In this screen grab from a Nature video, a siRNA, cradled by an argonaute protein, binds to a messenger RNA. (More at www.youtube.com/watch?v=cK-OGB1_ELE)
RNA interference (RNAi) is a therapeutic technology that blocks gene expression with either small interfering RNAs (siRNA) or microRNAs (miRNA). RNAi’s discovery was considered transformative enough to earn the 2006 Nobel Prize for Physiology or Medicine
, but from the start the challenge of delivering RNA-silencing therapeutics to the right tissues has hobbled efforts to use RNAi to treat patients.
Citing this challenge, the pharmaceutical giant Novartis is the latest major company to withdraw from RNAi research, following Merck and Roche. Forbes was prompted to write:
…for certain diseases where an RNAi therapeutant can be more readily introduced, such as the eye, or ‘privileged compartments’ such as the liver, RNAi still has potential. But given that these therapies would be expensive due to the high cost-of-goods involved in synthesizing these agents, they would have to be targeted to diseases where the cost of therapy would be justified by the beneficial medical effects. … to say that RNAi therapy will rival monoclonal antibodies in terms of revenue potential—well, that’s a bit of a stretch.
Barry Greene, COO of Alnylam Pharmaceuticals, a biotech that’s championed RNAi, countered in Fierce Drug Delivery: “Novartis pulling out is an exemplar of Big Pharma not being able to innovate, and historically they have never been able to innovate.” Full story »
Patricia Ibeziako, MD, directs the Boston Children’s Hospital Global Partnerships for Psychiatry Observership Program and the Psychiatry Consultation Service at Boston Children’s Hospital.
Children and adolescents constitute almost a third of the world’s population—2.2 billion individuals—and almost 90 percent live in low-income and middle-income countries, where they form up to half of the population. Yet, for many years, child mental health has largely been glossed over—with long-term negative effects on educational attainment in addition to chronic disability and lost productivity.
Major international non-governmental organizations and United Nations agencies work in settings where children are at risk for mental health difficulties. However, with the exception of the World Health Organization (WHO), these agencies often fail to acknowledge or focus on child mental health issues. In 2005, the WHO Atlas of Child and Adolescent Mental Health Resources reported that less than one third of 66 countries surveyed had an entity with sole responsibility for child mental health programming, and that national budgets rarely had identifiable funding for child mental health services. Full story »
Last week, Boston Children’s Hospital’s Innovation Acceleration Program hosted a jam-packed Innovators’ Showcase where teams from around the hospital networked, traded ideas and showed off their projects. Here are a few Vector thinks are worth watching.
1. An imaging ‘biomarker’ after concussion
Thirty percent of people who suffer a mild traumatic brain injury—a.k.a. concussion—have ongoing symptoms that can last months or years. If patients at risk could be identified, they could receive early interventions such as brain cooling and anti-seizure medications. New MRI protocols that can measure free, non-directional diffusion of water, coupled with sophisticated analytics, are achieving unprecedented pictures of what happens inside the brain after injury. Full story »
Alexandra Pelletier is a manager in the Innovation Acceleration Programat Boston Children’s Hospital. She directs the FastTrack Innovation in Technology Program, a hospital initiative to accelerate, rapidly develop and deliver innovative clinical software solutions.
Do you know the feeling of opening a new box with technology in it? I’m not a tech geek, but when my Google Glass arrived, with its crisp and simple packaging, my visceral reaction was “this is really cool.” Nonetheless, I’m approaching Glass carefully, because even the best technologies still require humans to use them. That means that they must be easy to use, must connect with other systems seamlessly and must offer value that makes its adoption worthwhile.
Google Glass is gaining some real excitement in health care. Each day my Twitter feed lights up with a new report of a hospital or practice trying it out. Here at Boston Children’s, we too are investigating the use of this technology through the Google Glass Explorer Program (watch Vector for more to come). We see promising potential for Google’s head-mounted display technology to transform communication and access to real-time information. Full story »
In 2012, Boston Children’s Hospital held the international CLARITY Challenge—an invitation to interpret genomic sequence data from three children with rare diseases and provide a meaningful, actionable report for clinicians and families. (Click for more background on the children, findings and winners.)
The full proceedings, published March 25 in Genome Biology, concluded that while the technical approaches were markedly similar from center to center, the costs, efficiency and scalability were not. Most variable, and most in need of future work, was the quality of the clinical reporting and patient consenting process. The exercise also underscored the need for medical expertise to bring meaning to the genomic data.
