Relevant bibliographies by topics / Telemedicine complex

Academic literature on the topic 'Telemedicine complex'

Author: Grafiati
Published: 30 May 2022
Last updated: 31 May 2022

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Journal articles on the topic "Telemedicine complex"

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Gurov, I. P., V. O. Nikiforov, N. P. Belashenkov, A. S. Potapov, A. V. Lyamin, Ya V. Rudin, L. L. Varlamova, and A. A. Skshidlevskiĭ. "Diagnostic optodigital complex for telemedicine." Journal of Optical Technology 79, no. 11 (November 30, 2012): 712. http://dx.doi.org/10.1364/jot.79.000712.

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Jalalabadi, Faryan, Kelly Shultz, Norman Sussman, William Fisher, and Edward Reece. "Initiating Telehealth in a Complex Organization." Seminars in Plastic Surgery 32, no. 04 (October 22, 2018): 159–61. http://dx.doi.org/10.1055/s-0038-1672132.

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AbstractMedicine has been praised for breakthroughs that improve the quality and longevity of human life. In the setting of today's fast-paced, tech-savvy society in combination with increased patient volume entering hospital doors, telemedicine proves an effective tool to enable the industry to adapt to the changing world around us. A review of the current literature and legislative laws was conducted along with knowledge from the experience gathered at starting a telehealth platform at Texas Children's Hospital to find the necessary steps for starting a telehealth program. Through digital platform, telemedicine offers remote delivery of medical services to all parts of the country, urban and rural, while enhancing interprofessional referral patterns in the local setting. Telemedicine sets to preemptively triage and guide patients through their appropriate phases of care all the meanwhile, bringing the patient and physician closer together. This discussion delves into the further added benefits to large hospital systems, breaks down the basics of the technological platform, and addresses current barriers to entry in the telehealth industry. This article serves as an introduction to a series regarding effective implementation of telemedicine into the hospital system.
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Belov, M. V., and S. V. Rassamakhin. "Complex Revision Arthroplasty Planning with Telemedicine Expert Advice." Traumatology and Orthopedics of Russia 26, no. 3 (September 29, 2020): 119–29. http://dx.doi.org/10.21823/2311-2905-2020-26-3-119-129.

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Willard, April, Elizabeth Brown, Marjorie Masten, Marisa Brant, Nicole Pouppirt, Kevin Moran, Janet Lioy, and John Chuo. "Complex Surgical Infants Benefit From Postdischarge Telemedicine Visits." Advances in Neonatal Care 18, no. 1 (February 2018): 22–30. http://dx.doi.org/10.1097/anc.0000000000000460.

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Jue, Joshua S., Sydney A. Spector, and Seth A. Spector. "Telemedicine broadening access to care for complex cases." Journal of Surgical Research 220 (December 2017): 164–70. http://dx.doi.org/10.1016/j.jss.2017.06.085.

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Sukhov, Renat, Afua Asante, and Gavriil Ilizarov. "Telemedicine for pediatric physiatry: How social distancing can bring physicians and families closer together." Journal of Pediatric Rehabilitation Medicine 13, no. 3 (November 23, 2020): 329–38. http://dx.doi.org/10.3233/prm-200747.

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The coronavirus (COVID-19) pandemic triggered wide scale implementation of telemedicine in the United States. The government response, Coronavirus Aid, Relief, and Economic Security (CARES) Act, permitted loosening of existing restrictions on telemedicine enabling its rapid incorporation into the delivery of medical care for children and adults. Prior to COVID-19, few pediatric physiatrists had opportunities to access high fidelity telemedicine platforms to provide health care for patients with special needs, mobility impairments, developmental delays, neuromuscular disorders or other complex medical conditions. This literature review will explore how telemedicine can optimize health care delivery options for pediatric physiatrists in various inpatient and outpatient settings such as consultations, acute inpatient units, outpatient clinics and long-term care facilities. Detailed analysis of the current research in telemedicine applications as well as a critical review of the limitations and barriers for its use offers a plethora of opportunities for enhancement of continuity and coordination of care. Telemedicine may decrease healthcare disparities and increase access of care for children with special needs. Additional research is needed to assess the efficacy of telemedicine when addressing complex medical conditions in children.
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Téot, Luc, Chloé Geri, Julie Lano, Marjorie Cabrol, Christine Linet, and Grégoire Mercier. "Complex Wound Healing Outcomes for Outpatients Receiving Care via Telemedicine, Home Health, or Wound Clinic: A Randomized Controlled Trial." International Journal of Lower Extremity Wounds 19, no. 2 (December 18, 2019): 197–204. http://dx.doi.org/10.1177/1534734619894485.

