Article on growing meat in a petri dish!

[Guest guest]

I thought this article might bring new reasons for us to stay raw and avoid meat

like the plague! Leah

 

 

 

 

Petri dish certified

Growing meat in a lab sounds far-fetched, but some scientists see it as

an

inevitable evolution. Whether it's practical remains to be seen.

By Elena Conis Special to The Times

 

May 22, 2006

 

THE new good-for-you meat won't be pork or grass-fed beef, and it won't

be

made of soy. If the efforts of a few future-minded scientists succeed,

it

will taste and look like old-fashioned meat — only it'll be raised in a

lab,

not on a farm.

 

Several groups of scientists are cultivating edible meat in dishes from

animal muscle cells. The technology, which involves choosing the right

starter cells, stimulating and fine-tuning their growth for taste,

texture

and nutrients, has a way — a long way — to go before meat could hit

supermarkets. But these researchers insist it will be a more efficient

way

to produce a staple of the American diet — and will make meat healthier

to

boot.

 

Growing lab meat, they say, will mean scientists can control levels and

types of fats (such as omega 3 fatty acids), protein and other

substances

and produce a product less likely to be contaminated with such

food-poisoning culprits as E. coli.

 

" Suddenly a McDonald's breakfast sausage patty could protect you from

heart

disease instead of giving you heart disease, " says Robert Lawrence,

director

of the Center for a Livable Future at the Bloomberg School of Public

Health

at Johns Hopkins University.

 

But scientists who study the old-fashioned kind of meat are skeptical.

" It'll never be practical, " says Yu Bang Lee, professor of animal

science

and muscle biology at UC Davis. It is just too technically and

financially

difficult, he says.

 

Meat, after all, is not simply a mass of muscle cells; it's a complex

tissue

comprised of fat, nerves, blood vessels and connective tissue. Each

cell

type plays a role in the flavor and mouth-feel of a chicken cutlet,

club

steak or fillet of fish, says John Killefer, associate professor of

meat

science at the University of Illinois at Urbana-Champaign. Mimicking

this

structure is crucial if you want your product to be palatable.

 

Producing meat in a lab dish is far from a new idea. In 1912, French

scientist Alexis Carrel placed chicken heart tissue in a flask of

nutrients.

The muscle cells grew for more than 30 years — outliving Carrel

himself.

 

In 1932, Winston Churchill wrote that by the 1980s people would " escape

the

absurdity of growing a whole chicken " by growing only desired parts —

like

breasts and wings — in the lab.

 

It was not his finest prediction. Only recently have resources been

devoted

to growing flesh; in July 2005, the basic methods being used were

summarized

in the journal Tissue Engineering.

 

To culture meat, scientists cut a small piece of muscle from a pig or

fish,

or use a few cells cultured in a lab. (Popular starters include

embryonic

myoblasts, which are cells destined to become muscle cells, or adult

muscle

" satellite " cells, which help muscle recover from injuries.) The cells

are

placed in a dish or bioreactor then " fed " with a fluid containing a

combination of vitamins, minerals, amino acids, sugars, salts and

growth

factors.

 

Early success came in 2002, when Touro College biology professor Morris

Benjaminson reported growing fish meat in the lab. He and his

colleagues

cultured the flesh using pieces of muscle tissue (about 20 square

centimeters) harvested from anesthetized, living goldfish.

 

The tissues were doused with fibroblasts (cells that form connective

tissue), incubated and nourished with either fetal cow serum, maitake

or

shiitake mushroom extract or fish meal.

 

Within a week, the fish muscles increased up to 89% in size.

 

Collaborator James Gilchriest, also a researcher at Touro, marinated a

batch

of the cultured fish — which the researchers said " resembled fresh fish

fillets " — in olive oil, lemon and garlic before breading and

deep-frying

them.

 

" It smelled good, " said Benjaminson, but neither researcher subjected

the

results to a taste-test. They didn't want to run afoul of Food and Drug

Administration food safety regulations.

