Abstract
Background
First implemented in the 1950s, telemedicine is a rapidly evolving tool for healthcare systems around the world. Technological advancement and increasing access to information technology have made the implementation of telemedicine more feasible. Recent provisions by healthcare governing bodies have increased reimbursement for and the use of telemedicine globally. We have done a literature review to find out the pros and cons of adopting telemedicine.
Main body
Telemedicine is found to offer many benefits to conventional, in-person healthcare encounters for both patients and providers: decreased travel cost and time, decreased time spent in waiting rooms, decreased risk of transmission of communicable diseases, decreased overall encounter time consumption, increased convenience, and more. Telemedicine also facilitates seamless transitions of care between healthcare teams, connects isolated people groups with healthcare providers, and helps address regional healthcare infrastructure and provider shortages by connecting patients with healthcare teams from any location. Drawbacks specific to telemedicine include the lack of accessibility and advancement of imaging technology required to replace in-person physical examinations, nonuniversal access to the required devices and networks across the general patient population, and the risk of technical difficulties such as network connection disruptions.
Conclusion
Telemedicine helps bridging the gap of distance by connecting patients in remote locations with the physicians. This has also become vital in the time pandemic.
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True to its roots in “tele,” the Greek word for distance, the WHO defines telemedicine as “the delivery of healthcare services across distance by all healthcare professionals using information and communication technologies for the exchange of valid information, for the diagnosis, treatment, and prevention of disease and injuries” [1]. Telemedicine was first referenced in 1950 after radiographs were transmitted 24 miles from West Chester to Philadelphia via a teleradiology system [2]. In 1960, physicians from the National Aeronautics and Space Administration used similar technology to remotely monitor the vital signs of astronauts during space-flight programs [3]. Video communication was first used in medicine by the University of Nebraska College of Medicine to care for psychiatric patients in 1959 [4]. In 1968, technicians at Massachusetts General Hospital created a video link between their hospital and an airport using microwaves [5].
Main text
Recent significant advancements in the technology of networks and interfaces have advanced the role of telemedicine [6]. Within decades, telemedicine gained popularity and is now accepted as an established part of everyday healthcare practice. In the United Nations, 76% of hospitals connect with patients using forms of telemedicine. Radiology, emergency medicine, pathology, and psychiatry are reported to use the highest proportions of telemedicine for encounters: 39.5%, 38.9%, 30.4%, and 27.8%, respectively [7]. Telemedicine is also established in the healthcare practices of cardiology, dermatology, oncology, and pre- and postoperative surgical care [8, 9]. Even prior to the COVID-19 global pandemic, telemedicine was widely used in medical education and training [10].
Telemedicine’s strengths lie in connecting parties over great distances. Consequently, primary care providers in rural regions are twice as likely to use telemedicine compared to primary care providers in urban regions [11]. Patient engagement via telemedicine is influenced by various demographic factors such as age, gender, socioeconomic status, technological literacy, ethnicity, and preferred language. Amongst patient populations that do have access to telemedicine, its convenience and cost-effectiveness have led to it being more widely accepted by patients than healthcare providers [12].
Patient care through telemedicine is achieved nowadays through several modes. Ranging from limited mobile text messages, video conferencing, phones to various websites, apps, gaming programs, robots, and virtual reality approach of delivery [13], it has resulted in better and effective healthcare access [14, 15].
Funding for pilot programs of telemedicine was initially provided by government entities, including NASA, Centers for Medicare and Medicaid Services, and the Indian Health Service [16]. However, due to rapid advances in technology and increased demand, telehealth reimbursement policies quickly became insufficient. The strict geographic coverage programs and payment restrictions of both private and public health insurers limited telehealth adoption by healthcare providers [17]. To address the slow establishment of telemedicine in the USA, Medicare, Medicaid, commercial health insurance companies, and certain government-funded programs began expanding their policies to make it easier for healthcare providers to implement telemedicine. In 2018, Medicaid broadened access to telemedicine by approving it for reimbursement for substance use disorder services in California, prohibiting the requirement of a physician’s physical presence with a patient for reimbursement in Kentucky, and enabling reimbursement for teledentistry in Colorado [18].