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Use of telemedicine has expanded rapidly in recent years, yet there are few comparative studies to determine its effectiveness in wound care. To provide experimental data in the field of telemedicine with regard to wound care, a pilot project named “Domoplaies” was publicly funded in France in 2011. A randomized, controlled trial was performed to measure the outcomes of patients with complex wounds who received home wound care from a local clinician guided by an off-site wound care expert via telemedicine, versus patients who received in-home or wound clinic visits with wound care professionals. The publicly funded network of nurses and physicians highly experienced in wound healing was used to provide wound care recommendations via telemedicine for the study. The healing rate at 6 months was slightly better for patients who received wound care via telemedicine (61/89; 68.5%) versus wound care professional at home (38/59; 64.4%) versus wound care clinic (22/35; 62.9%), but the difference was not significant ( P = .860833). The average time to healing for the 121/183 wounds that healed within 6 months was 66.8 ± 32.8 days for the telemedicine group, 69.3 ± 26.7 for the wound care professional at home group, and 55.8 ± 25.0 days for the wound care clinic group. Transportation costs for the telemedicine and home health care groups were significantly lower than the wound clinic group, and death rate was similar between all the 3 groups ( P < .01). Telemedicine performed by wound healing clinicians working in a network setting offered a safe option to remotely manage comorbid, complex wound care patients with reduced mobility.
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Wade, Victoria, Adrian G. Barnett, Melinda Martin-Khan, and Trevor Russell. "Designing quantitative telemedicine research." Journal of Telemedicine and Telecare 23, no. 9 (October 27, 2016): 786–91. http://dx.doi.org/10.1177/1357633x16671240.

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When designing quantitative trials and evaluation of telehealth interventions, researchers should think ahead to the intended way that the intervention could be implemented in routine care and consider how trial participants with similar characteristics to the target population can be included. The telehealth intervention and the context in which it is placed should be clearly described, and consideration given to conducting pragmatic trials in order to show the effect of telehealth in complex environments with rapidly changing technology. Types of research designs, comparators and outcome measures are discussed and common statistical issues are introduced.
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Coppock, Dagan, Christine Quimby, Jonathan Nunez, Cynthia Whitener, and John Zurlo. "People Living With Human Immunodeficiency Virus During the COVID-19 Pandemic: Experiences With Telemedicine." Health Promotion Practice 22, no. 3 (March 12, 2021): 298–99. http://dx.doi.org/10.1177/15248399211001071.

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Preserving routine primary care for people living with human immunodeficiency virus (PLWH) has been an important challenge during the COVID-19 pandemic. Telemedicine platforms have offered novel means through which care for these individuals may be maintained. Opt-In for Life is a unique mobile health application that contains telemedicine capabilities as well as other features designed specifically for the care of PLWH. Opt-In for Life was implemented early in the pandemic at Hershey Medical Center, although the center is now using a different telemedicine platform across its health care system. Institutional decisions regarding telemedicine platforms are complex. Opt-In for Life contains features that may improve the care of PLWH where telemedicine software alone may be limited.
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Le Goff-Pronost, Myriam, Bénédicte Mourgeon, Jean-Pierre Blanchère, Luc Teot, Hervé Benateau, and Anne Dompmartin. "REAL-WORLD CLINICAL EVALUATION AND COSTS OF TELEMEDICINE FOR CHRONIC WOUND MANAGEMENT." International Journal of Technology Assessment in Health Care 34, no. 6 (2018): 567–75. http://dx.doi.org/10.1017/s0266462318000685.

