Wobble board balance assessment in subjects with chronic ankle instability

•Wobble board may detect balance deficits in subjects with chronic ankle instability.•Subjects with chronic ankle instability have worst balance on their injured limb.•The single wobble board outcome reduces previous constraints of data interpretation.•Wobble boards can fill the gap between subjecti...

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Published in	Gait & posture Vol. 68; no. NA; pp. 352 - 356
Main Authors	Fusco, Andrea, Giancotti, Giuseppe Francesco, Fuchs, Philip X., Wagner, Herbert, Varalda, Carlo, Cortis, Cristina
Format	Journal Article
Language	English
Published	England Elsevier B.V 01.02.2019
Subjects	Instability Neuromuscular performance Postural control Prevention Rehabilitation Prevention Instability Rehabilitation Postural control Neuromuscular performance
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Abstract	•Wobble board may detect balance deficits in subjects with chronic ankle instability.•Subjects with chronic ankle instability have worst balance on their injured limb.•The single wobble board outcome reduces previous constraints of data interpretation.•Wobble boards can fill the gap between subjective and laboratory-based test.•Balance performance progress can be accurately monitored via wobble board. Wobble boards (WBs), commonly used to train postural control, have been recently equipped with accelerometers connected to a computer displaying real-time balance performances. However, little is known about their ability to detect balance deficits in subjects with unilateral chronic ankle instability (CAI). To determine if computerized WBs can detect balance deficits in subjects with unilateral CAI. Fifteen subjects with unilateral CAI and fifteen uninjured subjects performed one WB test and one Y Balance Test (YBT) during two separate randomized sessions. WB performance was assessed as the time (s) spent on the platform by keeping it flat at 0° during three 30-s trials for each limb. Normalized (%) reach distances values for anterior, posteromedial, posterolateral directions and composite were recorded for YBT. WB has been shown to be a reliable and accurate device for detecting balance deficits between and within subjects with unilateral CAI. The area under the curve for receiver operating characteristic was 0.80 (asymptotic significance 0.001), suggesting that WBs have the capability to accurately discriminate between injured and uninjured limbs. Computerized WBs can fill the gap caused by limitations between subjective-based clinical assessment and laboratory-based testing, especially in field-based settings, where specificity, transportability and time constraints are crucial. The results of the present study suggest that WBs may facilitate the detection of balance impairments in subjects with unilateral CAI, without complexity in its use or data interpretation.
AbstractList	Wobble boards (WBs), commonly used to train postural control, have been recently equipped with accelerometers connected to a computer displaying real-time balance performances. However, little is known about their ability to detect balance deficits in subjects with unilateral chronic ankle instability (CAI). To determine if computerized WBs can detect balance deficits in subjects with unilateral CAI. Fifteen subjects with unilateral CAI and fifteen uninjured subjects performed one WB test and one Y Balance Test (YBT) during two separate randomized sessions. WB performance was assessed as the time (s) spent on the platform by keeping it flat at 0° during three 30-s trials for each limb. Normalized (%) reach distances values for anterior, posteromedial, posterolateral directions and composite were recorded for YBT. WB has been shown to be a reliable and accurate device for detecting balance deficits between and within subjects with unilateral CAI. The area under the curve for receiver operating characteristic was 0.80 (asymptotic significance 0.001), suggesting that WBs have the capability to accurately discriminate between injured and uninjured limbs. Computerized WBs can fill the gap caused by limitations between subjective-based clinical assessment and laboratory-based testing, especially in field-based settings, where specificity, transportability and time constraints are crucial. The results of the present study suggest that WBs may facilitate the detection of balance impairments in subjects with unilateral CAI, without complexity in its use or data interpretation. Wobble boards (WBs), commonly used to train postural control, have been recently equipped with accelerometers connected to a computer displaying real-time balance performances. However, little is known about their ability to detect balance deficits in subjects