Healthcare Providers’ Perspective about the Use of Telemedicine in Egypt: A National Survey

Alboraie, Mohamed; Abdalgaber, Mohammad; Youssef, Naglaa; Moaz, Inas; Abdeen, Nermeen; Abosheaishaa, Hazem Maarouf; Shokry, Mina Tharwat; El-Raey, Fathiya; Asfour, Sabry Shaaban; Abdeldayem, Waleed A.; Hassan, Adel Ahmed; Mahran, Essam Eldeen M.o.; Tag-Adeen, Mohammed; Elshaarawy, Omar; Radwan, Mohamed Ibrahim; Altonbary, Ahmed; Fouad, Yasser

doi:https://doi.org/10.1155/2022/3811068

International Journal of Telemedicine and Applications

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Abstract Introduction Methods Results Discussion Data Availability Ethical Approval Conflicts of Interest Supplementary Materials References Copyright Related Articles

Research Article | Open Access

Volume 2022 | Article ID 3811068 | https://doi.org/10.1155/2022/3811068

Healthcare Providers’ Perspective about the Use of Telemedicine in Egypt: A National Survey

Mohamed Alboraie,¹Mohammad Abdalgaber,²Naglaa Youssef,^3,4Inas Moaz,⁵Nermeen Abdeen,⁶Hazem Maarouf Abosheaishaa,⁷Mina Tharwat Shokry,⁸Fathiya El-Raey,⁹Sabry Shaaban Asfour,¹⁰Waleed A. Abdeldayem,¹¹Adel Ahmed Hassan,¹²and Essam Eldeen M.o. Mahran¹³ et al.

Academic Editor: Manolis Tsiknakis

Received27 Jun 2021

Revised02 Jan 2022

Accepted16 Feb 2022

Published12 Mar 2022

Abstract

Incorporation of telemedicine in general clinical practice is becoming a compelling need nowadays in the context of COVID-19 pandemic and its consequent burdens on the healthcare systems. Though telemedicine appears to be appealing and carries a lot of advantages, yet it is still faced by many challenges and barriers especially in developing countries. Our aim was to explore the impression of healthcare providers about telemedicine and its applicability in clinical practice in Egypt. A cross-sectional study was conducted among healthcare providers from different Egyptian governorates through a web-based survey. The survey gathered information about demographic, socioeconomic features of the enrolled healthcare participants; their knowledge, previous experience, impression about telemedicine, advantages of telemedicine over traditional medical services, barriers that may face telemedicine, and additional services that can be provided by telemedicine were also explored. Our study enrolled 642 healthcare providers from all over Egypt, 43.77% were females, of which 55.5% were physicians, 27.3% were nurses, 6.1% were technicians, 7.6% were administrative clerks, and 3.6% were medical directors. Sixty-four percent of participants reported that they have never used telemedicine. Smartphones were the most commonly used mean in the group who used telemedicine (65%), and smartphone applications were the favorable telemedicine service for about 50% of participants. Participants assumed that the use of telemedicine might not have a negative effect on the doctor-patient relationship but raised some concerns regarding the privacy and security of patients’ data. Despite the fact that telemedicine appears to be appealing and widely accepted by healthcare providers, yet still, its implementation is confronted by some obstacles. Precise organizational guidelines need to be developed to clearly figure out the exact role of each healthcare provider to minimize their doubtfulness about telemedicine and to facilitate its adoption.

1. Introduction

Telemedicine refers to providing different clinical services to patients at a distance as defined by the World Health Organization (WHO). Historically, it has been dated to the 19th century during the civil war where soldiers used to communicate with their doctors via telegraphs and phones [1]. With the recent advancements and the wide availability and utilization of information computer technologies (ICTs), telemedicine has witnessed great breakthroughs and developments, rapidly creating a new environment for healthcare service and delivery [2]. Replacement of the traditional face to face communication methods with the computer-based ones, hand in hand with the fast decline in the costs of ICTs, has empowered different healthcare institutions to adopt novel and structured methods of presenting care to patients. Moreover, the accessibility and popularity of the Internet nowadays has hastened the tempo of ICT progress, thereby broadening the horizon of telemedicine to include different platforms and online applications (e.g., e-mail messages, video call consultations, and online conferences) as well as interactive media facilities such as digital imaging and videos [3]. There are two main forms of telemedicine sorted according to the timing of data transmission and interactions between the involved personnel; it may be between two doctors or between a doctor and a patient [2]. The first form is named asynchronous telemedicine, which involves the exchange of prerecorded information between two or more persons present at different times for example an email or a smartphone application messages. This is in contrast to real-time or synchronous telemedicine which necessitates the simultaneous presence of the two involved persons at the same time for concurrent data exchange as in case of video calls [4]. In both synchronous and asynchronous telemedicine, relevant data can be exchanged via different forms, such as text message, audio notes, videos, or photos. These two basic telemedicine forms have been applied successfully in many domains and in relation to diverse clinical settings such as teleuroloy, telepsychiatry, telepathology, teledermatology, and teleradiology [5–7]. Incorporation of telemedicine in general clinical practice is becoming a compelling need nowadays in the context of COVID-19 pandemic, and its consequent burdens on the healthcare systems, WHO, and Center of Disease Control and Prevention (CDC) recommend the utilization of telemedicine for patient monitoring, triaging, consultations, and follow-up to minimize the undue pressures on the different healthcare facilities, saving times and efforts of both doctors and patient as well as implementing the recommended social distancing to face this pandemic [6]. Though telemedicine appears to be appealing and carries a lot of advantages, yet it is still faced by many challenges and barriers especially in developing countries, such as the lack of infrastructures in most of healthcare institutions, the deficient awareness and skills of many people in using technology, the geographical and cultural barriers especially in rural areas and the high costs of implementing such services in all hospitals [8]. So, we conducted this study to assess the usefulness of telemedicine application and the different barriers hindering its utilization in our community.