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Background:Chronic wounds are frequent, affect quality of life, and increase care costs. Telemedicine provides potential for effective wound care management, especially for the monitoring of complex wounds at home.Objectives:The objective of the present study was to determine the clinical effects and costs of telemedicine for the follow-up of complex chronic wounds from the perspective of the public health insurance. The study ran over a period of 9 months.Methods:We conducted a prospective, pragmatic, open-label, observational study and carried out a cost-effectiveness analysis. A total of 116 patients with chronic wounds were assigned to their choice of two groups: telemedicine (N = 77) and traditional follow-up (control; N = 39). The primary outcome was the time to healing. Secondary outcomes included percentage of wounds reaching target objective, percentage of wounds healed completely, outpatient care costs, travel costs, and hospitalizations.Results:Time to healing was shorter in the telemedicine group than in the control group (137 versus 174 days; p < .05). The percentage of wounds completely healed was not statistically different between the telemedicine and control group (66 percent versus 61 percent; p > .05). Outpatient care and hospitalization costs were not significantly different. The main results in terms of economic savings were medical transport costs reimbursed by the French public health insurance, which were significantly lower in the telemedicine group. Telemedicine costs were found to be €4,583 less per patient compared with standard practice over 9 months.Conclusions:This trial suggests that telemedicine saves travel costs and results in a shorter healing time than traditional follow-up.
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Dissertations / Theses on the topic "Telemedicine complex"

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Семенець, В. В., В. С. Чумак, І. В. Свид, О. В. Зубков, О. В. Воргуль, and Н. В. Бойко. "Designing the Structure of a General-Purpose Telemedicine Complex." Thesis, MC&FPGA, 2021. https://openarchive.nure.ua/handle/document/18108.

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Taking into account modern trends, the analysis of the construction principles of telemadic systems, networks and complexes is presented in the work. The general structure of providing telemedicine services is developed. Structures of realization of portable and mobile telemedicine complexes are offered. Infocommunication systems and networks for implementation in mobile telemedicine complexes are analyzed. The advantages of using the sensor mobile body area network of the IEEE 802.15.6 WBAN standard in mobile telemedicine complexes are justified.
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Семенець, В. В., В. С. Чумак, І. В. Свид, О. В. Зубков, О. В. Воргуль, and Н. В. Бойко. "Features of the Design of a Telemedicine Complex of a Wide Profile Based on FPGA." Thesis, MC&FPGA, 2021. https://openarchive.nure.ua/handle/document/18109.

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The article discusses the relevance of the development of a telemedicine complex for the rehabilitation of athletes for the removal of various biological characteristics and data transmission over a distance. The block diagram of the device being developed is presented. The choice of the FPGA component for solving the problems of digital signal processing has been substantiated.
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Шишкин, Михаил Анатольевич, and Константин Васильевич Колесник. "Нечеткая система определения параметров QRS-комплекса ЭКГ в телемедицине." Thesis, ИЦ "Политехпериодика", 2015. http://repository.kpi.kharkov.ua/handle/KhPI-Press/26956.

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Одной из проблем анализа электрокардиограмм является определение параметров QRS-комплекса. Особенно актуальным это становится в случае зашумленности кардиосигнала, что особенно часто происходит в условиях функционирования телемедицинских систем. В работе предлагается нечеткий (Fuzzy) алгоритм определения этих параметров, а также принципы его реализации.
One of the problems of electrocardiogram analysis is to determine the parameters of the QRS-complex. This is especially significant in the case if cardio signal becomes noisy, which often occurs during telemedicine systems operation. The authors present a fuzzy system for determining these parameters and the principles of implementation of such system.
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Шишкин, Михаил Анатольевич, and Константин Васильевич Колесник. "Использование аппаратной платформы Arduino для оптимизации алгоритмов обмена телемедицинскими данными." Thesis, Одесский национальный политехнический университет, 2016. http://repository.kpi.kharkov.ua/handle/KhPI-Press/21984.

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Задача обмена телемедицинскими данными в условиях зашумленности сигнала и ограниченной полосы пропускания каналов связи требует использования усложненных алгоритмов обработки при условии сохранения информативных параметров полезного сигнала. Процесс оптимизации таких алгоритмов невозможен без практической их отработки. В этом случае достаточно эффективным является применение универсальных аппаратных платформ, предлагаемых разработчикам, в частности, фирмой Arduino.
One problem with the analysis is to determine the parameters of the electrocardiogram QRS-complex. This is especially significant in the case of noise becomes cardio that most often occurs in the functioning of telemedicine systems. The paper proposes a fuzzy system for determining these parameters, as well as the principles of its implementation.
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Books on the topic "Telemedicine complex"

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Halpern, Neil A. Design of the ICU. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0001.

