Tai chi for older adults and exercise for pregnant women are recommended in new official guidance.
Biopsies are currently the best way to detect cancer, but they’re invasive, uncomfortable, and can take a while to come back. Researchers have long been trying to find ways to eliminate the need for biopsies, and a team from the University of Michigan may have found one. Their new device, which is currently being tested, may be able to detect cancer cells that are circulating in a patient’s blood.
The University of Michigan team calls their new device “the epitome of precision medicine.” Dr. Daniel Hayes, Professor of Breast Cancer Research at the University of Michigan Rogel Cancer center, believes that getting cancer cells from a patient’s blood could help researchers to learn more about the makeup of the tumor. He and his team created a wearable device that looks through the blood to filter out cancerous cells. If the device is found to be successful, it may eventually replace liquid biopsies (blood or urine samples) that pick up cancer markers.
Malignant tumors release cells into a patient’s blood, meaning that researchers could detect the presence of cancer through a blood sample. The problem is that the cancerous cells enter the bloodstream and circulate so quickly that they may not appear in one single blood sample. This issue is what sparked Dr. Hayes and his team to develop a device that actually searches for the cancerous cells.
A dietary supplement, sarcosine, may help with schizophrenia as part of a holistic approach complementing antipsychotic medication, according to a UCL researcher.
In an editorial published in the British Journal of Psychiatry, Professor David Curtis (UCL Genetics, Evolution & Environment and QMUL Centre for Psychiatry) suggests the readily available product could easily be incorporated into treatment plans, while calling for clinical trials to clarify the benefit and inform guidelines.
“Sarcosine represents a very logical treatment and the small number of clinical trials so far do seem to show that it can be helpful. It certainly seems to be safe and some patients report feeling better on it,” he said.
Battlefield payload delivery, including for lifesaving medical supply, is likely going to be an option commanders regularly seek from drones.
Nick Bostrom is a Swedish philosopher at the University of Oxford known for his work on existential risk, the anthropic principle, human enhancement ethics, superintelligence risks, and the reversal test.
The enormous black hole at the center of our galaxy is having an unusually large meal of interstellar gas and dust, and researchers don’t yet understand why.
“We have never seen anything like this in the 24 years we have studied the supermassive black hole,” said Andrea Ghez, UCLA professor of physics and astronomy and a co-senior author of the research. “It’s usually a pretty quiet, wimpy black hole on a diet. We don’t know what is driving this big feast.”
A paper about the study, led by the UCLA Galactic Center Group, which Ghez heads, is published today in Astrophysical Journal Letters.
In an underground vault enclosed by six-foot concrete walls and accessed by a rolling, 25-ton concrete-and-steel door, University of California, Berkeley, students are making neutrons dance to a new tune: one better suited to producing isotopes required for geological dating, police forensics, hospital diagnosis and treatment.
Dating and forensics rely on a spray of neutrons to convert atoms to radioactive isotopes, which betray the chemical composition of a substance, helping to trace a gun or reveal the age of a rock, for example. Hospitals use isotopes produced by neutron irradiation to kill tumors or pinpoint diseases like cancer in the body.
For these applications, however, only nuclear reactors can produce a strong enough spray of neutrons, and there are only two such reactors west of the Mississippi.
EPFL scientists are developing new approaches for improved control of robotic hands—in particular for amputees—that combines individual finger control and automation for improved grasping and manipulation. This interdisciplinary proof of concept between neuroengineering and robotics was successfully tested on three amputees and seven healthy subjects. The results are published in today’s issue of Nature Machine Intelligence.
The technology merges two concepts from two different fields. Implementing them both together had never been done before for robotic hand control, and contributes to the emerging field of shared control in neuroprosthetics.
One concept, from neuroengineering, involves deciphering intended finger movement from muscular activity on the amputee’s stump for individual finger control of the prosthetic hand which has never before been done. The other, from robotics, allows the robotic hand to help take hold of objects and maintain contact with them for robust grasping.
Love The Netherlands
Posted in materials, transportation
The Netherlands is building roads out of plastic waste. Take a journey down the plastic highway 😍😍.
The Netherlands is building roads out of plastic waste. Take a journey down the plastic highway 😍 😍