Outpatient Physical, Occupational, and Speech Therapy Synchronous Telemedicine: A Survey Study of Patient Satisfaction with Virtual Visits During the COVID-19 Pandemic : American Journal of Physical Medicine & Rehabilitation

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Outpatient Physical, Occupational, and Speech Therapy Synchronous Telemedicine

A Survey Study of Patient Satisfaction with Virtual Visits During the COVID-19 Pandemic

Tenforde, Adam S. MD; Borgstrom, Haylee MD, MS; Polich, Ginger MD; Steere, Hannah MD; Davis, Irene S. PhD, PT; Cotton, Kester PT; O’Donnell, Mary MS, OTR/L; Silver, Julie K. MD

Author Information

From the Department of Physical Medicine and Rehabilitation, Harvard Medical School, Boston, Massachusetts (AST, HB, GP, HS, ISD, JKS); Spaulding Rehabilitation Hospital, Boston, Massachusetts (AST, HB, GP, HS, ISD, JKS); Brigham and Women’s Hospital, Boston, Massachusetts (GP, JKS); Spaulding Outpatient Center Wellesley, Wellesley, Massachusetts (KC); Spaulding Outpatient Center for Children Lexington, Lexington, Massachusetts (MO); and Massachusetts General Hospital, Boston, Massachusetts (JKS).

All correspondence should be addressed to: Julie K. Silver, MD, 300 1st Ave, Charlestown, MA 02025.

Haylee Borgstrom is in training.

Financial disclosure statements have been obtained, and no conflicts of interest have been reported by the authors or by any individuals in control of the content of this article.

American Journal of Physical Medicine & Rehabilitation 99(11):p 977-981, November 2020. | DOI: 10.1097/PHM.0000000000001571
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Abstract

This report describes the rapid conversion from in-person visits to synchronous telerehabilitation visits during the novel coronavirus pandemic (SARS-CoV2 is the virus that causes COVID-19 disease). After outbreaks in China and Europe beginning in late 2019, COVID-19 quickly spread to the United States and other countries. Ensuing efforts to minimize contagion for patients and health care workers and conserve health care resources resulted in the dramatic reduction of face-to-face outpatient clinical care. Reduced access to in-person rehabilitation care, along with changes in health care finance and delivery, contributed to an exponential increase in telehealth. Measures of quality and patient satisfaction are unknown in this new model of telerehabilitation. To explore the feasibility of telerehabilitation, the authors initiated a quality improvement project, administering an online survey after adult and pediatric synchronous physical therapy (PT), occupational (OT), and speech (SLP) therapy visits. Synchronous visits are those that occur in real time (whereas email exchanges, for example, would be asynchronous).

By May 1, 2020, during the peak surge of initial infections in Massachusetts, there were more than 64,000 confirmed cases of COVID-19 and nearly 4,000 deaths.1 For the authors’ academic center, outpatient in-person visits were limited to urgent issues only (e.g., progressive neurologic deficit, severe pain, or immediate postoperative care). Governor Baker declared a state of emergency for Massachusetts on March 10, 2020, and issued a proclamation that expanded telehealth coverage to all network providers to reimburse for telehealth at same rate as in-person visits.2 Physiatric telemedicine was already in place at the authors’ institution but required rapid expansion and was met with high satisfaction.3 In contrast, telerehabilitation was new to the system.

To date, the literature on telerehabilitation is limited and most commonly describes treatment for an impairment within a specific disease, such as teletherapy to address motor impairment after stroke.4 Telerehabilitation has often been offered in addition to in-person care—complementing usual care rather than replacing it altogether.5,6 Reports often describe asynchronous (vs. synchronous) care—providing a different patient experience.4,7–12 Reimbursement expansion during the initial stages of the pandemic created a window of opportunity to study the feasibility of and patient satisfaction with telerehabilitation. This, in turn, may help inform future clinical care, reimbursement, and health care policy during the pandemic and beyond. The purpose of this report is to evaluate patient and patient care advocate reported experiences using telerehabilitation within a single hospital system during the COVID-19 pandemic.

METHODS

This study was approved by the quality improvement program at the authors’ academic center and was exempt from institutional review board approval. The quality improvement report followed Standards for Quality Improvement Reporting Excellence (SQUIRE 2.0).13 Therapists performing telerehabilitation within a single hospital system for PT, OT, or SLP were eligible to participate. Patients were informed about the initiative during their visit, and those who verbally agreed to participate were sent a brief online survey. Because this was a virtual visit and participants consented verbally and by filling out the survey, no additional written consent was deemed necessary for this institutional review board–exempt quality initiative.

