key: cord-0723273-gjh59jkg
authors: Aleboyeh, Sallya; Appireddy, Ramana; Winston, Gavin P.; Boisse Lomax, Lysa; Shukla, Garima
title: Virtual epilepsy clinics – A Canadian Comprehensive Epilepsy Center experience pre-COVID and during the COVID-19 pandemic period
date: 2021-06-23
journal: Epilepsy Res
DOI: 10.1016/j.eplepsyres.2021.106689
sha: e06429dfafc6f4d7f8cdd8567557dd9d266ba9a8
doc_id: 723273
cord_uid: gjh59jkg

OBJECTIVE: The objective of this study is to assess the role of prior experience with virtual care (through e-visits) in maintaining continuity in ambulatory epilepsy care during an unprecedented pandemic situation, comparing in person versus e-visit clinic uptake. METHODS: This is an observational study on virtual epilepsy care (through e-visits) over two years, during a pre-COVID period (14 months) continuing into the COVID-19 pandemic period (10 months). For a small initial section of patients seen during the study period a physician survey and a patient satisfaction survey were completed (n = 53). Outcomes of eVisits were analyzed using descriptive statistics. RESULTS: Median numbers of epilepsy clinic visits conducted during the COVID-19 period (27.5 new and 113 follow up) remained similar to the median uptake during the pre-COVID period (28 new and 116 follow up). Prior experience with e-visits for epilepsy yielded smooth transition into the pandemic period, with several other advantages. The majority of eVisits were successful despite technical difficulties and major components of history and management were still easily implemented. Results from patient surveys supported that a significant amount of time and money were saved, which was in keeping with our health-economic analysis. CONCLUSION: Our study is one of the first few reports of fully integrated virtual care in a comprehensive epilepsy clinic starting much before start of the COVID-19 pandemic. The results of our study support the feasibility of using virtual care to deliver specialized outpatient care in a comprehensive epilepsy center.

Traditional telemedicine is a form of medicine that usually involves a fully supported technology setup consisting of dedicated high-fidelity audio-video conferencing equipment, high-speed wired internet, and often the presence of a tele-presenter to help the conduct of the telemedicine visit. Traditional telemedicine for epilepsy care has been shown to be safe and effective in comparison to in-person visits (Bahrani et al., 2017; Haddad et al., 2015; Rajbhandari et al., 2019; Rasmusson and Hartshorn, 2005) . It does not increase seizure breakthrough and provides such benefits without a reduction in patient satisfaction.

Virtual care, an off-shoot of telemedicine, is the use of personal video conferencing/email/text messaging for delivering patient care (Dare, 2017) . It is novel and provides more flexibility around how care can be administered in comparison to traditional telemedicine. In Canada and the US, there is a growing trend towards the use of virtual care for providing ambulatory care in neurological specialties (Appireddy et al., , 2019 Kuchenbuch et al., 2020; Sattar and Kuperman, 2020) . In recent months, the COVID-19 pandemic has accelerated the uptake of virtual care (Grossman et al., 2020; Kuchenbuch et al., 2020; Majersik and Reddy, 2020; OMA, 2020; Punia et al., 2020; Sattar and Kuperman, 2020) . Emerging data shows the promise of virtual care in Epilepsy (Banks et al., 2021; Lavin et al., 2020; Subotic et al., 2020) .

Telemedicine has been used at our center for outpatient neurology clinics, including Epilepsy, since 2016 (Appireddy et al., , 2019 . We began offering virtual care through the use of eVisits (physician to patient video conference visits) in epilepsy clinics via the official provincial telehealth platform in 2019. Our transition to eVisits was significantly scaled up during the COVID-19 pandemic period.

The objective of this study is to assess the role of prior experience with virtual care (through eVisits) in maintaining continuity in ambulatory epilepsy care during an unprecedented pandemic situation, comparing in-person versus eVisit clinic uptake (number of successful consultations conducted).

