Revolutionizing access to health care in developing countries
The future of sustainable healthcare is in home-centric healthcare and preventative care rather than hospital and reactive care. Dr. Drew Hall of University of California, San Diego passionately believes that healthcare should be accessible to even the most remote parts of our planet. With rapidly increasing health care costs, a constantly expanding population, and a limited supply of physicians, radical changes must be made for the healthcare system to remain sustainable while simultaneously improving the quality of care. A compelling solution to this pressing need is to alleviate some of the burden on the healthcare system and physicians by equipping the general population with the tools to make their own rapid and accurate diagnoses. While there will always be a need for physicians to treat complicated diseases, manage treatment regimens, and perform surgeries, there are several aspects of the current healthcare system that can be streamlined.
- By introducing more versatile molecular diagnostic tools for the general public, individuals will be able to manage many unique aspects of their own healthcare, bypassing in many instances costly and time-consuming clinic visits.
- As a Ph.D. student at Stanford, Dr. Hall and his research partner developed a nanoLAB - a novel portable diagnostic device that reads protein concentrations in bodily fluids to detect the presence of AIDS, cancer, heart disease, etc.
- The device is 20 times more sensitive than existing diagnostic tools and delivers results in 15 minutes, eliminating the need to travel to a hospital.
- Hopefully this device will make it feasible to bring the same diagnostic potential of centralized laboratories to developing countries, remote field settings, airports, waiting rooms, or to a patient's home.
Just as miniaturization of computers, which once filled large rooms, into the microprocessor revolutionized the computer industry; miniaturization of medical diagnostic tools has the potential to restructure our healthcare system. Dr. Hall and his team are designing these diagnostic tools to be cost effective and permit individuals to take an active part in their own health care. With the right combination of funding and passionate supporters, this device and devices like it could reach millions of people across the globe that do not have access to proper hospital care and revolutionize typical doctor/patient interactions throughout the world. The potential commercial impact of the nanoLAB is enormous, enabling doctors to virtually reach across the globe to patients with this device. Getting one or more of these devices into remote areas of the world would change the face of global health care and the ability to diagnose diseases that plague many parts of the developing world. At the University of California, San Diego Dr. Hall and his team are working to make this technology - which will change the lives of millions of people - a reality.
Dr. Hall's multi-disciplinary research explores the intersection of electronics, nanotechnology, and biology through the design of high performance CMOS biochips. These mixed-signal biochips address applications such as in-vitro diagnostics, DNA sequencing, proteomics, and neuronal stimulation and detection. This research emphasizes point-of-care (POC) biochips where medical diagnoses, such as human immunodeficiency virus (HIV), are made in resource limited settings.
He is also researching sensor interface circuits, precision analog circuit design techniques, instrumentation, sigma-delta modulators, and novel analog-to-digital converter structures.
Drew Hall received the B.S. degree in computer engineering with honors from the University of Nevada, Las Vegas in 2005 along with M.S. and Ph.D. degrees in electrical engineering from Stanford University in 2008 and 2012, respectively. In the past, he has held internship positions with General Electric, Bentley Nevada Corporation, and National Semiconductor Corporation where he worked on low-power, precision analog circuit design. He worked as a research scientist at the Intel Corporation from 2011 to 2013 in the integrated biosensors laboratory. In 2012, he joined the Jacobs School of Engineering at the University of California, San Diego as an assistant professor in the Department of Electrical and Computer Engineering.
His research interests include bioelectronics, biosensors, analog circuit design, medical electronics, and sensor interfaces. Dr. Hall was the recipient of the 2011 Analog Devices Outstanding Designer Award, won 1st place in the inaugural international IEEE Change the World Competition, and took 1st place in the BME-IDEA invention competition. He is also a Tau Beta Pi fellow.
In the News
ISSCC ADI Outstanding Student Designer Award
Awarded for excellence in analog IC design with the potential for outstanding industrial contribution
Recipient of the national Achievement Rewards for College Scientists (ARCS) fellowship
1st place Stanford BASES Business Plan Competition
Winner of the Business Association of Stanford Entrepreneurial Students (BASES) business plan competition on the nanoLAB
1st place in BME-IDEA Invention Competition
Winner of the national bioengineering competition for "Lab-on-a-stick: A Hand-Held Diagnostic Laboratory"