New flexible, transparent, wearable biopatch, improves cellular observation, drug delivery

Purdue University researchers have developed a new flexible and translucent base for silicon nanoneedle patches to deliver exact doses of biomolecules directly into cells and expand observational opportunities."This means that eight or nine silicon nanoneedles can be injected into a single cell without significantly damaging a cell. So we can use these nanoneedles to deliver biomolecules into cells or even tissues with minimal invasiveness," said Chi Hwan Lee, an assistant professor at Purdue University.

New flexible, transparent, wearable biopatch, improves cellular observation, drug delivery

Purdue University researchers have developed a new flexible and translucent base for silicon nanoneedle patches to deliver exact doses of biomolecules directly into cells and expand observational ...

Fri 9 Nov 18 from Phys.org

New flexible, transparent, wearable biopatch, improves cellular observation, drug delivery, Fri 9 Nov 18 from ScienceDaily

New flexible, transparent, wearable biopatch, improves cellular observation, drug delivery, Fri 9 Nov 18 from Eurekalert

Wearable Bio-patch Improves Cellular Observation, Drug Delivery

NewsResearchers have developed a minimally invasive patch that delivers exact doses directly into cells, and lessens pain and toxicity.Contributed Author: Purdue UniversityTopics: Physics/Engineering

Mon 12 Nov 18 from Laboratory Equipment

Flexible biopatch uses nanoneedles for precision drug delivery

Biomedical engineers at Purdue University have created a flexible, transparent biopatch that uses nanoneedles for precise drug delivery to cells. According to the researchers, skin cancer is ...

Mon 12 Nov 18 from The Engineer

Novel Nanoneedle Patch Could Enable Delivery of Biomolecules with Minimal Invasiveness

Scientists from Purdue University have created an innovative, translucent, and flexible base for silicon nanoneedle patches to transfer accurate doses of biomolecules directly into cells and ...

Mon 12 Nov 18 from AZoNano

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