with unilateral chronic ankle instability (CAI).BACKGROUNDWobble boards (WBs), commonly used to train postural control, have been recently equipped with accelerometers connected to a computer displaying real-time balance performances. However, little is known about their ability to detect balance deficits in subjects with unilateral chronic ankle instability (CAI).To determine if computerized WBs can detect balance deficits in subjects with unilateral CAI.OBJECTIVETo determine if computerized WBs can detect balance deficits in subjects with unilateral CAI.Fifteen subjects with unilateral CAI and fifteen uninjured subjects performed one WB test and one Y Balance Test (YBT) during two separate randomized sessions. WB performance was assessed as the time (s) spent on the platform by keeping it flat at 0° during three 30-s trials for each limb. Normalized (%) reach distances values for anterior, posteromedial, posterolateral directions and composite were recorded for YBT.METHODSFifteen subjects with unilateral CAI and fifteen uninjured subjects performed one WB test and one Y Balance Test (YBT) during two separate randomized sessions. WB performance was assessed as the time (s) spent on the platform by keeping it flat at 0° during three 30-s trials for each limb. Normalized (%) reach distances values for anterior, posteromedial, posterolateral directions and composite were recorded for YBT.WB has been shown to be a reliable and accurate device for detecting balance deficits between and within subjects with unilateral CAI. The area under the curve for receiver operating characteristic was 0.80 (asymptotic significance 0.001), suggesting that WBs have the capability to accurately discriminate between injured and uninjured limbs.RESULTSWB has been shown to be a reliable and accurate device for detecting balance deficits between and within subjects with unilateral CAI. The area under the curve for receiver operating characteristic was 0.80 (asymptotic significance 0.001), suggesting that WBs have the capability to accurately discriminate between injured and uninjured limbs.Computerized WBs can fill the gap caused by limitations between subjective-based clinical assessment and laboratory-based testing, especially in field-based settings, where specificity, transportability and time constraints are crucial. The results of the present study suggest that WBs may facilitate the detection of balance impairments in subjects with unilateral CAI, without complexity in its use or data interpretation.SIGNIFICANCEComputerized WBs can fill the gap caused by limitations between subjective-based clinical assessment and laboratory-based testing, especially in field-based settings, where specificity, transportability and time constraints are crucial. The results of the present study suggest that WBs may facilitate the detection of balance impairments in subjects with unilateral CAI, without complexity in its use or data interpretation. •Wobble board may detect balance deficits in subjects with chronic ankle instability.•Subjects with chronic ankle instability have worst balance on their injured limb.•The single wobble board outcome reduces previous constraints of data interpretation.•Wobble boards can fill the gap between subjective and laboratory-based test.•Balance performance progress can be accurately monitored via wobble board. Wobble boards (WBs), commonly used to train postural control, have been recently equipped with accelerometers connected to a computer displaying real-time balance performances. However, little is known about their ability to detect balance deficits in subjects with unilateral chronic ankle instability (CAI). To determine if computerized WBs can detect balance deficits in subjects with unilateral CAI. Fifteen subjects with unilateral CAI and fifteen uninjured subjects performed one WB test and one Y Balance Test (YBT) during two separate randomized sessions. WB performance was assessed as the time (s) spent on the platform by keeping it flat at 0° during three 30-s trials for each limb. Normalized (%) reach distances values for anterior, posteromedial, posterolateral directions and composite were recorded for YBT. WB has been shown to be a reliable and accurate device for detecting balance deficits between and within subjects with unilateral CAI. The area under the curve for receiver operating characteristic was 0.80 (asymptotic significance 0.001), suggesting that WBs have the capability to accurately discriminate between injured and uninjured limbs. Computerized WBs can fill the gap caused by limitations between subjective-based clinical assessment and laboratory-based testing, especially in field-based settings, where specificity, transportability and time constraints are crucial. The results of the present