Not exact matches
Because the
cells inside the droplets are free - floating, the technique allows them to contact each other
in every direction, as they would
in the human body, rather than only touch side to side as they do
in a flat
dish.
In a laboratory
dish — and, presumably, also
inside the body — these
cells readily multiply and give rise to various structural
cells, such as fat, muscle, bone, tendon, ligament and cartilage.
Complementing the work of my colleagues
in the Roddenberry Center for Stem
Cell Biology and Medicine at Gladstone, our efforts to learn more about how the heart forms can improve methods for creating heart
cells from stem
cells, either
in a petri
dish or
inside a patient after a heart attack.
This is fine
in a petri
dish, but
inside of your hamster, the electrons they steal often belong to your hamster's body
cells!