Lifeboat Foundation

After a researcher discovered that an Android TV streaming box, known as T95, was infected with preloaded malware, researchers at Human Security released information regarding the extent of infected devices and how malicious schemes are connected to these corrupted products.

Daniel Milisic, a systems security consultant, created a script alongside instructions to help other users mitigate the threat after first coming across the issue. Now, Human Security’s threat intelligence and research team has dubbed the operation “Bandbox,” which it characterizes as a complex, interconnected series of ad fraud schemes on a massive scale.

Human Security describes the operation as “a global network of consumer products with firmware backdoors installed and sold through a normal hardware supply chain.” Once activated, the malware on the devices connect to a command-and-control (C2) server for further instructions. In tandem, a botnet known as Peachpit is integrated with Badbox, and engages in ad fraud, residential proxy services, fake email/messaging accounts, and unauthorized remote code installation.

Mayo Clinic research has developed a new type of chimeric antigen receptor-T cell therapy (CAR-T cell therapy) aimed at killing B-cell blood cancers that have returned and are no longer responding to treatment. This pioneering technology, designed and developed in the lab of Hong Qin, M.D., Ph.D., killed B-cell tumors grown in the laboratory and tumors implanted in mouse models. The preclinical findings are published in Cancer Immunology, Immunotherapy.

“This study shows our experimental CAR-T cell therapy targets several blood cancers, specifically chronic lymphocytic leukemia,” says Dr. Qin. “Currently there are six different CAR-T cell therapies approved for treatment of relapsed blood cancers. While the results are impressive, not everyone responds to this treatment. Our goal is to provide novel cell therapies shaped to each patient’s individual need.”

Dr Qin’s team developed a cell therapy to target a protein known as B-cell activating factor receptor (BAFF-R) found in patients with B-cell cancers, particularly those with chronic lymphocytic leukemia. The BAFF-R protein is linked to tumor growth. The cell therapy under investigation allows the immune system to quash cancer and target tumors that have returned or have resisted available CAR-T cell therapies.

Prof. Donald Hoffman talks to Essentia Foundation’s Hans Busstra about his theory of conscious agents, according to which space and time are cognitive constructs in consciousness, not an objective scaffolding of the world outside. The interview also touches on Prof. Hoffman’s personal history and life, bringing the warmth of his humanity to the academic rigor of his theories.

00:00 Intro: Beyond the spacetime headset.
03:32 About Donalds personal background.
07:35 On the importance of mathematics.
13:22 Quantum theory and spacetime.
19:24 Why exactly is spacetime ‘doomed’?
24:34 Did physics ‘encounter’ consciousness in quantum theory?
32:49 On heavy vs light metaphysical claims.
37:36 How is your theory affecting your personal life?
42:17 Is The Matrix a good metaphor?
46:38 How can the space time interface affect consciousness?
53:09 What makes you say that if spacetime is not fundamental, consciousness must be fundamental?
55:44 Physicalism fails to give an accurate model of consciousness… 1:00:24 How can we put the spacetime headset off? 05:39 Beyond the spacetime fantasies of Christopher Nolan and the Matrix… 1:09:27 The ontology of conscious agents 1:15:05 Are meditation and psychedelics ‘hacks’ in the interface? 1:21:41 Should we revalue religious and mystic literature? 1:29:54 Could idealism as a worldview help us better solve the challenges humanity faces? 1:34:23 The role of mathematics in bringing together science and spirituality Copyright © 2022 by Essentia Foundation. All rights reserved. https://www.essentiafoundation.org.
1:00:24 How can we put the spacetime headset off?
05:39 Beyond the spacetime fantasies of Christopher Nolan and the Matrix…
1:09:27 The ontology of conscious agents.
1:15:05 Are meditation and psychedelics ‘hacks’ in the interface?
1:21:41 Should we revalue religious and mystic literature?
1:29:54 Could idealism as a worldview help us better solve the challenges humanity faces?
1:34:23 The role of mathematics in bringing together science and spirituality.

Continue reading “Spacetime is just a headset: An interview with Donald Hoffman” »

New case report worth reading! A patient underwent subtotal cholecystectomy for severe cholecystitis. Post-op he developed jaundice and abscess requiring percutaneous transhepatic drainage (PTAD).

