Meat grown in labs could be on supermarket shelves before long, scientists hope.
At the In Vitro Meat symposium held in Norway last week, the mood seemed upbeat.
Vat-grown meat could be the order of the day in the not too distant future. And it could be cheaper to produce than livestock and have less impact on the environment.With a rising global middle class projected by the UN to double meat consumption by 2050, and livestock already responsible for 18 percent of greenhouse gases, the issue is generating a lot of interest.
"We're looking to see if there are other technologies which can produce food for all the people on the planet," said Anthony Bennett of the United Nations Food and Agricultural Organization. "Not only today but over the next 10, 20, 30 years."
Rapidly evolving technology and increasing concern about the environmental impact of meat production are signs that vat-grown meat is moving from scientific curiosity to consumer option. In vitro meat production is a specialized form of tissue engineering, a biomedical practice in which scientists try to grow animal tissues like bone, skin, kidneys and hearts. Proponents say it will ultimately be a more efficient way to make animal meat, which would reduce the carbon footprint of meat products.
Researchers can currently grow small amounts of meat in the lab, and have even been able to get heart cells to beat in Petri dishes. Growing muscle cells on an industrial scale is the next step.
The cutting edge of in vitro meat engineering is the attempt to get cells to grow as if they were inside a living animal. Meat like steak is a complex combination of muscle, fat and other connective tissue. Reproducing the complexity of muscle is proving difficult.
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"That's the goal and it seems pretty clear from this conference that it's achievable," said Matheny.
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While scientists are struggling to recreate filet mignon, they anticipate less trouble growing hamburger.
"The general consensus is that minced meat or ground meat products -- sausage, chicken nuggets, hamburgers -- those are within technical reach," Matheny said. "We have the technology to make those things at scale with existing technology."
At scale, in this case, would be thousands of tons per year, Dennis said.
According to an analysis presented at the Norway symposium meat grown in giant tanks known as bioreactors would cost between $5,200-$5,500 a ton (3,300 to 3,500 euros), which is perhaps cost competitive with European beef prices.
But once the meat is made, consumer acceptance is far from assured. What cultured meat will taste like is up in the air. Some scientists think it could be used to create novel foods that won't be quite meat, but won't quite be anything else either, writes Alexis Madrigal in the Wired.
"I was once at a conference of food designers and they really liked the idea that they were not bound to a certain product that we know," said Stig Omholt, a professor at the Norwegian University of Life Sciences and chairman of the In Vitro Meat Consortium. "We could make novel products."
But most of the trends in food run counter to high-tech meat production. Heirloom tomatoes, organic produce and free-range-raised meat that pack the aisles of Whole Foods harken to previous, lower-tech eras.
None of the experts were sure if there is a large market of early adopters who want to eat test tube meat for environmental, health or ethical reasons.
For all the talk of high-tech meat production, attendees of the first In-Vitro Meat Symposium didn't put their stomachs where their mouths were. Instead of sampling early versions of in vitro meat, they stuck to local fare.
"We had some excellent Norwegian salmon, which was very tasty," Bennett said.
Source-Medindia
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