study suggest that WBs may facilitate the detection of balance impairments in subjects with unilateral CAI, without complexity in its use or data interpretation. Highlights: Wobble board may detect balance deficits in subjects with chronic ankle instability. Subjects with chronic ankle instability have worst balance on their injured limb. The single wobble board outcome reduces previous constraints of data interpretation. Wobble boards can fill the gap between subjective and laboratory-based test. Balance performance progress can be accurately monitored via wobble board. Abstract: Background: Wobble boards (WBs), commonly used to train postural control, have been recently equipped with accelerometers connected to a computer displaying real-time balance performances. However, little is known about their ability to detect balance deficits in subjects with unilateral chronic ankle instability (CAI). Objective: To determine if computerized WBs can detect balance deficits in subjects with unilateral CAI. Methods: Fifteen subjects with unilateral CAI and fifteen uninjured subjects performed one WB test and one Y Balance Test (YBT) during two separate randomized sessions. WB performance was assessed as the time (s) spent on the platform by keeping it flat at 0° during three 30-s trials for each limb. Normalized (%) reach distances values for anterior, posteromedial, posterolateral directions and composite were recorded for YBT. Results: WB has been shown to be a reliable and accurate device for detecting balance deficits between and within subjects with unilateral CAI. The area under the curve for receiver operating characteristic was 0.80 (asymptotic significance 0.001), suggesting that WBs have the capability to accurately discriminate between injured and uninjured limbs. Significance Computerized WBs can fill the gap caused by limitations between subjective-based clinical assessment and laboratory-based testing, especially in field-based settings, where specificity, transportability and time constraints are crucial. The results of the present study suggest that WBs may facilitate the detection of balance impairments in subjects with unilateral CAI, without complexity in its use or data interpretation.
Author	Varalda, Carlo Giancotti, Giuseppe Francesco Cortis, Cristina Fuchs, Philip X. Wagner, Herbert Fusco, Andrea
Author_xml	– sequence: 1 givenname: Andrea surname: Fusco fullname: Fusco, Andrea email: andrea.fusco@unicas.it organization: Department of Human Sciences, Society and Health, University of Cassino and Lazio Meridionale, Via S. Angelo - Località Folcara, 03043, Cassino FR, Italy – sequence: 2 givenname: Giuseppe Francesco surname: Giancotti fullname: Giancotti, Giuseppe Francesco email: g.giancotti@unicas.it organization: Department of Human Sciences, Society and Health, University of Cassino and Lazio Meridionale, Via S. Angelo - Località Folcara, 03043, Cassino FR, Italy – sequence: 3 givenname: Philip X. orcidid: 0000-0002-7463-8301 surname: Fuchs fullname: Fuchs, Philip X. email: philipxaver.fuchs@sbg.ac.at organization: Department of Human Sciences, Society and Health, University of Cassino and Lazio Meridionale, Via S. Angelo - Località Folcara, 03043, Cassino FR, Italy – sequence: 4 givenname: Herbert orcidid: 0000-0002-4197-0930 surname: Wagner fullname: Wagner, Herbert email: herbert.wagner@sbg.ac.at organization: Department of Sports Science and Kinesiology, University of Salzburg, Schlossallee 49 Hallein (Rif), A-5400, Salzburg, Austria – sequence: 5 givenname: Carlo surname: Varalda fullname: Varalda, Carlo email: carlo.varalda@federpesi.it organization: Italian Weightlifting Federation FIPE, Viale Tiziano 70, 00196, Roma, Italy – sequence: 6 givenname: Cristina surname: Cortis fullname: Cortis, Cristina email: c.cortis@unicas.it organization: Department of Human Sciences, Society and Health, University of Cassino and Lazio Meridionale, Via S. Angelo - Località Folcara, 03043, Cassino FR, Italy
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Snippet	•Wobble board may detect balance deficits in subjects with chronic ankle instability.•Subjects with chronic ankle instability have worst balance on their... Wobble boards (WBs), commonly used to train postural control, have been recently equipped with accelerometers connected to a computer displaying real-time... Highlights: Wobble board may detect balance deficits in subjects with chronic ankle instability. Subjects with chronic ankle instability have worst balance on...
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SubjectTerms	Instability Neuromuscular performance Postural control Prevention Rehabilitation
Title	Wobble board balance assessment in subjects with chronic ankle instability
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