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It combines 3D printing techniques with biology, engineering, materials science, and computer science to create objects and structures through growth and without assembly. [88] She proposed developing a material ecology with "holistic products, characterized by property gradients and multi-functionality" – placing humanity in harmony with ...
Figure from a 2017 Nature Communications paper describing an extra-uterine life support system, or "biobag", used to grow lamb fetuses. [1]An artificial womb or artificial uterus is a device that would allow for extracorporeal pregnancy, [2] by growing a fetus outside the body of an organism that would normally carry the fetus to term. [3]
Artificial creation is a field of research that studies the primary synthesis of complex lifelike structures from primordial lifeless origins.. The field bears some similarity to artificial life, but unlike artificial life, artificial creation focuses on the primary emergence of complex structures and processes of abiogenesis.
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Unlike traditional technologies, xenobots do not generate pollution or require external energy inputs during their life-cycle. They move using energy from fat and protein naturally stored in their tissue, which lasts about a week, at which point they simply turn into dead skin cells. [ 2 ]
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Artificial life (ALife or A-Life) is a field of study wherein researchers examine systems related to natural life, its processes, and its evolution, through the use of simulations with computer models, robotics, and biochemistry. [1] The discipline was named by Christopher Langton, an American computer scientist, in 1986. [2]
Synthetic life biology attempts to create living organisms capable of carrying out important functions, from manufacturing pharmaceuticals to detoxifying polluted land and water. [145] In medicine, it offers prospects of using designer biological parts as a starting point for new classes of therapies and diagnostic tools.