|LETTER TO THE EDITOR
|Year : 2021 | Volume
| Issue : 2 | Page : 442-446
Expanding the scope of tele-ophthalmology from vision centers to home
Lokeshwari Aruljyothi, Alap Bavishi, Manohar Babu Balasundaram, Anuja Janakiraman, Kritika Shekar, Harshita Atmakur
Department of Ophthalmology, General Ophthalmology Services, Aravind Eye Hospital, Salem, Tamil Nadu, India
|Date of Web Publication||18-Jan-2021|
Dr. Alap Bavishi
Aravind Eye Hospital, Nethimedu, Salem, Tamil Nadu
Source of Support: None, Conflict of Interest: None
|How to cite this article:|
Aruljyothi L, Bavishi A, Balasundaram MB, Janakiraman A, Shekar K, Atmakur H. Expanding the scope of tele-ophthalmology from vision centers to home. Indian J Ophthalmol 2021;69:442-6
|How to cite this URL:|
Aruljyothi L, Bavishi A, Balasundaram MB, Janakiraman A, Shekar K, Atmakur H. Expanding the scope of tele-ophthalmology from vision centers to home. Indian J Ophthalmol [serial online] 2021 [cited 2023 Feb 5];69:442-6. Available from: https://www.ijo.in/text.asp?2021/69/2/442/306965
Several articles published in IJO this year have unveiled a broad spectrum of telemedicine topics beginning from challenges posed by the COVID-19 pandemic to reformations at primary, secondary, and tertiary eye care levels. Although the COVID-19 scenario may fade away in a few months to years, it cannot be denied that the new norm set forth by it is likely to raise the standards of eye care delivery. Tele-ophthalmology via Vision Centers (VC) has emerged as the central focus of remedy in assuring safe and continuous delivery of eye care without compromising on the quality of treatment. Several eye care systems have tried different technological solutions and practice algorithms to combat current hurdles.,,,,, Yet, the uncertainty about the prevailing COVID-19 eradication or similar pandemics in the future mandates healthcare systems to further expand from VC to home-telemedicine.
Home-Telemedicine (HTM) [Figure 1] or home-based healthcare delivery is the use of information, communication, and monitoring technologies that allow healthcare providers to remotely evaluate health status, give educational intervention, or deliver health and social care to patients in their homes. Several terms have been used in literature to describe the provision of healthcare at home such as home-based-healthcare, tele-home care, remote health care, home-telecare, etc. All of them describe similar concepts of HTM with a blurred distinction. [Figure 1] provides a comprehensive overview of various concepts involved in HTM in ophthalmic practice, in short, Home-teleophthalmology. Moreover, several concepts of vision centers are intermixed with HTM. A comparison of HTM vs VC is depicted in [Table 1].
Mhealth (mobile Health) has the potential to expand eye care in the comfort of home. WHO defines mHealth as the “use of mobile and wireless technologies to support the achievement of health objectives”. According to the International Telecommunication Union over 85% of the world's population now is covered by a commercial wireless signal. In developing countries like India, the penetration of mobile phone network has surpassed other infrastructures. With Smartphones evolving as mini computers, the applications of mHealth have extended from home-teleconsultations to health information exchange mediums within one's home. Smartphones can bridge the gap between patients and ophthalmologists via self-screening of vision, remote patient monitoring of visual field defects in ARMD, scheduling appointments, reminding prescription refills, and educating patients. Therefore mhealth is crucial in the adoption and dissemination of Home-teleophthalmology. Vision screening smartphone applications such as PEEK Acuity, Kay iSight, and Amsler's grid enable remote patient vision screening and monitoring. Web-based refraction systems like EyeNetra can unlock the whole new area in telemedicine in community eye health. Paxos Checkup (DigiSight Technologies, Inc, San Francisco, California, USA), currently in clinical studies, is a vision-assessment application that offers patients clinically validated tests such as Snellen visual acuity, dynamic Amsler grid, contrast sensitivity, color discrimination, and low-luminance acuity/contrast. ForeseeHome is a lightweight, portable device that connects to an Independent Diagnostic Testing Facility (IDTF) via a wireless network, cellular modem, or landline. The ForeseeHome device was validated in the AREDS2 HOME (Home Monitoring of the Eye) Study., Home-teleophthalmology has the potential to solve the inequitable distribution of eye care by reaching remote areas.
Barriers to implement home-teleophthalmology include medico-legal issues, deterioration of the doctor–patient relationship, physician and patient readiness to adopt the technology, lack of home-based instrument technology for eye care, and high cost of existing resources. [Figure 2] illustrates the pros and cons of HTM in ophthalmic practice. The guidelines suggested by the Ministry of Health and Family Welfare (MOHFW) on telemedicine could be applied to HTM practice too. There is a concern due to a lack of clear practice guidelines exclusive to Home-teleophthalmology. Prescribing in HTM entails the same professional accountability as in the traditional in-person consult. Ophthalmologists must cautiously prescribe Over-The-Counter drugs and prescription refills with low or no abuse potential, especially topical steroids. The prescription must be issued as per the Indian Medical Council Regulations and should abide by the provisions of the Drugs and Cosmetics Act and Rules. This also calls for the need to revise institutional and national policies on healthcare delivery to facilitate home-teleophthalmology. An online program will be made available by the Board of Governors in the supersession of the Medical Council of India to enable all clinicians to practice telemedicine and get familiar with telemedicine guidelines. Unlike vision centers, home-teleophthalmology has to be implemented by the patient themselves. Therefore it becomes the added responsibility of Eye care professionals to educate and train patients and/or their caretakers to efficiently use technology in the management of eye disorders. high-cost instruments such as I-care HOME tonometer (I-care Finland Oy, Vantaa, Finland) limits its use in household monitoring in Countries like India.
