Temperature-responsive intravenous needle

Temperature-responsive intravenous needle

Abstract:

The high stiffness of intravenous needles can cause tissue injury and increase the risk of transmission of blood-borne pathogens through accidental needlesticks. Here we describe the development and performance of an intravenous needle whose stiffness and shape depend on body temperature. The needle is sufficiently stiff for insertion into soft tissue yet becomes irreversibly flexible after insertion, adapting to the shape of the blood vessel and reducing the risk of needlestick injury on removal, as we show in vein phantoms and ex vivo porcine tissue. In mice, the needles had similar fluid-delivery performance and caused substantially less inflammation than commercial devices for intravenous access of similar size. We also show that an intravenous needle integrated with a thin-film temperature sensor can monitor core body temperature in mice and detect fluid leakage in porcine tissue ex vivo. Temperature-responsive intravenous needles may improve patient care.

Agno KC, Yang K, Byun SH, Oh S, Lee S, Kim H, Kim K, Cho S, Jeong WI, Jeong JW. A temperature-responsive intravenous needle that irreversibly softens on insertion. Nat Biomed Eng. 2023 Oct 30. doi: 10.1038/s41551-023-01116-z. Epub ahead of print. PMID: 37903901.