That was CLARITY 1. CLARITY 2, focusing on cancer genomics in children, promises to be exponentially more complex. Full story »
A clinician's-eye view of a patient with spinal muscular atrophy during a telemedicine visit.
The jury is still out on telemedicine. Proponents and many patients appreciate its ability to deliver virtual patient care and to extend the reach of experts beyond the brick-and-mortar setting of a hospital. But the real question about telemedicine is: Does it make it difference? Does is it improve care and if so, in what circumstances?
TeleCAPE, a small pilot project at Boston Children’s Hospital, inches the dial toward “yes” for some patients—in particular, home-ventilated patients.
Home-ventilated patients require an inordinate amount of health care resources for even minor conditions. Costs for a simple urinary tract or viral respiratory infection that might be managed without hospitalization can reach up to $83,000 because the child’s complex medical needs require ICU admission. Full story »
A new MRI computational technology (above right) captures differences in water diffusion in the brain across a population of children with autism as compared with controls. This non-directional, “isotropic” diffusion pattern, not evident with conventional diffusion tensor imaging (DTI), may be an indicator of brain inflammation.
Diffusion tensor imaging (DTI), a form of magnetic resonance imaging, has become popular in neuroscience. By analyzing the direction of water diffusion in the brain, it can reveal the organization of bundles of nerve fibers, or axons, and how they connect—providing insight on conditions such as autism.
But conventional DTI has its limits. For example, when fibers cross, DTI can’t accurately analyze the signal: the different directions of water flow effectively cancel each other out. Given that an estimated 60 to 90 percent of voxels (cubic-millimeter sections of brain tissue) contain more than one fiber bundle, this isn’t a minor problem. In addition, conventional DTI can’t interpret water flow that lacks directionality, such as that within the brain’s abundant glial cells or the freely diffusing water that results from inflammation—so misses part of the story. Full story »
Schools have manned the front lines in the battle against childhood obesity. Through the Healthy, Hunger-Free Kids Act of 2010, First Lady Michelle Obama has promoted low-cal lunches, fresh produce and more. Now, she hopes to ban junk food and soda marketing in schools.
Are these efforts enough to turn the tide? Offering healthy foods and promoting physical activity at school may not be enough to negate the impact of other unhealthy influences in students’ homes and neighborhoods, according to Tracy Richmond, MD, MPH, of Boston Children’s Hospital’s Division of Adolescent Medicine.
Richmond recently published a study in PLOS One that looked at how a school’s physical activity or nutrition resources might influence fifth grade students’ body mass index (BMI).
The study focused on 4,387 students in Birmingham, Ala., Los Angeles and Houston. “We wanted to find out if certain schools look ‘heavier’ because of their composition—meaning that kids at higher risk of obesity, like African American girls or Hispanic boys, cluster within certain schools—or whether something structural in the school influences BMI, like the facilities or programs offered,” explains Richmond. Full story »
David Altman is manager of marketing and communications in Boston Children’s Hospital’s Technology and Innovation Development Office.
Successful therapeutic development requires multiple stakeholders along the path from discovery to translation to clinical trials to FDA approval to market availability. At various points along this path, academia, industry, government, hospitals, nonprofits and philanthropists may work together. Would bringing these stakeholders together from start to finish lead to greater success?
A growing number of private-public consortia are launching in defined “pre-competitive” spaces where potential rivals collaborate to generate tools and data to accelerate biomedical research. In 1995, consortia were rare in health care: Only one was created. In 2012, 51 new consortia were launched, according to the organization Faster Cures.
Why? you may ask. Banding together in consortia can reduce costs, minimize failures and shorten the timeline to approval for new drugs. Full story »
If you’ve ever watched Shark Tank, you’ve gotten a taste of venture capitalists’ (VC) innate skepticism and hard-nosed ability to triage ideas. A recent webinar hosted by Cambridge Healthtech Associates offered a good practical “101” for scientists, inventors and clinical innovators—which we’ve distilled into the six tips below.
1. Find the pain.
VCs will want to know what “pain points” you are solving—the burning need or unpleasant thing a customer wants to avoid or fix right now. In health care, this could be the need for a more definitive diagnostic test or a cost-saving option, or, for the pharmaceutical industry, the need to reduce R&D costs by finding a better way to pick compounds to take to clinical trial. Full story »