Responding to Chinese scientists’ attempt to use CRISPR gene editing technology to edit human embryos, the White House spoke up, saying, “altering the human germline for clinical purposes is a line that should not be crossed at this time.”
Nikkola Carmichael, MS, CGC, is a parent and a genetic counselor in the adult genetics clinic at Brigham and Women’s Hospital. Her research was conducted as part of her master’s degree in genetic counseling in conjunction with colleagues at Boston Children’s Hospital.
When a parent or provider first becomes concerned about a child’s development, a diagnostic odyssey begins. It may be brief or can stretch for years as a child undergoes multiple procedures and medical appointments in the search for a diagnosis.
This is a challenging time for families. While learning to address their child’s health needs and fearing for the future, parents may have difficulty accessing support services due to the lack of a diagnosis. Against this backdrop of emotional turmoil, parents strive to support their child through medical procedures that can be painful or frightening.
The care and feeding of more than 250,000 zebrafish just got better, thanks to a $4 million grant from the Massachusetts Life Sciences Center to upgrade Boston Children’s Hospital’s Karp Aquatics Facility. Aside from the fish, patients with cancer, blood diseases and more stand to benefit.
From a new crop of Boston-Children’s-patented spawning tanks to a robotic feeding system, the upgrade will help raise the large numbers of the striped tropical fish needed to rapidly identify and screen potential new therapeutics. It’s all part of the Children’s Center for Cell Therapy, established in 2013. We put on shoe covers and took a look behind the scenes. (Photos: Katherine Cohen)
Second in a two-part series on nerve regeneration. Read part 1.
The search for therapies to spur regeneration after spinal cord injury, stroke and other central nervous system injuries hasn’t been all that successful to date. Getting nerve fibers (axons) to regenerate in mammals, typically lab mice, has often involved manipulating oncogenes or tumor suppressor genes to encourage growth, a move that could greatly increase a person’s risk of cancer.
MIT’s implantable device could help docs determine best cancer medicine(Boston Business Journal)
Removing the trial and error associated with cancer drug treatments is high on oncologists’ wish lists. Heeding that call, MIT has developed an implantable device (about the size of a grain of rice) that can carry up to 30 different drug doses to a cancerous tumor, and then be removed to test responses.
In the U.S. alone, an estimated 30 million Americans suffer from a rare disorder. Many of them never receive a diagnosis, and often find themselves on a lonely journey, going from doctor to doctor and test to test, sometimes for many years, with no explanation for their symptoms.
How many people fall in the “undiagnosed” category is unclear, but in its first six years, the NIH’s Undiagnosed Diseases Program has received more than 10,000 inquiries. Without a diagnosis, it’s often difficult to qualify for insurance coverage, receive coordinated care or even connect with a support group.
What if the work of solving these medical mysteries could be crowd-sourced? That’s the goal of CLARITY Undiagnosed, an international challenge launching today in which scientific teams can compete to provide answers for five families with undiagnosed conditions. (Deadline for applications: June 11).
It may seem counterintuitive that your ability to tell different sounds apart would have anything to do with your ability to read or handle cognitive challenges. But that’s exactly what the lab of Nadine Gaab, PhD, has been showing.
Gaab discussed the research during a recent Longwood Seminar on Music as Medicine at Harvard Medical School:
The Gaab Lab has amassed an impressive body of work showing that auditory processing impairments correlate with developmental dyslexia, and that people who can detect tiny differences between sounds seem to do better both as musicians and as readers.
Your child’s forehead is warm, and you just took her temperature. The next question is, what to do about it? We all know that an average normal temp is 98.6°F, but is 100° a problem? Should 102° be a concern?
This is where Thermia comes in. It’s an online fever calculator developed by the HealthMap team at Boston Children’s Hospital. Essentially, it’s an educational tool aimed at helping concerned parents interpret a child’s temperature and understand which steps they should consider taking.
“I’m a father of two, and I still wonder sometimes what a temperature actually means,” says HealthMap co-founder John Brownstein, PhD. “We realized that there really aren’t any fever calculators out there to help parents answer that question.
“Our idea with Thermia,” he adds, “was to arm families with information so they don’t panic when their child has a temperature.”
[Update 5/18/15: According to a Wyss Institute press release, the Design Museum in London has selected the organs-on-chips as the winner of their 2015 Designs of the Year exhibition’s Product category.]
If you’re in New York City in the next few months, pop into the Museum of Modern Art (MoMA) and stop by the “This Is For Everyone: Design For The Common Good” exhibit. There—alongside displays dedicated to the “@” symbol, the pin icon from Google Maps and bricks made from living mushroom roots—you’ll find three small silicone blocks mounted on a wall panel.
Earlier this month, MoMA announced its plans to include the chips as part of their exploration of contemporary design in the digital age. In the museum’s eyes, organs-on-chips are more than a way to model disease in a complex, living system—they’re also art.