Smartphone virtual reality to increase clinical balance assessment responsiveness.

OBJECTIVE To determine if a low cost smartphone based, clinically applicable virtual reality (VR) modification to the standard Balance Error Scoring System (BESS) can challenge postural stability beyond the traditional BESS. DESIGN Cross-sectional study. SETTING University research laboratory. PARTICIPANTS 28 adults (mean age 23.36 ± 2.38 years, mean height 1.74 m ± 0.13, mean weight 77.95 kg ± 16.63). MAIN OUTCOME MEASURES BESS postural control errors and center of pressure (CoP) velocity were recorded during the BESS test and a VR modified BESS (VR-BESS). The VR-BESS used a headset and phone to display a rollercoaster ride to induce a visual and vestibular challenge to postural stability. RESULTS The VR-BESS significantly increased total errors (20.93 vs. 11.42, p < 0.05) and CoP velocity summed across all stances and surfaces (52.96 cm/s vs. 37.73 cm/s, p < 0.05) beyond the traditional BESS. CONCLUSION The VR-BESS provides a standardized, and effective way to increase postural stability challenge in the clinical setting. The VR-BESS can use any smartphone technology to induce postural stability deficits that may otherwise normalize with traditional testing. Thus, providing a unique relatively inexpensive and simple to operate clinical assessment tool and∖or training stimulus.

[1]  T. Kaminski,et al.  Sway Area and Velocity Correlated With MobileMat Balance Error Scoring System (BESS) Scores. , 2016, Journal of applied biomechanics.

[2]  David H. Perrin,et al.  Repeat Administration Elicits a Practice Effect With the Balance Error Scoring System but Not With the Standardized Assessment of Concussion in High School Athletes. , 2003, Journal of athletic training.

[3]  Semyon Slobounov,et al.  Alteration of posture-related cortical potentials in mild traumatic brain injury , 2005, Neuroscience Letters.

[4]  Nicholas Stergiou,et al.  Recovery of postural control after cerebral concussion: new insights using approximate entropy. , 2006, Journal of athletic training.

[5]  Karl M. Newell,et al.  Application of Virtual Reality Graphics in Assessment of Concussion , 2006, Cyberpsychology Behav. Soc. Netw..

[6]  Kevin M. Guskiewicz,et al.  Relationship between clinical and forceplate measures of postural stability , 1999 .

[7]  S. Marshall,et al.  Acute effects and recovery time following concussion in collegiate football players: the NCAA Concussion Study. , 2003, JAMA.

[8]  Semyon Slobounov,et al.  Determining sensitivity/specificity of virtual reality-based neuropsychological tool for detecting residual abnormalities following sport-related concussion. , 2016, Neuropsychology.

[9]  David R. Bell,et al.  Systematic Review of the Balance Error Scoring System , 2011, Sports health.

[10]  S. Slobounov,et al.  Validation of a Virtual Reality Balance Module for Use in Clinical Concussion Assessment and Management , 2015, Clinical journal of sport medicine : official journal of the Canadian Academy of Sport Medicine.

[11]  K. Guskiewicz Assessment of postural stability following sport-related concussion. , 2003, Current sports medicine reports.

[12]  Semyon Slobounov,et al.  EEG and postural correlates of mild traumatic brain injury in athletes , 2005, Neuroscience Letters.

[13]  M. Whitton,et al.  Do the physical characteristics of a virtual reality device contraindicate its use for balance assessment? , 2008, Journal of sport rehabilitation.

[14]  Stroboscopic Vision to Induce Sensory Reweighting During Postural Control. , 2017, Journal of sport rehabilitation.

[15]  Philippe Allain,et al.  Virtual reality as a screening tool for sports concussion in adolescents , 2012, Brain injury.

[16]  S. Marshall,et al.  Postural Stability and Neuropsychological Deficits After Concussion in Collegiate Athletes. , 2001, Journal of athletic training.

[17]  Allen K. Sills,et al.  Consensus statement on concussion in sport—the 5th international conference on concussion in sport held in Berlin, October 2016 , 2017, British Journal of Sports Medicine.

[18]  S. Marshall,et al.  Detecting altered postural control after cerebral concussion in athletes with normal postural stability , 2005, British Journal of Sports Medicine.