2. Methods

A cross-sectional study using a web-based survey was conducted on participants from different Egyptian healthcare facilities. Participants included physicians, nurses, technicians, administrative clerks, and hospital managers. The preparation of the present manuscript run in compliance with the recommendations of the Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement; all procedures were done after ethical approval from participating centers. An Arabic survey was designed to evaluate experience of health system staff about telemedicine in their clinical practice. Corresponding participants in the study distributed the survey to at least 40 healthcare workers in their institutes () all over the 27 governorates of Egypt (), and the survey was filled in an individual manner after signing an informed consent to participate in the study. The survey was composed of two sections with multiple choice questions; Section 1 describes the demographic and socioeconomic features of the enrolled healthcare participants. Section 2 collected data about knowledge of telemedicine by healthcare providers. This section was divided into 4 parts: The first part collected data about previous experience of telemedicine services in clinical practice, the most preferable technological devices and applications to perform telemedicine service. The second part collected data about impression of healthcare workers of telemedicine services over the traditional medical services. This part included 4 domains: The first and second domains assessed advantages of telemedicine services, and the third domain assessed disadvantages of telemedicine services. Each question of the first, second, and third domains was answered by a 5-grade scale of strongly disagree, disagree, equivocal, agree, and strongly agree. The fourth domain screened the participants’ opinion about preference of telemedicine services over the traditional medical services using a 10-grade scale of not preferred at all up to mostly preferred. The third part shows screened barriers that may face telemedicine, and the fourth part screened the participants’ opinion in the additional services that can be provided for healthcare providers by telemedicine. All items in the third and fourth parts were answered be model of a 5-grade scale of strongly disagree, disagree, equivocal, agree, and strongly agree. Most of survey questions were optional to allow participant to skip questions which they do not want to answer. Before implementation of the study, a preliminary pilot test for different sections of the survey was done among twenty potential participants. This was performed to check validity and clarity of the structured questions as well as to estimate the time needed to complete the survey. Accordingly, some questions about attitude and practice were restructured. Results of the pilot study were excluded from data analysis. All participants signed an informed consent before answering the survey.

2.1. Statistical Analysis

2.1.1. Sample Size Calculation

We used the below equation to calculate the sample size for assuming a confidence interval level of 95%. The total sample size was determined to be 642 participants.

Data were entered and validated using Microsoft Excel 2019, while the statistical analysis was done using the statistical package for the social sciences (SPSS, Windows version 22). All continuous quantitative data were presented in mean and standard deviation (SD), while categorical data were presented in frequencies and percentages. We used Student’s -test or ANOVA test to compare means and Chi-square test to compare frequencies. A value of less than 0.05 was considered significant. Responses were collected in an online platform, and data were be analyzed to reveal the knowledge, applicability, and barriers of telemedicine in Egypt.