This study was conducted in the Comprehensive Epilepsy Centre clinics at the Kingston Health Sciences Centre (KHSC), an academic hospital affiliated with Queen's University in Kingston, Ontario, Canada. The center serves South-Eastern Ontario and includes a multidisciplinary team of epileptologists, EEG technologists, a neuropsychologist, an epilepsy nurse, neurosurgeons and neuroradiologists. The epilepsy clinics provide eight regularly scheduled half-day clinics per week and additional ad-hoc clinics based on patient demand.

While traditional telemedicine was being used for patients with Epilepsy, since 2016, at our center, between January and December 2019, eVisits were introduced as a quality improvement (QI) project in the epilepsy clinic. Once the COVID-19 pandemic started, the eVisit epilepsy clinic was continued, as several clinics, for non-urgent situations in various specialties had to be cancelled, for several reasons, mainly limited availability of personal protective equipment. In-person visits were held only exceptionally. Consecutive patients with Epilepsy seen through eVisits between January 2019 and December 2020 form the study population.

We define virtual care via eVisits as physician-patient interaction via synchronous video conferencing with the patient using personal internet enabled devices from home or an alternate preferred location. At our center, only a secure, provincially funded platform, the Ontario Telehealth Network (www.otn.ca), was used (OTN, 2020) . We refer to these visits as eVisits. During the COVID-19 pandemic period, an additional commercial secure platform, Reacts ® (Innovative Imaging Technologies, www.reacts.com), was used to facilitate the simultaneous evaluation of more than one patient when a neurology resident worked along with an epileptologist. Visits that were entirely conducted by telephone were not included in the data as eVisits, except in scenarios where a telephone call was used to offset technical difficulties.

After ensuring the patients had the necessary skills and access to the technology needed to participate in virtual care, eVisits were scheduled by the Epilepsy secretary, with interested and consenting patients. Physicians performed the eVisits from their private offices. Required hardware included a web camera, microphone and speakers, along with secure hospital computer systems. These were already available to all epilepsy physicians. Patient's pharmacy details were confirmed at every visit and any required prescriptions were faxed directly to the required pharmacy.

The needs of vulnerable populations or those with impaired access was accommodated as best as possible. In the case of this study, some patients relied on family members for interpretation or to help with the technology. Other patients with hearing impairment or disability were already in nursing homes and would have staff help them with the virtual visit. No formal interpreters were hired as Kingston has fairly homogenous population, although this could be considered for larger centres with more diverse populations. For patients with disability, many relied heavily on family members to take time off work. Patients without access to a computer or internet were excluded from our study, although the option of phone call visit was offered. We did not come across a situation where a patient did not have access to a phone.

The data sources include routine administrative data, chart review and a prospective survey collected during the QI phase. The prospective survey was collected on a subset of patients and included two parts, completed by the physician and patient, respectively.

Economic savings for the patients were estimated using the survey data. The opportunity cost saving for the healthcare system are calculated using the Comprehensive Ambulatory Care 

A total of 2404 (589 new visits and 1815 follow-up visits) epilepsy clinic visits took place during the pre-COVID QI period (January 2019 to February 2020). Overall, 253 (14 %) of the follow-up visits were eVisits, while no new patients were assessed via this route.

Patients were classified as those with focal onset epilepsy (57 %), generalized Epilepsy (30 %) or unknown (13 %). Psychiatric comorbidities were present in 32 % and cognitive developmental delay in 19 %. Patients were on a single antiepileptic drug (AED) in 68 %, two AEDs (17 %) and three AEDs (15 %). This is representative of a complicated patient population as over half (57 %) of patients did not have complete seizure-freedom over the preceding six months of the study (defined as one or more breakthrough seizures).

A total of 50 patients consented to provide responses to the satisfaction survey (median age 36 years, range 19-76 years, 66 % female). Some patients had more than one eVisits during this time, such that 53 responses were received.