 

Since 2002, several other laboratories have reported promising results.

 

Despite many scientists' skepticism, some entrepreneurs think the

technology

will prove perfect for items such as like sausages and chicken nuggets

within as little as five years. Curing, smoking, spicing, grinding and

additives can significantly transform (or disguise) the taste and

texture of

meat that goes into such processed products, says Jason Matheny,

co-founder

of Vive Inc., a newly-formed, Cambridge, Mass.-based biotech company

devoted

to lab-cultured meat.

 

Researchers are also trying to bring down cost: In vitro meat now runs

$1,000 to $5,000 a pound to produce. Making it affordable will require

cheaper nutrient sources and automating the growth process.

 

Vladimir Mironov, an associate professor at the Medical University of

South

Carolina who co-authored last year's Tissue Engineering paper, said

that in

an era of bird flu, mad cow disease, increasing population densities

and

ambitions to travel to Mars, " tissue-engineered meat is the inescapable

future of humanity. "

 

Meat scientist Killefer does agree on one point: In vitro meat may be

perfect for space travel. " It's just not feasible to take cattle and

pigs

into space, with all of their associated feed, " he says.

 

But he and other meat scientists doubt the technology will meet the

demands

of the consumer market any time soon, if ever. Cost and safety are

major

concerns.

 

Image is another issue: " Some folks are going to think this is like

growing

bacteria in a beaker in a lab, " Killefer says.

 

Mironov concurs: " Food consumption is a conservative cultural

phenomenon. It

can take several generations to change. "

 

 

 

 

New Messenger with Voice. Call regular phones from your PC and save big.

 

 

[Guest guest]

Well, since I've never eaten meat I'll avoid it anyway. This does

bring one advantage to mind--at least the grasslands might be given a

chance to recover.

 

Tommie

http://www.rawburchard.blogspot.com

 

rawfood , Leah Morrison <l_morrison2002

wrote:

>

> I thought this article might bring new reasons for us to stay raw

and avoid meat like the plague! Leah

>

>

>

>

> Petri dish certified

> Growing meat in a lab sounds far-fetched, but some scientists see it

as

> an

> inevitable evolution. Whether it's practical remains to be seen.

> By Elena Conis Special to The Times

>

> May 22, 2006

>

> THE new good-for-you meat won't be pork or grass-fed beef, and it

won't

> be

> made of soy. If the efforts of a few future-minded scientists

succeed,

> it

> will taste and look like old-fashioned meat — only it'll be raised

in a

> lab,

> not on a farm.

>

> Several groups of scientists are cultivating edible meat in dishes

from

> animal muscle cells. The technology, which involves choosing the

right

> starter cells, stimulating and fine-tuning their growth for taste,

> texture

> and nutrients, has a way — a long way — to go before meat could hit

> supermarkets. But these researchers insist it will be a more

efficient

> way

> to produce a staple of the American diet — and will make meat

healthier

> to

> boot.

>

> Growing lab meat, they say, will mean scientists can control levels

and

> types of fats (such as omega 3 fatty acids), protein and other

> substances

> and produce a product less likely to be contaminated with such

> food-poisoning culprits as E. coli.

>

> " Suddenly a McDonald's breakfast sausage patty could protect you

from

> heart

> disease instead of giving you heart disease, " says Robert Lawrence,

> director

> of the Center for a Livable Future at the Bloomberg School of Public

> Health

> at Johns Hopkins University.

>

> But scientists who study the old-fashioned kind of meat are

skeptical.

> " It'll never be practical, " says Yu Bang Lee, professor of animal

> science

> and muscle biology at UC Davis. It is just too technically and

> financially

> difficult, he says.

