Lifeboat Foundation

Today, the University of Colorado Cancer Center released new research that showcases chemotherapy treatment before and after surgery for pancreatic cancer as the most effective combination for patients.

The study findings were published in JAMA Oncology and led by Marco Del Chiaro, MD, division chief of surgical oncology in the University of Colorado Department of Surgery and visiting researcher Toshitaka Sugawara, MD, Ph.D.

“It’s critical to have large scale data that doctors can use to make decisions about chemotherapy plans for patients who qualify for pancreatic cancer surgery,” said author Marco Del Chiaro, MD, division chief of surgical oncology at the CU Cancer Center on the University of Colorado Anschutz Medical Campus.

The fight against Alzheimer’s disease has been a tough one, but we are making progress. Not only have scientists created tech that can detect Alzheimer’s in a single brain scan, but some research has also shown that repurposable drugs could help find a cure.

https://www.youtube.com/watch?v=vpOliRELIyQ

While Elon Musk’s Tesla has been making waves in the global auto industry, China has also become the center of action in the EV space! One company in China has recorded.

A breakthrough in battery technology so huge that even Musk is impressed! Which.

Continue reading “China JUST REVEALED Battery Breakthrough That Charges Faster Than Gasoline!” »

One thing the Star Trek franchise has no shortage of across its many iterations and separate series storylines is the array of world-ending technological horrors always facing the constantly hounded Federation, and The Original Series started it all with this planet-destroying weapon of unknown origin which appeared in the episode of the same name.

Though the crew never quite figures out exactly what it is or where its origins lay, Kirk theorized it was constructed as a bluff to deter one side of an undetermined galactic war, reflecting the Mutual Assured Destruction fears of the time between the U.S. and Russia. It’s pretty much Star Trek’s famous answer to the Death Star, albeit ten years before Episode 4 would make its debut.

Hunting for lightweight dark matter particles requires detectors with much lower signal thresholds than traditional experiments. This requirement has prompted novel detection techniques, including probing the faint interactions that occur between sub-MeV particles and electrons. In a 180-hour-long experiment, Yonit Hochberg of the Hebrew University of Jerusalem and her colleagues demonstrate a device that distinguishes hypothetical sub-MeV dark matter from background noise with record sensitivity [1]. Their experiment places the strongest constraints yet on interactions between lightweight dark matter and regular matter.

Hochberg and her colleagues etched an array of nanowires in a 7-nm-thick tungsten-silicide film to produce a superconducting nanowire single-photon detector, a sensor that is sensitive to extremely small energy inputs. When energy above some threshold is deposited on a superconducting nanowire, the wire briefly becomes a regular conductor, resulting in a voltage pulse.

The team circulated a fixed current through their device and sealed it in a light-tight box for 180 hours. They counted four voltage pulses, each corresponding to a deposited energy of at least 0.73 eV. Absent any other detectable energy source, these dark counts could be attributed to cosmic-ray-generated muons or high-energy particles excited by radioactive decay.

A pair of microspheres can convert microwave signals over a wide frequency range into optical signals, which will be essential for future quantum technologies.

Future quantum communication systems will likely use microwaves to transfer information into and out of storage and processing devices but will use lasers to carry information from point to point within an extended network. Now researchers have demonstrated an improved method for converting microwaves to visible light signals by exploiting the way that electromagnetic waves can set up vibrations within microspheres [1]. Two microspheres in contact—one sensitive to microwaves and the other sensitive to optical signals—serve as the core of the converter. The work should give researchers a wider range of technological options as they develop advanced communications and computing networks.

Researchers are pursuing a variety of ways to store quantum information, or “qubits,” in microscopic, typically superconducting, structures. One common feature of such technologies is that reading or writing information relies on interactions with microwaves rather than on higher-frequency visible or infrared light from lasers. But lasers offer the best way to move information around, so extended networks of such devices will need ways to convert signals from one form to the other.

A new therapy that makes the immune system kill bone marrow cancer cells was successful in as many as 73% of patients in two clinical trials, according to researchers from The Tisch Cancer Institute at the Icahn School of Medicine at Mount Sinai.

The therapy, known as a bispecific antibody, binds to both T cells and multiple myeloma cells and directs the T cells— white blood cells that can be enlisted to fight off diseases—to kill multiple myeloma cells. The researchers described this strategy as “bringing your army right to the enemy.”

The success of the off-the-shelf immunotherapy, called talquetamab, was even seen in patients whose cancer was resistant to all approved multiple myeloma therapies. It uses a different target than other approved therapies: a receptor expressed on the surface of cancer cells known as GPRC5D.

In recent years, engineers have been working to develop increasingly sophisticated and smaller electronic components that could power the devices of the future. This includes thin and stretchable components that could be easily worn on the skin or implanted inside the human body.

Researchers at RIKEN, Nanyang Technological University, National University of Singapore, University of Tokyo, and other institutes in Japan, Singapore and China have recently realized a new, elastic electrical conductor that is 1.3-micrometers thin. This conductor, introduced in a paper published in Nature Electronics, could advance the development of both wearable and implantable sensors.

“Ultrathin electronic devices can form a conformal interface with curved surfaces, are not perceivable by human when wearing, and do not induce strong foreign body rejection (FBR) when implanted in animals,” Zhi Jiang, one of the researchers who carried out the study, told TechXplore.

An analysis of 22 large-scale gene expression datasets pointed to exercise and activity in general as the most effective theoretical treatment for reversing gene expressions typical of Alzheimer’s disease. Fluoxetine, a well-known antidepressant, also showed effect, particularly when combined with exercise. Curcumin showed positive effects as well. The study was published in Scientific Reports.

Alzheimer’s disease is a complex neurodegenerative disorder that affects multiple brain regions. It is the most common disease that causes dementia and is very difficult to treat. In the course of the disease, abnormal collections of proteins called tau accumulate inside neurons.

Another type of protein clumps together to form so-called amyloid plaques that collect between neurons and disrupt cell functions. These and other changes harm the functioning of the brain across different regions and lead to dysfunction and death of brain cells.