Subscribe to RSS
DOI: 10.3766/jaaa.15110
Examining Effects of Physical Exertion on the Dynamic Visual Acuity Test in Collegiate Athletes
Publication History
Publication Date:
26 June 2020 (online)
Abstract
Background:
Acute symptoms of dizziness and/or imbalance commonly experienced in athletes postconcussion are speculated to arise from dysfunction at multiple levels (i.e., inner ear or central vestibular system) to appropriately integrate afferent sensory information. Disruption along any pathway of the balance system can result in symptoms of dizziness, decreased postural control function (vestibulospinal reflex), and reduced vestibulo-ocular reflex function. This may also lead to decreased gaze stability with movements of the head and may account for symptoms of blurred vision or diplopia reported in almost half of athletes sustaining a concussion. Current concussion position statements include measures of postural control to examine changes to the balance system postconcussion. The Balance Error Scoring System (BESS) is a commonly used low-cost postural control measure for concussion assessment. Although this is a widely used measure for documenting balance function on both immediate (sideline) and recovery monitoring, the BESS has been shown to be affected by physical exertion. Therefore, the BESS may not be the most efficient means of examining functional changes to the balance system immediately after head injury. Dynamic Visual Acuity Test (DVAT) has been found to effectively evaluate and monitor changes to the gaze stability system postinjury. Thus, DVAT may be an additional measure in the concussion assessment battery, as well as an alternative for more immediate sideline assessment to help make objective return-to-play decisions.
Purpose:
The aim of the study was to determine the effects of physical exertion on a clinical vestibular assessment, the DVAT, in collegiate athletes, as a first step in defining the role of this measure in the concussion assessment battery.
Research Design:
Cross-sectional, repeated-measures design.
Study Sample:
Twenty-eight healthy collegiate athletes (20 males, 8 females; age = 20.25 ± 1.46 yr, range = 18–25 yr) volunteered to participate in the study.
Data Collection and Analysis:
Participants were randomly assigned to complete a 20-min protocol of physical exertion or rest. DVAT was completed pre-exertion or rest (pre-DVAT), immediately following the 20-min protocol (post-DVAT I), and again 10 min after the completion of the 20-min protocol (post-DVAT II). Ratings of perceived exertion (RPE) and heart rate (HR) were monitored throughout testing. Repeated-measures analysis of the variance were used to examine the effects of exertion on DVAT. Additionally, intraclass correlation coefficients were used to examine test reliability.
Results:
No significant main effect was observed for right and left DVAT logarithm of the minimal angle of resolution loss between groups or across time points (p > 0.05). A significant main effect was observed for RPE and HR for groups and time points (p < 0.001), indicating adequate physical exertion and rest. Fair to good reliability (intraclass correlation coefficient values between 0.4 and 0.74) was observed for both rightward and leftward movements of the head across the three time points.
Conclusions:
Findings from this study suggest that DVAT is not affected by physical exertion and may provide a more immediate assessment of the balance system that may be of use for the sideline concussion assessment. Future studies will be performed to examine additional factors (e.g., background noise, complex visual backgrounds) that may affect DVAT performance in the sideline environment.
