Lifeboat Foundation: Safeguarding Humanity
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Category: life extension

Dr Keith Siew, one of the study authors, says, “Nobody really likes talking about death, even cell death, which is perhaps why the physiology of death is so poorly understood. And in a way necrosis is death. If enough cells die, then tissues die, then we die. The question is what would happen if we could pause or stop necrosis.”

“Necrosis remains one of the last frontiers in medicine – a common thread across aging, disease, space biology, and scientific progress itself,” adds Dr Carina Kern, lead author of the study.

Necrosis occurs when cells are overwhelmed by injury, infection, or stress. The process floods cells with calcium, disrupting vital functions and causing the cell to rupture. This sudden collapse spills toxic molecules into surrounding tissue, triggering inflammation and accelerating damage.

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Not only can the drug metformin help to effectively manage type 2 diabetes, it may also give older women a better chance of living to the grand old age of 90, according to new research – thanks, it seems, to a variety of anti-aging effects.

The research used data from a long-term US study of postmenopausal women. Records on a total of 438 women were picked out – half who took metformin for their diabetes, and half who took a different diabetes drug, called sulfonylurea.

While there are a lot of caveats and asterisks to the study, those in the metformin group were calculated to have a 30 percent lower risk of dying before the age of 90 than those in the sulfonylurea group.

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A groundbreaking advancement in the field of vision restoration has recently emerged from the intersection of nanotechnology and biomedical engineering. Researchers have developed a novel retinal prosthesis constructed from tellurium nanowires, which has demonstrated remarkable efficacy in restoring vision to blind animal models. This innovative approach not only aims to restore basic visual function but also enhances the eye’s capability to detect near-infrared light, a development that holds promising implications for future ocular therapies.

The retina, a thin layer of tissue at the back of the eye, plays a crucial role in converting light into the electrical signals sent to the brain. In degenerative conditions affecting the retina, such as retinitis pigmentosa or age-related macular degeneration, this process is severely disrupted, ultimately leading to blindness. Traditional treatments have struggled with limitations such as electrical interference and insufficient long-term impacts. However, the introduction of a retinal prosthesis made from tellurium offers a fresh perspective on restoring vision.

Tellurium is a unique element known for its semiconductor properties, making it an excellent choice for developing nanostructured devices. The researchers carefully engineered tellurium nanowires and then integrated them into a three-dimensional lattice framework. This novel architecture facilitates easy implantation into the retina while enabling efficient conversion of both visible and near-infrared light into electrical impulses. By adopting this approach, the researchers ensured that the prosthesis would function effectively in various lighting conditions, a significant consideration for practical application in real-world scenarios.

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Whether you are a competitive athlete or an older adult, strong bones are essential—not only for movement, but also for overall health. Now, a new study has shed new light on how our bones are maintained and repaired by stem cells—and how that process is disrupted with age and in situations of poor healing. The findings could open doors to therapies that speed recovery from injuries, improve bone health, and boost performance longevity.

“Stem cells are the source of all new formation, and so work like this is really the foundation of developing new treatments for conditions of poor skeletal health and delayed or impaired fracture regeneration,” said Thomas Ambrosi, who led this study while he was a postdoctoral fellow in Charles Chan’s laboratory at Stanford University and later in his current position as an assistant professor of Orthopedic Surgery at UC Davis. The study was published in Cell Stem Cell.

“This work exemplifies the mission of the Wu Tsai Human Performance Alliance to advance science that helps people stay healthy, recover faster, and achieve peak performance,” said Michael Longaker, MD, a senior author on the study, a professor in the School of Medicine at Stanford University, and a member of the Wu Tsai Human Performance Alliance at Stanford.

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Scientists at the Institute for Basic Science (IBS) have uncovered a non-invasive method to boost the brain’s natural waste drainage system—a discovery that could open new avenues for tackling age-related neurological disorders.

In a study published in Nature, researchers from the IBS Center for Vascular Research, led by Director Koh Gou Young, along with senior researchers Jin Hokyung, Yoon Jin-Hui, and principal researcher Hong Seon Pyo, demonstrate that precisely stimulating the lymphatics under skin on the neck and face can significantly enhance the (CSF)—the liquid that cushions the brain and helps remove —through .

This offers a new approach to clearing brain waste using safe, non-invasive mechanical stimulation, rather than relying on drugs or surgical interventions.

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We dived deep into the difference between cryonics and biostasis, the philosophy of extropy, the future of cryonics, ethical and political dilemmas connected with biostasis, the proactionary principle, reframing the “death” idea, the future of human identity and much more!

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