Details of epilepsy history, along with comorbidities, interval change in seizure frequency, adverse effects of medications, medication compliance and pertinent social history, were collected during eVisit encounters. Neurological examination findings pertinent to the epilepsy population (cognition, cranial nerve examination mainly for eye movements and presence or absence of nystagmus or facial symmetry; gross strength of limbs, motor coordination, stance and gait) were also recorded. Management decisions like ordering imaging or lab investigations, reviewing results, as well as medication reconciliation and sending a new prescription to pharmacies were also recorded. For the sub-group which undertook the patient satisfaction survey, specific management details are tabulated to show which components were successfully completed via eVisits (as percentages) (Table 1a) .

In order to come to an 'in-person' visit, most patients required a ride from a caregiver (66 %), some were able to drive themselves (13 %), and others used public transportation (6%) or walked (2%) ( Table 1b) .

Patients undertook 90 % of the eVisits from home, and an accompanying family member was present for 34 % of visits. Epilepsy patients were able to setup eVisits on their own in 68 % of cases. Each eVisit saved 1.9-470 km (median 84.5 km) of travel for patients. At the time of the study, 72 % of patients did not have a driver's license, and 66 % of the patients relied on a caregiver for transportation to their 'in-person' clinic visits.

Patients spent a median time of 20 min (range 10− 60 min) for their eVisits, compared to a median of 171.8 min (range 90-319) for 'inperson' visits, including travel time and time spent in the clinic waiting area. For 'in-person' visits, the median out-of-pocket expenses reported by participants was $106.25 CAD, including travel, gas, food, loss of pay and childcare expenses.

There was a high proportion (49 %) of minor technical difficulties (audio/video/internet) experienced during the eVisits. Problems were listed as audio/video/internet related. However, the majority of these technical difficulties could be resolved by the patient and/or the physician. Overall, physicians found 85 % percent of their eVisits to be successful, despite the high frequency of technical challenges. Many unanticipated problems were also encountered; some examples are listed below:

-email regarding appointment arriving in patient's Spam folder, hence, a patient requiring phone reminders at the scheduled time of eVisit, -patients being skeptical of opening emails from OTN, as these did not have the physician's name in the subject or content, -patients requiring live guidance to navigate the process of initiation of the eVisit, thereby prolonging visits and reducing the time available for clinical discussion

The telephone was used as a rescue for unsuccessful eVisit encounters. Most (77 %) of the eVisits were followed by subsequent eVisit follow up. Only 8% of visits following virtual care were switched to an in-person visit, possibly suggesting that patients were satisfied with eVisits despite technical difficulties.

Given the high volumes and success of eVisits during the initial period, two in-person clinics (each spanning a half-day) were converted into eVisit clinics conducted from the physicians' respective offices. The 'in-person' clinic space that was freed up was allocated to newer faculty joining the division, resulting in resource optimization as a result of virtual care. A typical eVisit clinic after the initial QI phase consisted of 8-10 follow-up patients scheduled for 20 min each, over approximately 3 h. During the last four months of the pre-COVID period, eVisit clinic volumes for follow-up patients were comparable to 'in-person' visits and also more efficient than in-person clinics, as no time was lost because of patients moving in and out of clinic rooms and cleaning of rooms between patients.

Following public health advisories, non-urgent and elective clinical services, including ambulatory clinical services, were closed for inperson interaction (CDC, 2020; Public Health Agency of Canada, April 22 2020). Given our existing virtual care clinic services, we were able to smoothly transition to a 100 % virtual epilepsy clinic in early March 2020. While overall clinic volumes were reduced once the pandemic started, most new patients who needed to be seen on priority, as well as follow-up patients requiring frequent periodic review, could easily be followed up through eVisits. Since there was no learning curve to deal with, at this crucial transition, 229 eVisits were scheduled, with 197 (86 %) being successful, 5 (2%) no-shows and 28 (12 %) cancellations, during the initial three-month time period (March, April and May 2020) of the COVID-19 pandemic. This was despite one of the three epileptologists not having clinics booked for these three months in advance due to a planned sabbatical (which later had to be cut short once the pandemic started). The average percentage of no-shows and/or cancellations per virtual clinic during the pandemic period was approximately 10 %. Month-wise details of patients seen in person and through eVisits are represented in Fig. 1 . Following this initial period, the number of 'in-person' visits gradually increased. However, most encounters continue to be conducted via eVisits. A total of 262 new epilepsy patients were seen (more than halfway through eVisits), and 1074 follow-up encounters (82.5 % through eVisits) were completed during the COVID period (Table 2) . Importantly, the monthly median numbers of new patients and follow-up patients visits during the pre-COVID period (28 and 116 respectively) were not much reduced (as could have been expected), compared to that during the COVID period (27.5 and 113 respectively). The overall number of total visits did decline as one of the epileptologists was on sabbatical during the initial months of COVID.

