Comparing virtual reality and balance training effects on postural strategies during ball kicking in soccer players with chronic ankle instability.

The study aimed to determine if virtual reality (VR) games could enhance neuromuscular control and improve anticipatory and compensatory strategies in ball-kicking for soccer players. It was a single-blind randomized clinical trial involving 32 male soccer players with chronic ankle instability. Participants were divided into two groups: VR games and balance training. The primary outcomes measured were the amplitude and onset time of muscle activities in the peroneus longus (PL), tibialis anterior (TA), soleus (SOL), rectus femoris (RF), biceps femoris (BF), and gluteus medius (GM) in three phases: anticipatory (APA), compensatory 1 (CPA1), and compensatory 2 (CPA2). Secondary outcomes included the Y-balance test and perceived ankle instability. Evaluations were done before and after treatment. Both groups underwent 12 sessions, three times a week, each lasting 60 min. In the VR games group, there was a significant decrease in SOL muscle activity amplitude during CPA2 after treatment (P = 0.033), and the BF muscle activated earlier (P = 0.043). The balance training group showed a significant increase in GM muscle activity amplitude during APA (P = 0.037) and earlier activation of the GM muscle post-treatment (P = 0.050). Additionally, this group demonstrated significant decreases in RF activity during CPA1 and PL activity in CPA1 and CPA2 (P = 0.048, P = 0.030, and P = 0.050, respectively). Between-group comparisons indicated a significant increase in GM muscle activity amplitude during APA and a reduction during CPA1 for the balance training group compared to the VR games group (P = 0.050 and P = 0.012, respectively). Both groups showed significant reductions in perceived ankle instability (VR group: P = 0.002, balance training group: P < 0.001) and improvements on the Y-balance test (VR group: P < 0.021, balance training group: P < 0.033), although neither group showed significant improvement in the anterior direction. Overall, both VR games and balance training effectively enhanced perceived ankle stability and dynamic postural control, with neither approach showing clear superiority. Both groups exhibited improvements in muscle activation timing, though neither outperformed the other. While both interventions led to increased muscle activity amplitude during the anticipatory and compensatory phases, the balance training group achieved somewhat greater improvements. These results suggest that both VR games and balance training are effective rehabilitation approaches for chronic ankle instability, providing comparable benefits for enhancing ankle stability and neuromuscular control, without a distinct advantage of one over the other.RCT Registration: On the Iranian Registry of Clinical Trials (IRCT20230124057197N1). Registration date: 30/06/2023.
Competing Interests: Declarations. Competing interests: The authors declare no competing interests. Ethics approval: This study involves human participants. All protocols of this research adhered to the ethical principles outlined in the Declaration of Helsinki and received approval from the Tehran University of Medical Sciences Ethics Committee (IR.TUMS.FNM.REC.1401.149). Participants gave informed consent to participate in the study before taking part. Patient consent for publication: The two individuals depicted in Fig. 2 have provided written informed consent for the publication of their images in this online open-access publication.
(© 2024. The Author(s).)