PURPOSE OF REVIEW: Informatics is a broad field encompassing artificial intelligence, cognitive science, computer science, information science, and social science. The goal of this review is to illustrate how Web 2.0 information technologies could be used to improve anesthesia education. RECENT FINDINGS: Educators in all specialties of medicine are increasingly studying Web 2.0 technologies to maximize postgraduate medical education of housestaff. These technologies include microblogging, blogs, really simple syndication (RSS) feeds, podcasts, wikis, and social bookmarking and networking. 'Anesthesia 2.0' reflects our expectation that these technologies will foster innovation and interactivity in anesthesia-related web resources which embraces the principles of openness, sharing, and interconnectedness that represent the Web 2.0 movement. Although several recent studies have shown benefits of implementing these systems into medical education, much more investigation is needed. SUMMARY: Although direct practice and observation in the operating room are essential, Web 2.0 technologies hold great promise to innovate anesthesia education and clinical practice such that the resident learner need not be in a classroom for a didactic talk, or even in the operating room to see how an arterial line is properly placed. Thoughtful research to maximize implementation of these technologies should be a priority for development by academic anesthesiology departments. Web 2.0 and advanced informatics resources will be part of physician lifelong learning and clinical practice.
PURPOSE OF REVIEW: Informatics is a broad field encompassing artificial intelligence, cognitive science, computer science, information science, and social science. The goal of this review is to illustrate how Web 2.0 information technologies could be used to improve anesthesia education. RECENT FINDINGS: Educators in all specialties of medicine are increasingly studying Web 2.0 technologies to maximize postgraduate medical education of housestaff. These technologies include microblogging, blogs, really simple syndication (RSS) feeds, podcasts, wikis, and social bookmarking and networking. 'Anesthesia 2.0' reflects our expectation that these technologies will foster innovation and interactivity in anesthesia-related web resources which embraces the principles of openness, sharing, and interconnectedness that represent the Web 2.0 movement. Although several recent studies have shown benefits of implementing these systems into medical education, much more investigation is needed. SUMMARY: Although direct practice and observation in the operating room are essential, Web 2.0 technologies hold great promise to innovate anesthesia education and clinical practice such that the resident learner need not be in a classroom for a didactic talk, or even in the operating room to see how an arterial line is properly placed. Thoughtful research to maximize implementation of these technologies should be a priority for development by academic anesthesiology departments. Web 2.0 and advanced informatics resources will be part of physician lifelong learning and clinical practice.
Authors: Patrick M Archambault; Tom H van de Belt; Craig Kuziemsky; Ariane Plaisance; Audrey Dupuis; Carrie A McGinn; Rebecca Francois; Marie-Pierre Gagnon; Alexis F Turgeon; Tanya Horsley; William Witteman; Julien Poitras; Jean Lapointe; Kevin Brand; Jean Lachaine; France Légaré Journal: Cochrane Database Syst Rev Date: 2017-05-10
Authors: Jenine K Harris; Sarah Moreland-Russell; Rachel G Tabak; Lindsay R Ruhr; Ryan C Maier Journal: Am J Public Health Date: 2014-05-15 Impact factor: 9.308
Authors: Patrick M Archambault; Alexis F Turgeon; Holly O Witteman; François Lauzier; Lynne Moore; François Lamontagne; Tanya Horsley; Marie-Pierre Gagnon; Arnaud Droit; Matthew Weiss; Sébastien Tremblay; Jean Lachaine; Natalie Le Sage; Marcel Émond; Simon Berthelot; Ariane Plaisance; Jean Lapointe; Tarek Razek; Tom H van de Belt; Kevin Brand; Mélanie Bérubé; Julien Clément; Francisco Jose Grajales Iii; Gunther Eysenbach; Craig Kuziemsky; Debbie Friedman; Eddy Lang; John Muscedere; Sandro Rizoli; Derek J Roberts; Damon C Scales; Tasnim Sinuff; Henry T Stelfox; Isabelle Gagnon; Christian Chabot; Richard Grenier; France Légaré Journal: JMIR Res Protoc Date: 2015-02-19
Authors: Patrick Michel Archambault; Tom H van de Belt; Francisco J Grajales Iii; Gunther Eysenbach; Karine Aubin; Irving Gold; Marie-Pierre Gagnon; Craig E Kuziemsky; Alexis F Turgeon; Julien Poitras; Marjan J Faber; Jan A M Kremer; Marcel Heldoorn; Andrea Bilodeau; France Légaré Journal: JMIR Res Protoc Date: 2012-04-11
Authors: Patrick M Archambault; Tom H van de Belt; Francisco J Grajales; Marjan J Faber; Craig E Kuziemsky; Susie Gagnon; Andrea Bilodeau; Simon Rioux; Willianne L D M Nelen; Marie-Pierre Gagnon; Alexis F Turgeon; Karine Aubin; Irving Gold; Julien Poitras; Gunther Eysenbach; Jan A M Kremer; France Légaré Journal: J Med Internet Res Date: 2013-10-08 Impact factor: 5.428