Kathleen T Hickey1. 1. Professor of Nursing, Columbia University School of Nursing, New York, NY, USA.
Abstract
PURPOSE: The purpose of this article is to provide an overview of strategies to build and sustain a career as a nurse scientist. This article examines how to integrate technologies and precision approaches into clinical practice, research, and education of the next generation of nursing scholars. DESIGN: This article presents information for shaping a sustainable transdisciplinary career. Programs of research that utilize self-management to improve quality of life are discussed throughout the article. The ongoing National Institute of Nursing Research-funded (R01 grant) iPhone Helping Evaluate Atrial Fibrillation Rhythm through Technology (iHEART) study is the first prospective, randomized controlled trial to evaluate whether electrocardiographic monitoring with the AliveCor™ device in the real-world setting will improve the time to detection and treatment of recurrent atrial fibrillation over a 6-month period as compared to usual cardiac care. METHODS: Opportunities to sustain a career as a nurse scientist and build programs of transdisciplinary research are identified. These opportunities are focused within the area of research and precision medicine. FINDINGS: Nurse scientists have the potential and ability to shape their careers and become essential members of transdisciplinary partnerships. Exposure to clinical research, expert mentorship, and diverse training opportunities in different areas are essential to ensure that contributions to nursing science are visible through publications and presentations as well as through securing grant funding to develop and maintain programs of research. CONCLUSIONS: Transcending boundaries and different disciplines, nurses are essential members of many diverse teams. CLINICAL RELEVANCE: Nurse scientists are strengthening research approaches, clinical care, and communication and improving health outcomes while also building and shaping the next generation of nurse scientists.
PURPOSE: The purpose of this article is to provide an overview of strategies to build and sustain a career as a nurse scientist. This article examines how to integrate technologies and precision approaches into clinical practice, research, and education of the next generation of nursing scholars. DESIGN: This article presents information for shaping a sustainable transdisciplinary career. Programs of research that utilize self-management to improve quality of life are discussed throughout the article. The ongoing National Institute of Nursing Research-funded (R01 grant) iPhone Helping Evaluate Atrial Fibrillation Rhythm through Technology (iHEART) study is the first prospective, randomized controlled trial to evaluate whether electrocardiographic monitoring with the AliveCor™ device in the real-world setting will improve the time to detection and treatment of recurrent atrial fibrillation over a 6-month period as compared to usual cardiac care. METHODS: Opportunities to sustain a career as a nurse scientist and build programs of transdisciplinary research are identified. These opportunities are focused within the area of research and precision medicine. FINDINGS: Nurse scientists have the potential and ability to shape their careers and become essential members of transdisciplinary partnerships. Exposure to clinical research, expert mentorship, and diverse training opportunities in different areas are essential to ensure that contributions to nursing science are visible through publications and presentations as well as through securing grant funding to develop and maintain programs of research. CONCLUSIONS: Transcending boundaries and different disciplines, nurses are essential members of many diverse teams. CLINICAL RELEVANCE: Nurse scientists are strengthening research approaches, clinical care, and communication and improving health outcomes while also building and shaping the next generation of nurse scientists.
Authors: Clyde W Yancy; Mariell Jessup; Biykem Bozkurt; Javed Butler; Donald E Casey; Monica M Colvin; Mark H Drazner; Gerasimos Filippatos; Gregg C Fonarow; Michael M Givertz; Steven M Hollenberg; JoAnn Lindenfeld; Frederick A Masoudi; Patrick E McBride; Pamela N Peterson; Lynne Warner Stevenson; Cheryl Westlake Journal: Circulation Date: 2016-05-20 Impact factor: 29.690
Authors: Paulus Kirchhof; Gregory Y H Lip; Isabelle C Van Gelder; Jeroen Bax; Elaine Hylek; Stefan Kaab; Ulrich Schotten; Karl Wegscheider; Giuseppe Boriani; Axel Brandes; Michael Ezekowitz; Hans Diener; Laurent Haegeli; Hein Heidbuchel; Deirdre Lane; Luis Mont; Stephan Willems; Paul Dorian; Maria Aunes-Jansson; Carina Blomstrom-Lundqvist; Maria Borentain; Stefanie Breitenstein; Martina Brueckmann; Nilo Cater; Andreas Clemens; Dobromir Dobrev; Sergio Dubner; Nils G Edvardsson; Leif Friberg; Andreas Goette; Michele Gulizia; Robert Hatala; Jenny Horwood; Lukas Szumowski; Lukas Kappenberger; Josef Kautzner; Angelika Leute; Trudie Lobban; Ralf Meyer; Jay Millerhagen; John Morgan; Felix Muenzel; Michael Nabauer; Christoph Baertels; Michael Oeff; Dieter Paar; Juergen Polifka; Ursula Ravens; Ludger Rosin; W Stegink; Gerhard Steinbeck; Panos Vardas; Alphons Vincent; Maureen Walter; Günter Breithardt; A John Camm Journal: Europace Date: 2011-07-26 Impact factor: 5.214
Authors: Kathleen T Hickey; James Reiffel; Robert R Sciacca; William Whang; Angelo Biviano; Maurita Baumeister; Carmen Castillo; Jyothi Talathothi; Hasan Garan Journal: J Clin Nurs Date: 2013-02 Impact factor: 3.036
Authors: Kathleen T Hickey; Nicole R Hauser; Laura E Valente; Teresa C Riga; Ashton P Frulla; Ruth Masterson Creber; William Whang; Hasan Garan; Haomiao Jia; Robert R Sciacca; Daniel Y Wang Journal: BMC Cardiovasc Disord Date: 2016-07-16 Impact factor: 2.298