3. Results

Our survey included 642 healthcare providers from all over Egypt, 43.77% were females, with mean age years; their geographic distribution was 7.5% from frontiers governorates, 34.9% from urban governorates, 33.5% from rural governorates, and 24.1% from Upper Egypt governorates. Out of the 642 participants, 55.5% were physicians, 27.3% were nurses, 6.1% were technicians, 7.6% were administrative clerks, and 3.6% were medical directors. They were working in teaching hospitals or institutes (48.3%), general hospitals (29.5%), or private healthcare facilities (22.2%). Their mean duration of experience was years. Most of participating physicians (68%) specialized in general medicine or medical subspecialty, 17% were surgeons, 8% were specialized in laboratory medicine or radiology, and 7% were having other specialties. A total of 408 participants (64%) never used telemedicine in their practice while 234 (36%) used it. Older age and male gender were higher in the group who used telemedicine ( vs. and 52% vs. 64%); other variables including workplace and years of experience were statistically insignificant. Smartphones were used by at least 185 participants (79.1%) in the group who used telemedicine and smartphone applications were the favorable telemedicine service for 117 participants (50%) (Table 1). Regarding the impressions of healthcare workers about telemedicine necessity, most of participants (85.8%) were agreed to strongly agreed on its value in enhancing the contact between patients and their healthcare providers in emergency situations, while decreasing waiting lists and offering health services for remote deprived areas were agreed by 81.6% and 80.7% of the participants, respectively. About 89% of participants () emphasized the need for clear policies and procedures for carrying out remote health service. Advantages and disadvantages of telemedicine according to opinion of participants are presented in Tables 2 and 3, respectively. Participants’ opinion in the additional services that can be provided for physicians and nurses by telemedicine are presented in Figures 1 and 2, respectively. Table 4 shows comparison of knowledge about remote health services among all participants () according to their positions which include doctors (), nurses (), technicians (), administrative (), and directors (). Our data showed a statistically significant difference in telemedicine usage rates between the different groups, as directors were the highest group using telemedicine services (65.2%) while nurses were the lowest group (20.0%). There was a significant difference between groups regarding the technology devices used for remote calls (), at least one-third of directors reported they used all technology devices including mobiles, tablets, laptops, and computers. This percentage was higher comparing to other groups. However, most of the groups agreed that they use mobiles for their remote calls. Certain barriers that may face telemedicine such as availability of trained personnel and devices, knowing the basic technology and presence of technical support team were also screened in our study and presented in Table 5.

4. Discussion

It is clear that evolving technological achievements affect all levels of healthcare. Given the complexity of today’s healthcare circumstances, successful telehealth adoption presents multidimensional and interprofessional challenges, depending mainly on human-related, social, and institutional factors [9]. In order to augment the utilization of these services, it was important to properly evaluate the situation based on user’s opinions. So, we conducted this study aimed at assessing the knowledge, applicability, and barriers of telemedicine implementation among healthcare workers from different healthcare sectors and different Egyptian governorates [10]. In our study, most of the participants stated that they never used telemedicine before and this can pose great obstacles in the way of telemedicine implementation in general practice; consequently, different training courses should be performed to train HCWs on various telemedicine modalities. Our results were in accordance to the study conducted by Tom-Aba et al. during Ebola epidemic in 2015, which stated that doctors possess little knowledge concerning telemedicine [11]. However, this was in opposition to the study conducted by Woodward et al. which reported a positive doctor’s attitude towards telemedicine utilization; the discrepancies in the results may be attributed to sociocultural effects owing to the heterogeneity of the study groups in terms of profession and residency [12]. The attitude of healthcare workers is the ultimate prerequisite for the successful incorporation of telemedicine services in healthcare facility systems, our study group impression about the importance of telemedicine implementation was marvelous, and they found it an excellent potentially cheap tool of delivering services to remote deprived areas; besides, it can save a lot of money, time, and efforts. And this was in agreement with the study conducted by Wernhart et al. in which the healthcare employees were very optimistic about the role of telemedicine in reduction of healthcare costs as well as data privacy and security [13]. On exploring the most prevailing mean of telemedicine application, participants indicated smartphone applications were the most convenient ones and were used by around 50% of the study group. Similarly, in a study conducted by Albarrak et al., 72% of participants prefer to interact via email and social media [14]. A closer look on the shortcomings of telemedicine in our study, telemedicine was not assumed to have a negative effect on the doctor patient relationship, and this was in contrary with what was proposed by Timmermans and Almeling that the advent of modern health technologies might badly affect the social bonds between doctors and patients [15]. This could be explained by the time gap between our study and Timmermans and Almeling study. Since 2009, health technologies and online communications have markedly improved and practiced in many healthcare facilities allowing more close communications between patients and their doctors. However, participants predicted that the implementation of telemedicine might reduce the quality of medical services offered to patients through increasing the probabilities of medical mistakes and lastly, the fear of inappropriate data protection might negatively influence the application of telemedicine as patient’s privacy could be highly endangered. This result was in line with the Delphi survey conducted by Austrian health experts and other publications which stated that data privacy was the most serious problem encountered in telemedicine implementation [16].

In conclusion, despite the fact that telemedicine appears to be appealing and widely accepted by healthcare workers, yet, still its implementation is confronted by major obstacles including absence of trained personnel and devices, ignorance about the basic technology, lack of technical support, privacy and safety concerns, and legal and ethical issues. Thus, precise organizational guidelines have to clearly figure out the exact role and responsibilities of each healthcare worker to minimize the doubtfulness about telemedicine in order to facilitate its adoption [17].

Data Availability

The data used to support the findings of this study are included within the article (tables, figures, and supplementary table (available here).

Ethical Approval

The study was approved by the National Liver Institute institutional review board (IRB0003413) approval number (00208/2020).