-
REFERENCES
- Aligene K, Lin E. 2013; Vestibular and balance treatment of the concussed athlete. NeuroRehabilitation 32 (03) 543-553
- Alsalaheen BA, Mucha A, Morris LO, Whitney SL, Furman JM, Camiolo-Reddy CE, Collins MW, Lovell MR, Sparto PJ. 2010; Vestibular rehabilitation for dizziness and balance disorders after concussion. J Neurol Phys Ther 34 (02) 87-93
- Alsalaheen BA, Whitney SL, Mucha A, Morris LO, Furman JM, Sparto PJ. 2013; Exercise prescription patterns in patients treated with vestibular rehabilitation after concussion. Physiother Res Int 18 (02) 100-108
- Barber HO. 1969; Head injury audiological and vestibular findings. Ann Otol Rhinol Laryngol 78 (02) 239-252
- Binder LM. 1997; A review of mild head trauma. Part II: Clinical implications. J Clin Exp Neuropsychol 19 (03) 432-457
- Borg GA. 1982; Psychophysical bases of perceived exertion. Med Sci Sports Exerc 14 (05) 377-381
- Ellis MJ, Leddy JJ, Willer B. 2015; Physiological, vestibulo-ocular and cervicogenic post-concussion disorders: an evidence-based classification system with directions for treatment. Brain Inj 29 (02) 238-248
- Fife TD, Kalra D. 2015; Persistent vertigo and dizziness after mild traumatic brain injury. Ann N Y Acad Sci 1343: 97-105
- Fleiss JL. 1986. Design and Analysis of Clinical Experiments. New York, NY: John Wiley & Sons;
- Fox ZG, Mihalik JP, Blackburn JT, Battaglini CL, Guskiewicz KM. 2008; Return of postural control to baseline after anaerobic and aerobic exercise protocols. J Athl Train 43 (05) 456-463
- Gannon RP, Willson GN, Roberts ME, Pearse HJ. 1978; Auditory and vestibular damage in head injuries at work. Arch Otolaryngol 104 (07) 404-408
- Giza CC, Kutcher JS, Ashwal S, Barth J, Getchius TS, Gioia GA, Gronseth GS, Guskiewicz K, Mandel S, Manley G, McKeag DB, Thurman DJ, Zafonte R. 2013; Summary of evidence-based guideline update: evaluation and management of concussion in sports: report of the Guideline Development Subcommittee of the American Academy of Neurology. Neurology 80 (24) 2250-2257
- Gottshall K, Drake A, Gray N, McDonald E, Hoffer ME. 2003; Objective vestibular tests as outcome measures in head injury patients. Laryngoscope 113 (10) 1746-1750
- Gottshall KR, Gray NL, Drake AI, Tejidor R, Hoffer ME, McDonald EC. 2007; To investigate the influence of acute vestibular impairment following mild traumatic brain injury on subsequent ability to remain on activity duty 12 months later. Mil Med 172 (08) 852-857
- Gottshall KR, Hoffer ME. 2010; Tracking recovery of vestibular function in individuals with blast-induced head trauma using vestibular-visual-cognitive interaction tests. J Neurol Phys Ther 34 (02) 94-97
- Guskiewicz KM, Bruce SL, Cantu RC, Ferrara MS, Kelly JP, McCrea M, Putukian M, Valovich McLeod TC. 2004; National athletic trainers’ association position statement: Management of sport-related concussion. J Athl Train 39 (03) 280-297
- Guskiewicz KM, Ross SE, Marshall SW. 2001; Postural stability and neuropsychological deficits after concussion in collegiate athletes. J Athl Train 36 (03) 263-273
- Harmon KG, Drezner JA, Gammons M, Guskiewicz KM, Halstead M, Herring SA, Kutcher JS, Pana A, Putukian M, Roberts WO. 2013; American Medical Society for Sports Medicine position statement: concussion in sport. Br J Sports Med 47 (01) 15-26
- Honaker JA, Criter RE, Patterson JN, Jones SM. 2015; Gaze stabilization test asymmetry score as an indicator of previous concussion in a cohort of collegiate football players. Clin J Sport Med 25 (04) 361-366
- Honaker JA, Shepard NT. 2011; Use of the Dynamic Visual Acuity Test as a screener for community-dwelling older adults who fall. J Vestib Res 21 (05) 267-276
- Ingebrigtsen T, Waterloo K, Marup-Jensen S, Attner E, Romner B. 1998; Quantification of post-concussion symptoms 3 months after minor head injury in 100 consecutive patients. J Neurol 245 (09) 609-612
- Kaufman DR, Puckett MJ, Smith MJ, Wilson KS, Cheema R, Landers MR. 2014; Test-retest reliability and responsiveness of gaze stability and dynamic visual acuity in high school and college football players. Phys Ther Sport 15 (03) 181-188
