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What if we told you AI just created the strongest light material known to humanity? This groundbreaking discovery could revolutionize everything from aerospace to everyday tech. In this video, we break down how artificial intelligence engineered this ultra-light, ultra-strong material—and why it changes the game forever.

Scientists have long searched for the perfect balance of strength and weight, and now, AI has cracked the code. Using advanced algorithms, researchers developed a material that’s lighter than carbon fiber but stronger than steel. Imagine planes, cars, and even buildings becoming more efficient and durable than ever before.

We’ll explore how this AI-designed material works, its potential real-world applications, and what it means for the future of engineering. From military tech to consumer products, this innovation could redefine entire industries. The best part? This is just the beginning of AI-driven material science breakthroughs.

How was this material invented? What makes it so strong yet so light? How will this impact future technology? Can AI design even better materials? This video answers all these questions and more. Don’t miss out on the science behind the next big leap in material engineering—watch now!

#ai.
#artificialintelligence.
#ainews.

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A 70-year-old man with a history of hypertension and chronic migraine presented with 10 months’ history of progressive generalized muscle weakness and stiffness. He reported a 19-kg unintentional weight loss over the last 7 months. He described worsening exertional dyspnea over the past 3 weeks prior to presentation. He had multiple surgical procedures for joint contractures and bilateral carpal tunnel syndrome in the past 5 years. He had no history of smoking or alcohol consumption. Physical examination revealed generalized muscle wasting except for hypertrophy of bilateral shoulder muscles (Figure 1 A) with proximal muscle weakness of the shoulders. The reflexes and sensation were intact in both upper limbs, and there was no distal weakness.

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Researchers have developed a tiny magnetic robot that can take 3D scans from deep within the body and could revolutionise early cancer detection.

The team, led by engineers from the University of Leeds, says this is the first time high-resolution three-dimensional ultrasound images taken from a probe deep inside the gastrointestinal tract, or gut, have been generated.

It paves the way to transforming the diagnosis and treatment of several forms of cancer by enabling ‘virtual biopsies’ – noninvasive scans that provide immediate diagnostic data. These scans allow doctors to detect, stage, and potentially treat lesions in a single procedure, eliminating the need for physical biopsies.

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Wenzhou Medical University and collaborating institutions have identified a population of human neural retinal stem-like cells able to regenerate retinal tissue and support visual recovery.

Vision loss caused by affects millions worldwide. Conditions such as and age-related macular degeneration involve the irreversible loss of light-sensitive neural cells in the retina. While current treatments may slow progression, they do not replace damaged tissue.

For decades, scientists have explored whether stem cells could be used to regenerate the retina, but the existence of true retinal stem cells in humans has remained uncertain. In fish and amphibians, the outer edge of the retina houses stem cells that regenerate tissue continuously. Whether a comparable system exists in the human eye has been debated for more than two decades.

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