Quantitative human organ aging considerations for developing human longevity biotech (part 4)
Subscribe: Apple Podcasts | Google Podcasts | Spotify | RSS | More
How many cells are in each type of human organ? What types of human cells are in each type of human organ? The latest science does not have the answer to those questions. I aim to develop and commercialize a suite of biotechnologies that can count and determine the numbers and types and 3D-spatial distributions of cells in every type of human organ, for advancing the human longevity biotech.
I also aim to achieve completely modeling the lifetimes of the 200 different types of cells in the human body. What exactly happens in a cell over its entire lifetime? The latest science doesn’t know the answer, so I need to find that answer.
A quick advertisement before I continue on this topic. You can invest in my startup company with as little as US$100, for supporting advancing AI, robotics, biotech, and nuclear-fusion powered outer space tech. Visit Robocentric.com/Investors to invest in my startup.
I’ve a multidecadal commitment to advancing AI, robotics, biotech, and nuclear-fusion powered outer space tech. To learn more about my cause, check out my books, which are available at Robocentric.com/Checkout, Amazon, Apple Books, Spotify, and other online audiobook retailers. Now, back to the main content.
How long does each different type of human cell live? A sperm lives for five days after ejaculation within the female reproductive tract. A human egg lives for 12 to 24 hours after ovulation.
How do you stop a human cell from aging? How do you deage or rejuvate a human cell? The latest science doesn’t know the answer, so I need to find that answer.
I need to find the different cell division times of every type of human cell.
A typical proliferating human cell divides on average every 24 hours, according to National Institutes of Health.
National Institutes of Health also reports that a natural state of permanent cell cycle arrest reached when cells stop dividing, usually after 50 or so divisions. Cellular senescence was discovered four decades ago, but scientists still don’t fully understand why it happens.
A human cell that divides every 24 hours would divide 50 times in 50 days, and divide no more. So, there’s some discrepancy or unknown information there about cell division and aging.
I need to find the human body composition by volume and percentage, by cell types.
I need to find the human biochemical reaction speeds. How long does it take for a protein or enzyme to transform a piece of biomatter? Not very well known to the latest bioscience. I need to develop and commercialize one or more biotechnologies for measuring and recording the protein biomatter reaction and transform times.
I need to develop and commercialize one or more biotechnologies for artificially aging and deaging cells, for developing human longevity biotech, which certainly requires researching telomerase, which is enzyme for repairing and lengthening telomere, which is linked to cancer.
I need to develop a computational biotechnology for QMASPing the human body aging processes.
I need to develop and publish anti-aging and deaging biotech development strategies—by human-body organ, tissue, cell, and subcellular components.
I need to survey existing biotechnologies and develop a plan for applying existing biotechnologies to human longevity biotech development.
I’ll keep working on accomplishing all those and far more in advancing bioscience and biotech.
You can invest in my startup company with as little as US$100, for supporting advancing AI, robotics, biotech, and nuclear-fusion powered outer space tech. Visit Robocentric.com/Investors to invest in my startup.
My books on advancing AI, robotics, biotech, and nuclear-fusion powered outer space tech are available at Robocentric.com/Checkout, Amazon, Apple Books, Spotify, Google Play Store, and other online audiobook retailers.
I am Allen Young; I’m an Asian-American man who focuses on advancing AI, robotics, human longevity biotech, and nuclear-fusion powered outer space tech.