Posted on 05/01/2018 12:40:33 PM PDT by 2ndDivisionVet
The loss of a human limb is a tragedy. We know that once theyre gone, mammalian arms and legs can't ever be restored. But if you cut off a salamander's leg - or tail - it will reappear in just a few weeks. The enigma of amphibian organ regeneration has puzzled scientists since it was first recorded by Aristotle, reaching its strangest and most scientifically-accepted heights in the 1700s, when Voltaire decapitated a snail just to see if the head would grow back. (It did.)
Now, a new generation of longevity-seekers hopes to apply the power of amphibians like the salamander, the axlotl, and the worm to human medicine. Sonia Arrison, policy analyst and author of 100 Plus, believes that tissue engineering will revolutionize the treatment of chronic illnesses: In the future, if we had the ability to grow a brand new heart or parts of hearts with that persons very own adult stem cells, then when we know that they have heart disease, we could just replace the heart. All of those [costly] visits to the hospital, all of the drugs, wont be required. Better tools will enable us to repair people rather than just sort of patching them up for a little while until they get sicker and sicker, she says.
What's the Significance?
This idea is more practical than it sounds. Over the past few decades, scientists have begun to understand exactly how the regeneration process works in nature. When a salamander is injured, a clump of cells called a blastomea forms at the site of the wound. Like embryonic stem cells, the blastomea are especially plastic. These cells are then triggered to de-differentiate and re-initiate growth. (Debate remains over whether they're fully pluripotent, meaning that they have the ability to form any type of tissue, or whether the cellular dynamics merely have to be reprogrammed, as in recent studies by Doug Melton of the Harvard Stem Cell Institute.)
The trick, of course, is applying this knowledge to human anatomy. Arrison explains, "Since we all evolve from the same place, humans must have a set of genes that can allow for growing back new limbs - its just that theyre 'turned off' right now ." If we could figure out how to turn them back on, or to add new genes based on the salamander model, then it could be possible to create new organs from scratch. In fact, one of the biggest spenders in this story is the Pentagon, which has put at least $250 million in to the search to find a way to create new human organs in the lab.
Theyre funding work in terms of growing all sort of organs - bladders and windpipes and hearts and lungs, livers," says Arrison, "but also in hopes of figuring out how to regrow arms and legs" for soldiers wounded in combat. Thanks to this influx of public money, the field has moved forward much quicker than it would have otherwise. So far, researchers have succeeded growing hearts, livers, breast tissue, and bone in the lab. The brain remains elusive - but Arrison is optimistic: "The brain is much tougher than other organs in the human body, but work is moving along."
There are, however, two things that she's worried about. The first is that technology wont move quick enough for those alive today. "Weve made a lot of progress in terms of reverse engineering the human code, weve made a lot of progress in tissue engineering and gene therapy, but its that we still have a ways to go." she says. The second is that, if we do see organ regeneration applied to medicine, the distribution of benefits like faster healing and increased longevity will be inequitable:
How long will the gap be between the wealthy getting it and the poor getting it? Because were already starting from a point of inequality. If you look around the world, life expectancy in Monaco in the South of France is around 90 years. Life expectancy in Angola is around 38 years. Thats like a 50-plus gap of an entire lifetime, really. And then within the United States, theres a pretty decent gap as well. An Asian-American woman living in New Jersey has a life expectancy of around 91 years. A Native-American man living in South Dakota has a life expectancy of about 58 years.
There's already a fifty year difference in what it's like to be rich and poor in the world, which may or may not be alleviated by technology, she says, depending on how we choose to use it.
Test it out on Hillary.
Much more elegant that taking the big toe and grafting in place of a missing thumb!
No do not test it on Hillary; it just might work she is after all... Reptilian.
I think you have to have a heart first, before you can regenerate one.
I’d like them to regrow my shoulders, my right ankle, both Planter tendons, etc....
There are parts on me that I wouldn’t mind hitting the “grow” button a few more times.
BTTT.
1. Be a frog.
2. Regrow limb.
I’m looking forward to the day I can by a prostate at Walmart.
But, with my luck, there will probably be a special tool required for installation. Torx bit, or what not.
Useful to know.
Security bit.
Amphibians are vertebrates. Snails and worms are (different) invertebrates.
For parents. Fingertips can regenerate in Children.
and
Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.