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Books on the topic 'Health technology adoption'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 March 2023

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1

J, Philipson Tomas, ed. Innovation and technology adoption in health care markets. Washington, D.C: AEI Press, 2008.

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2

MD, Taylor Roger, and Rand Corporation, eds. The state and pattern of health information technology adoption. Santa Monica, CA: Rand Corp., 2005.

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3

Baker, Laurence Claude. Managed care, technology adoption, and health care: The adoption of neonatal intensive care. Cambridge, MA: National Bureau of Economic Research, 2000.

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4

Jena, Anupam B. Endogenous cost-effectiveness analysis in health care technology adoption. Cambridge, MA: National Bureau of Economic Research, 2009.

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5

Baker, Laurence Claude. Managed care and technology adoption in health care: Evidence from magnetic resonance imaging. Cambridge, MA: National Bureau of Economic Research, 2000.

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6

Gupta, Indrani. Adoption of health technologies in India: Implications for the AIDS vaccine. Los Angeles: Sage Publications, 2007.

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7

Goldman, Dana P. Socioeconomic differences in the adoption of new medical technologies. Cambridge, MA: National Bureau of Economic Research, 2005.

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8

House, United States Congress. A bill to amend the Public Health Service Act to promote the adoption of health information technology, and for other purposes. Washington, D.C: U.S. G.P.O., 2008.

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9

Lleras-Muney, Adriana. The effect of education on medical technology adoption: Are the more educated more likely to use new drugs? Cambridge, MA: National Bureau of Economic Research, 2002.

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10

United States. Congress. House. A bill to promote the adoption and meaningful use of health information technology, and for other purposes. [Washington, D.C.?]: [United States Government Printing Office], 2008.

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11

House, United States Congress. A bill to advance the adoption of nationwide interoperable health information technology and to improve health care quality and reduce health care costs in the United States. Washington, D.C: U.S. G.P.O., 2007.

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12

Accelerating the adoption of health information technology: Hearing before the Subcommittee on Technology, Innovation, and Competitiveness of the Committee on Commerce, Science, and Transportation, United States Senate, One Hundred Ninth Congress, second session, June 21, 2006. Washington: U.S. G.P.O., 2011.

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13

Hearing on promoting the adoption and use of health information technology: Hearing before the Subcommittee on Health of the Committee on Ways and Means, U.S. House of Representatives, One Hundred Tenth Congress, second session, July 24, 2008. Washington: U.S. G.P.O., 2011.

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14

Annetine, Gelijns, Dawkins Holly V, and Institute of Medicine (U.S.). Committee on Technological Innovation in Medicine., eds. Adopting new medical technology. Washington, D.C: National Academy Press, 1994.

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15

Increase Health Information Technology Adoption and Connectivity. RAND Corporation, 2009. http://dx.doi.org/10.7249/tr562.5.

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16

Committee on Commerce Science (senate), United States Senate, and United States United States Congress. Accelerating the Adoption of Health Information Technology. Independently Published, 2019.

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17

Innovation and Technology Adoption in Health Care Markets. American Enterprise Institute for Public Policy Research, 2008.

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18

Complete Guide and Toolkit to Successful EHR Adoption. Taylor & Francis Group, 2011.

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19

Healthcare Technology Innovation Adoption: Electronic Health Records and Other Emerging Health Information Technology Innovations. Springer, 2016.

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20

Basoglu, Nuri, Tugrul U. Daim, Nima Behkami, Orhun M. Kök, and Liliya Hogaboam. Healthcare Technology Innovation Adoption: Electronic Health Records and Other Emerging Health Information Technology Innovations. Springer, 2018.

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21

Basoglu, Nuri, Tugrul U. Daim, Nima Behkami, Orhun M. Kök, and Liliya Hogaboam. Healthcare Technology Innovation Adoption: Electronic Health Records and Other Emerging Health Information Technology Innovations. Springer London, Limited, 2016.

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22

Fonkych, Kateryna. The State and the Pattern of Health Information Technology Adoption. RAND Corporation, 2005.

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23

Marshall, Joanne Gard. The adoption and implementation of online information technology by health professionals. 1987.

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24

Committee on Ways and Means (house), Congress of the United States, and United States House of Representatives. Hearing on Promoting the Adoption and Use of Health Information Technology. Independently Published, 2019.

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25

Erskine, Marcy. Variability in adoption of preventative health technology in rural northern Malawi. 2003.

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26

Coles, Prophecy. Psychoanalytic Perspectives on Illegitimacy Adoption and Reproduction Technology. Taylor & Francis Group, 2020.