>

> Meat, after all, is not simply a mass of muscle cells; it's a

complex

> tissue

> comprised of fat, nerves, blood vessels and connective tissue. Each

> cell

> type plays a role in the flavor and mouth-feel of a chicken cutlet,

> club

> steak or fillet of fish, says John Killefer, associate professor of

> meat

> science at the University of Illinois at Urbana-Champaign. Mimicking

> this

> structure is crucial if you want your product to be palatable.

>

> Producing meat in a lab dish is far from a new idea. In 1912, French

> scientist Alexis Carrel placed chicken heart tissue in a flask of

> nutrients.

> The muscle cells grew for more than 30 years — outliving Carrel

> himself.

>

> In 1932, Winston Churchill wrote that by the 1980s people would

" escape

> the

> absurdity of growing a whole chicken " by growing only desired parts

—

> like

> breasts and wings — in the lab.

>

> It was not his finest prediction. Only recently have resources been

> devoted

> to growing flesh; in July 2005, the basic methods being used were

> summarized

> in the journal Tissue Engineering.

>

> To culture meat, scientists cut a small piece of muscle from a pig

or

> fish,

> or use a few cells cultured in a lab. (Popular starters include

> embryonic

> myoblasts, which are cells destined to become muscle cells, or adult

> muscle

> " satellite " cells, which help muscle recover from injuries.) The

cells

> are

> placed in a dish or bioreactor then " fed " with a fluid containing a

> combination of vitamins, minerals, amino acids, sugars, salts and

> growth

> factors.

>

> Early success came in 2002, when Touro College biology professor

Morris

> Benjaminson reported growing fish meat in the lab. He and his

> colleagues

> cultured the flesh using pieces of muscle tissue (about 20 square

> centimeters) harvested from anesthetized, living goldfish.

>

> The tissues were doused with fibroblasts (cells that form connective

> tissue), incubated and nourished with either fetal cow serum,

maitake

> or

> shiitake mushroom extract or fish meal.

>

> Within a week, the fish muscles increased up to 89% in size.

>

> Collaborator James Gilchriest, also a researcher at Touro, marinated

a

> batch

> of the cultured fish — which the researchers said " resembled fresh

fish

> fillets " — in olive oil, lemon and garlic before breading and

> deep-frying

> them.

>

> " It smelled good, " said Benjaminson, but neither researcher

subjected

> the

> results to a taste-test. They didn't want to run afoul of Food and

Drug

> Administration food safety regulations.

>

> Since 2002, several other laboratories have reported promising

results.

>

> Despite many scientists' skepticism, some entrepreneurs think the

> technology

> will prove perfect for items such as like sausages and chicken

nuggets

> within as little as five years. Curing, smoking, spicing, grinding

and

> additives can significantly transform (or disguise) the taste and

> texture of

> meat that goes into such processed products, says Jason Matheny,

> co-founder

> of Vive Inc., a newly-formed, Cambridge, Mass.-based biotech company

> devoted

> to lab-cultured meat.

>

> Researchers are also trying to bring down cost: In vitro meat now

runs

> $1,000 to $5,000 a pound to produce. Making it affordable will

require

> cheaper nutrient sources and automating the growth process.

>

> Vladimir Mironov, an associate professor at the Medical University

of

> South

> Carolina who co-authored last year's Tissue Engineering paper, said

> that in

> an era of bird flu, mad cow disease, increasing population densities

> and

> ambitions to travel to Mars, " tissue-engineered meat is the

inescapable

> future of humanity. "

>

> Meat scientist Killefer does agree on one point: In vitro meat may

be

> perfect for space travel. " It's just not feasible to take cattle and

> pigs

> into space, with all of their associated feed, " he says.

>

> But he and other meat scientists doubt the technology will meet the

> demands

> of the consumer market any time soon, if ever. Cost and safety are

> major

> concerns.

>

> Image is another issue: " Some folks are going to think this is like

> growing

> bacteria in a beaker in a lab, " Killefer says.

>

> Mironov concurs: " Food consumption is a conservative cultural

> phenomenon. It

> can take several generations to change. "