Erin Reynolds PsyD

Womble, M. N., Reynolds, E., Kissinger-Knox, A., Collins, M. W., Kontos, A. P., West, R. V., Eagle, S. and Elbin, R. J. (2022). “The Emerging Role of Telehealth for Concussion Clinical Care During the Coronavirus (COVID-19) Pandemic.” J Head Trauma Rehabil 37(2): E49-e54.

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The coronavirus disease 2019 (COVID-19) pandemic has substantially altered the delivery of healthcare for providers and their patients. Patients have been reticent to seek care for many diseases and injuries including concussion due to fears of potential exposure to COVID-19. Moreover, because of social distancing recommendations and stay-at-home orders, patient screening, evaluation, and delivery of care have become less efficient or impossible to perform via in-person clinic visits. Consequently, there was a sudden need to shift healthcare delivery from primarily in-person visits to telehealth. This sudden shift in healthcare delivery brings with it both challenges and opportunities for clinical concussion care. This article is designed to discuss these challenges and opportunities and provide an experiential-based framework for providing concussion care via telehealth. We first provide an overview of a clinical concussion model utilized at concussion specialty clinics from 3 geographically disparate healthcare systems for in-person service delivery prior to COVID-19. We then discuss the creation of new clinical workflows to facilitate the continued provision of concussion specialty care using telehealth. Finally, we examine lessons learned during this healthcare delivery shift including limitations and potential barriers for telehealth for concussion care, as well as opportunities for expansion of concussion care in rural and underserved areas. We also discuss the need to empirically evaluate the comparative efficacy of telehealth and in-person concussion care moving forward.

Womble, M.N., McAllister-Deitrick, J., Marchetti, G.F., Reynolds, E., Collins, M.W., Elbin, R.J. and Kontos, A.P. (2021). “Risk Factors for Vestibular and Oculomotor Outcomes After Sport-Related Concussion.” Clin J Sport Med 31(4): e193-e199.

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OBJECTIVE: To investigate the association between risk factors and vestibular-oculomotor outcomes after sport-related concussion (SRC). STUDY DESIGN: Cross-sectional study of patients seen 5.7 ± 5.4 days (range 0-30 days) after injury. SETTING: Specialty clinic. PARTICIPANTS: Eighty-five athletes (50 male athletes and 35 female athletes) aged 14.1 ± 2.8 years (range 9-24 years) seeking clinical care for SRC. INTERVENTIONS: Participants completed a clinical interview, history questionnaire, symptom inventory, and vestibular/ocularmotor screening (VOMS). Chi-square tests with odds ratios and diagnostic accuracy were used to examine the association between risk factors and VOMS outcomes. MAIN OUTCOME MEASURES: The VOMS. RESULTS: Female sex (χ2 = 4.9, P = 0.03), on-field dizziness (χ2 = 7.1, P = 0.008), fogginess (χ2 = 10.3, P = 0.001), and post-traumatic migraine (PTM) symptoms including headache (χ2 = 16.7, P = 0.001), nausea (χ2 = 10.9, P = 0.001), light sensitivity (χ2 = 14.9, P = 0.001), and noise sensitivity (χ2 = 8.7, P = 0.003) were associated with presence of one or more postconcussion VOMS score above clinical cutoff. On-field dizziness (χ2 = 3.8, P = 0.05), fogginess (χ2 = 7.9, P = 0.005), and PTM-like symptoms including nausea (χ2 = 9.0, P = 0.003) and noise sensitivity (χ2 = 7.2, P = 0.007) were associated with obtaining a postconcussion near-point convergence (NPC) distance cutoff >5 cm. The likelihood ratios were 5.93 and 5.14 for VOMS symptoms and NPC distance, respectively. CONCLUSIONS: Female sex, on-field dizziness, fogginess, and PTM symptoms were predictive of experiencing vestibular-oculomotor symptoms/impairment after SRC.