Atlas shimmies.
Dr. Nicole Prause, PhD is an American neuroscientist researching human sexual behavior, addiction, and the physiology of sexual response. She is also the founder of Liberos LLC, an independent research institute and biotechnology company.
Dr. Prause obtained her doctorate in 2007 at Indiana University Bloomington, with joint supervision by the Kinsey Institute for Research in Sex, Gender, and Reproduction, with her areas of concentration being neuroscience and statistics. Her clinical internship, in neuro-psychological assessment and behavioral medicine, was with the VA Boston Healthcare System’s Psychology Internship Training Program. Her research fellowship was in couples’ treatment of alcoholism was at Harvard University.
Dr. Prause became a tenure track faculty member at Idaho State University at the age of 29. After three years there, she accepted a position as a Research Scientist at the Mind Research Network, a neuro-imaging facility in Albuquerque, New Mexico.
In 2012, Dr. Prause was elected a full member of the International Academy of Sex Research and accepted a position as a Research Scientist on faculty at the University of California, Los Angeles in the David Geffen School of Medicine. While there, she was promoted to Associate Research Scientist in 2014.
“While myocarditis is a rare condition—affecting roughly 22 out of every 100000 people each year—it is nevertheless a recognized cause of death among professional athletes, even in the absence of previous heart trouble. A 2015 study found that among NCAA athletes who died of a sudden cardiac event, 10 percent experienced myocarditis, and a Myocarditis Foundation report found that the condition causes 75 deaths per year in athletes between the ages of 13 and 25. ESPN reports that COVID-19 has been linked with myocarditis at a higher frequency than other viruses have been, based on limited studies and anecdotal evidence. A recent study of 100 patients in Germany found that 60 percent suffered from myocarditis following their COVID-19 diagnoses, independent of pre-existing conditions. To assess the presence of myocarditis in college athletes that have recovered from COVID-19, the authors selected 26 students at Ohio State University, including men and women. None of the participants, who played football, soccer, lacrosse, basketball, or track, had previous heart conditions before being tested.”
Images of the players’ hearts showed signs of inflammation consistent with myocarditis, a rare but potentially fatal condition.
AP Exclusive: The Chinese government is tightly controlling all COVID-19 research under orders from President Xi Jinping, internal documents obtained by The AP show. As a result, China’s search for the origins of the virus has been cloaked in secrecy. In a sign of how sensitive research has become, police stopped scientists and confiscated their samples at a mineshaft where the closest known relative of the COVID-19 virus was found.
MOJIANG, China (AP) — Deep in the lush mountain valleys of southern China lies the entrance to a mine shaft that once harbored bats with the closest known relative of the COVID-19 virus.
The area is of intense scientific interest because it may hold clues to the origins of the coronavirus that has killed more than 1.7 million people worldwide. Yet for scientists and journalists, it has become a black hole of no information because of political sensitivity and secrecy.
A bat research team visiting recently managed to take samples but had them confiscated, two people familiar with the matter said. Specialists in coronaviruses have been ordered not to speak to the press. And a team of Associated Press journalists was tailed by plainclothes police in multiple cars who blocked access to roads and sites in late November.
This is some real sci-fi stuff.
Beaming solar power from outer space sounds like a Marvel movie plot, but space could remove barriers to solar acceptance that dominate the Earthbound discourse.
The Gaia space telescope has measured the acceleration of the Solar System when it orbits the center of our Milky Way galaxy. The Solar System motion relative to the stars agrees with the results by Finnish astronomers in the 19th century. Moreover, the observational data by Gaia improves satellite navigation.
Earlier this month, the European Space Agency (ESA) released observational data from the Gaia telescope (Gaia Early Data Release 3 or EDR3), in continuation to the DR1 and DR2 releases of the years 2016 and 2018. Gaia accrues accurate knowledge about, for example, the Milky Way stars, distant extragalactic quasars, and the asteroids of our Solar System.
Quasars are bright, star-like objects that allow for the determination of planet Earth’s orientation in space. With the help of their precise positions measured by Gaia, a new high-precision reference system can be constructed for defining the positions of stars, Solar System objects, and also satellites.
Simulations rule out plasmas caused by meteoroid impacts as the source of lunar magnetism, supporting the proposal that the ancient moon generated a core dynamo.
Today, the moon lacks a global magnetic field, but this wasn’t always the case. Spacecraft measurements of the moon’s crust and lunar rocks retrieved by the Apollo missions contain remnant magnetization that formed 4 to 3.5 billion years ago in a magnetic field comparable in strength to that of the Earth. Scientists have argued that the source of this was a dynamo — a magnetic field generated by the moon’s churning, molten, metal core. However, research indicates that the moon’s suspected small core may not have been able to generate enough energy to sustain the ancient magnetic field that planetary scientists have inferred from in its rocks.
In a recent Science Advances paper, research scientist Rona Oran and professor of planetary sciences Ben Weiss of the MIT Department of Earth, Atmospheric and Planetary Sciences examined the plausibility of an alternative hypothesis that has been around since the 1980s that could produce the remnant magnetization in the lunar crust: transient plasmas generated by meteoroid impacts. Here, they describe some of their findings.
Boston Dynamics’ robots dance to “Do you love me”
Boston Dynamics, already well known for its cutting-edge robotics technology, has released a new video in which its latest machines can be seen dancing to the classic song “Do You Love Me” by the Contours.
This line-up includes the bipedal humanoid Atlas, the four-legged canine-inspired Spot, and the two-wheeled Handle. The robots’ moves appear eerily human-like as they strut their stuff – an effect known as the uncanny valley.
This is another example of how autism is now being used as an advantage in business. What people previously saw as a weakness turned out to be a strength. 😃
Gordon Douglas struggled to find work because of his “differences”. Now his neurodiversity is making him a sought-after employee.
LeukemiaAiResearch/HIAS
Posted in biotech/medical, encryption, robotics/AI
Genies like Adam are busy.
HIAS is an open-source Hospital Intelligent Automation System designed to control and manage an intelligent network of IoT connected devices. The network server provides locally hosted and encrypted databases, and a secure proxy to route traffic to the connected devices.