Description: Biohybrid systems are an innovative intersection between biological and artificial components, designed to leverage the unique capabilities of both worlds. These systems combine living elements, such as cells or tissues, with electronic or mechanical devices, creating a synergy that enables the development of advanced solutions in various fields. The essence of biohybrid systems lies in their ability to integrate biology with technology, endowing them with adaptive and functional characteristics that cannot be achieved with purely artificial systems. For example, they can exhibit self-regulating properties, respond to environmental stimuli, and learn, making them particularly relevant in fields such as robotics, medicine, and neuromorphic computing. In this context, biohybrid systems can simulate neural processes, offering a more efficient and biologically inspired approach to information processing. This fusion of the biological and the artificial not only opens new possibilities in scientific research but also raises ethical and philosophical questions about the nature of life and intelligence, challenging our traditional conceptions of both.
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