- Kay DW, Kerr TA, Lassman LP. 1971; Brain trauma and the postconcussional syndrome. Lancet 298 (7733) 1052-1055
- Linthicum FH, Rand CW. 1931; Neuro-otological observations in concussion of the brain. Arch Otolaryngol 13: 785-821
- Lovell M. 2009; The management of sports-related concussion: current status and future trends. Clin Sports Med 28 (01) 95-111
- McCrea M, Hammeke T, Olsen G, Leo P, Guskiewicz K. 2004; Unreported concussion in high school football players: implications for prevention. Clin J Sport Med 14 (01) 13-17
- McCrory P, Meeuwisse WH, Aubry M. et al 2013; Consensus statement on concussion in sport: the 4th International Conference on Concussion in Sport held in Zurich, November 2012. Br J Sports Med 47 (05) 250-258
- Mohammed MT, Whitney SL, Marchetti GF, Sparto PJ, Ward BK, Furman JM. 2011; The reliability and response stability of dynamic visual testing of the vestibulo-ocular reflex in patients with vestibular disease. J Vestib Res 21 (05) 277-288
- Moyna NM, Robertson RJ, Meckes CL, Peoples JA, Millich NB, Thompson PD. 2001; Intermodal comparison of energy expenditure at exercise intensities corresponding to the perceptual preference range. Med Sci Sports Exerc 33 (08) 1404-1410
- Mucha A, Collins MW, Elbin RJ, Furman JM, Troutman-Enseki C, DeWolf RM, Marchetti G, Kontos AP. 2014; A brief vestibular/ocular motor screening (VOMS) assessment to evaluate concussions: preliminary findings. Am J Sports Med 42 (10) 2479-2486
- Murray NG, Ambati VNP, Contreras MM, Salvatore AP, Reed-Jones RJ. 2014; Assessment of oculomotor control and balance post-concussion: a preliminary study for a novel approach to concussion management. Brain Inj 28: 496-503
- NeuroCom International, Inc 2011. Clinical Integration Manual, InVision System. Clackamas, OR: NeuroCom International, Inc;
- NeuroCom International, Inc (2013) VSR Sport: Play a Smarter Game. http://www.playasmartergame.com/ . Accessed September 20, 2013
- Notebaert AJ, Guskiewicz KM. 2005; Current trends in athletic training practice for concussion assessment and management. J Athl Train 40 (04) 320-325
- Onate JA, Beck BC, Van Lunen BL. 2007; On-field testing environment and balance error scoring system performance during preseason screening of healthy collegiate baseball players. J Athl Train 42 (04) 446-451
- Putukian M, Raftery M, Guskiewicz K, Raftery M, Guskiewicz K, Herring S, Aubry M, Cantu RC, Molloy M. 2013; Onfield assessment of concussion in the adult athlete. Br J Sports Med 47 (05) 285-288
- Rahn C, Munkasy BA, Barry Joyner A, Buckley TA. 2015; Sideline performance of the balance error scoring system during a live sporting event. Clin J Sport Med 25 (03) 248-253
- Robertson RJ, Moyna NM, Sward KL, Millich NB, Goss FL, Thompson PD. 2000; Gender comparison of RPE at absolute and relative physiological criteria. Med Sci Sports Exerc 32 (12) 2120-2129
- Susco TM, Valovich McLeod TC, Gansneder BM, Shultz SJ. 2004; Balance recovers within 20 minutes after exertion as measured by the balance error scoring system. J Athl Train 39 (03) 241-246
- Valovich McLeod TC, Hale TD. 2015; Vestibular and balance issues following sport-related concussion. Brain Inj 29 (02) 175-184
- van der Naalt J. 2001; Prediction of outcome in mild to moderate head injury: a review. J Clin Exp Neuropsychol 23 (06) 837-851
- Ward BK, Mohammad MT, Whitney SL, Marchetti GF, Furman JM. 2010; The reliability, stability, and concurrent validity of a test of gaze stabilization. J Vestib Res 20 (05) 363-372
- Wilkins JC, Valovich McLeod TC, Perrin DH, Gansneder BM. 2004; Performance on the balance error scoring system decreases after fatigue. J Athl Train 39 (02) 156-161
- Williamson IJ, Goodman D. 2006; Converging evidence for the under-reporting of concussions in youth ice hockey. Br J Sports Med 40 (02) 128-132, discussion 128–132
- Zhou G, Brodsky JR. 2015; Objective vestibular testing of children with dizziness and balance complaints following sports-related concussions. Otolaryngol Head Neck Surg 152 (06) 1133-1139