In Japan, providers use telemedicine to complement in-person encounters and follow up on in-person encounters in South Korea. Across the European Union, telemedicine is used to monitor patients with chronic conditions. In the USA, telemedicine is now widely adopted by healthcare providers and is even used to determine prescriptions and treatments [19].
Pros of telemedicine
Telemedicine has already been incorporated into healthcare by various health systems and groups [20, 21]. Electronic medical records further facilitate secure, smooth transfers of patients’ protected health information [22]. Telemedicine also allows coordination between primary care physicians and specialists, improving health outcomes by ensuring a smooth transfer of care that reduces the wait for feedback, unnecessary patient travel time, and unnecessary in-person examinations for referrals [23, 24]. The remote administration of healthcare is especially effective for follow-up care of patients that were already examined in-person, patients with conditions that follow clear clinical illness scripts and do not require laboratory diagnostics or physical examinations, and patients who may have communicable diseases that would put providers and other patients at risk if seen in-person [25].
Telemedicine makes it possible for team members to contribute from any place on Earth with the necessary equipment and network. In this way, teams can bridge the gaps between urban and rural medicine and build teams that represent the populations they are serving [26]. When social distancing is necessitated for health and safety, such as during a global pandemic, the use of telemedicine significantly increases [27]. In addition to reducing the risk of infection spread through physical contact, telemedicine allows healthcare providers to continue to work and serve their community [28].
When engaging in telemedicine instead of in-person appointments, patients often experience decreased wait times, decreased to no travel time, decreased cost due to less use of transportation, and decreased cost due to less use of healthcare facilities [29, 30]. Telemedicine also enables healthcare providers to reach patients in isolated communities, including those with developmental or physical disabilities, the elderly, incarcerated patients, and those living on the cultural or geographical margins [31].
The benefits of telemedicine extend to a range of specialties and can also easily be consulted with other healthcare teams via remote technology to deliver quick, cohesive care to their patients [32,33,34,35]. School nurses can now use telemedicine to network remotely with healthcare providers to aid in the acute, complex care of students without leaving the school. This both reduces the disruption of students’ studies and gives nurses more freedom to care for multiple students. This ultimately reduces educational, time, and fiscal costs to students and their families [36]. Dermatologists can evaluate patients suffering from eczema, pressure injuries, psoriasis, and other conditions depending on the equipment available to both the patient and provider. In this way, remote correspondence can increase patient privacy and reduce stress related to public interactions [37]. Healthcare providers have been motivated to address patient access and their financial sustainability by changing how they give care as a result of the coronavirus disease 2019 (COVID-19) pandemic and the ensuing orders for social distancing [38]. Only 11.8% of family doctors and pediatricians in the USA employed telemedicine in their practices in 2016 (Kane C. K.). Only 9% of primary care doctors were employed by practices that did not use telemedicine after the COVID-19 pandemic had been going on for 2 months [39]. Due to the COVID-19 pandemic, telemedicine became the sole way to provide crucial developmental follow-up care to this group on a temporary basis.
As a component of the “Digital India” program, the Indian government launched its telemedicine platform, eSanjeevani, on August 9, 2020. With the advent of the COVID-19 pandemic, healthcare providers have leveraged video conferencing technology to diagnose and treat patients residing in remote locations, utilizing the eSanjeevani service. At present, the platform offers two distinct telemedicine services: eSanjeevani, which facilitates communication between doctors, and eSanjeevani OPD, which enables patients to connect with doctors remotely [40].
An in-person medical examination is a necessary cornerstone of healthcare, and telemedicine can improve its delivery. Telemedicine can be used to triage patients and allows patients with less life-threatening conditions to wait in the comfort of their homes rather than in a crowded emergency department waiting room [41]. Advances in telemedicine also allow patients to track their vital signs, medication adherence, and more from the comfort of their homes. This data can be quickly uploaded to electronic health records and sent to providers [42,43,44].
This virtual bridge also sets the stage for future involvement of artificial intelligence (AI) algorithms. AI will likely expand the role of telemedicine through its pattern recognition and monitoring capabilities, alerting providers when notable trends in their patients’ home-collected data arise [22]. In addition to advancing the delivery of healthcare, telemedicine also plays a role in ancillary divisions of the healthcare sector, like medical education, employee training, provider recruitment, administrative meetings, research, and more [22, 45].