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27

Psychoanalytic Perspectives on Illegitimacy Adoption and Reproduction Technology. Taylor & Francis Group, 2020.

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28

Lewis, Deborah Ann. CONCERNS AND CHARACTERISTICS AFFECTING THE ADOPTION OF COMPUTER BASED INSTRUCTION BY DIABETES EDUCATORS. 1994.

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29

Hillestad, Richard. The Potential Benefits and Costs of Increased Adoption of Health Information Technology. RAND Corporation, 2008. http://dx.doi.org/10.7249/ct312.

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30

Coles, Prophecy. Psychoanalytic Perspectives on Illegitimacy, Adoption and Reproduction Technology: Strangers As Kin. Taylor & Francis Group, 2020.

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31

Coles, Prophecy. Psychoanalytic Perspectives on Illegitimacy, Adoption and Reproduction Technology: Strangers As Kin. Taylor & Francis Group, 2020.

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32

Bass, James David. FACTORS THAT RELATE TO THE DIFFUSION AND ADOPTION OF COMPUTER-ASSISTED INSTRUCTION AMONG COLLEGIATE NURSE EDUCATORS. 1991.

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33

Gupta, Indrani, Mayur Trivedi, and Subodh Kandamuthan. Adoption of Health Technologies in India: Implications for the AIDS Vaccine. SAGE Publications, Incorporated, 2007.

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34

Betton, Victoria. Towards a Digital Health Ecology at the NHS: Healthcare Technology Adoption Through the COVID-19 Looking Glass. Auerbach Publishers, Incorporated, 2022.

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35

Betton, Victoria. Towards a Digital Health Ecology at the NHS: Healthcare Technology Adoption Through the COVID-19 Looking Glass. Auerbach Publishers, Incorporated, 2022.

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36

Betton, Victoria. Towards a Digital Health Ecology at the NHS: Healthcare Technology Adoption Through the COVID-19 Looking Glass. Auerbach Publishers, Incorporated, 2022.

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37

Adoption of Health Technologies in India: Implications for the AIDS Vaccine (Studies in Economic and Social Development) (Studies in Economic and Social Development). Sage Publications Pvt. Ltd, 2007.

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38

Health Technology Assessment: Using Biostatistics to Break the Barriers of Adopting New Medicines. Taylor & Francis Group, 2015.

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39

Robert B. Hopkins MA MBA and Ron Goeree MA. Health Technology Assessment: Using Biostatistics to Break the Barriers of Adopting New Medicines. Taylor & Francis Group, 2015.

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40

Robert B. Hopkins MA MBA and Ron Goeree MA. Health Technology Assessment: Using Biostatistics to Break the Barriers of Adopting New Medicines. Taylor & Francis Group, 2015.

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41

Whisenant, Meagan, and Kathi Mooney. Integrating Concurrent Palliative Care into Cancer Care Delivery Settings. Edited by David A. Chambers, Wynne E. Norton, and Cynthia A. Vinson. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190647421.003.0018.

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This case study reviews the evidence for adoption of concurrent palliative care (CPC) during treatment for advanced cancer. Increasing research evidence and expert panel consensus has resulted in national guidelines and professional society endorsement of early integration of palliative care into oncology care. However, there is variable uptake of these guidelines and penetration of CPC into practice. Barriers to implementation include the need to increase awareness of existing evidence and guidelines, stigma, adequacy of a workforce for scale-up, lack of models for integration and delivery, and restrictive reimbursement mechanisms. Changing health care models that emphasize value-based care over fee-for-service can accelerate adoption. Use of technology can also overcome barriers related to scalability and resource use. The case study concludes with the recommendation that implementation science methodologies be used to guide successful integration of CPC in outpatient and home-based settings for patients with advanced cancer and their family caregivers.
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42

Brownsword, Roger. Law, Liberty, and Technology. Edited by Roger Brownsword, Eloise Scotford, and Karen Yeung. Oxford University Press, 2016. http://dx.doi.org/10.1093/oxfordhb/9780199680832.013.2.

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This chapter assesses the relationship between liberty and technology. Adopting a broad conception of liberty, covering both the normative and the practical optionality of developing, applying, or using some particular technology, four questions are pursued. These questions concern: (i) the patterns of normative liberty in relation to new technologies and their applications; (ii) the gap between normative liberty and practical liberty; (iii) the impact of technologies on basic liberties; and (iv) the relationship between law, liberty, and ‘technological management’. While the expansion or contraction of normative liberties remains relevant, the key claim of the chapter is that, in future, it is the use of ‘technological management’—for a range of purposes, from crime control to the regulation of health and safety, and environmental protection—that needs to be monitored carefully, and particularly so for its impact on real options.
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43

Bhui, Kamaldeep, and Dinesh Bhugra. Terrorism, Violent Radicalisation, and Mental Health. Oxford University Press, 2021. http://dx.doi.org/10.1093/med/9780198845706.001.0001.

