Lawrence Livermore National Laboratory recently received $5.6 million from DARPA to develop an implantable neural interface with the ability to record and stimulate neurons within the brain for treating neuropsychiatric disorders. The technology will help doctors to better understand and treat post-traumatic stress disorder (PTSD), traumatic brain injury (TBI), chronic pain and other conditions.
Imagine watching a procedure performed live through the eyes of the surgeon. That’s exactly what...
Obesity surgery may keep diabetes in remission even after 15 years in some patients, a study...
Every year, more than 1 million people in the U.S. have little mesh tubes called stents inserted into their blood vessels to prop them open. The procedure has saved many lives, but it still has potentially deadly downsides. Now scientists are reporting that coating stents with vitamin C could lower the implants’ risks even further.
Scientists have recently combined optical coherence tomography (OCT) with other instruments to help doctors provide safer, less painful, and more effective care for women in labor and people with diabetic retinopathy and glaucoma. Their work, to be showcased at CLEO in San Jose, Calif., in June 2014, will enable precision-guided epidural needles and blood flow measurements without contrast agents.
Photodynamic therapy (PDT) is an effective treatment for easily accessible tumors such as oral and skin cancer. But the procedure, which uses lasers to activate special drugs called photosensitizing agents, isn’t adept at fighting cancer deep inside the body. That could change because of a new technology that could bring PDT into areas of the body which were previously inaccessible.
Researchers from The Univ. of Texas at Dallas and the Univ. of Tokyo have created electronic devices that become soft when implanted inside the body and can deploy to grip 3-D objects, such as large tissues, nerves and blood vessels. These biologically adaptive, flexible transistors might one day help doctors learn more about what is happening inside the body, and stimulate the body for treatments.
Researchers have recently developed a unique technology to help physicians perform ultrasound-guided procedures involving needle placement. The new imaging technology, created by Clear Guide Medical, allows physicians to plan needle entry and a precise line to the target before the needle ever enters the patient’s organ or tissue. The result is more efficient, less damaging, and less stressful needle-placement procedures for patients.
In the hands of some Rice Univ. senior engineering students, a fishing rod is more than what it seems. For them, it’s a way to help destroy blood clots that threaten lives. Branding themselves as “Team Evacuator,” five students have been testing a device to break up blood clots that form in the bladders of adult patients and currently have to be removed by suction through a catheter in the urethra.
Univ. of Texas at Arlington and Texas Health Arlington Memorial Hospital are investigating whether bone grown from the body’s own stem cells can replace traditional types of bone grafting. The process, which has been successful in previous lab experiments, uses biodegradable polymer scaffolding material and bone morphogenetic protein, or BMP, which was inserted into the abdomen of mice to attract stem cells that in turn produced bone.
New research is boosting hopes that weight-loss surgery can put some patients' diabetes into remission for years and perhaps in some cases, for good. Doctors on Monday gave longer results from a landmark study showing that stomach-reducing operations are better than medications for treating "diabesity," the deadly duo of obesity and Type 2 diabetes.
A new study gives a big boost to fixing a bad aortic valve, the heart's main gate, without open-heart surgery. Survival rates were better one year later for people who had a new valve placed through a tube into an artery instead. The results were reported at an American College of Cardiology conference in Washington and prompted some doctors to predict that in the near future, far fewer people will be having the traditional operation.
A new organ has been developed at George Washington Univ. to help return blood flow from veins lacking functional valves. A rhythmically contracting cuff made of cardiac muscle cells surrounds the vein acting as a 'mini heart' to aid blood flow through venous segments. The cuff can be made of a patient’s own adult stem cells, eliminating the chance of implant rejection.
Adopted a common technique used in biochemistry, called agarose gel electrophoresis, researchers have investigated the damage to DNA that might have been caused by use of an atmospheric pressure plasma jet. This qualitative and quantitative study could ultimately lead to plasma-based tools for cancer therapy or hospital hygiene and other purposes.