Cons of telemedicine
While telemedicine offers many benefits to the healthcare field, it cannot deliver the same level of care as many in-person healthcare encounters and does not facilitate thorough physical examinations and may lead to missed diagnoses. Remote visits will also likely not provide the same social and emotional connections between patients and providers that in-person visits offer [46]. Consequently, in their code of ethics updated in 2020, the American Medical Association emphasized that telemedicine should not compromise patient welfare or interfere with the delivery of quality healthcare or follow-up [47].
The adoption of telemedicine depends on physician’s acceptance of new systems and remote modes of healthcare delivery. Providers and ancillary staff will have to receive training prior to engaging in telemedicine. New equipment may need to be purchased, installed, and maintained. Telemedicine programs require full-time staff to manage and troubleshoot equipment and systems. All these processes may be expensive and time-consuming. Remote medicine also relies on patients having the devices and network access necessary to successfully participate in a telehealth encounter. As with any information technology sector, telemedicine is also likely to face intermittent delays due to technological difficulties such as poor network connections, equipment failures, and more [22, 48].
Despite the 2009 Health Information Technology for Economic and Clinical Health (HITECH) Act permitting the transfer of protected health information via electronic systems, there is significant risk of privacy breaches. Protected health information (PHI) transferred during telemedicine encounters would be at risk of interception and theft, and proper security could prove costly [49]. Reimbursement for telemedicine will also prove to be a costly process, as regulations vary from state to state in the USA. Currently, Medicare is likely to cover teleconsultations for patients located in areas with healthcare infrastructure and provider shortages. However, the interplay between state’s laws, individual’s own insurance plans, and clinicians’ fee schedules may require more staff hours to navigate [50]. A provider’s ability to conduct a successful telemedicine encounter as compared to conventional medicine may be hindered by several challenges, such as frequent technological connectivity issues experienced by both the provider and family, which can result in multiple reconnections and hence delay in the follow-up in certain cases [51].
Although India has made significant strides in the realm of telecommunication over the past two decades, the full potential of telemedicine is contingent upon the availability of robust infrastructure. Unfortunately, a substantial number of individuals residing in rural areas are still deprived of the advantages of the digital revolution, hindering the widespread adoption and success of telemedicine [52]. The significant economic, social, gender, and geographic inequalities in India present obstacles to the widespread adoption of telemedicine throughout the country. The COVID-19 pandemic led to a substantial increase in Internet usage, resulting in a surge in data consumption within households, placing additional pressure on limited resources such as insufficient optical fiber infrastructure, which is fundamental to providing Internet services. Unfortunately, Internet speed in India is sluggish, with the country ranking 131st in mobile Internet speed and 65th in fixed broadband speed, compounding the issue [53].
Conclusion
Telemedicine is rapidly emerging as a useful tool for healthcare teams around the world. It offers the ability to communicate with isolated patient populations across significant geographical distances, helps address regional healthcare infrastructure and provider shortages, and saves all parties, including the patient, time, and money. In emergency situations, telemedicine can connect patients with teams of providers and specialists and expedite care. Telemedicine shows promise as a triage method that could reduce wait times and patient volumes in emergency departments. It also could help connect school nurses with healthcare providers, and both expedite the delivery of care to students and reduce time away from school. While there are many benefits to telemedicine, it is not without drawbacks. Telemedicine currently lacks the technology to effectively replace the physical examination that is core to healthcare encounters. Therefore, remote healthcare will likely continue as a supplement to in-person encounters until further technological advancements are made.
