How ‘lab-grown’ meat could help the planet and our health
“Cultivated meat is real meat grown directly from animal cells,” Uma Valeti, founder and CEO of Upside Foods, said via email. “These products are not vegan, vegetarian or plant-based — they are real meat, made without the animal.”
“The process of making cultivated meat is similar to brewing beer, but instead of growing yeast or microbes, we grow animal cells,” Valeti added.
Scientists start by taking a small cell sample from livestock animals such as a cow or chicken, then identify cells that can multiply.
“From there, we put these cells in a clean and controlled environment and feed them with essential nutrients they need to replicate naturally,” Valeti said. “In essence, we can re-create the conditions that naturally exist inside an animal’s body.”
Progressing from lab production to making products in commercial facilities, some companies are moving away from the term “lab-grown meat,” said a spokesperson for Mosa Meat, a Netherlands-based food technology company. Instead, these companies refer to it as cultivated meat, cultured meat, cell-based or cell-grown meat, or non-slaughter meat.
Until then, cultivated meat and its potential benefits for animal, human and environmental health are more hope than promise.
How it works
Making cultivated meat is based on the field of tissue engineering — growing human tissues in a lab for medical repairs and regeneration, Kaplan said.
Scientists get cell samples from animals by harvesting a tiny piece of tissue taken via biopsy, isolating cells from eggs or traditionally grown meat, or obtaining cells from cell banks. These banks already exist for purposes such as medication and vaccine development, said Josh Tetrick, CEO of Eat Just, Inc., a California-based company that makes plant-based alternatives to eggs. GOOD Meat is the cultivated meat division of the company.
The biopsy method is “just like a human biopsy,” Kaplan said. “In principle, the animal’s fine afterwards.”
The second step is identifying nutrients — vitamins, minerals and amino acids — for the cells to consume. In the same way that a traditionally grown chicken has cells and gets nutrients from the soy and corn it’s fed, isolated cells can absorb the nutrients they’re fed in a lab or facility, Tetrick said.
Those cells go in their nutrient bath in a bioreactor, a large stainless steel vessel “that has an internal process by which it agitates cells under a particular pressure to create an environment that allows cells to grow efficiently and safely,” Tetrick said. “That can be used for vaccine production or drug production, therapeutics — or, in our case, can be used to feed people.”
This process is basically making raw meat, he added.
The cell sample takes roughly two weeks to grow into the desired size, Tetrick said which is “about half the amount that a chicken would take.” Next is converting the meat into the finished product, whether that’s a chicken breast or nugget, or beef burger or steak.
“What’s cool about it is you can start to tweak the texture,” Kimbal Musk, a chef, philanthropist and cofounder and executive chairman of The Kitchen Restaurant Group, said at Life Itself. “Alternative meats can be too spongy or they can be too firm and, frankly, even bad chicken can be, too. With this technological approach to things, you have the ability to adjust that and really tweak it for a palette that matters to you.”
“The first time I cooked this was probably two years ago and I tried it again this morning,” he said during a June 2 session of Life Itself. “It is remarkably better, which means it’s technology that you’re constantly improving.”
I tried the Upside Foods cultivated chicken breast Kimbal cooked during that Life Itself session. The chicken’s texture and fibers were nearly identical to that of regular chicken, but the flavor profile seemed to be missing some element I couldn’t put my finger on.
Granted, making cultivated meat as similar to regular meat as possible is still a work in progress. However, this discrepancy could also be due to the fact that traditional meat’s flavor is influenced by myriad factors involved in the agricultural process, I learned from Valeti — including the conditions in which animals are raised and the feed they’re given.
A panacea for hearth and health?
“Whether it’s animal welfare, climate, biodiversity or food safety, (there are) a lot of really important reasons to change how we eat meat,” Tetrick said.
For one, few to no animals would have to be farmed and used for cultivated meat, and therefore hundreds of millions of acres of land wouldn’t be needed to grow feed for them.
“The holy grail, if we all do our job right, is that you only need one animal in the initial biopsy,” Kaplan said. “You can do what we call ‘immortalize’ those cells so they essentially propagate forever.”
A single cell could make hundreds of billions of pounds of meat, Tetrick said. “There’s no ceiling.”
Whether cultivated meat will require less water is debatable and remains to be seen, Kaplan said, “because you still need a lot of water for cellular agriculture.”
And cellular agriculture may or may not result in a substantial reduction in energy use, according to the IPCC.
Lessening human encroachment on land and oceans for agricultural use could also preserve biodiversity, Tetrick said.
Nutritional quality and impacts on human health are areas where “I think cultivated meat can shine, because the process is much more controlled than traditional agriculture,” Kaplan said. “You have more control of inputs and outputs to the system, meaning less chance for contamination and less chance for variability. … You can sort of make sure only the best parts of meats end up in the meats that you make or grow, as opposed to the animal where you kind of have what’s there.”
Those tailoring possibilities include adjusting nutrient profiles, “whether that’s less saturated fat and cholesterol, or more vitamins or healthy fats,” said Valeti of Upside Foods. “Imagine if we could produce a steak with the fatty acid profile of salmon.”
Traditionally grown animals are given high doses of antibiotics to combat disease or contamination from bacteria such as salmonella and E. coli, Valeti and Tetrick said.
“You have lots of chickens in a facility and their throats have to be slit,” Tetrick said. “You have blood and you have feathers and live animals bumping up against each other. Or, (with cultivated meat), you have a stainless steel vessel that is entirely contained without all that.”
“This field is not intended to initially displace traditional animal agriculture. There (are) too many needs right now,” Kaplan said. “But it’s going to start slowly and build.”
As promising as it may seem, it’s unclear whether certain aspects of cultivated meat will be problematic.
Affordability for consumers remains to be seen.
“The nomenclature is one of the things to be working on with the regulators, because it is real meat,” Valeti said at Life Itself. “If someone’s got, let’s say, an allergy to meat or fish, they should know this is real meat. So, it’s going to be called meat but the prefix is what we’re working on.”
The topic of meat is “a very difficult one because it’s very culturally charged,” Christiana said at Life Itself. “It has all of these tradeoffs between access, health, sustainability, animal welfare and, of course, as my husband cares about as a chef, taste is a really important thing to keep in common. It’s an issue of major debate.”
But if cultivated meat ends up checking all the important boxes, “it will be a great achievement when people can eat the meat they love without slaughter,” Valeti told CNN in an interview.
CNN’s Fareed Zakaria, Amy Woodyatt, Danielle Wiener-Bronner and Michelle Toh contributed to this report.