The online survey contained 16 items, with answer choices selected using radio buttons to improve speed and accuracy of completion. The survey used was designed to measure quality and patient satisfaction in a previous report on physiatry care3 but modified to collect measures of experience with a therapist, including ability to develop and execute a treatment plan.

Patient demographic data and telerehabilitation visit characteristics were collected. Patient-centered outcome measures were rated using a 5-point Likert scale, and an optional free response question allowed patients to identify elements of the visit that were helpful, report on limitations, and provide general feedback.

The authors used an online survey tool through Research Electronic Data Capture hosted on their institution’s server.14,15 Research Electronic Data Capture is a secure, Web-based software platform designed to support data capture for research studies, providing (1) an intuitive interface for validated data capture, (2) audit trails for tracking data manipulation and export procedures, (3) automated export procedures for seamless data downloads to common statistical packages, and (4) procedures for data integration and interoperability with external sources.

Data were analyzed using descriptive statistics performed with IBM SPSS Statistics software platform. Fisher’s exact test with P value calculated by Monte Carlo simulation was used to analyze the relationships between patient satisfaction and gender, age category, therapist type, visit type, visit duration, typical travel time for in-person therapy visits, inclusion of patient care advocate during visit, and reason for visit. A P value threshold of 0.05 was considered statistically significant.

RESULTS

A total of 211 patients or patient care advocates completed the online survey after participating in a telerehabilitation visit (Table 1). Six responses were excluded (five incomplete responses, one duplicate entry). Of the 205 participants, 110 (53.7%) identified as girls or women, 92 (44.9%) as boys or men, and 3 as transgender men (1.5%). Approximately one-third of participants were 35–64 yrs old and one-quarter were 0–7 yrs old. All patients reported being insured. Average estimated travel time for in-person visits was 30 mins or longer in more than half of patients. Most visits were with PT (53.7%), followed by SLP (30.7%) and OT (14.1%). Most were follow-up visits for established issues (80%) of 30–44 mins in duration (59.5%). Sports injuries, lower limb injuries, and pediatric neurology were the most common primary impairments. Patients were accompanied by family members, friends, or other advocates in nearly half of visits, and usually they were in the same location.

TABLE 1 - Patient demographics and telerehabilitation visit characteristics, n (%)
Sex Type of visit
 Girl or woman 110 (53.7)  New 26 (12.7)
 Boy or man 92 (44.9)  Follow-up,  established issue 164 (80.0)
 Transgender (man) 3 (1.5)  Follow-up, new issue 15 (7.3)
Age, years
 0–7 52 (25.4) Duration of visit, minutes 1 (0.5)
 8–12 13 (6.3)  0–14 22 (10.7)
 13–17 8 (3.9)  15–29 122 (59.5)
 18–34 25 (12.2)  30–44 54 (26.3)
 35–64 67 (32.7)  45–59 6 (2.9)
 ≥65 40 (19.5)  ≥60
Insurance status Reason for visit
 Insured 205 (100)  Spine condition 17 (8.3)
 Uninsured 0  Sports injury 32 (15.6)
Typical travel time, minutes  Nonsports injury 19 (9.3)
 5–15 47 (22.9)  Upper limb injury 9 (4.4)
 15–29 49 (23.9)  Lower limb injury 34 (16.6)
 30–59 64 (31.2)  Concussion 2 (1.0)
 60–89 34 (16.6)  Balance impairment 11 (5.4)
 90–120 10 (4.9)  Post-stroke 11 (5.4)
Family or friend involvement  Posttraumatic  brain injury 11 (5.4)
 Yes, present 80 (39.0)  Postspinal cord injury 0
 Yes, remote 18 (8.8)  Other neurologic injury 11 (5.4)
 No 107 (52.2)  Parkinson disease 2 (1.0)
Type of therapist  Multiple sclerosis 2 (1.0)
 Physical 110 (53.7)  Pediatric orthopedics 6 (2.9)
 Occupational 29 (14.1)  Pediatric neurology 36 (17.6)
 Speech and language 63 (30.7)  Other 42 (20.5)
 Other 3 (1.5)

Patients and patient care advocates reported high-quality health care delivery (defined as “excellent” or “very good” responses) for all patient-centered outcome metrics (ranging from 93.7% to 99%) and high value in future telehealth visits (86.8%) (Fig. 1). Overall satisfaction was independent of age, therapist type, visit type, visit duration, typical travel time, inclusion of patient care advocate, or any stated reason for visit (all P > 0.05). Women rated their level of overall satisfaction significantly higher than male participants (P = 0.02).