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References
Ryu S (2012) Telemedicine: opportunities and developments in member states: report on the second global survey on eHealth 2009 (global observatory for eHealth series, volume 2). Healthcare Inform Res 18(2):153–155
Field MJ. Institute of Medicine (US) Committee on Evaluating Clinical Applications of Telemedicine, Field MJ, eds. Telemedicine: a Guide to Assessing Telecommunications in Health Care. Washington (DC): National Academies Press (US); 1996
Zundel KM (1996) Telemedicine: history, applications, and impact on librarianship. Bull Med Libr Assoc 84(1):71–79
Kim YS (2004) Telemedicine in the USA with focus on clinical applications and issues. Yonsei Med J 45(5):761–775. https://doi.org/10.3349/ymj.2004.45.5.761
Murphy RL Jr, Bird KT. Telediagnosis: a new community health resource. Observations on the feasibility of telediagnosis based on 1000 patient transactions. Am J Public Health. 1974;64(2):113–119. https://doi.org/10.2105/ajph.64.2.113
Armstrong DG, Giovinco N, Mills JL, Rogers LC. FaceTime for physicians: using real time mobile phone-based videoconferencing to augment diagnosis and care in telemedicine. Eplasty. 2011;11:e23. Published 2011 May 3
Kane CK, Gillis K (2018) The use of telemedicine by physicians: still the exception rather than the rule. Health Aff (Millwood) 37(12):1923–1930. https://doi.org/10.1377/hlthaff.2018.05077
Lin O, Rudomina D, Feratovic R, Sirintrapun SJ (2019) Rapid on-site evaluation using telecytology: a major cancer center experience. Diagn Cytopathol 47(1):15–19. https://doi.org/10.1002/dc.23925
Williams AM, Bhatti UF, Alam HB, Nikolian VC. The role of telemedicine in postoperative care. Mhealth. 2018;4:11. https://doi.org/10.21037/mhealth.2018.04.03. Published 2018 May 2
Kuhn S, Jungmann F (2018) Medizin im digitalen Zeitalter : Telemedizin in der studentischen Lehre [Medicine in the digital age : Telemedicine in medical school education]. Radiologe 58(3):236–240. https://doi.org/10.1007/s00117-017-0351-7
Jetty A, Moore MA, Coffman M, Petterson S, Bazemore A (2018) Rural family physicians are twice as likely to use telehealth as urban family physicians. Telemed J E Health 24(4):268–276. https://doi.org/10.1089/tmj.2017.0161
Bashshur RL, Howell JD, Krupinski EA, Harms KM, Bashshur N, Doarn CR (2016) The empirical foundations of telemedicine interventions in primary care. Telemed J E Health 22(5):342–375. https://doi.org/10.1089/tmj.2016.0045
Liverpool S, Mota CP, Sales CMD, et al. Engaging children and young people in digital mental health interventions: systematic review of modes of delivery, facilitators, and barriers. J Med Internet Res. 2020;22(6):e16317. https://doi.org/10.2196/16317. Published 2020 Jun 23
Gross IT, Whitfill T, Redmond B et al (2020) Comparison of two telemedicine delivery modes for neonatal resuscitation support: a simulation-based randomized trial. Neonatology 117(2):159–166. https://doi.org/10.1159/000504853
Brørs G, Pettersen TR, Hansen TB, et al. Modes of e-Health delivery in secondary prevention programmes for patients with coronary artery disease: a systematic review. BMC Health Serv Res. 2019;19(1):364. https://doi.org/10.1186/s12913-019-4106-1. Published 2019 Jun 10
Nesbitt T. Board on Health Care Services; Institute of Medicine. The role of telehealth in an evolving health care environment: workshop summary. Washington (DC): National Academies Press (US); 2012;3
Bajowala SS, Milosch J, Bansal C. Telemedicine pays: billing and coding update. Curr Allergy Asthma Rep. 2020;20(10):60. https://doi.org/10.1007/s11882-020-00956-y. Published 2020 Jul 27
Hyder MA, Razzak J. Telemedicine in the United States: an introduction for students and residents. J Med Internet Res. 2020;22(11):e20839. https://doi.org/10.2196/20839. Published 2020 Nov 24
