Cultivated meat has moved beyond being a futuristic concept to become a field of research with enormous technological and environmental potential. However, beyond its ethical or sustainable impact, one of the greatest challenges remains delivering a sensory experience comparable to that of traditional meat.
Today, science is working not only to reproduce muscle cells but also to recreate the flavor, aroma, juiciness, and texture that define the pleasure of eating meat. What will the sensory experience of tasting cultivated meat be like?
Flavor: The chemistry behind umami
The flavor of meat comes from a complex combination of amino acids, nucleotides, and fats that interact during cooking to generate aromatic compounds. A comparative study published in the U.S. National Library of Medicine analyzed muscle tissue cultivated from chicken and beef satellite cells in comparison with conventional meat. The results showed that although the concentration of most amino acids differed, glutamic acid—one of the main components responsible for umami flavor—remained more stable in cultivated beef tissue.
Furthermore, an article published by Phys and conducted at the University of Tokyo showed that as bovine cells age in culture, the levels of free amino acids, including glutamic and aspartic acids, increase—potentially enhancing the umami taste of cultivated meat compared with conventional meat. These advances demonstrate that developing the flavor of cultivated meat is not only reproducible but can be optimized through cellular biology.
Aroma: The fundamental role of fat
Aroma and juiciness are essential qualities that depend mainly on fat. In 2023, another study from the U.S. National Library of Medicine developed the idea of cultivating adipose tissue from fat-derived stem cells in three-dimensional collagen hydrogels, reproducing the natural structure of fatty tissue.
The results were striking: researchers detected 28 volatile organic compounds, such as aldehydes and ketones—the same compounds responsible for the characteristic smell of cooked meat. Moreover, many of these compounds appeared in concentrations similar to those found in natural pork subcutaneous fat.
Texture: Tissue engineering to chew “real meat”
The typical texture of traditional meat—defined by its resistance and elasticity when bitten—is perhaps the hardest aspect to replicate. To achieve this, scientists use edible scaffolds that guide the alignment of muscle cells and enable the formation of three-dimensional fibers similar to those of animal muscle.
According to a study focused on the texture of cultivated meat published in Scientific Reports, researchers have succeeded in producing cultivated meat samples with firmness and elastic modulus values within the range of commercial products such as chicken breast or sausages. Fibrosity, cohesion, and elasticity all come into play, giving cultivated meat a texture and juiciness very close to traditional meat, providing an authentic chewing experience.
Toward a complete sensory experience
All these advances have brought cultivated meat ever closer to delivering a convincing sensory experience. Although challenges remain—such as matching nucleotide levels or replicating large vascularized tissues—science is demonstrating how flavor, aroma, and texture can be precisely reproduced.
A future where sustainability and culinary pleasure coexist is getting closer. At BioTech Foods, we work to bring this innovation to consumers’ plates—with the same taste, aroma, and texture as always, but with a significantly lower environmental and ethical impact.
