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Differences between mechanically stable and unstable chronic ankle instability subgroups when examined by arthrometer and FAAM-G.

Lohrer H, Nauck T, Gehring D, Wissler S, Braag B, Gollhofer A - J Orthop Surg Res (2015)

Bottom Line: Known group validity and eta(2) were established by comparing manual and arthrometer testing results.In this investigation, the ankle arthrometer demonstrated a high diagnostic validity for the determination of mechanical ankle instability.A clear interaction between mechanical (ankle arthrometer) and functional (FAAM-G) measures could not be demonstrated.

View Article: PubMed Central - PubMed

Affiliation: Institute for Sports Medicine, Otto-Fleck-Schneise 10, D-60528, Frankfurt am Main, Germany. lohrer@smi-frankfurt.de.

ABSTRACT

Background: The objective measurement of the mechanical component and its role in chronic ankle instability is still a matter of scientific debate. We analyzed known group and diagnostic validity of our ankle arthrometer. Additionally, functional aspects of chronic ankle instability were evaluated in relation to anterior talar drawer.

Methods: By manual stress testing, 41 functionally unstable ankles were divided as mechanically stable (n = 15) or mechanically unstable (n = 26). Ankle laxity was quantified using an ankle arthrometer. Stiffness values from the load displacement curves were calculated between 40 and 60 N. Known group validity and eta(2) were established by comparing manual and arthrometer testing results. Diagnostic validity for the ankle arthrometer was determined by a 2 × 2 contingency table. The functional ankle instability severity was quantified by the German version of the Foot and Ankle Ability Measure (FAAM-G). Stiffness (40-60 N) and FAAM-G values were correlated.

Results: Mechanically unstable ankles had lower 40-60 N stiffness values than mechanically stable ankles (p = 0.006 and <0.001). Eta for the relation between manual and arthrometer anterior talar drawer testing was 0.628. With 5.1 N/mm as cut-off value, accuracy, sensitivity, and specificity were 85%, 81%, and 93%, respectively. The correlation between individual 40-60 N arthrometer stiffness values and FAAM-G scores was r = 0.286 and 0.316 (p = 0.07 and 0.04).

Conclusions: In this investigation, the ankle arthrometer demonstrated a high diagnostic validity for the determination of mechanical ankle instability. A clear interaction between mechanical (ankle arthrometer) and functional (FAAM-G) measures could not be demonstrated.

No MeSH data available.


Related in: MedlinePlus

Mean + SD demonstrating the FAAM-G scores/10 and the respective stiffness. Mean + SD demonstrating the FAAM-G scores/10 and the respective stiffness in the low region (40–60 N) of the load-deformation curves obtained from the ankle arthrometer. The p values can be extracted from Table 3.
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Fig4: Mean + SD demonstrating the FAAM-G scores/10 and the respective stiffness. Mean + SD demonstrating the FAAM-G scores/10 and the respective stiffness in the low region (40–60 N) of the load-deformation curves obtained from the ankle arthrometer. The p values can be extracted from Table 3.

Mentions: The mean values of the 40–60 N stiffness analyses and for both FAAM-G subscales were highest in the FAI group and lowest in the patients (Tables 2 and 3, Figures 4 and 5).Table 2


Differences between mechanically stable and unstable chronic ankle instability subgroups when examined by arthrometer and FAAM-G.

Lohrer H, Nauck T, Gehring D, Wissler S, Braag B, Gollhofer A - J Orthop Surg Res (2015)

Mean + SD demonstrating the FAAM-G scores/10 and the respective stiffness. Mean + SD demonstrating the FAAM-G scores/10 and the respective stiffness in the low region (40–60 N) of the load-deformation curves obtained from the ankle arthrometer. The p values can be extracted from Table 3.
© Copyright Policy - open-access
Related In: Results  -  Collection

License 1 - License 2
Show All Figures
getmorefigures.php?uid=PMC4359539&req=5

Fig4: Mean + SD demonstrating the FAAM-G scores/10 and the respective stiffness. Mean + SD demonstrating the FAAM-G scores/10 and the respective stiffness in the low region (40–60 N) of the load-deformation curves obtained from the ankle arthrometer. The p values can be extracted from Table 3.
Mentions: The mean values of the 40–60 N stiffness analyses and for both FAAM-G subscales were highest in the FAI group and lowest in the patients (Tables 2 and 3, Figures 4 and 5).Table 2

Bottom Line: Known group validity and eta(2) were established by comparing manual and arthrometer testing results.In this investigation, the ankle arthrometer demonstrated a high diagnostic validity for the determination of mechanical ankle instability.A clear interaction between mechanical (ankle arthrometer) and functional (FAAM-G) measures could not be demonstrated.

View Article: PubMed Central - PubMed

Affiliation: Institute for Sports Medicine, Otto-Fleck-Schneise 10, D-60528, Frankfurt am Main, Germany. lohrer@smi-frankfurt.de.

ABSTRACT

Background: The objective measurement of the mechanical component and its role in chronic ankle instability is still a matter of scientific debate. We analyzed known group and diagnostic validity of our ankle arthrometer. Additionally, functional aspects of chronic ankle instability were evaluated in relation to anterior talar drawer.

Methods: By manual stress testing, 41 functionally unstable ankles were divided as mechanically stable (n = 15) or mechanically unstable (n = 26). Ankle laxity was quantified using an ankle arthrometer. Stiffness values from the load displacement curves were calculated between 40 and 60 N. Known group validity and eta(2) were established by comparing manual and arthrometer testing results. Diagnostic validity for the ankle arthrometer was determined by a 2 × 2 contingency table. The functional ankle instability severity was quantified by the German version of the Foot and Ankle Ability Measure (FAAM-G). Stiffness (40-60 N) and FAAM-G values were correlated.

Results: Mechanically unstable ankles had lower 40-60 N stiffness values than mechanically stable ankles (p = 0.006 and <0.001). Eta for the relation between manual and arthrometer anterior talar drawer testing was 0.628. With 5.1 N/mm as cut-off value, accuracy, sensitivity, and specificity were 85%, 81%, and 93%, respectively. The correlation between individual 40-60 N arthrometer stiffness values and FAAM-G scores was r = 0.286 and 0.316 (p = 0.07 and 0.04).

Conclusions: In this investigation, the ankle arthrometer demonstrated a high diagnostic validity for the determination of mechanical ankle instability. A clear interaction between mechanical (ankle arthrometer) and functional (FAAM-G) measures could not be demonstrated.

No MeSH data available.


Related in: MedlinePlus