Oh JY, Park YT, Jo EC, Kim SM (2015) Current status and progress of telemedicine in Korea and other countries. Healthc Inform Res 21(4):239–243. https://doi.org/10.4258/hir.2015.21.4.239
Majerowicz A, Tracy S. Telemedicine. Bridging gaps in healthcare delivery. J AHIMA. 2010;81(5):52–58
Barbosa W, Zhou K, Waddell E, Myers T, Dorsey ER (2021) Improving access to care: telemedicine across medical domains. Annu Rev Public Health 42:463–481. https://doi.org/10.1146/annurev-publhealth-090519-093711
Haleem A, Javaid M, Singh RP, Suman R. Telemedicine for healthcare: capabilities, features, barriers, and applications. Sens Int. 2021;2:100117. https://doi.org/10.1016/j.sintl.2021.100117
Stipa G, Gabbrielli F, Rabbito C et al (2021) The Italian technical/administrative recommendations for telemedicine in clinical neurophysiology. Neurol Sci 42(5):1923–1931. https://doi.org/10.1007/s10072-020-04732-8
Bokolo Anthony Jnr. Use of telemedicine and virtual care for remote treatment in response to COVID-19 pandemic. J Med Syst. 2020;44(7):132. https://doi.org/10.1007/s10916-020-01596-5. Published 2020 Jun 15
Barbash IJ (2020) Connecting the Docs: telemedicine support during in-hospital cardiac arrest resuscitation. Ann Am Thorac Soc 17(3):278–279. https://doi.org/10.1513/AnnalsATS.201912-884ED
Siddiqui J (2020) Telemedicine-based infectious diseases: outcomes and impact. Clin Infect Dis 70(5):771–772. https://doi.org/10.1093/cid/ciz298
Ramgobin D, Vo M, Golamari R, Jain R, Jain R. Congestive heart failure clinics and telemedicine: the key to reducing hospital readmissions in the United States [published online ahead of print, 2021 Jul 26]. Cardiol J. 2021. https://doi.org/10.5603/CJ.a2021.0073
Scalvini S, Vitacca M, Paletta L, Giordano A, Balbi B (2004) Telemedicine: a new frontier for effective healthcare services. Monaldi Arch Chest Dis 61(4):226–233. https://doi.org/10.4081/monaldi.2004.686
O'Shea J, R. Berger, C. Samra, D. Van Durme, Telemedicine in education: bridging the gap, Educ. Health 28 (1) (2015 Jan 1) 64. https://doi.org/10.4103/1357-6283.161897
Le LB, Rahal HK, Viramontes MR, Meneses KG, Dong TS, Saab S (2019) Patient satisfaction and healthcare utilization using telemedicine in liver transplant recipients. Dig Dis Sci 64(5):1150–1157. https://doi.org/10.1007/s10620-018-5397-5
Luciano E, Mahmood MA, Mansouri RP (2020) Telemedicine adoption issues in the United States and Brazil: perception of healthcare professionals. Health Informatics J 26(4):2344–2361. https://doi.org/10.1177/1460458220902957
Jampani ND, Nutalapati R, Dontula BS, Boyapati R (2011) Applications of teledentistry: a literature review and update. J Int Soc Prev Community Dent 1(2):37–44. https://doi.org/10.4103/2231-0762.97695
Chen JW, Hobdell MH, Dunn K, Johnson KA, Zhang J (2003) Teledentistry and its use in dental education. J Am Dent Assoc 134(3):342–346. https://doi.org/10.14219/jada.archive.2003.0164
Mariño R, Ghanim A (2013) Teledentistry: a systematic review of the literature. J Telemed Telecare 19(4):179–183. https://doi.org/10.1177/1357633x13479704
Daniel SJ, Kumar S (2014) Teledentistry: a key component in access to care. J Evid Based Dent Pract 14(Suppl):201–208. https://doi.org/10.1016/j.jebdp.2014.02.008
Chellaiyan VG, Nirupama AY, Taneja N (2019) Telemedicine in India: where do we stand? J Family Med Prim Care 8(6):1872–1876. https://doi.org/10.4103/jfmpc.jfmpc_264_19
O’Connor DM, Jew OS, Perman MJ, Castelo-Soccio LA, Winston FK, McMahon PJ (2017) Diagnostic accuracy of pediatric teledermatology using parent-submitted photographs: a randomized clinical trial. JAMA Dermatol 153(12):1243–1248. https://doi.org/10.1001/jamadermatol.2017.4280
