1. Boston Children’s Hospital Use 3D
Models to Shorten Surgeries
Detailed operations can dangerous
and long. The more time a patient is in surgery, the bigger the risk. A growing
number of hospitals, including Boston Children’s Hospital, are using 3D operating models that allow surgeons to practice
complex operations before they walk into the operating room. Practicing
beforehand not only helps the surgeries go more quickly but also allows
surgeons to test innovative practices to be more confident of their success. 3D
printing allows hospitals to create exact models of a patient’s organs for
detailed practice
2. VR Helps Patients in Difficult Situations
Certain situations can be difficult for
patients, such as going through childbirth or facing anxiety about an upcoming
surgery. Startup VRHealth has partnered with healthcare
providers to bring virtual reality to patients. The innovative concept is
rather simple: patients are given VR glasses during painful or difficult
procedures to minimize the stress. The technology makes for a more pleasant
patient experience while also creating a better environment for providers to
safely perform the procedure. VR technology also helps clinics gather new
patient information and share treatment instructions for after the patient goes
home.
3. Biologics
in orthopaedics repair
After orthopaedic surgery, the body can take anywhere
from months to years to recover. But biologics – cells, blood components,
growth factors, and other natural substances – have the power to replace or
harness the body’s own power and promote healing. These elements are finding
their way into orthopaedic care, allowing for the possibility of expedited
improved outcomes.https://youtu.be/hoCaeSlbS-E
4. Antibiotic envelope for preventing infection with cardiac
implants
Cardiac implant devices such as
pacemakers and defibrillators come with a risk of infection. But encasing these
devices in an antibiotic “envelope”—a mesh sleeve embedded with
antibiotics—ensures the slow delivery of 2 antibiotics, rifampin and
minocycline, for 7 days after implantation. The week-long release of
antibiotics minimizes the risk of infection.
“The absorbable envelope received
FDA clearance in 2013, but healthcare professionals were awaiting results from
the landmark worldwide randomized WRAP-IT [Worldwide Randomized Antibiotic
Envelope Infection Prevention] trial,” according to the Cleveland Clinic.
“The findings published in March show a 40% reduction in major infections making cardiac
implantable device procedures safer for patients.”
5. Closed-loop spinal cord stimulation
Conventional spinal cord
stimulation works by sending electric impulses along the spinal column through
an implanted spinal cord stimulator, reducing the pain signals that reach the
brain. However, each patient is prescribed a fixed dose of stimulation, which
doesn’t take the individual's movement into account, limiting its
effectiveness. Now, researchers have developed closed-loop spinal cord
stimulation, which gets feedback from the patient’s own spinal cord. The
closed-loop system uses a stimulator that’s able to communicate in real time
with spinal cord neurons and modulate the dose of stimulation accordingly. It’s
the first such system to measure the spinal cord’s response to stimulation and
adjust each pulse according to the patient’s activity. “With this technology,
patients are getting measurable pain relief, sleeping better, and taking less
medication,” according to the Cleveland Clinic. “Pending approval, closed-loop
stimulation could be a saving grace for chronic pain patients everywhere.”
6. DiFoBod, a diabetic foot management
telehealth system
OTEN Medical is
dedicated and focused on improving the quality of life for people with
Diabetes. The company will be showcasing the DiFoBod: A Diabetic Foot Care
Telehealth System. The DiFoBod is designed to facilitate daily foot care
assessments, adequately drying between toes where elderly find it difficult to
reach. The DiFoBod captures images of the foot soles top self asses and connect
with their healthcare providers through Telehealth to evaluate images and
provide ongoing care.
7. Heart failure monitoring socks
The sock
contains a drift-free ankle size sensor and a leg tissue elasticity sensor.
Both sensors are inexpensive and developed using innovative new sensing ideas.
Preliminary tests with the sensor prototypes show promising results: The ankle
size sensor is capable of measuring 1 mm changes in ankle diameter and the
tissue elasticity sensor can detect 0.15 MPa differences in elasticity. A
low-profile instrumented sock prototype with these two sensors has been
successfully fabricated and will be evaluated in the future in an IRB-approved
human study.
8. Q2
Solution, a medical device that provides moving support to bedbound patients
The Q2
Solution was designed to reduce the rate of nurse injuries. By reducing
worker's comp claims, there should be more staff available, increasing the
ability to adhere to the Q2 Protocol, which requires patients to be turned
every two hours to prevent pressure ulcers. The potential impact will
ultimately be a reduction in litigation and hospitals absorbing the cost of "never
events,” or preventable errors in medical care.
9. Neoneur, a tool to assess the
neurological development of newborns.
Neoneur provides
a means to measure neurological development using oral feeding-based
biomarkers, improving clinical care for premature and at-risk infants who
struggle to orally feed successfully, and a means to detect potential
developmental delays. Lack of oral feeding success is the leading
cause for delay of discharge from the neonatal intensive care units for
premature and surgical infants.
10. Jonathan Rothberg: An ultrasound in your pocket
Jonathan Rothberg, a Yale genetics
researcher and serial entrepreneur, figured out how to put ultrasound
technology on a chip, so instead of a $100,000 machine in a hospital, it’s a
$2,000 go-anywhere gadget that connects to an iPhone app. It went on sale last
year to medical professionals. “Our goal is to sell to 150 countries that can
pay for it. And [the Gates Foundation] is distributing it in 53 countries that
can’t,” Rothberg says. The device isn’t as good as the big machines are and
won’t replace them in prosperous parts of the world. But it could make scanning
more routine. “There was a time when the thermometer was only used in a medical
setting, when a blood-pressure cuff was only used in a medical center,”
Rothberg says. “Democratizing [health] happens on multiple dimensions.”—Don
Steinberg
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