We’ve talked a lot about reversing aging and immortality through AI but does it REALLY POSSIBLE? Ray Kurzweil believes we can achieve immortality by 2029, and Bryan Johnson is already using AI to slow his biological age. Is this the future of human longevity?
Chapters:
Intro 0:00 — 1:09
Can We Stop Aging? 1:10 — 2:21
AI Could Reverse Aging Process 2:22 — 2:52
Blueprint Project 2:53 — 5:30
Longevity Escape Velocity 5:31 — 6:57
Scary Consequences 6:58 — 7:43
A new study has revealed the clearest-ever picture of the surface chemistry of worm species that provides insights into how animals interact with their environment and each other. These discoveries could pave the way for strategies to deepen our understanding of evolutionary adaptations, refine behavioral research, and ultimately overcome parasitic infections.
Scientists from the University’s School of Pharmacy used an advanced mass spectrometry imaging system to examine the nematodes Caenorhabditis elegans and Pristionchus pacificus, aiming to characterize species-specific surface chemical composition and its roles in physiology and behavior.
Their results show that nematode surfaces are predominantly oily or lipid-based, forming a complex chemical landscape. The findings have been published in theJournal of the American Chemical Society.
Scientists have unlocked a revolutionary way to generate proton beams using high-powered lasers and a simple stream of water.
Unlike conventional methods requiring large, costly accelerators, this approach uses laser-plasma accelerators to produce ultra-fast proton beams in a compact space.
“ tabindex=”0” KAIST researchers have discovered a molecular switch that can revert cancer cells back to normal by capturing the critical transition state before full cancer development. Using a computational gene network model based on single-cell RNA
Ribonucleic acid (RNA) is a polymeric molecule similar to DNA that is essential in various biological roles in coding, decoding, regulation and expression of genes. Both are nucleic acids, but unlike DNA, RNA is single-stranded. An RNA strand has a backbone made of alternating sugar (ribose) and phosphate groups. Attached to each sugar is one of four bases—adenine (A), uracil (U), cytosine ©, or guanine (G). Different types of RNA exist in the cell: messenger RNA (mRNA), ribosomal RNA (rRNA), and transfer RNA (tRNA).
Scientists have detected cosmic waves that sound like birds chirping in an unexpected place.
These bursts of plasma, called chorus waves, ripple at the same frequency as human hearing. When converted to audio signals, their sharp notes mimic high-pitched bird calls.
Researchers have captured such sounds in space before, but now they have sensed the chirping waves from much farther away: over 62,000 miles (100,000 kilometers) from Earth, where they’ve never been measured before.
For the first time, scientists have demonstrated that negative refraction can be achieved using atomic arrays—without the need for artificially manufactured metamaterials.
Scientists have long sought to control light in ways that appear to defy the laws of nature.
Negative refraction—a phenomenon where light bends in the opposite direction to its usual behavior—has captivated researchers for its potential to revolutionize optics, enabling transformative technologies such as superlenses and cloaking devices.
What if love could be programmed? AI companions are here, offering customizable relationships tailored to your every desire. From apps like Replika to futuristic VR partners, we explore the rise of AI girlfriends and their potential to redefine how we connect. Could this technology solve loneliness—or destroy real human relationships? And what would a world without women look like, with just AI partners and baby incubators? Dive into this provocative discussion and share your thoughts below!
#AIGirlfriends #FutureOfLove #AICompanions #DigitalRelationships #TechAndSociety #AIInnovation #VirtualReality #LonelinessSolutions #MenAndTech #EthicalAI
This Collection invites multidisciplinary groups to submit their research in Generative Artificial Intelligence for aging research and drug discovery.
Every year, more than 5 million people in the USA are diagnosed with heart valve disease, but this condition has no effective long-term treatment. When a person’s heart valve is severely damaged by a birth defect, lifestyle, or aging, blood flow is disrupted. If left untreated, there can be fatal complications.
Valve replacement and repair are the only methods of managing severe valvular heart disease, but both often require repeated surgeries that are expensive, disruptive, and life-threatening. Most replacement valves are made of animal tissue and last up to 10 or 15 years before they must be replaced. For pediatric patients, solutions are extremely limited and can require multiple reinterventions.
Now, Georgia Tech researchers have created a 3D-printed heart valve made of bioresorbable materials and designed to fit an individual patient’s unique anatomy. Once implanted, the valves will be absorbed by the body and replaced by new tissue that will perform the function that the device once served.
A study has found that the cortex acts like a ‘memory machine’, encoding new experiences and predicting the near future, helping to differentiate between novel and old information.