North S (2020) Telemedicine in the time of COVID and beyond. J Adolesc Health 67(2):145–146. https://doi.org/10.1016/j.jadohealth.2020.05.024
Quick COVID-19 primary care survey, series 9|The Larry A. Green center. https://www.green-center.org/covid-survey. Accessed 15 June 2023
Press Information Bureau, New Delhi. A big win for Digital India: health ministry’s ‘eSanjeevani’ telemedicine service records 2 lakh tele-consultations. 2020. https://pib.gov.in/PressReleasePage.aspx?PRID=1646913. Accessed 6 Dec 2020
Gupta VS, Popp EC, Garcia EI, et al. Telemedicine as a component of forward triage in a pandemic. Healthc (Amst). 2021;9(3):100567. https://doi.org/10.1016/j.hjdsi.2021.100567
Loeb AE, Rao SS, Ficke JR, Morris CD, Riley LH 3rd, Levin AS (2020) Departmental experience and lessons learned with accelerated introduction of telemedicine during the COVID-19 crisis. J Am Acad Orthop Surg 28(11):e469–e476. https://doi.org/10.5435/JAAOS-D-20-00380
Van Velsen L, Wildevuur S, Flierman I, Van Schooten B, Tabak M, Hermens H. Trust in telemedicine portals for rehabilitation care: an exploratory focus group study with patients and healthcare professionals. BMC Med Inform Decis Mak. 2016;16:11. https://doi.org/10.1186/s12911-016-0250-2. Published 2016 Jan 27
McConnochie KM, Ronis SD, Wood NE, Ng PK (2015) Effectiveness and safety of acute care telemedicine for children with regular and special healthcare needs. Telemed J E Health 21(8):611–621. https://doi.org/10.1089/tmj.2014.0175
Das LT, Gonzalez CJ (2020) Preparing telemedicine for the frontlines of healthcare equity. J Gen Intern Med 35(8):2443–2444. https://doi.org/10.1007/s11606-020-05941-9
Weinstein RS, Krupinski EA, Doarn CR (2018) Clinical examination component of telemedicine, telehealth, mHealth, and connected health medical practices. Med Clin North Am 102(3):533–544. https://doi.org/10.1016/j.mcna.2018.01.002
American Medical Association Council on Medical Service . 2019. Established patient relationships and telemedicine: CMS report 1-i-19.https://www.ama-assn.org/system/files/2019-12/i19-cms-report1-patient-relations-telemedicine.pdf. (Accessed 7 May 2020)
Kruse S, Karem P, Shifflett K, Vegi L, Ravi K, Brooks M (2018) Evaluating barriers to adopting telemedicine worldwide: a systematic review. J Telemed Telecare 24(1):4–12. https://doi.org/10.1177/1357633X16674087
Acharya RV, Rai JJ (2016) Evaluation of patient and doctor perception toward the use of telemedicine in Apollo Tele Health Services. India J Family Med Prim Care 5(4):798–803. https://doi.org/10.4103/2249-4863.201174
Sirintrapun SJ, Lopez AM (2018) Telemedicine in cancer care. Am Soc Clin Oncol Educ Book 38:540–545. https://doi.org/10.1200/EDBK_200141
DeMauro SB, Duncan AF, Hurt H. Telemedicine use in neonatal follow-up programs - what can we do and what we can’t - lessons learned from COVID-19. Semin Perinatol. 2021;45(5):151430. https://doi.org/10.1016/j.semperi.2021.151430
Dash S, Aarthy R, Mohan V (2021) Telemedicine during COVID-19 in India-a new policy and its challenges. J Public Health Policy 42(3):501–509. https://doi.org/10.1057/s41271-021-00287-w
India ranks 131 in global mobile internet speeds: Here’s Why Unlimited Mobile Data is of Little Help - Times of India. The Times of India. https://timesofindia.indiatimes.com/gadgets-news/india-ranks-131-in-global-mobileinternet-speeds-heres-why-unlimited-mobile-data-is-of-little-help/amp_articleshow/78839714.cms. Accessed 30 June 2023
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Stoltzfus, M., Kaur, A., Chawla, A. et al. The role of telemedicine in healthcare: an overview and update. Egypt J Intern Med 35, 49 (2023). https://doi.org/10.1186/s43162-023-00234-z
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DOI: https://doi.org/10.1186/s43162-023-00234-z