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This chapter on intensive care unit (ICU) design looks at the ICU from three perspectives—concept to occupancy, the patient room, and supportive services, and advanced informatics. The design process is complex and time-consuming, and relies upon a design team composed of the main users, architects, and hospital administrative representatives; they must develop a vision for the new unit, which includes its purpose, bed number, staffing, workflow and healing environment. The team must then balance innovation with practicality, disparate technologies with standardization and timely purchase, and desires for the best of everything with physical, space, and fiscal limitations. The ICU patient room is the core of the ICU patient, family member, and staff experiences and should be similarly designed and equipped. Supportive spaces fully integrated with the patient rooms and hospital logistic areas and systems help optimize throughput. Informatics systems that electronically integrate the patient room with all aspects of care should be deployed to intelligently utilize and smartly present and display data, manage alarms, monitor the ICU environment, develop virtual device communities, provide real time locating systems, and address local or remote telemedicine requirements.
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Coding for Pediatrics 2018, 23rd Ed. American Academy of Pediatrics, 2017. http://dx.doi.org/10.1542/9781610021081.

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For beginners and advanced coders alike, this is the first place to look for pediatric-specific coding solutions! A widely used American Academy of Pediatrics (AAP) exclusive, this essential resource complements standard coding manuals with proven documentation and billing solutions. This year's completely updated 23rd edition includes all changes in Current Procedural Terminology (CPT) codes -- complete with expert guidance for their application as well as ICD-10-CM updates for pediatric-related conditions. There is also an increased focus on compliant electronic health record administration. The book's many clinical vignettes and examples, as well as the many coding pearls throughout, provide added guidance needed to ensure accuracy and payment. This great resource continues to be approved for 4 continuing education units from the American Academy of Professional Coders. New in this edition: New chapters on Telemedicine, Common Surgical Procedures and Sedation, and Common Testing and Therapeutic Services Discussion of new codes for primary care management of behavioral health conditions Division of anesthesia and surgery coding from testing and therapeutic services for easier reference Discussion of options for reporting chronic care management services by physician or qualified health care professionals in 2018 New codes for common chest and abdominal radiologic services, pulmonary services updates to vaccines New codes for several unique care management services including: physician-performed chronic care, psychiatric collaborative care, and behavioral health integration care
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Book chapters on the topic "Telemedicine complex"

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Lauznis, J., Z. Markovics, and I. Markovica. "Mobile Telemedicine Screening Complex." In IFMBE Proceedings, 1451–54. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-00846-2_359.

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Markovitch, Z., J. Lauznis, G. Balodis, A. Katashev, and I. Markovitcha. "Development of New Mobile Telemedicine Screening Complex." In IFMBE Proceedings, 31–34. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-34197-7_8.

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Kolisnyk, K. V., R. S. Tomashevskyi, T. V. Sokol, S. M. Koval, and D. M. Deineko. "Creation of Regional Telemedicine Diagnostic and Treatment Complex." In IFMBE Proceedings, 651–55. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-31866-6_115.

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Aanestad, Margun, and Ole Hanseth. "Implementing Open Network Technologies in Complex Work Practices: A Case from Telemedicine." In Organizational and Social Perspectives on Information Technology, 355–69. Boston, MA: Springer US, 2000. http://dx.doi.org/10.1007/978-0-387-35505-4_21.

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Lehocki, Fedor, and Tomas Bacigal. "Telemedicine and mHealth System for Complex Management in T1DM and T2DM Patients: Results of 6 Months Study." In XIV Mediterranean Conference on Medical and Biological Engineering and Computing 2016, 1131–36. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-32703-7_221.

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Smith, Dean L. "Telemedicine Technologies." In A Practical Guide to Emergency Telehealth, edited by Dean Smith, 12–23. Oxford University Press, 2021. http://dx.doi.org/10.1093/med/9780190066475.003.0002.

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This chapter provides an overview of telemedicine technologies, including hardware, software and peripheral devices, along with their use in emergency and other clinical settings. Telemedicine comes in many forms, reflecting the complex ways health care is delivered. The earliest examples of telemedicine were simply phone calls between clinicians. Now, telemedicine encompasses live videoconferences involving the full spectrum of stakeholders in the health care continuum, a wide array of diagnostic devices, as well as an ever increasing number of patient-driven modalities. Lessons learned from the implementation of telemedicine technologies and a checklist of factors for clinicians and health care administrators to consider prior to deploying telehealth solutions are included at the end of the chapter.
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Paper, David J., James A. Rodger, and Parag C. Pendharkar. "A Case Study of the Military Utility of Telemedicine." In Developing Quality Complex Database Systems, 350–65. IGI Global, 2001. http://dx.doi.org/10.4018/978-1-878289-88-9.ch016.

