Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog

Category: biotech/medical

An international team of physicists has successfully measured the size of a certain type of neutrino to a certain degree. In their paper published in the journal Nature, the group describes experiments they conducted that involved measuring the radioactive decay of the element beryllium.

Neutrinos are subatomic particles with a mass very close to zero. They also have a half-integral spin and rarely react with normal matter. To date, three kinds of neutrinos have been identified, each by association with an electron, muon or tau particle. Physicists have become more interested in neutrinos over the past several years because it is thought better understanding them may lead to a better understanding of why there is more matter than antimatter in the known universe.

One of the first questions that needs to be answered about neutrinos is their size. This is important because it allows building the right size and shape of neutrino detectors. Currently, they are very large, which allows for what is believed to be their largest possible theoretical size—several meters—though it is believed they are smaller. In this new effort, the research team conducted experiments with beryllium to measure the size of an electron-associated neutrino.

Read more | >

Three studies at the University of Zurich demonstrate that hypnosis alters activity in the large-scale functional networks of the brain. It also affects the neurochemical milieu of specific brain areas.

Hypnosis has so far been something of a black box from the scientific perspective. Up to now, we have not had the data to prove whether hypnosis really is an extraordinary state of human consciousness, or simply in the subject’s imagination. Yet it remains a topic of fascination for many.

A well-known women’s magazine recently dedicated an entire dossier to hypnosis. And now and again we’ll hear of a remarkable hypnosis success story. For example, in 2018 at the Hirslanden Klinik St. Anna in Lucerne, a 45-year-old man had a metal plate removed from his lower arm under hypnosis only, without any anesthetic or . Much to the amazement of the surgical team, the man did not experience any significant pain either during or after the operation, as the Swiss public broadcaster SRF Puls health magazine program reported on 17 September of that year.

Read more | >

If the coordination of DNA and RNA epigenetics gets thrown off, you may end up with too much or too little of a protein, Fuk suggested. “Now, a key protein will be expressed at a too high level,” he said.” This could be detrimental for a cell and contribute to tumorigenesis,” or the formation of tumors.

There are already approved therapies that inhibit the methylation of DNA, and there’s an early-phase clinical trial testing RNA methylation inhibition as a cancer treatment. Fuks and his team are testing the potential of combining these existing therapies to improve patients’ outcomes. Preliminary data from their laboratory studies hint this strategy could be useful for patients with leukemia.

Read more | >

Go to https://historicmail.com/DROID and check out with code DROID to get 10% off on their Christmas Sale on your gifts and help support the channel. Thanks to Historic Mail for sponsoring this video!
Machines so tiny they would be far smaller than a human blood cell, this is the promise of nanotechnology, and they already exist but how are they even made and will they be scarier than A.I. Experts say that we are just at the beginning of the nanobot revolution and what they promise could little short of miraculous. In this video we look at how we got here and what the current state of the art is.

To give one off tips and donations please use the following :
https://www.buymeacoffee.com/curiousdroid.

Patreon : https://www.patreon.com/curiousdroid — For longer term channel support.

Paypal.me : https://paypal.me/curiousdroid — For 1 off direct tips and thank you payments.

Continue reading “The NanoBots Are Coming, How Will They Affect Us In The Future?” | >

Researchers, led by the University of Melbourne’s Professor Laura Mackay, a Laboratory Head and Immunology Theme Leader at the Peter Doherty Institute of Infection and Immunity (Doherty Institute), in collaboration with Pfizer, have discovered new insights into possible future treatments for breast cancer.

A new dual-target drug that has been shown to supercharge cancer-fighting immune cells in mice may support a new treatment approach for patients, potentially paving the way for improved outcomes in breast cancer care.

Breast cancer is the fifth most common cause of cancer death in Australia, with more than 20,000 Australians diagnosed per year. Over 1,000 of those diagnosed are young Australian women under 40. There is an urgent need to discover more effective treatments for breast cancer.

Read more | >

A new blood test developed by researchers at Oregon Health & Science University (OHSU) shows promise for the early detection of pancreatic cancer, a disease notorious for its high mortality rates due to late diagnosis.

The test, named PAC-MANN, which stands for “protease activity-based assay using a magnetic nanosensor,” could provide a critical tool for doctors.

It can potentially lead to improved survival rates for patients diagnosed with pancreatic ductal adenocarcinoma (PDAC), the most prevalent and aggressive form of pancreatic cancer.

Read more | >

Aging is a natural process, but for centuries, humans have been searching for ways to slow it down or even reverse it. Recent advancements in stem cell research and regenerative medicine have given scientists unprecedented insights into aging and potential interventions. With breakthroughs in cellular therapy, gene editing, and tissue engineering, we are closer than ever to finding ways to rejuvenate the human body. But how close are we to reversing aging, and what challenges remain?

Stem cells are the body’s raw materials from which all other specialized cells are generated. They have the unique ability to divide and create identical copies of themselves (self-renewal) or differentiate into specialized cell types. However, as we age, our stem cells decline in both number and efficiency, contributing to tissue degeneration, slower healing, and an increased risk of age-related diseases.

Researchers have been investigating how stem cells can be manipulated to repair damaged tissues, regenerate organs, and potentially reverse signs of aging. By harnessing stem cells, scientists aim to restore youthful function in various tissues and organs, offering promising anti-aging therapies.

Read more | >

Summary: New research provides direct evidence that the gut microbiome communicates with the brain through the vagus nerve. Using germ-free mice, scientists observed significantly reduced vagal nerve activity, which returned to normal after introducing gut bacteria.

When antibiotics were used to eliminate bacteria in normal mice, vagal activity dropped but was restored when microbiome-derived intestinal fluids were reintroduced. Specific metabolites, including short-chain fatty acids and bile acids, were identified as key activators of vagal neurons.

These signals extended to the brainstem, confirming a clear gut-to-brain pathway. The findings advance understanding of the gut-brain axis and may lead to new treatments for neurological and gastrointestinal disorders.

Read more | >

Researchers at the LKS Faculty of Medicine of the University of Hong Kong (HKUMed) have invented an oral formulation of arsenic trioxide (Oral-ATO; ARSENOL) for the treatment of acute promyelocytic leukemia (APL), a blood cancer that once had a high fatality rate.

The invention and use of oral-ATO is of historic importance for medicine in Hong Kong. It is the first-ever prescription medication wholly invented and manufactured in Hong Kong, and also the first to obtain U.S., European and Japanese patents.

After more than two decades of dedicated work, the HKU research team successfully translated this Hong Kong invention into by incorporating oral-ATO into the treatment plan of APL patients. Extensive clinical studies of oral-ATO have demonstrated its high efficacy and safety in curing APL patients, with an overall survival (OS) rate exceeding 97%, along with a significant reduction in side-effects and treatment burden.

Read more | >