In addition, neurology residents were able to continue seeing new patients via eVisits as part of their learning. In these cases, visits lasted between 45− 90 min.

The mean cost of an ambulatory visit classified as E751 and E752 in 2016/17 in Ontario was $331 and $397, respectively and is obtained from the Ontario outpatient costing data (2019). The estimated opportunity cost of using virtual care for epilepsy care during the QI phase (n = 253) for these 2 diagnostic codes was $83,743-$100,441 CAD. The estimated opportunity cost since the beginning of the COVID-19 pandemic (n = 1139) for these 2 diagnostic codes was $377,009- g., seizure semiology) from survey data prospectively collected following each virtual care clinic. Seizure control (frequency, type) details were collected for all (100 %) patients. 

This study demonstrates that the use of eVisits for ambulatory epilepsy care is clinically effective, convenient and cost-effective, compared to 'in-person' clinics. The experience gained facilitated resource optimization and the subsequent rapid adoption of almost entirely virtual care when the COVID-19 pandemic occurred. The smooth transition provided uninterrupted care delivery to this very vulnerable patient population.

Virtual care using eVisits offers a more patient-centered approach to Epilepsy by making patient care more accessible, available and affordable. Lack of timely access to specialist care is a well-recognized problem in Canada (Janine, 2016; Kasman and Badley, 2004; Vogel, 2017) . Virtual care can play a role by increasing health care access to rural and remote communities, reducing wait times, increasing convenience to patients, reducing the need to travel, and reducing out-of-pocket expenses (Appireddy et al., 2019; Ladino et al., 2016; Morgan et al., 2009; OTN, 2019) . The ability of patients to comfortably stay at home, surrounded by family (33 % in our study), aligns with Picker's principles of patient-centered care (Picker Institute, 2018). The implementation of patient engagement models for virtual care can further enhance the patient experience of care (Srinivasan et al., 2020) .

'In-person' visits may also be emotionally and physically taxing on both patients and caregivers, particularly for those who travel long distances to attend the hospital. This is specifically relevant to an epilepsy population, in which a large percentage may be under driving restrictions at any given point in time (Chen et al., 2014) . Our findings reiterate those from some previous studies that patients value eVisits as they save time and are more accessible (Hatcher-Martin et al., 2016; Powell et al., 2017; Russo et al., 2016) . 

Virtual Care via eVisits offer significant out-of-pocket expense savings (median savings of $106 CAD per visit) compared to ~$ 52 CAD per visit for stroke patients (Appireddy et al., 2019) . The higher out-of-pocket expenses are likely due to the demographic profile of the epilepsy patients being younger, of a working-age group with the loss of income, childcare costs and driving restrictions. Any reduction in out-of-pocket expenses will go a long way in alleviating the economic hardships already faced by patients with Epilepsy (Elliott et al., 2020; Hussain et al., 2020; Riechmann et al., 2015) . The societal costs associated with healthcare delivery are ever-increasing, and it is important to address this to optimize resource utilization (CIHI, 2018b; Hofmeister, 2018 ). Our study data shows significant opportunity cost savings with virtual epilepsy care and is in line with other data on the economic benefits of virtual care and telemedicine on the healthcare system (Appireddy et al., 2019; Bove et al., 2019) .

