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Archive for the ‘life extension’ category: Page 138

Dec 15, 2022

Aaron Cravens at Rejuvenation Startup Summit 2022

Posted by in categories: biotech/medical, life extension

New video: Dr. Aaron Cravens, CEO of Revel Pharmaceuticals at #RejuvenationStartupSummit 2022 about developing designer enzymes to treat diseases of aging, e.g. glucosepane crosslink breakers to prevent hardening of tissues such as muscle, skin, and arteries leading to increased blood pressure, vascular damage, and wrinkling of the skin.

Enjoy →

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Dec 14, 2022

Dr. Tobias Reichmuth, Ph.D. — Maximon — Structuring, Financing & Growing Novel Longevity Ventures

Posted by in categories: business, climatology, economics, finance, life extension, singularity, sustainability

Structuring, Financing & Growing Novel Longevity Ventures — Dr. Tobias Reichmuth Ph.D., Founding Partner, Maximon


Dr. Tobias Reichmuth, Ph.D. is Founding Partner at Maximon (https://www.maximon.com/), The Longevity Company Builder, which empowers entrepreneurs to build impactful, science-based and scalable companies providing healthy aging and rejuvenation solutions.

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Dec 14, 2022

The bird is fine, the bird is fine, the bird is fine, it’s dead

Posted by in categories: biotech/medical, life extension

I don’t think immortality is possible because everything has it’s end.with with proper research in medical science life expectancy can be increased.


The pursuit of immortality is getting older. So are we.

Dec 13, 2022

Nanotech Injections Restore Vision In Blind Rats

Posted by in categories: biotech/medical, cyborgs, life extension, nanotechnology

Year 2020 face_with_colon_three


An international team of scientists have restored the vision in blind rats using a nanoparticle-based artificial retina prosthesis that can be injected directly into the eye. The scientific advance has been successfully demonstrated for a period of eight months without the need for surgery. While it is still early days for the research, it suggests it might one day be possible to use the conjugated polymer nanoparticle (P3HT-NP) treatment in humans to correct eye problems –ranging from hereditary retinal dystrophies to the incredibly common age-related macular degeneration.

“In our ‘liquid retina device,’ P3HT nanoparticles spread out over the entire subretinal space and promoted light-dependent activation of spared inner retinal neurons, recovering subcortical, cortical and behavioral visual responses,” Fabio Benfenati, research director at the Italian Institute of Technology, told Digital Trends. “We think that P3HT-NPs provide a new avenue in retinal prosthetics.”

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Dec 13, 2022

Living robots made in a lab have found a new way to self-replicate, researchers say

Posted by in categories: biotech/medical, life extension, robotics/AI

Year 2021 face_with_colon_three


Xenobots, a type of programmable organism made from frog cells, can replicate by spontaneously sweeping up loose stem cells, researchers say. This could have implications for regenerative medicine.

Dec 13, 2022

Is Death Real? New Experiments Raise Important Questions on What it Means to Die

Posted by in category: life extension

A groundbreaking scientific discovery changes what we know about dying.

Dec 13, 2022

Unmasking BACE1 in aging and age-related diseases

Posted by in categories: biotech/medical, life extension, neuroscience

The BACE1 enzyme has a rate-limiting role in the amyloidogenic pathway (see Glossary) and has been extensively studied for its neuronal functions[1]. Since 2000, intensive efforts have focused on developing small-molecule BACE1 inhibitors to reduce amyloid β (Aβ) production in Alzheimer’s disease (AD) brains. However, human clinical trials involving most BACE1 inhibitors were stopped at Phase 2/3 due to limited therapeutic benefits[2]. BACE1 inhibitors act by reducing Aβ-related pathologies in AD brains, that is, they are used to treat the symptoms rather than the underlying disease.

Dec 12, 2022

Cellular ‘Glue’ to Regenerate Tissues, Heal Wounds, and Regrow Nerves

Posted by in categories: biotech/medical, life extension

Summary: Researchers engineered cells containing customized adhesion molecules that bind to specific cell partners in predictable ways to form complex multicellular entities. The discovery is a major step toward building new tissue and organs.

Source: UCSF

Researchers at UC San Francisco (UCSF) have engineered molecules that act like “cellular glue,” allowing them to direct in precise fashion how cells bond with each other. The discovery represents a major step toward building tissues and organs, a long-sought goal of regenerative medicine.

Dec 12, 2022

‘Cellular glue’ may help us finally build tissues and organs

Posted by in categories: biotech/medical, life extension, robotics/AI

Achieving a long-sought goal of regenerative medicine.

Researchers from the University of California, San Francisco, (UCSF) engineered molecules that function as “cellular glue,” enabling them to precisely direct how cells bond with each other. This is a significant step toward regenerative medicine’s long-term goal of creating new tissues and organs, according to a press release.

Adhesive molecules are naturally present in the body and keep the tens of trillions of cells together in organized patterns. They build neural networks, develop structures, and direct immune cells to specific areas of the body. Adhesion also makes cell communication easier to maintain the body functioning as a self-regulating whole.

Dec 12, 2022

Science Saturday: Early research toward a cell-free solution for stress urinary incontinence

Posted by in categories: biotech/medical, life extension, science

Mayo Clinic researchers found a noncellular substance suggested improvement in restoring muscle function and bladder control in preclinical models. The teams of Atta Behfar, M.D., Ph.D. and Emanuel Trabuco, M.D., led this research in a collaboration between Mayo Clinic Departments of Cardiovascular Medicine and Obstetrics and Gynecology. The paper is published in NPJ Regenerative Medicine.

“Surgical treatment for stress urinary incontinence, a condition afflicting 25 million women, has significantly declined over concerns about negative side effects,” says Dr. Trabuco. “This has led many women to delay therapy and suffer needlessly. We hope to develop a minimally invasive, noncellular, exosome-based approach to muscle regeneration for urinary incontinence that not only targets the underlying cause of the condition but also avoids the problem with invasive surgical options presently available.”

The research team used regenerative purified exosome product, known as PEP, derived from platelets to deliver messages into the cells of preclinical models. Exosomes are extracellular vesicles that are like a delivery service moving cargo from one cell to another, with instructions for targeting exact tissues that need repair. The study suggests that the use of purified exosome product alleviates stress urinary incontinence from musculoskeletal breakdown in animals. The team did not detect any infection or off-target toxicity with application of PEP.