Future prospects for the practice of HTM in ophthalmic practice are promising. Under the Digital India project, internet connectivity has spread to rural areas and has increased in the use of smartphones. These conditions favor virtual consultations and screening of patients through HTM. Further advancements in technological innovations in home screening devices and validation of existing technology could support healthcare systems to incorporate HTM into their workflow. 3D printing is yet another technology that has been encouraging in eye care provision beginning from smartphone adapters for fundus pictures to eye drop self-administration stands. By integrating Medical instrument technology and Information technology, HTM can be more efficiently utilized in ophthalmology compared to other medical specialties which mostly need tactile contact for the diagnosis. This calls for eye care professionals to validate these technologies in their day to day practice.
[Figure 3] depicts a management algorithm for HTM in ophthalmic practice. The algorithm serves as a primer to enable ophthalmologists to incorporate HTM practice into their current workflow. This is not a treatment protocol but a practice guideline to remotely treat patients without compromising the quality of care. Patient data collection and payment gateways should be used appropriately for medico-legal safety and patient information security purposes. To conclude expanding the scope of tele-ophthalmology from vision centers to home-teleophthalmology embarks a new era of ophthalmic healthcare delivery that can outreach to households.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Sharma M, Jain N, Ranganathan S, Sharma N, Honavar SG, Sharma N, et al
. Tele-ophthalmology: Need of the hour. Indian J Ophthalmol 2020;68:1328-38.
] [Full text]
Nair AG, Gandhi RA, Natarajan S. Effect of COVID-19 related lockdown on ophthalmic practice and patient care in India: Results of a survey. Indian J Ophthalmol 2020;68:725-30.
] [Full text]
Sanjay S, Garg A, Shetty R, Shetty N, Shetty BK. Impact of COVID-19 on a tertiary eye hospital. Indian J Ophthalmol 2020;68:1485-6.
] [Full text]
Bhaskaran K, Sharma P. Distancing? But still I-care: Tele-ophthalmology during COVID-19 era. Indian J Ophthalmol 2020;68:1243-4.
] [Full text]
Jayadev C, Mahendradas P, Vinekar A, Kemmanu V, Gupta R, Pradhan ZS, et al
. Tele-consultations in the wake of COVID-19 – Suggested guidelines for clinical ophthalmology. Indian J Ophthalmol 2020;68:1316-27.
] [Full text]
Honavar SG. Navigating the new normal in ophthalmology. Indian J Ophthalmol 2020;68:957-8.
] [Full text]
Solli H, Bjørk IT, Hvalvik S, Hellesø R. Principle-based analysis of the concept of telecare. J Adv Nurs 2012;68:2802-15.
Agarwal A, Bloom DE, deLuise VP, Lubet A, Murali K, Sastry SM. Comparing low-cost handheld autorefractors: A practical approach to measuring refraction in low-resource settings. PLoS One 2019;14:e0219501.
AREDS2-HOME Study Research Group; Chew EY, Clemons TE, Bressler SB, Elman MJ, Danis RP, et al
. Randomized trial of a home monitoring system for early detection of choroidal neovascularization home monitoring of the Eye (HOME) study. Ophthalmology 2014;121:535-44.
Government of India (2011). “National Formulary of India, 4th
Edition, 2011” (PDF). cdsco.nic.in. Retrieved 2019-02-17.
Kay M, Santos J, Takane M. mHealth: New horizons for health through mobile technologies. World Health Organization 2011;64:66-71.
Akkara JD, Kuriakose A. Innovative smartphone apps for ophthalmologists. Kerala J Ophthalmol 2018;30:138. [Full text]
Shah VA, Pandya HK. Smartphones for Visual Function Testing. Retrieved July. 2015;4:2017.
Holekamp NM. Moving from clinic to home: What the future holds for ophthalmic telemedicine. Am J Ophthalmol 2018;187:xxviii-xv.
Adams M, Ho CY, Baglin E, Sharangan P, Wu Z, Lawson DJ, et al
. Home monitoring of retinal sensitivity on a tablet device in intermediate age-related macular degeneration. Transl Vis Sci Technol 2018;7:32.
Akkara JD, Kuriakose A. Commentary: Teleophthalmology and electronic medical records: Weighing the pros and cons of unavoidable progress. Indian J Ophthalmol 2020;68:367.
] [Full text]
Akkara JD, Kuriakose A. The magic of three-dimensional printing in ophthalmology. Kerala J Ophthalmol 2018;30:209. [Full text]
[Figure 1], [Figure 2], [Figure 3]