Since the advent of the stethoscope, information-gathering technology has been helping doctors and other medical professionals improve patient health. Over the past decade, RWJF has funded a series of projects that suggest helping patients track and share data with their clinicians can strengthen the patient-clinician partnership and improve health outcomes. It makes sense that giving clinicians access to patient-tracked health data can improve the health of individuals and communities. As simple as the concept may sound, though, unlocking personal health data for clinical purposes has proven quite challenging.
Jun 24, 2014, 12:13 PM, Posted by Deborah Bae
What’s Next Health guest Jessica Green, founding director of the BioBE (Biology and the Built Environment Center), visited RWJF last year to discuss the health implications of the microbiome—the invisible collection of bacteria, viruses, fungi, and archaea that live on, in and all around us. Watch Jessica’s What's Next Health interview to learn more about microbiomes in the built environment and how that knowledge can be used to design spaces and buildings to create a healthier, more sustainable world.
During her visit, Jessica led an educational workshop where staff swabbed their fingers and mobile phones to learn about the relationship between the microscopic communities living on both. The findings from that educational workshop turned out to be quite interesting, and ultimately led to a study published today in the journal PeerJ. Senior Program Officer Deborah Bae caught up with Jessica to learn more about her research.
Deborah: When we hear the term microbe, many of us think about germs that cause disease. So what is the microbiome, and why is it important in promoting health?
Jessica: Twenty years ago, when I was an environmental engineering student, I learned that microbes were pollutants or contaminants, and were something that you wanted to eliminate, particularly in the indoor environment. And we know from history that being in a very unclean, unsanitary environment kills people. What we’ve learned more recently is that for every human cell, we have up to ten bacterial cells and even more viruses living on the human body. There's a rising consensus that aspects of this microbiome can be beneficial to human health. Some of these microorganisms help our immune system function, ward off pathogens and infections, and microbes in our gut may be even linked to the way that we think and feel.
Jun 10, 2014, 2:38 PM, Posted by Paul Tarini
As co-chair of the Community Track at this year’s Health Datapalooza conference, I was impressed by the strong sense of purpose I felt among the attendees. The conversation has clearly moved from the abstract concepts of gathering and accessing data, to how we can use that data to solve real-world challenges. The launch of a new network to bring together researchers, scientists and companies and accelerate research using personal health data, led by the Health Data Exploration project with funding from the Robert Wood Johnson Foundation, was one of many efforts designed to directly improve our understanding of health through the wise use of data.
May 22, 2014, 8:00 AM, Posted by Mike Painter
This post was originally published on The Health Care Blog by Shiv Gaglani, Ryan Haynes, and Michael Painter, MD.
Earlier this month Shiv and Ryan published a piece in the Annals of Internal Medicine, entitled What Can Medical Education Learn from Facebook and Netflix? We chose the title because, as medical students, we realized the tools our classmates are using to socialize and watch TV use more sophisticated algorithms than the tools we use to learn medicine.
What if the same mechanisms that Facebook and Netflix use—such as machine learning-based recommender systems, crowdsourcing, and intuitive interfaces—could transform how we educate our health care professionals? For example, just as Amazon recommends products based on other items that customers have bought, we believe that supplementary resources such as questions, videos, images, mnemonics, references, and even real-life patient cases could be automatically recommended based on what students and professionals are learning in the classroom or seeing in the clinic. That is one of the premises behind Osmosis, the flagship educational platform of Knowledge Diffusion, Shiv’s and Ryan’s startup. Osmosis uses data analytics and machine learning to deliver the best medical content to those trying to learn it, as efficiently as possible for the learner. Since its launch in August, Osmosis has delivered over two million questions to more than 10,000 medical students around the world using a novel push notification system that syncs to student curricular schedules.
May 14, 2014, 8:00 AM, Posted by Pioneer Blog Team
Rishi Desai, Medical Partnership Program Lead at Khan Academy, works to help Khan Academy connect people to quality information about health and medicine. He is currently a pediatric infectious disease physician, and previously spent two years as an EIS officer with the Centers for Disease Control and Prevention (CDC).
By Rishi Desai
When I think about the new MCAT test that will launch in 2015, it brings back memories of my own late night study sessions in college. Just prior to taking the MCAT, I was enrolled in a particularly tough life sciences course at UCLA where our professor asked us to design an experiment that would “prove” that DNA was the genetic material in cells. We literally had to step into the shoes of historic researchers, think critically, and rediscover the fundamentals for ourselves. Preparing for these classes was tough, but it was worth it because I knew that it would help me understand the material on a very deep level. At Khan Academy we want to help all students truly understand the material and understand how to apply it.