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Archive for the ‘life extension’ category: Page 231

Sep 2, 2021

Social media’s 70-up ‘grandfluencers’ debunking aging myths

Posted by in category: life extension

She’s among a growing number of “grandfluencers,” folks 70 and up who have amassed substantial followings on social media with the help of decades-younger fans.


Joan MacDonald’s health was in shambles at age 71.

Sep 2, 2021

The Era of Genetically Modified Superhumans

Posted by in categories: bioengineering, biotech/medical, ethics, evolution, genetics, life extension

The late 21st century belongs to Superhumans. Technological progress in the field of medicine through gene editing tools like CRISPR is going to revolutionize what it means to be human. The age of Superhumans is portrayed in many science fiction movies, but for the first time in our species history, radically altering our genome is going to be possible through the methods and tools of science.

The gene-editing tool CRISPR, short for clustered regularly interspaced short palindromic repeats, could help us to reprogram life. It gives scientists more power and precision than they have ever had to alter human DNA.

Continue reading “The Era of Genetically Modified Superhumans” »

Sep 2, 2021

Does E5 Reverse Aging? | Dr. Harold Katcher interview (August 2021)

Posted by in categories: biotech/medical, bitcoin, cryptocurrencies, life extension

Brent Nally interviews Dr Katcher about E5 plasma filtering. “What’s the purpose of anything if you’re gonna die?” E5 human trials perhaps by the end of 2022. All treated rats so far are still alive. “The question is how many times can we do this?” So far with rats it’s 3 times. He has not given out the specific E5 formula. Right now there is another party attempting to repeat his rat experiments.


Harold earned his PhD in Biology, is Chief Science Officer of Yuvan Research and is one of the discoverers of the breast cancer gene (BRCA1). Harold describes in his book, The Illusion of Knowledge, his personal story and journey developing E5 which may be extremely promising for the field of rejuvenation/biological age reversal. Read this May2020paper.

Continue reading “Does E5 Reverse Aging? | Dr. Harold Katcher interview (August 2021)” »

Sep 1, 2021

Doctors Claim to Have Discovered How to Reverse Cell Aging

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

In order to find a way to trick the body into making new B cells, the researchers probed one of the ways that the body naturally replenishes its supply. Patients undergoing treatment for multiple sclerosis had their MBC stock depleted, at which point their body rapidly started to produce new B cells.

The team identified the specific hormones that shut B cell production down again once stores were replenished, and realized that deactivating the hormone results in the body producing extra B cells left and right. And going forward, they hope to turn that hormonal trick into a new rejuvenating treatment for the elderly and immunocompromised.

“We found specific hormonal signals produced by the old B cells, the memory cells, that inhibit the bone marrow from producing new B cells,” Melamed told The Jerusalem Post. “This is a huge discovery. It is like finding a needle in a haystack.”

Aug 31, 2021

AI identifies single diseased cells

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

The Human Cell Atlas is the world’s largest, growing single-cell reference atlas. It contains references of millions of cells across tissues, organs and developmental stages. These references help physicians to understand the influences of aging, environment and disease on a cell—and ultimately diagnose and treat patients better. Yet, reference atlases do not come without challenges. Single-cell datasets may contain measurement errors (batch effect), the global availability of computational resources is limited and the sharing of raw data is often legally restricted.

Researchers from Helmholtz Zentrum München and the Technical University of Munich (TUM) developed a novel called “scArches,” short for single-cell architecture surgery. The biggest advantage: “Instead of sharing raw data between clinics or research centers, the algorithm uses transfer learning to compare new from single-cell genomics with existing references and thus preserves privacy and anonymity. This also makes annotating and interpreting of new data sets very easy and democratizes the usage of single-cell reference atlases dramatically,” says Mohammad Lotfollahi, the leading scientist of the algorithm.

Aug 31, 2021

Liz Parrish considerations on gene therapy (excerpts from an interview) (con S/T en Español)

Posted by in categories: biotech/medical, life extension

This is a truly enlightening 5 min. excerpt by Liz Parrish on gene therapy and its suitability to achieve radical life extension. Among other important aspects, Liz tells us about how regulatory constrains are delaying progress in this important vehicle to treat incurable diseases and aging itself. I added subtitles in Spanish. Don’t miss it!!! In the description of the video is the link to the entire interview.

Este es un extracto muy esclarecedor por parte de Liz Parrish sobre la terapia génica y su idoneidad para lograr una prolongación radical de la vida. Entre otros aspectos importantes, Liz nos cuenta cómo las restricciones regulatorias están retrasando el progreso de este importante vehículo, para tratar enfermedades incurables y el envejecimiento en sí mismo. Le he agregado subtítulos en español. No te lo pierdas!!! En la descripción del video está el enlace a toda la entrevista.