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In order to meet the medical management challenges presented by increasing global crises, the U.S. military must find ways to more effectively manage manpower and time. In response, Joint Medical Operations –Telemedicine (JMO-T) has been developed by the Department of Defense (DOD) to collect and transmit near-real-time, far-forward medical data and to assess how this improved capability enhances medical management of the battlespace. JMO-T has been successful in resolving uncertain organizational and technological military deficiencies and in improving medical communications and information management. Deployable, mobile telemedicine teams are the centerpieces of JMO-T. These teams have the capability of inserting essential networking and communications capabilities into austere theaters and establishing an immediate means for enhancing health protection, collaborative planning, situational awareness and strategic decision-making. One objective of this chapter is to relate the rationale used by the DOD to determine the military utility of the Joint Medical Operations–Telemedicine Advanced Concept Technology Demonstration (JMO-T ACTD) or ACTD for short. ACTD is a JMO-T initiative developed for the purpose of improving joint medical planning capabilities, access and timeliness of medical care, and integration of medical situational awareness. The chapter discusses in detail the complexities involved in the ACTD initiative. A second objective of the chapter is to articulate the development of Critical Operational Issues (COIS) and Measures of Effectiveness (MOE) as methodologies for investigating the military utility of telemedicine.
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Morrone, Pietro, and Luigi Bennardo. "Teledermatology and Telemedicine." In Handbook of Research on Healthcare Standards, Policies, and Reform, 217–34. IGI Global, 2022. http://dx.doi.org/10.4018/978-1-7998-8868-0.ch013.

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Telemedicine is a new branch of medicine exploiting the new communication devices to expand medical services and consultation beyond physical limits. This new significant chapter in medicine will interest every medical area, taking advantage of digital devices that are becoming more complex, reducing the need for the patient's physical presence only to perform analysis or interventions. Teledermatology is a new expanding area in telemedicine, consisting of the ability to resolve skin-related health problems without the physical presence of the patients. Skin diseases represent a significant source of morbidity and a minor source of mortality worldwide. In this chapter, the authors analyze how telemedicine and teledermatology developed, their current use in medicine, and current studies and reviews already present in literature. Also, future possible prospects and developments of these techniques will be analyzed.
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Ryan, Jim, Barbara Doster, Sandra Daily, and Carmen Lewis. "A Balanced Perspective to Perioperative Process Management Aligned to Hospital Strategy." In E-Health and Telemedicine, 1119–39. IGI Global, 2016. http://dx.doi.org/10.4018/978-1-4666-8756-1.ch056.

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Dynamic technological activities of analysis, evaluation, and synthesis can highlight complex relationships within integrated processes to target improvement and ultimately yield improved processes. Likewise, the identification of existing process limitations, potential capabilities, and subsequent contextual understanding are contributing factors that yield measured improvement. Based on a 120-month longitudinal study of an academic medical center, this study investigates how integrated information systems and business analytics can improve perioperative efficiency and effectiveness across patient quality of care, stakeholder satisfaction, clinical operations, and financial cost effectiveness. This case study examines process management practices of balanced scorecard and dashboards to monitor and improve the perioperative process, aligned to overall hospital goals at strategic, tactical, and operational levels. The conclusion includes discussion of study implications and limitations.
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Gajanayake, Randike, Tony Sahama, and Renato Iannella. "The Role of Perceived Usefulness and Attitude on Electronic Health Record Acceptance." In E-Health and Telemedicine, 49–59. IGI Global, 2016. http://dx.doi.org/10.4018/978-1-4666-8756-1.ch003.

