"Minerva" Super Computer Ushers New Era Of Precision Medicine At Mount Sinai

Sophisticated algorithms analyze data to develop predictive models of disease in order to better diagnose and treat patients

New York, NY
 – April 17, 2013 /Press Release/  –– 

Ushering a new era of "precision medicine," Mount Sinai is one of the first academic medical centers in the United States to build and operate a supercomputer.  Named after the Roman goddess of wisdom and medicine, "Minerva," uses sophisticated computer algorithms to analyze data in order to develop predictive models of disease that can better help diagnose and treat patients.  

After a full year of operation, the $3 million computer is a large step forward in building a significant computational and data-intensive infrastructure geared specifically for genomics. Built on-site by Mount Sinai's Department of Scientific Computing, Minerva analyzes the growing "digital universe", including genomic and phenotypic data, as well information from electronic medical records (EMR).  In fact, it has already analyzed hundreds of human genome sequences with a projection of hundreds of thousands every year.   With thousands of processing cores working in unison, and tens of terabytes of memory, the computer can perform complex and sophisticated tasks quickly and with more precision than ever before.  

"With Minerva, Mount Sinai has the ability to quickly analyze genomic patterns to provide a greater understanding of the causes of disease and how to personalize treatments according to an individual's genetic composition," said Dennis S. Charney, MD, Dean of the Icahn School of Medicine at Mount Sinai. "The supercomputer is able to accomplish real-time visualization of advanced molecular models, promoting drug development and allowing us to test the effects of molecular variations on different receptors in the body."  

The supercomputer also stores information from Mount Sinai's biobank, or BioME, a collection of more than 25,000 individuals' DNA and plasma samples that are stored in a way that protects patients' privacy while allowing research to be performed.  Funded by the Charles R. Bronfman Institute for Personalized Medicine, the biobank accesses a broad range of genetic and environmental information on patients who have agreed to lifelong participation.  

"The supercomputer is helping us better understand and foresee the course of disease for each patient  -- and to identify the outcome to a particular therapeutic intervention in advance," said Patricia Kovatch, Associate Dean for Scientific Computing at Mount Sinai Medical Center and the engineer who constructed Minerva.  "Thus, using genomic data, information from our biobank as well as complex simulations of molecules, we are able to enhance personalized medicine to a degree that has never been done before."  

Eric Schadt, PhD, Mount Sinai's Director of the Institute for Genomics and Multiscale Biology, cited the need for Minerva in critical areas of research that is already underway.

"In order to analyze and integrate all the different data dimensions over the population, and build predictive models of disease, we need the supercomputer.  With the infrastructure we're creating, and the people we've recruited, combined with the resources already available at Mount Sinai, we are coming together to form a new epicenter of research on personalized medicine and the new biology."

"Few research centers have the type of computing infrastructure to allow advanced modeling that Mount Sinai can now do on-site.  Along with other advances in genetics and some recent outstanding additions to our faculty, Minerva further cements Mount Sinai's reputation at the forefront of the ‘precision medicine' movement," said Dr. Charney.

Joseph Buxbaum, PhD, Director of the Seaver Autism Center for Research and Treatment, says Minerva's supercomputing capacity plays a key role in analyzing data gathered as part of the Autism Sequencing Consortium, a multinational collaboration where all the 22,000 genes in humans will be sequenced in thousands of individuals with autism spectrum disorder.  "The consortium plans to have such data for as many as 30,000 people – including controls – over the next three years, and we anticipate that this will result in the discovery of several hundred autism genes.  Without Minerva's computational power, a project of this scope would simply not be feasible."

To date, tens of millions of core processing hours of work has been done by Minerva, added Kovatch.  "The computer has helped scientists publish more than 25 research papers in less than a year.  Minerva helps scientists analyze their data quicker than ever before, as well as complete more complex tasks simultaneously.  The end result is that more science, even basic science, is done quicker and more efficiently."

The Mount Sinai Medical Center

The Mount Sinai Medical Center encompasses both The Mount Sinai Hospital and Icahn School of Medicine at Mount Sinai. Established in 1968, the Icahn School of Medicine is one of the leading medical schools in the United States.  The Medical School is noted for innovation in education, biomedical research, clinical care delivery, and local and global community service.  It has more than 3,400 faculty in 32 departments and 14 research institutes, and ranks among the top 20 medical schools both in National Institutes of Health (NIH) funding and by U.S. News & World Report.

The Mount Sinai Hospital, founded in 1852, is a 1,171-bed tertiary- and quaternary-care teaching facility and one of the nation's oldest, largest and most-respected voluntary hospitals. In 2011, U.S. News & World Report ranked The Mount Sinai Hospital 16th on its elite Honor Roll of the nation's top hospitals based on reputation, safety, and other patient-care factors. Of the top 20 hospitals in the United States, Mount Sinai is one of 12 integrated academic medical centers whose medical school ranks among the top 20 in NIH funding and U.S. News & World Report and whose hospital is on the U.S. News & World Report Honor Roll.  Nearly 60,000 people were treated at Mount Sinai as inpatients last year, and approximately 560,000 outpatient visits took place. 

For more information, visit http://www.mountsinai.org
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