Continue reading “Liz Parrish considerations on gene therapy (excerpts from an interview) (con S/T en Español)” »

Aug 31, 2021

The complete sequence of a human genome

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

In 2,001 Celera Genomics and the International Human Genome Sequencing Consortium published their initial drafts of the human genome, which revolutionized the field of genomics. While these drafts and the updates that followed effectively covered the euchromatic fraction of the genome, the heterochromatin and many other complex regions were left unfinished or erroneous. Addressing this remaining 8% of the genome, the Telomere-to-Telomere (T2T) Consortium has finished the first truly complete 3.055 billion base pair (bp) sequence of a human genome, representing the largest improvement to the human reference genome since its initial release. The new T2T-CHM13 reference includes gapless assemblies for all 22 autosomes plus Chromosome X, corrects numerous errors, and introduces nearly 200 million bp of novel sequence containing 2,226 paralogous gene copies, 115 of which are predicted to be protein coding. The newly completed regions include all centromeric satellite arrays and the short arms of all five acrocentric chromosomes, unlocking these complex regions of the genome to variational and functional studies for the first time.

The latest major update to the human reference genome was released by the Genome Reference Consortium (GRC) in2013and most recently patched in2019(GRCh38.p13). This assembly traces its origin to the publicly funded Human Genome Project and has been continually improved over the past two decades. Unlike the competing Celera assembly , and most modern genome projects that are also based on shotgun sequence assembly , the GRC human reference assembly is primarily based on Sanger sequencing data derived from bacterial artificial chromosome (BAC) clones that were ordered and oriented along the genome via radiation hybrid, genetic linkage, and fingerprint maps. This laborious approach resulted in what remains one of the most continuous and accurate reference genomes today. However, reliance on these technologies limited the assembly to only the euchromatic regions of the genome that could be reliably cloned into BACs, mapped, and assembled.

Aug 30, 2021

Seeking Immortality Through Gene Therapy — with Liz Parrish /Awesome Health Podcast

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

Favorite part at 19:06, Bioinformatics with Rutgers University attacking the hallmarks of aging.


#genetherapy, #immortality, #bioinformatics.

Continue reading “Seeking Immortality Through Gene Therapy — with Liz Parrish /Awesome Health Podcast” »

Aug 29, 2021

I’m A Longevity Expert & These Are My 5 Nonnegotiables To Live To 200

Posted by in category: life extension

It’s his personal mission to make it to 200.


Sergey Young has made it his personal mission to live to 200. Seriously: The longevity expert, founder of the Longevity Vision Fund, and author of The Science and Technology of Growing Young, has dedicated his entire career to helping at least 1 billion people live long, healthy lives—and make these technological advances affordable and accessible for all.

Through his work, he has identified what he calls lifestyle “longevity buckets” to increase your lifespan and healthspan (because who wants to live to 200 with a low quality of life?). “By implementing them, we can add 10 20 healthy and happy years to our life,” he says on this episode of the mindbodygreen podcast. “We can easily live 200 years.”

Aug 29, 2021

The Science Behind NMN —A Stable, Reliable NAD+Activator and Anti-Aging Molecule

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

Nad plus works for alzheimers.


In June of 2,018 the World Health Organization (WHO) released the 11th edition of its International Classification of Diseases, and for the first time added aging. The classification of aging as a disease paves the way for new research into novel therapeutics to delay or reverse age-related illnesses such as cancer, cardiovascular and metabolic disease, and neurodegeneration., Nutrient sensing systems have been an intense focus of investigation, including mTOR (the mammalian target of rapamycin) for regulating protein synthesis and cell growth; AMPK (activated protein kinase) for sensing low energy states; and sirtuins, a family of seven proteins critical to DNA expression and aging, which can only function in conjunction with NAD+ (nicotinamide adenine dinucleotide), a coenzyme present in all living cells.

Across the kingdom of life, an increase in intracellular levels of NAD+ triggers shifts that enhance survival, including boosting energy production and upregulating cellular repair. In fact, the slow, ineluctable process of aging has been described as a “cascade of robustness breakdown triggered by a decrease in systemic NAD+ biosynthesis and the resultant functional defects in susceptible organs and tissues.” Aging is marked by epigenetic shifts, genomic instability, altered nutrient sensing ability, telomere attrition, mitochondrial dysfunction, cellular senescence, stem cell exhaustion, and dysregulated intercellular communication.,

By middle age, our NAD+ levels have plummeted to half that of our youth. Numerous studies have demonstrated that boosting NAD+ levels increases insulin sensitivity, reverses mitochondrial dysfunction, and extends lifespan., NAD+ levels can be increased by activating enzymes that stimulate synthesis of NAD+, by inhibiting an enzyme (CD38) that degrades NAD+, and by supplementing with NAD precursors, including nicotinamide riboside(NR) and nicotinamide mononucleotide (NMN)., A conceptual framework called NAD World, formulated over the last decade by developmental biologist Shin-ichiro Imai, MD, PhD, of Washington University School of Medicine, posits NMN as a critical, systemic signaling molecule that maintains biological robustness of the communication network supporting NAD+..