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Terrorism, Violent Radicalization, and Mental Health brings together distinct disciplinary and ideological narratives on the political, social, economic, and cultural aspects of radicalization and terrorism today. Specifically, adopting methodologies and concepts from cultural psychiatry, and a range of other disciplines, across 18 chapters, we assesses a wide range of groups and types of extremism and terrorism from around the world. There are key topics such as technology, social and international policies, ethics and cultural competency, and the role that psychiatrists and mental health professionals play in treatment, management, and prevention. There are implications for counter-terrorism policy and practice, as well as wider social and public health and immigration policies. We thank the authors for their commitment to this challenging area of work, yet one which is much needed, to create social and global cohesion and improve public health, enabling all to flouris.
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44

Barker, Richard. The gaps in translating biomedical advance into patient benefit. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780198737780.003.0003.

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There are no less than five major gaps in translation in the long journey from discovery to practical patient benefit. Insufficient understanding of disease mechanisms (T0), limited skills and motivation in turning lab discoveries into potential products (T1), huge wastage in bringing promising products to market (T2), disappointingly slow adoption by doctors and adherence by patients (T3), and failure to learn from past experience (T4): all cripple the productivity of life sciences. T2 is a particular challenge, especially in medicines, with a high attrition rate in costly clinical trials and increasing difficulties in persuading health technology assessment (HTA) agencies of the added-value of new technologies, combined with HTA differences across countries. Major cultural barriers between academia, practical medicine, and industry make matters worse, as mismatched incentives and mutual suspicion impede collaboration. The net result is poor yield at every stage in the innovation process and therefore very poor translation overall.
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45

Kane, Robert L., and Thomas D. Parsons, eds. The Role of Technology in Clinical Neuropsychology. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780190234737.001.0001.

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Neuropsychology as a field has been slow to embrace and exploit the potential offered by technology to either make the assessment process more efficient or to develop new capabilities that augment the assessment of cognition. The Role of Technology in Clinical Neuropsychology details current efforts to use technology to enhance cognitive assessment with an emphasis on developing expanded capabilities for clinical assessment. The first sections of the book provide an overview of current approaches to computerized assessment along with newer technologies to assess behavior. The next series of chapters explores the use of novel technologies and approaches in cognitive assessment as they relate to developments in telemedicine, mobile health, and remote monitoring including developing smart environments. While still largely office-based, health care is increasingly moving out of the office with an increased emphasis on connecting patients with providers, and providers with other providers, remotely. Chapters also address the use of technology to enhance cognitive rehabilitation by implementing conceptually-based games to teach cognitive strategies and virtual environments to measure outcomes. Next, the chapters explore the use of virtual reality and scenario-based assessment to capture critical aspects of performance not assessed by traditional means and the implementation of neurobiological metrics to enhance patient assessment. Chapters also address the use of imaging to better define cognitive skills and assessment methods along with the integration of cognitive assessment with imaging to define the functioning of brain networks. The final section of the book discusses the ethical and methodological considerations needed for adopting advanced technologies for neuropsychological assessment. Authored by numerous leading figures in the field of neuropsychology, this volume emphasizes the critical role that virtual environments, neuroimaging, and data analytics will play as clinical neuropsychology moves forward in the future.
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46

Hyysalo, Sampsa, and Jouni K. Juntunen. User Innovation and Peer Assistance in Small-Scale Renewable Energy Technologies. Edited by Debra J. Davidson and Matthias Gross. Oxford University Press, 2018. http://dx.doi.org/10.1093/oxfordhb/9780190633851.013.22.

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There have been many attempts to include citizens as more active players in the proliferation of renewable energy technologies. However, the roles that citizen users play in renewables proliferation are not limited to adoption, but include technological domestication, innovation, and market creation. This chapter first reviews innovation by citizen users in the early phases of small-scale renewable energy technologies (S-RET) technology development in wind turbines, solar collectors, and low-energy housing. It then examines user innovation and peer assistance in the later phases of diffusion in air-source and ground-source heat pumps, pellet-burning systems, and solar collectors. It reviews research user motivations, diffusion pathways, and peer intermediation, and pays particular attention to how the forms of innovative citizen energy communities are changing from locality-based community energy initiatives to distributed and Internet-mediated energy communities. The chapter concludes by drawing policy implications regarding user innovation and peer assistance in the transformation of energy systems.
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