Complete prevention of blood loss with self-sealing haemostatic needles

Bleeding is largely unavoidable following syringe needle puncture of biological tissues and, while inconvenient, this typically causes little or no harm in healthy individuals. However, there are certain circumstances where syringe injections can have more significant side effects, such as uncontrol...

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Veröffentlicht in:	Nature materials 2017-01, Vol.16 (1), p.147-152
Hauptverfasser:	Shin, Mikyung, Park, Sung-Gurl, Oh, Byung-Chang, Kim, Keumyeon, Jo, Seongyeon, Lee, Moon Sue, Oh, Seok Song, Hong, Seon-Hui, Shin, Eui-Cheol, Kim, Ki-Suk, Kang, Sun-Woong, Lee, Haeshin
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Schlagworte:	140/125 140/131 140/146 631/61/54/989 631/61/54/990 Animal models Animals Biomaterials Bleeding Blood Chitosan Coated Materials, Biocompatible - chemistry Condensed Matter Physics Crosslinking Disease transmission Equipment Design Equipment Failure Analysis Hemophilia A - complications Hemorrhage Hemorrhage - etiology Hemorrhage - prevention & control Hemostasis, Surgical - instrumentation Hypodermic needles Infectious diseases Injections, Intravenous - adverse effects Injections, Intravenous - instrumentation Male Materials Science Mice Mice, Inbred BALB C Nanotechnology Needles Needles - adverse effects Optical and Electronic Materials Prevention Punctures - adverse effects Punctures - instrumentation Syringes Tissues Veins
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creator	Shin, Mikyung Park, Sung-Gurl Oh, Byung-Chang Kim, Keumyeon Jo, Seongyeon Lee, Moon Sue Oh, Seok Song Hong, Seon-Hui Shin, Eui-Cheol Kim, Ki-Suk Kang, Sun-Woong Lee, Haeshin
description	Bleeding is largely unavoidable following syringe needle puncture of biological tissues and, while inconvenient, this typically causes little or no harm in healthy individuals. However, there are certain circumstances where syringe injections can have more significant side effects, such as uncontrolled bleeding in those with haemophilia, coagulopathy, or the transmission of infectious diseases through contaminated blood. Herein, we present a haemostatic hypodermic needle able to prevent bleeding following tissue puncture. The surface of the needle is coated with partially crosslinked catechol-functionalized chitosan that undergoes a solid-to-gel phase transition in situ to seal punctured tissues. Testing the capabilities of these haemostatic needles, we report complete prevention of blood loss following intravenous and intramuscular injections in animal models, and 100% survival in haemophiliac mice following syringe puncture of the jugular vein. Such self-sealing haemostatic needles and adhesive coatings may therefore help to prevent complications associated with bleeding in more clinical settings. The penetration of tissues with syringe needles is a common clinical practice that inevitably results in blood loss at the puncture site. This blood loss can now be eliminated using self-sealing haemostatic needles.
doi_str_mv	10.1038/nmat4758
format	Article
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However, there are certain circumstances where syringe injections can have more significant side effects, such as uncontrolled bleeding in those with haemophilia, coagulopathy, or the transmission of infectious diseases through contaminated blood. Herein, we present a haemostatic hypodermic needle able to prevent bleeding following tissue puncture. The surface of the needle is coated with partially crosslinked catechol-functionalized chitosan that undergoes a solid-to-gel phase transition in situ to seal punctured tissues. Testing the capabilities of these haemostatic needles, we report complete prevention of blood loss following intravenous and intramuscular injections in animal models, and 100% survival in haemophiliac mice following syringe puncture of the jugular vein. Such self-sealing haemostatic needles and adhesive coatings may therefore help to prevent complications associated with bleeding in more clinical settings. The penetration of tissues with syringe needles is a common clinical practice that inevitably results in blood loss at the puncture site. This blood loss can now be eliminated using self-sealing haemostatic needles.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>27698353</pmid><doi>10.1038/nmat4758</doi><tpages>6</tpages><orcidid>https://orcid.org/0000-0002-7990-5210</orcidid></addata></record>
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subjects	140/125 140/131 140/146 631/61/54/989 631/61/54/990 Animal models Animals Biomaterials Bleeding Blood Chitosan Coated Materials, Biocompatible - chemistry Condensed Matter Physics Crosslinking Disease transmission Equipment Design Equipment Failure Analysis Hemophilia A - complications Hemorrhage Hemorrhage - etiology Hemorrhage - prevention & control Hemostasis, Surgical - instrumentation Hypodermic needles Infectious diseases Injections, Intravenous - adverse effects Injections, Intravenous - instrumentation Male Materials Science Mice Mice, Inbred BALB C Nanotechnology Needles Needles - adverse effects Optical and Electronic Materials Prevention Punctures - adverse effects Punctures - instrumentation Syringes Tissues Veins
title	Complete prevention of blood loss with self-sealing haemostatic needles
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