. Stern. “Beyond the highest quality education and research, our focus at the UT College of Medicine is to ensure our research and clinical efforts translate into a positive impact on the health of our community. The Mobile Stroke Unit is a perfect example of this commitment.”
*Centers for Disease Control Division for Heart Disease and Stroke Prevention http://nccd.cdc.gov/DHDSPAtlas/DetailedReports.aspx?AreaIds=47157&ThemeSubClassId=3&filterIds=9,2,3,4,7&filterOptions=1,1,1,1,1