F1
FIGURE 1:
Survey responses after completion of a telerehabilitation visit. Seven measures were obtained on a Likert scale. Responses across the cohort surveyed (n = 205) were excellent or very good, exceeding 93% across measures during the encounter and 86.8% agreement on value of having a future telerehabilitation visit.

A secondary analysis of patients 18 yrs or older (n = 132) was conducted as these patients were most likely to have completed the survey independently rather than via patient care advocate proxy in the pediatric population. Among this subset of patients, overall satisfaction was also independent of age, therapist type, visit type, visit duration, typical travel time, and inclusion of patient care advocate. Again, women reported significantly higher levels of satisfaction compared with male participants (P = 0.03).

Optional qualitative remarks at the end of the survey revealed that many participants expressed appreciation for access to virtual services. Patient care advocates noted that telerehabilitation was useful in establishing a new routine—especially important for providing structure to the population of pediatric patients with behavioral issues. One advocate noted the importance of virtual visits for additional family member training as the pandemic had led to transitions in care responsibilities in the home, and another stated that therapy could be tailored to equipment available in the patient’s home, further improving convenience. Many participants wrote that they would prefer to have the option of telerehabilitation visits in the future, but there were certain aspects of care that could not be provided virtually. Limitations include lack of tactile feedback, inability to perform soft tissue work, and absence of the “healing touch.” One advocate expressed challenges with maintaining their child’s engagement and attention using this platform, whereas others felt that their children were just as attentive as in-person visits. Other technological limitations were noted, including difficulties with camera/device positioning and video quality. No adverse events were reported.

DISCUSSION

The purpose of this quality improvement initiative was to measure patient experience with telerehabilitation. The key findings included high patient satisfaction measures across age, condition, therapist, and visit characteristics for both adults and pediatric populations and high reported value for future telerehabilitation visits. Satisfaction with telehealth therapy has been documented for therapy interventions in both neurologic16 and orthopedic17–19 populations. High levels of parent satisfaction with pediatric telehealth therapy have been well described, primarily in OT and SLP.20–24 Parents and care advocates also expressed qualitative gains, including increased caregiver training in facilitation strategies tailored to in-home needs and improved parental self-efficacy, consistent with advantages previously reported.20,25 There was no association between age and patient satisfaction, with 78% of patients 18 yrs or older and 75% of patients 65 yrs or older operating the telerehabilitation platform without the assistance of a patient care advocate, indicating the feasibility of independent technological use in adults of all ages.

Interestingly, in this study population there was a higher rate of women participating, and they were significantly more likely to report high satisfaction. A previous report26 identified female participants being more motivated to use telehealth services because of the perception of shorter wait times.26 It may be the case that female patients and caregivers of pediatric patients face barriers to accessing traditional care, as studies find that they are more likely to manage multiple responsibilities, balancing work, household, childcare, and caretaking roles.27 Another report evaluated the use of a Web-based telehealth model and noted that two-thirds of patients were women, with many visits completed on weekends and holidays when clinics are typically closed.28

Relevance

The pandemic circumstances created an opportunity to study teletherapy, and social distancing requirements created limited access for most patients that expanded beyond typical populations of rural communities previously studied. Before the pandemic, third party payor reimbursement was not ubiquitous and therapy visits were typically not covered. For example, in Massachusetts, very few private insurers paid eligible practitioners. Nationally, Medicare had a rural telehealth program that was restrictive and challenging to administer. The changes effective March 10, 2020, in Massachusetts required insurers to pay for telehealth at the same rate as a face-to-face visit for the duration of the state of emergency. In mid-March the Centers for Medicare and Medicaid Services expanded telehealth to include therapists, and they were initially able to bill for e-visits (email) or phone consults in a limited manner. At the end of March, the Centers for Medicare and Medicaid Services added more services to the eligible list, which expanded mental health and therapy Current Procedural Terminology codes. However, the Centers for Medicare and Medicaid Services did not allow therapists to have the designation as eligible providers. On April 30, 2020, after intense lobbying efforts, the Centers for Medicare and Medicaid Services expanded their list of eligible providers to include rehabilitation therapists, and this was retroactive back to March 1, 2020. Legislation was introduced to Congress in 2019, called The Connect Act, which, if passed, would make the designation for therapists to be eligible providers permanent. The high patient satisfaction across ages, sexes, and conditions treated suggests that these services were valued. Beyond infection control, eliminating travel time, incorporating other health care advocates, and convenience delivering care in familiar environments to pediatric patients are all benefits that will be durable outside times of pandemic. Recognizing reduced indirect costs of care that telerehabilitation may provide along with high patient satisfaction is a reason policy makers should adopt these services into future health care delivery models.