Shock and massive hemothorax occurred after removal of the PTAD tube. The cause was bleeding from the liver at the PTAD site. The patient required emergency hemostasis and embolization. This highlights the need for extreme care when handling PTAD tubes after complicated gallbladder surgery.

A 59-year-old man with a past medical history of gallstones was diagnosed with acute cholecystitis and received antibiotic treatment. He was discharged after ten days of hospitalization and was due to undergo laparoscopic cholecystectomy. Three months later, however, he had to be readmitted due to a recurrence of acute cholecystitis. Subsequently, laparoscopic reconstituting subtotal cholecystectomy was performed because Inflammation of the gallbladder was severe. At the first postoperative outpatient visit, the patient reported obstructive jaundice, and computed tomography (CT) scan revealed fluid collection in the hepatic bed and a missed common bile duct stone. Percutaneous transhepatic abscess drainage (PTAD) was performed on admission, and endoscopic stone removal was attempted the following day but was challenging due to a periampullary diverticulum.

Continue reading “Massive Hemothorax Caused by Removal of Percutaneous Transhepatic Abscess Drainage Tube for Bile Leak After Subtotal Cholecystectomy: A Case Report” »

Of course, this study was performed on a relatively small group of individuals in an agricultural community, which is not the environment that most American teenagers grow up in. These links may also be due to some other confounding factors, like spending more time on the farm than in formal education. However, these results are still striking and important to consider for young people in farming communities (and non-farming communities) around the world.

“Many chronic diseases and mental-health disorders in adolescents and young adults have increased over the last two decades worldwide, and exposure to neurotoxic contaminants in the environment could explain a part of this increase,” senior author Jose Ricardo Suarez, an associate professor in the Herbert Wertheim School of Public Health, said in a statement.

“Hundreds of new chemicals are released into the market each year, and more than 80,000 chemicals are registered for use today,” Suarez added. “Sadly, very little is known about the safety and long-term effects on humans for most of these chemicals. Additional research is needed to truly understand the impact.”

The scent of coffee. The clarity of sunlight dappling through the trees. The howl of the wind in the dark of night.

All this, according to a philosophical argument published in 2003, could be no more real than pixels on a screen. It’s called the simulation hypothesis, and it proposes that if humanity lives to see a day it can repeatedly simulate the Universe using come kind of computer, chances are we are living in one of those many simulations.

If so, everything we experience is a model of something else, removed from some kind of reality.

Pulsars are known for their regularity and stability. These fast-rotating neutron stars emit radio waves with such consistent pulses that astronomers can use them as a kind of cosmic clock.

But recently a pulsar emitted gamma rays with tremendous energy. The gamma rays were the most energetic photons ever observed, with energies of more than 20 teraelectronvolts, and astronomers are struggling to understand how that’s possible.

The results were published in Nature Astronomy, which describes the burst of gamma rays emanating from the Vela Pulsar.

Some asteroids have measured densities higher than those of any elements known to exist on Earth. This suggests that they are at least partly composed of unknown types of “ultradense” matter that cannot be studied by conventional physics.

Jan Rafelski and his team at the Department of Physics, The University of Arizona, Tucson, U.S., suggest that this could consist of superheavy elements with atomic number (Z) higher than the limit of the current periodic table.

They modeled the properties of such elements using the Thomas-Fermi model of atomic structure, concentrating particularly on a proposed “island of nuclear stability” at and around Z=164 and extending their method further to include more exotic types of ultra-dense material. This work has now been published in The European Physical Journal Plus.

Researchers who have been working for years to understand electron arrangement and magnetism in certain semimetals have been frustrated by the fact that the materials only display magnetic properties if they are cooled to just a few degrees above absolute zero.

A new MIT study led by Mingda Li, associate professor of nuclear science and engineering, and co-authored by Nathan Drucker, a graduate research assistant in MIT’s Quantum Measurement Group and Ph.D. student in applied physics at Harvard University, along with Thanh Nguyen and Phum Siriviboon, MIT graduate students working in the Quantum Measurement Group, is challenging that conventional wisdom.

The open-access research, published in Nature Communications, for the first time shows evidence that topology can stabilize magnetic ordering, even well above the magnetic transition temperature—the point at which magnetism normally breaks down.