Data from this study support feasibility of implementation and sustainability of virtual care for epilepsy clinics. It adds to the growing call for virtual epilepsy care facilities (2020; Lavin et al., 2020) . Our study data also support improved clinical efficiency with virtual care compared to other neurological specialties (Appireddy et al., 2019) . The ability to free up ambulatory care resources (clinic space, clinic staff) due to the transition to eVisits has allowed us to provide clinical care to more patients with no additional infrastructure requirements or costs. This has also allowed our division to accommodate the clinical needs of incoming faculty with minimal effort. Virtual care for epilepsy offers significant flexibility for the physicians and the administrative staff with regards to patient scheduling. Unlike with 'in-person' clinics, eVisit scheduling is not limited by constraints placed due to limited clinic hours, space or human resources. The patient-centered nature of virtual care can also contribute to reduced no-shows and cancellations, thus ensuring timely delivery of care and improving the overall clinic efficiency (Appireddy et al., 2019) . Time efficiency during the clinics is also an advantage with eVisits. Time spent on patient movement from waiting areas with or without accompanying caregivers, cleaning of rooms between patients (if needed), nurse evaluation prior to physician consultation during in-person visits is saved with virtual visits. We also feel that virtual care offers the flexibility of scheduling outpatient clinics for clinicians who often have other competing responsibilities like research, hospital in-patient on-call service, administration and teaching. This benefit could potentially result in a reduced risk of physician burnout, although further long-term studies would be needed (Costantini, 2018).

Data from our study shows that eVisits do not impede a physician's ability to effectively gather information from epilepsy patients through history and physical examination. This is in-line with earlier observations of telemedicine in Epilepsy and virtual care for other neurological conditions (Ahmed et al., 2008; Appireddy et al., 2019) . This suggests that at least in the case of patients with Epilepsy, that minimal physical examination data is lost through the medium of eVisits versus 'in-person' visits. In uncommon scenarios, where physicians consider detailed sensory and reflex examination, etc. necessary, the option of in-person visits does exist. In fact, for patients with an intellectual disability or behavioural challenges, encounters can be conducted more smoothly and effectively in the patients' relaxed home setting, especially as patients are spared the discomfort of travel and spending time in the clinic waiting area.

It is known that patients with disabilities and frailty are unable to attend in-person' epilepsy clinics independently without the help of a caregiver (Chan et al., 2020; Nouri et al., 2020) . For this sub-population, virtual care is an extremely useful alternative. Patients may still require some help in setting up devices, but we did not explore this aspect in detail.

Virtual care has been widely embraced during the COVID-19 pandemic (Grossman et al., 2020; Hernando-Requejo et al., 2020; Kuchenbuch et al., 2020; Rockwell and Gilroy, 2020; Schwamm et al., 2020; Srinivasan et al., 2020) . Since the epilepsy clinic uptake continued right through the COVID 19 pandemic period, with some reduction in overall numbers, this observation suggests that prior experience using these resulted in a smooth transition into virtual clinics and contributed significantly towards continuity in care. This is extremely important for patients with Epilepsy, who at that time formed one of many patient groups dealing with high anxiety surrounding the ability to access specialized care. Importantly, after transitioning to a full eVisit model during the pandemic, a comparable volume of follow-up patients continued to be seen, as during the pre-COVID period. In addition, this transition facilitated uninterrupted care to new epilepsy patients, seen through eVisits, during COVID-19. Few reports on the utilization of telemedicine for epilepsy treatment prior to and during the current pandemic have been published. A multi-center study evaluating wait-times and improvement of access for pediatric patients with Epilepsy to specialists was conducted using a design similar to ours. A total of 73 visits completed by 61 patients/family members found telehealth visits to enhance access to physicians and reduce cost, missed school hours and missed work hours (Gali et al., 2020) . In a Spanish study, authors report their experience with telemedicine services for epilepsy care. No video conferencing was used, and services were offered only through telephone calls as part of this study (Hernando-Requejo et al., 2020) . Another recent study surveyed 172 epileptologists, adult and pediatric neurologists regarding the use of telehealth and remote systems for epilepsy care as well as academic activities. Authors found most physicians already having prior experience and also using institutional or personal remote systems for clinical care by significantly higher proportions during the COVID-19 pandemic (Kuchenbuch et al., 2020) . One study has suggested that physicians feel less comfortable broaching sensitive topics, such as reproductive health or risk of SUDEP, when delivering care via telephone (Conde-Blanco et al., 2020) . Theoretically, the use of video conferencing in eVisits could better support these conversations as it better recreates the environment of an in-person visit.