Limitations

This quality initiative was implemented during a challenging and tumultuous time with pandemic-related COVID-19 infections surging. As such, the authors were not able to track all of the conversations that therapists had with patients informing them of this initiative. Limitations were noted by participants in lack of hands-on approach. This is consistent with the broader literature showing generally high rates of acceptability of telehealth visits, which may be context dependent and more appropriate for certain types of presentations than others.29 Discipline-specific challenges were noted; for example, telerehabilitation requires many modifications to musculoskeletal work.30,31 Thus, for PT and OT, creativity may be required to address myofascial deficits traditionally managed manually. Teaching hands-on facilitation techniques to caregivers can also prove more difficult through teletherapy.32 SLPs further noted barriers to pragmatics practice in the absence of natural, face-to-face social situations and in the assessment of safe oral motor and swallow function during virtual feeding therapy.33 Challenges were also noted in the delivery of virtual pediatric therapy across disciplines for patients with significant behavioral or attention difficulties. Most subjective measures can be obtained accurately and incorporate nonverbal communication. However, other aspects of in-person visits build rapport between therapists and patients. Technical challenges were also identified in this study, consistent with previous reports.29,34,35 Without a validated survey tool, expert consensus was used to develop the modified survey.3 More detailed characteristics of patient population and caregivers who completed the survey are difficult to elicit because of the goal to provide an anonymous survey tool.

CONCLUSION

During the novel coronavirus pandemic, the authors had a unique opportunity to study the feasibility of and patient satisfaction with telerehabilitation. Overall, the findings suggest that this was well accepted across patient populations of varying ages and conditions treated across disciplines. This study demonstrated a higher proportion of women participating and significantly higher experience ratings compared with men. More research is needed, particularly focusing on functional outcomes, but this study suggests that there is value in telerehabilitation. These findings may inform policy and reimbursement for telerehabilitation care.

ACKNOWLEDGMENTS

The authors are grateful to all the therapists and patients who participated in this quality improvement initiative. Specifically, they thank the following rehabilitation therapists for their contributions to questionnaire development and interpretation of the data: Erin Baumann (PT), Jess Feasby (PT), and Amanda Leonard (SLP).