Changing the texture and surface characteristics of a semiconductor material at the nanoscale can influence the way that neural cells grow on the material. The finding stems from a study performed by researchers at North Carolina State Univ., the Univ. of North Carolina at Chapel Hill and Purdue Univ., and may have utility for developing future neural implants.
It's not just grandma with a new hip and your uncle with a new knee. More than two of every 100 Americans now have an artificial joint, doctors are reporting. Among those over 50, it's even more common: 5% have replaced a knee and more than 2%, a hip.
Using an inexpensive 3-D printer, biomedical engineers have developed a custom-fitted, implantable device with embedded sensors that could transform treatment and prediction of cardiac disorders. An international team has created a 3-D elastic membrane made of a soft, flexible, silicon material that is precisely shaped to match the heart’s epicardium, or the outer layer of the wall of the heart.
Delivering drugs into the brain to treat neurological diseases and disorders has been a challenge. The current best and easiest way to get drugs anywhere in the body is to take them orally or to administer them intravenously. But the challenges for these routes of drug delivery for targets in the brain are multiple.
In the 2nd century BC, Indian surgeon Sushruta used autografted skin transplantation in nose reconstruction, also known as rhinoplasty. This was the first reasonable account of organ transplantation recorded. The first successful human corneal transplant was performed in 1905 in the Czech Republic, and the first steps to skin transplantation occurred during World War I. The first successful kidney transplant happened in 1962 in the U.S.
The government is preparing to regulate the new field of hand and face transplants like it does standard organ transplants, giving more Americans who are disabled or disfigured by injury, illness or combat a chance at this radical kind of reconstruction. The United Network for Organ Sharing, or UNOS, will develop the new policies over the next few months.
New research raises serious questions about a very common medical procedure—placing a stent to prop open a narrowed kidney artery. A study found that people treated with these stents plus various heart drugs fared no better than people treated with medicines alone.
The doctor isn't in, but he can still see you now. Remote presence robots are allowing physicians to "beam" themselves into hospitals to diagnose patients and offer medical advice during emergencies. A growing number of hospitals in California and other states are using telepresence robots to expand access to medical specialists, especially in rural areas where there's a shortage of doctors.
Two knee surgeons at University Hospitals Leuven have provided the first full anatomical description of a previously enigmatic ligament in the human knee. The ligament appears to play an important role in patients with anterior cruciate ligament (ACL) tears.
During open surgery, doctors rely on their sense of touch to identify anatomical structures: a procedure they call palpation. But this practice is not possible in minimally invasive surgery where surgeons work with small, specialized tools and miniature cameras. A small, wireless capsule has been developed that can restore the sense of touch that surgeons are losing as they shift increasingly from open to minimally invasive surgery.
An Israeli nonprofit group has awarded a $1 million prize to a U.S.-based research team that is developing technology that allows paralyzed people to move things with their thoughts. BrainGate is developing a brain implant that can read brain signals and allow the paralyzed to move robotic limbs or computer cursors.
Despite widespread adoption by hospitals of surgical robot technology over the past decade, a “slapdash” system of reporting complications paints an unclear picture of its safety, according to Johns Hopkins researchers. When an adverse event or device malfunction occurs, hospitals are required to report these incidents. But this doesn’t always happen, the researchers say.
Abbott’s Absorb bioresorbable vascular scaffold was named one of R&D Magazine’s 2013 top 100 technologies as part of its 51st annual R&D 100 Awards. The Absorb bioresorbable vascular scaffold, similar to a small mesh tube, is designed to open a blocked heart vessel and restore blood flow to the heart.
Surgery to relieve the damaging pressure caused by hemorrhaging in the brain is a perfect job for a robot. That is the basic premise of a new image-guided surgical system under development at Vanderbilt Univ. It employs steerable needles about the size of those used for biopsies to penetrate the brain with minimal damage and suction away the blood clot that has formed.
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