By Charles Q. Choi
updated 1:42 p.m. ET, Thurs., Nov . 19, 2009
Advantages touted
Increasingly, bioengineers are growing nerve, heart and other tissues in labs. Recently, scientists even reported developing artificial penis tissue in rabbits. Although such research is meant to help treat patients, biomedical engineer Mark Post at Maastricht University in the Netherlands and his colleagues suggest it could also help feed the rising demand for meat worldwide.
The researchers noted that growing skeletal muscle in labs — the kind people typically think of as the meat they eat — could help tackle a number of problems:
Avoiding animal suffering by reducing the farming and killing of livestock.
Dramatically cutting down on food-borne ailments such as mad cow disease and salmonella or germs such as swine flu, by monitoring the growth of meat in labs.
Livestock currently take up 70 percent of all agricultural land, corresponding to 30 percent of the world's land surface, according to the Food and Agriculture Organization (FAO) of the United Nations. Labs would presumably require much less space.
Livestock generate 18 percent of greenhouse gas emissions, more than all of the vehicles on Earth, the FAO added. Since the animals themselves are mostly responsible for these gases, reducing livestock numbers could help alleviate global warming.
Need to scale up
Stem cells are considered the most promising source for such meat, retaining as they do the capacity to transform into the required tissues, and the scientists pointed to satellite cells, which are the natural muscle stem cells responsible for regeneration and repair in adults. Embryonic stem cells could also be used, but they are obviously plagued by ethical concerns, and they could grow into tissues besides the desired muscles.
To grow meat in labs from satellite cells, the researchers suggested current tissue-engineering techniques, where stem cells are often embedded in synthetic three-dimensional biodegradable matrixes that can present the chemical and physical environments that cells need to develop properly. Other key factors would involve electrically stimulating and mechanically stretching the muscles to exercise them, helping them mature properly, and perhaps growing other cells alongside the satellite cells to provide necessary molecular cues.
So far past scientists have grown only small nuggets of skeletal muscle, about half the size of a thumbnail. Such tidbits could be used in sauces or pizzas, Post and colleagues explained recently in the online edition of the journal Trends in Food Science & Technology, but creating a steak would demand larger-scale production.
Dark thoughts
The expectation is that if such meat is ever made, scientists will opt for beef, pork, chicken or fish. However, science fiction has long toyed with the darker possibilities that cloned meat presents.
In Warren Ellis and Darick Robertson's epic sci-fi satire "Transmetropolitan," supermarkets and fast food joints sell dolphin, manatee, whale, baby seal, monkey and reindeer, while the Long Pig franchise sells "cloned human meat at prices you like."
"In principle, we could harvest the meat progenitor cells from fresh human cadavers and grow meat from them," Post said. "Once taken out of its disease and animalistic, cannibalistic context — you are not killing fellow citizens for it, they are already dead — there is no reason why not."
Of course, there are many potential objections that people could have to growing beef, chicken or pork in the lab, much less more disturbing meats. Still, Post suggests that marketing could overcome such hurdles.
"If every package of naturally grown meat by law should have the text, 'Beware, animals have been killed for this product,' I can imagine a gradual cultural shift," Post said. "Of course, we still have a long way to go to make a product that is even remotely competitive with current products."
© 2009 LiveScience.com. All rights reserved.
Gen 6:5 And GOD saw that the wickedness of man [was] great in the earth, and [that] every imagination of the thoughts of his heart [was] only evil continually.
Increasingly, bioengineers are growing nerve, heart and other tissues in labs. Recently, scientists even reported developing artificial penis tissue in rabbits. Although such research is meant to help treat patients, biomedical engineer Mark Post at Maastricht University in the Netherlands and his colleagues suggest it could also help feed the rising demand for meat worldwide.
The researchers noted that growing skeletal muscle in labs — the kind people typically think of as the meat they eat — could help tackle a number of problems:
Avoiding animal suffering by reducing the farming and killing of livestock.
Dramatically cutting down on food-borne ailments such as mad cow disease and salmonella or germs such as swine flu, by monitoring the growth of meat in labs.
Livestock currently take up 70 percent of all agricultural land, corresponding to 30 percent of the world's land surface, according to the Food and Agriculture Organization (FAO) of the United Nations. Labs would presumably require much less space.
Livestock generate 18 percent of greenhouse gas emissions, more than all of the vehicles on Earth, the FAO added. Since the animals themselves are mostly responsible for these gases, reducing livestock numbers could help alleviate global warming.
Need to scale up
Stem cells are considered the most promising source for such meat, retaining as they do the capacity to transform into the required tissues, and the scientists pointed to satellite cells, which are the natural muscle stem cells responsible for regeneration and repair in adults. Embryonic stem cells could also be used, but they are obviously plagued by ethical concerns, and they could grow into tissues besides the desired muscles.
To grow meat in labs from satellite cells, the researchers suggested current tissue-engineering techniques, where stem cells are often embedded in synthetic three-dimensional biodegradable matrixes that can present the chemical and physical environments that cells need to develop properly. Other key factors would involve electrically stimulating and mechanically stretching the muscles to exercise them, helping them mature properly, and perhaps growing other cells alongside the satellite cells to provide necessary molecular cues.
So far past scientists have grown only small nuggets of skeletal muscle, about half the size of a thumbnail. Such tidbits could be used in sauces or pizzas, Post and colleagues explained recently in the online edition of the journal Trends in Food Science & Technology, but creating a steak would demand larger-scale production.
Dark thoughts
The expectation is that if such meat is ever made, scientists will opt for beef, pork, chicken or fish. However, science fiction has long toyed with the darker possibilities that cloned meat presents.
In Warren Ellis and Darick Robertson's epic sci-fi satire "Transmetropolitan," supermarkets and fast food joints sell dolphin, manatee, whale, baby seal, monkey and reindeer, while the Long Pig franchise sells "cloned human meat at prices you like."
"In principle, we could harvest the meat progenitor cells from fresh human cadavers and grow meat from them," Post said. "Once taken out of its disease and animalistic, cannibalistic context — you are not killing fellow citizens for it, they are already dead — there is no reason why not."
Of course, there are many potential objections that people could have to growing beef, chicken or pork in the lab, much less more disturbing meats. Still, Post suggests that marketing could overcome such hurdles.
"If every package of naturally grown meat by law should have the text, 'Beware, animals have been killed for this product,' I can imagine a gradual cultural shift," Post said. "Of course, we still have a long way to go to make a product that is even remotely competitive with current products."
© 2009 LiveScience.com. All rights reserved.
Gen 6:5 And GOD saw that the wickedness of man [was] great in the earth, and [that] every imagination of the thoughts of his heart [was] only evil continually.
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