REFERENCES

1. COVID-19 Daily Dashboard. COVID-19 Response Reporting, Massachusetts Department of Public Health. Available at: https://www.mass.gov/info-details/covid-19-response-reporting#covid-19-daily-dashboard-. Accessed August 21, 2020
2. Governor Charlie Baker: Executive Order No. 591: Declaration of a State of Emergency to Respond to COVID-19, 2020. Available at: https://www.mass.gov/executive-orders/no-591-declaration-of-a-state-of-emergency-to-respond-to-covid-19. Accessed August 21, 2020
3. Tenforde AS, Iaccarino MA, Borgstrom H, et al.: Telemedicine during COVID-19 for outpatient sports and musculoskeletal medicine physicians. PM R 2020;12:926–32
4. Cramer SC, Dodakian L, Le V, et al.: Efficacy of home-based telerehabilitation vs in-clinic therapy for adults after stroke: A randomized clinical trial. JAMA Neurol 2019;76:1079–87
5. Koppenaal T, Arensman RM, van Dongen JM, et al.: Effectiveness and cost-effectiveness of stratified blended physiotherapy in patients with non-specific low back pain: Study protocol of a cluster randomized controlled trial. BMC Musculoskelet Disord 2020;21:265
6. Kloek CJJ, Janssen J, Veenhof C: Development of a checklist to assist physiotherapists in determination of patients’ suitability for a blended treatment. Telemed J E Health 2020;26:1051–65
7. Tenforde AS, Hefner JE, Kodish-Wachs JE, et al.: Telehealth in physical medicine and rehabilitation: A narrative review. PM R 2017;9(5S):S51–8
8. Howard IM, Kaufman MS: Telehealth applications for outpatients with neuromuscular or musculoskeletal disorders. Muscle Nerve 2018;58:475–85
9. Ward EC, Wall LR, Burns CL, et al.: Application of telepractice for head and neck cancer management: A review of speech language pathology service models. Curr Opin Otolaryngol Head Neck Surg 2017;25:169–74
10. Mani S, Sharma S, Omar B, et al.: Validity and reliability of internet-based physiotherapy assessment for musculoskeletal disorders: A systematic review. J Telemed Telecare 2017;23:379–91
11. Bush ML, Thompson R, Irungu C, et al.: The role of telemedicine in auditory rehabilitation: A systematic review. Otol Neurotol 2016;37:1466–74
12. Molini-Avejonas DR, Rondon-Melo S, Amato CA, et al.: A systematic review of the use of telehealth in speech, language and hearing sciences. J Telemed Telecare 2015;21:367–76
13. Ogrinc G, Davies L, Goodman D, et al.: SQUIRE 2.0 (standards for quality improvement reporting excellence): Revised publication guidelines from a detailed consensus process. BMJ Qual Saf 2016;25:986–92
14. Harris PA, Taylor R, Thielke R, et al.: Research Electronic Data Capture (REDCap)—A metadata-driven methodology and workflow process for providing translational research informatics support. J Biomed Inform 2009;42:377–81
15. Harris PA, Taylor R, Minor BL, et al.: The REDCap consortium: Building an international community of software platform partners. J Biomed Inform 2019;95:103208
16. Knepley KD, Mao JZ, Wieczorek P, et al.: Impact of Telerehabilitation for stroke-related deficits [published online ahead of print April 23, 2020]. Telemed J E Health. doi:10.1089/tmj.2020.0019
17. Lovo S, Harrison L, O’connell ME, et al.: Experience of patients and practitioners with a team and technology approach to chronic back disorder management. J Multidiscip Healthc 2019;12:855–69
18. Azma K, RezaSoltani Z, Rezaeimoghaddam F, et al.: Efficacy of tele-rehabilitation compared with office-based physical therapy in patients with knee osteoarthritis: A randomized clinical trial. J Telemed Telecare 2018;24:560–5
19. Nelson M, Bourke M, Crossley K, et al.: Telerehabilitation is non-inferior to usual care following total hip replacement—a randomized controlled non-inferiority trial. Physiotherapy 2020;107:19–27
20. Wallisch A, Little L, Pope E, et al.: Parent perspectives of an occupational therapy telehealth intervention. Int J Telerehabil 2019;11:15–22
21. Cason J: A pilot telerehabilitation program: Delivering early intervention services to rural families. Int J Telerehabil 2009;1:29–38
22. Cason J: Telehealth: A rapidly developing service delivery model for occupational therapy. Int J Telerehabil 2014;6:29–35
23. Clawson B, Selden M, Lacks M, et al.: Complex pediatric feeding disorders: Using teleconferencing technology to improve access to a treatment program. Pediatr Nurs 2008;34:213–6
24. Crutchley S, Campbell M: TeleSpeech therapy pilot project: Stakeholder satisfaction. Int J Telerehabil 2010;2:23–30
25. Little LM, Pope E, Wallisch A, et al.: Occupation-based coaching by means of telehealth for families of young children with autism spectrum disorder. Am J Occup Ther 2018;72:7202205020p1–7
26. Polinski JM, Barker T, Gagliano N, et al.: Patients’ satisfaction with and preference for telehealth visits. J Gen Intern Med 2016;31:269–75
27. Craig L, Mullan K: Parenthood, gender and work-family time in the United States, Australia, Italy, France, and Denmark. J Marriage Fam 2010;72:1344–61
28. Uscher-Pines L, Mehrotra A: Analysis of Teladoc use seems to indicate expanded access to care for patients without prior connection to a provider. Health Aff 2014;33:258–64
29. Thiyagarajan A, Grant C, Griffiths F, et al.: Exploring patients’ and clinicians’ experiences of video consultations in primary care: A systematic scoping review. BJGP Open 2020;4:bjgpopen20X101020
30. Verduzco-Gutierrez M, Bean AC, Tenforde AS, et al.: How to conduct an outpatient telemedicine rehabilitation or prehabilitation visit. PM R 2020;12:714–20
31. Tanaka MJ, Oh LS, Martin SD, et al.: Telemedicine in the era of COVID-19: The virtual orthopaedic examination. J Bone Joint Surg Am 2020;102:e57
32. Zylstra SE: Evidence for the use of telehealth in pediatric occupational therapy. J Occup Ther Sch Early Interv 2013;6:326–55
33. Tucker JK: Perspectives of speech-language pathologists on the use of telepractice in schools: Quantitative survey results. Int J Telerehabil 2012;4:61–72
34. Hammersley V, Donaghy E, Parker R, et al.: Comparing the content and quality of video, telephone, and face-to-face consultations: A non-randomised, quasi-experimental, exploratory study in UK primary care. Br J Gen Pract 2019;69:e595–604
35. Donaghy E, Atherton H, Hammersley V, et al.: Acceptability, benefits, and challenges of video consulting: A qualitative study in primary care. Br J Gen Pract 2019;69:e586–94
Keywords:

Rehabilitation; Physical Therapy; Occupational Therapy; Speech Therapy; Telemedicine; Telehealth; Pandemics

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