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Information and communications technologies are a significant component of the healthcare domain, and electronic health records play a major role in it. Therefore, it is important that they are accepted en masse by healthcare professionals. How healthcare professionals perceive the usefulness of electronic health records and their attitudes towards them have been shown to have significant effects on the overall acceptance in many healthcare systems around the world. This paper investigates the role of perceived usefulness and attitude on the intention to use electronic health records by future healthcare professionals using polynomial regression with response surface analysis. Results show that the relationships between these variables are more complex than predicted in prior research. The paper concludes that the properties of the above determinants must be further investigated to clearly understand: (i) their role in predicting the intention to use electronic health records; and (ii) in designing systems that are better adopted by healthcare professionals of the future.
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Conference papers on the topic "Telemedicine complex"

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Songqiang, Xiaoying Tang, and Weifeng Liu. "Telemedicine Center." In 2007 IEEE/ICME International Conference on Complex Medical Engineering. IEEE, 2007. http://dx.doi.org/10.1109/iccme.2007.4381755.

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Semenets, Valerii, Valeriia Chumak, Iryna Svyd, Oleg Zubkov, Oleksandr Vorgul, and Natalia Boiko. "DESIGNING THE STRUCTURE OF A GENERAL-PURPOSE TELEMEDICINE COMPLEX." In 2021 III International Scientific and Practical Conference Theoretical and Applied Aspects of Device Development on Microcontrollers and FPGAs. MC-ampFPGA-2021, 2021. http://dx.doi.org/10.35598/mcfpga.2021.016.

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Abstract Taking into account modern trends, the analysis of the construction principles of telemadic systems, networks and complexes is presented in the work. The general structure of providing telemedicine services is developed. Structures of realization of portable and mobile telemedicine complexes are offered. Infocommunication systems and networks for implementation in mobile telemedicine complexes are analyzed. The advantages of using the sensor mobile body area network of the IEEE 802.15.6 WBAN standard in mobile telemedicine complexes are justified. Keywords: telemedicine, telemedicine complex, medical services, device structure, microcontroller, sensor network, wireless sensor body area network.
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Popescu, Cornel. "Autonomous Systems for Telemedicine." In 2015 Ninth International Conference on Complex, Intelligent, and Software Intensive Systems (CISIS). IEEE, 2015. http://dx.doi.org/10.1109/cisis.2015.83.

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Ujan, Imran Anwar, Imdad Ali Ismaili, and Chatar Veer Suthar. "Telemedicine system for THAR (Sindh, Pakistan)." In 2012 ICME International Conference on Complex Medical Engineering (CME). IEEE, 2012. http://dx.doi.org/10.1109/iccme.2012.6275661.

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Yoneda, Tsuyoshi, Kazutaka Kani, Akio Tabuchi, Isao Hiyane, Kazumi Araki, Tetsuya Nakamura, and Koichi Hoshi. "Telemedicine system using 3 - D high definition image." In 2007 IEEE/ICME International Conference on Complex Medical Engineering. IEEE, 2007. http://dx.doi.org/10.1109/iccme.2007.4381916.

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Zheng, J. W., T. H. Wu, Y. Fan, Z. B. Zhang, and Y. Zhang. "Handheld Devices Make Real-time Telemedicine Possible and Affordable." In 2007 IEEE/ICME International Conference on Complex Medical Engineering. IEEE, 2007. http://dx.doi.org/10.1109/iccme.2007.4381735.

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Wang, Shuyi, and Fei Shang. "Constructing an Intelligent CSCW System in Telemedicine with IM." In 2007 IEEE/ICME International Conference on Complex Medical Engineering. IEEE, 2007. http://dx.doi.org/10.1109/iccme.2007.4381739.

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Wang, Dengwei, Yinghua Lu, Hongxin Zhang, Jinling Zhang, and Yunan Han. "Body Piconet for the Telemedicine System Based on Home Networks." In 2007 IEEE/ICME International Conference on Complex Medical Engineering. IEEE, 2007. http://dx.doi.org/10.1109/iccme.2007.4381934.

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Shaikh, Asadullah, Muniba Memon, Nasrullah Memon, and Muhammad Misbahuddin. "The Role of Service Oriented Architecture in Telemedicine Healthcare System." In 2009 International Conference on Complex, Intelligent and Software Intensive Systems (CISIS). IEEE, 2009. http://dx.doi.org/10.1109/cisis.2009.181.

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Buldakova, Tatyana, Darina Krivosheeva, and Sergey Suyatinov. "Hierarchical Model of the Network Interaction Representation in the Telemedicine System." In 2019 XXI International Conference Complex Systems: Control and Modeling Problems (CSCMP). IEEE, 2019. http://dx.doi.org/10.1109/cscmp45713.2019.8976743.

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