One of the major strengths of this study is that it was conducted at an academic tertiary care center with a comprehensive epilepsy care program run by three epileptologists. Therefore, the patients included in this study likely represent a complicated population with higher rates of pharmaco-resistance and significant comorbidity. Prospective evaluation of feasibility, effectiveness and patient experience using eVisits for epilepsy clinics remains the major strength of this study. The use of a secure, provincially funded platform for conducting eVisits ensured stringent protection of patient confidentiality. The unique study period demonstrating a hassle-free transition during the pandemic period highlights the important advantages of virtual care via eVisit use for epilepsy care.

The implementation of virtual care in a similar model can easily be recreated at other centres. For other centres looking to implement virtual care, our team suggests first asking patients at in person visits to assess their openness to a virtual visit. From there, working with the IT department to help with equipment setup and training as needed is recommended. Finally, the use of standardized checklists can be helpful for physicians as well as questionnaires for patients to have a source of feedback.

Our study did not have longitudinal data on detailed clinical outcomes to assess the efficacy of virtual care. We specifically did not evaluate the impact of virtual care on building physician-patient rapport/relationship; however, this was not a major concern during the QI period, as the eVisits were used for follow-up after establishing rapport. During the COVID-19 period, most new patients seen through eVisits shared their satisfaction with respective physicians and concerns regarding rapport building was not perceived by physicians. In fact, patients were eager to do eVisits, and none expressed concerns in this regard in the survey, interviews or during routine interaction with the clinic administrative staff or physicians. Patient satisfaction in this regard, was informally assessed by patients' feedback to the epileptologists. Future confirmatory studies would be needed to truly measure patient satisfaction. Furthermore, future studies would also be helpful in reassessing patient satisfaction with virtual care after the stress of a pandemic has subsided.

The rate of technical difficulties is likely an overestimation in the early stages of transitioning to virtual visits and is anticipated to decrease as users become more accustomed to running eVisits. Despite this, the overall success rate of virtual care remained high. However, health care providers must remain cognizant of how technology can serve to exclude patients from using eVisits due to technological illiteracy or unfamiliarity (Powell et al., 2017; Scott Kruse et al., 2018) .

Other potential limitations of eVisits may include reduced ability to communicate pre-surgical evaluation plan with surgical candidates; difficulty in monitoring patients more prone to AED adverse events and those who require close coordination with other specialties like rheumatology or cardiology, especially when frequent investigations and parenteral medication administration are required. These aspects need to be studied in a more structured way, through future studies.

Our study is one of the first few reports of fully integrated virtual care in a comprehensive epilepsy clinic. The results of our study support the feasibility of using virtual care to deliver specialized outpatient care in a comprehensive epilepsy center. This is evidenced by the transformation to an almost exclusive virtual care model during the initial few weeks of the COVID-19 pandemic (only one clinic remained in person). Future studies should focus on gathering more longitudinal data looking at various factors like clinical and patient-reported outcomes with virtual care for Epilepsy. This will help inform the development of best practice guidelines for virtual Care in Epilepsy.

This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.

Dr. Appireddy reports grants from CIHR; PSI Foundation, Canada Health Infoway towards virtual care research. The remaining authors have no conflicts of interest to declare.

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We extend our thanks to Ann Norton, KHSC Epilepsy clinic secretary, and Sandra Weatherby, our Epilepsy Nurse, for their valuable help towards data collection.