CORDIS Project
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This project focuses on developing vibrational microdevices, known as VIBEBOTS, that can navigate and operate within complex biological tissues. By enhancing propulsion mechanisms in viscoelastic environments, these micro-robots aim to improve targeted drug delivery and in vivo sensing for minimally-invasive medical ap…
Wireless micro-robots hold great potential for minimally-invasive medicine, since they may allow for targeted drug delivery, in vivo sensing, stimulation, and even new surgical procedures.
However, the biggest hurdle for biomedical applications is the penetration of real biological media, for instance, mucus, vitreous, blood clots and tumour tissues.
Most current micro-/nano-robots can propel in water, however, the same propulsion mechanisms do not readily transfer to viscoelastic biological med…
DEUTSCHES KREBSFORSCHUNGSZENTRUM HEIDELBERG
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Germany, Dresden
Type: University / higher education
Activity type: Higher or Secondary Education Establishments
SME: No
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