Conflicts of Interest

The authors declare that they have no conflicts of interest.

Supplementary Materials

Supplementary Table: impressions of healthcare workers about telemedicine. (Supplementary Materials)

References

WHO, Health telematics policy in support of WHO’s health-for-all strategy for global health development. Report of the WHO group consultation on health telematics, WHO, 1997.
J. Craig and V. Petterson, “Introduction to the practice of telemedicine,” Journal of Telemedicine and Telecare, vol. 11, no. 1, pp. 3–9, 2005.
View at: Publisher Site | Google Scholar
R. Currell, C. Urquhart, P. Wainwright, and R. Lewis, “Telemedicine versus face to face patient care: effects on professional practice and health care outcomes,” Cochrane Database of Systematic Reviews, vol. 2, 2000.
View at: Publisher Site | Google Scholar
T. F. Dwyer, “Telepsychiatry: psychiatric consultation by interactive television,” American Journal of Psychiatry, vol. 130, no. 8, pp. 865–869, 1973.
View at: Publisher Site | Google Scholar
E. Corruble, “A viewpoint from Paris on the COVID-19 pandemic: a necessary turn to telepsychiatry,” The Journal of Clinical Psychiatry, vol. 81, no. 3, 2020.
View at: Publisher Site | Google Scholar
L. G. Luciani, D. Mattevi, T. Cai, G. Giusti, S. Proietti, and G. Malossini, “Teleurology in the time of Covid-19 pandemic: here to stay?” Urology, vol. 140, pp. 4–6, 2020.
View at: Publisher Site | Google Scholar
R. Wootton, J. Menzies, and P. Ferguson, “Follow-up data for patients managed by store and forward telemedicine in developing countries,” Journal of Telemedicine and Telecare, vol. 15, no. 2, pp. 83–88, 2009.
View at: Publisher Site | Google Scholar
B. Jacobs, P. Ir, M. Bigdeli, P. L. Annear, and W. Van Damme, “Addressing access barriers to health services: an analytical framework for selecting appropriate interventions in low-income Asian countries,” Health Policy and Planning, vol. 27, no. 4, pp. 288–300, 2012.
View at: Publisher Site | Google Scholar
P. Bissell, C. R. May, and P. R. Noyce, “From compliance to concordance: barriers to accomplishing a re-framed model of health care interactions,” Social Science & Medicine, vol. 58, no. 4, pp. 851–862, 2004.
View at: Publisher Site | Google Scholar
R. Bashshur, C. R. Doarn, J. M. Frenk, J. C. Kvedar, and J. O. Woolliscroft, Telemedicine and the COVID-19 pandemic, lessons for the future, Mary Ann Liebert, Inc., 140 Huguenot Street, 3rd Floor New, 2020.
D. Tom-Aba, P. M. Nguku, C. C. Arinze, and G. Krause, “Assessing the concepts and designs of 58 mobile apps for the management of the 2014-2015 West Africa Ebola outbreak: systematic review,” JMIR Public Health and Surveillance, vol. 4, no. 4, article e68, 2018.
View at: Publisher Site | Google Scholar
A. Woodward, M. Fyfe, J. Handuleh et al., “Diffusion of e-health innovations in ‘post-conflict’ settings: a qualitative study on the personal experiences of health workers,” Human Resources for Health, vol. 12, no. 1, pp. 1–10, 2014.
View at: Publisher Site | Google Scholar
A. Wernhart, S. Gahbauer, and D. Haluza, “eHealth and telemedicine: practices and beliefs among healthcare professionals and medical students at a medical university,” PLoS One, vol. 14, no. 2, article e0213067, 2019.
View at: Publisher Site | Google Scholar
A. I. Albarrak, R. Mohammed, N. Almarshoud et al., “Assessment of physician’s knowledge, perception and willingness of telemedicine in Riyadh region, Saudi Arabia,” Journal of Infection and Public Health, vol. 14, no. 1, pp. 97–102, 2019.
View at: Publisher Site | Google Scholar
S. Timmermans and R. Almeling, “Objectification, standardization, and commodification in health care: a conceptual readjustment,” Social Science & Medicine, vol. 69, no. 1, pp. 21–27, 2009.
View at: Publisher Site | Google Scholar
D. Jungwirth and D. Haluza, “Information and communication technology and the future of healthcare: results of a multi-scenario Delphi survey,” Health Informatics Journal, vol. 25, no. 1, pp. 161–173, 2019.
View at: Publisher Site | Google Scholar
N. R. Hardiker and M. J. Grant, “Factors that influence public engagement with eHealth: a literature review,” International Journal of Medical Informatics, vol. 80, no. 1, pp. 1–12, 2011.
View at: Publisher Site | Google Scholar

Copyright

Copyright © 2022 Mohamed Alboraie et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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