Can we reverse age regression, or slow it down? Given our research into Black Budget programs, it’s clear what we know in the mainstream scientific world differs greatly from the world of secrecy. We recently conducted an interview with a neuroscientist from the University of Arizona who also makes a clear distinction between mainstream science and Black Budget science. That interview will be up in our Explorer Lounge soon.
From a mainstream scientific standpoint, it is reversible. At least in human cells and in mice.
This is why it’s always interesting to ponder just how advanced the world might be. The U.S. air strike against Libya in 1986 used the F-111 fighter aircraft, for instance, but not the F-117A Nighthawk. The latter was still classified at the time, and keeping it secret was more important than using it for this mission. Then there’s the National Reconnaissance Office, which was founded in 1960 but remained completely secret for 30 years. What type of technology were/are they using? Does the NSA have computers that are far more advanced than ours? Can we teleport? Can we travel faster than the speed of light? Is there a secret space program? Can humans be cloned?
While these questions might conflict with many people’s belief systems, they represent valid concerns. Another question worth asking is, can we reverse age regression? We have no idea what military technology is capable of, or how far beyond us it has progressed. Considering the advancements in technology in the past century alone within the mainstream scientific/technical world, these things are hardly beyond our grasp.
But let’s take a look at what we do know. We are, after all, living in a world where science fiction is becoming a reality.
Aging Is Reversible
Today, scientists are actually able to tweak genes that turn adult cells back into embryonic-like ones. For example, it wasn’t long ago that researchers at the Salk Institute for Biological Studies reversed the aging of human and mouse cells, in vitro. The study was published in the journal Cell.
According to Juan Carlos Izpisua Belmonte, the study’s senior author and an expert in gene expression at Salk, “aging is something plastic that we can manipulate.” In living mice, they activated what are known as “Yamanaka factors,” which rejuvenated muscles that were damaged, as well as the pancreas in a middle-aged mouse. This extended the lifespan of the mouse, who also had a genetic mutation for Hutchinson-Gilford progeria syndrome, which causes rapid aging in children.
The researchers believe that this study suggests it’s not just possible to slow the aging process, but actually reverse it.
“I fully agree with the conclusions. This work indicated that epigenetic shift is parr responsible for aging, and reprogramming can correct these epigenetic errors. This will be the basis for future exciting developments.”
– Manuel Serrano from the Spanish National Cancer Research Center In Madrid
Epigenetics is the study of changes in organisms caused by gene expression, and gene expression can change due to a myriad of factors.
But, as Scientific American points out, “The study also showed how fine the line can be between benefit and harm. When the researchers treated mice continually, some developed tumors and died within a week. When the scientists cut the treatment to two days out of seven, however, the mice benefited significantly.”
The lead author also told Scientific American that they “currently think the brain’s hypothalamus—known as the seat of control for hormones, body temperature, mood, hunger and circadian rhythms—may also act as a regulator of aging.”
Keep Evolving Your Consciousness
Inspiration and all our best content, straight to your inbox.
Caloric Restriction and Fasting
Did you know that, in all animal model studies, caloric restriction reverses signs of aging, slowing it down, and reverses age-related diseases? Research has shown that it reduces what’s called the PKA enzyme, which has been linked to aging, tumour progression, and cancer.
According to a review of fasting literature conducted in 2003, “Calorie restriction (CR) extends life span and retards age-related chronic diseases in a variety of species, including rats, mice, fish, flies, worms, and yeast. The mechanism or mechanisms through which this occurs are unclear.”
Fasting and caloric restriction have also shown to have a tremendous effect on the brain. As an article from John Hopkins Magazine reveals:
Dietary changes have long been known to have an effect on the brain. Children who suffer from epileptic seizures have fewer of them when placed on caloric restriction or fasts. It is believed that fasting helps kick-start protective measures that help counteract the overexcited signals that epileptic brains often exhibit. (Some children with epilepsy have also benefited from a specific high-fat, low-carbohydrate diet.) Normal brains, when overfed, can experience another kind of uncontrolled excitation, impairing the brain’s function.
Fasting has also been shown to regenerate the immune system and our organs. With regards to the brain, fasting challenges it, and your brain responds to that challenge by adapting stress response pathways that help your brain cope with stress and disease risk. The same changes that occur in the brain during fasting mimic the changes that occur with regular exercise — both increase the production of protein in the brain (neurotrophic factors), which in turn promotes the growth of neurons, the connection between neurons, and the strength of synapses. This is why it’s been found to completely reverse age-related neurodegenerative diseases.
Here is an excellent TEDx talk given by Mark Mattson, the current Chief of the Laboratory of Neuroscience at the National Institute on Aging. He is also a professor of Neuroscience at Johns Hopkins University, and one of the foremost researchers of the cellular and molecular mechanisms underlying multiple neurodegenerative disorders, like Parkinson’s and Alzheimer’s disease.
We’ve published many articles on fasting, and to find out more information on how to do it, different strategies, and more science, you can start here. Below are a select few related articles:
Reversing the Age of White Blood Cells
Elizabeth Parris, the CEO of Bioviva USA Inc, has become the very first human being to successfully, from a biological standpoint, reverse the age of her white blood cells, thanks to her own company’s experimental therapies. Bioviva utilizes intramural and extramural peer-reviewed research to create therapies for age-related diseases (Parkinson’s, Alzheimer’s, cancer, heart-disease), and now, they have reversed 20 years of ‘telomere shortening’ in a human for the first time.
Telomeres are short segments of DNA that cap the ends of every chromosome and act as a protective feature against wear and tear, which occurs naturally as the human body ages. As we age, these telomeres become shorter and shorter as our cells continue to divide more and more. Eventually they become too short to protect the chromosome, which is what causes our cells to malfunction and age-related diseases to start setting in.
We published a story about this early last year, and you can read more about it here:
So, as you can see, even within the mainstream scientific world, we’re not too far off from reversing aging, or slowing it down to prevent age-related diseases. This research represents just the tip of the iceberg, and at our current rate of acceleration with regards to scientific and technological advancement, who knows where we will be in 20 years?
Would age reversal be “playing God?” It’s impossible to say. Perhaps “God” meant us to discover our own intelligence and ability and use these findings for good. Perhaps manipulating our own genes is part of our natural process of human evolution and development. This, however, is a completely separate topic, worthy of another article.
Thanks for reading.
This free online 9-part docuseries is going to change everything you think you know about diabetes and obesity.
The medical community isn’t telling you the whole truth about diabetes.
Learn what you can do to lose weight and avoid or heal diabetes.