Effects of Taping and Exercise on Ankle Joint Movement in Subjects With Chronic Ankle Instability: A Preliminary Investigation
Delahunt E, O'Driscoll J, Moran K. Effects of taping and exercise on ankle joint movement in subjects with chronic ankle instability: a preliminary investigation. To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subj...
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| Published in | Archives of physical medicine and rehabilitation Vol. 90; no. 8; pp. 1418 - 1422 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
Elsevier Inc
01.08.2009
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0003-9993 1532-821X 1532-821X |
| DOI | 10.1016/j.apmr.2009.01.024 |
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| Abstract | Delahunt E, O'Driscoll J, Moran K. Effects of taping and exercise on ankle joint movement in subjects with chronic ankle instability: a preliminary investigation.
To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with chronic ankle instability.
Laboratory-based, repeated-measures study.
University biomechanics laboratory.
Subjects with chronic ankle instability (N=11) as defined by the Cumberland Ankle Instability Tool.
Each participant performed 3 single-leg drop landings onto a forceplate under 3 different conditions. These conditions were: condition 1 (no tape), condition 2 (taped), and condition 3 (postexercise taped).
Kinematic data were used to identify ankle joint sagittal plane and rear-foot frontal plane positions at 50ms before initial contact (IC) and at IC, under each of the conditions.
There was a significant effect on the angle of ankle joint plantar flexion, both at 50ms before IC (F
2,18=29.4,
P<.001) and at IC (F
2,18=16.1,
P<.001), as a result of the application of tape. Post hoc analysis revealed that condition 1 (no tape) resulted in significantly greater plantar flexion angle at 50ms before IC than condition 2 (taped) (7.7±3.0°;
P=.002) and condition 3 (postexercise taped) (8.3±4.8°;
P=.01). Similarly, condition 1 (no tape) resulted in significantly greater plantar flexion at IC than both condition 2 (taped) (5.3±3.2°;
P<.001) and condition 3 (postexercise taped) (5.3±4.4°;
P=.001). No significant differences were evident between condition 2 (taped) and condition 3 (postexercise taped) (
P>.05).
These results indicate that taping acted to reduce the degree of plantar flexion at both 50ms before and at IC with the ground, and that these reductions were retained even after exercise. |
|---|---|
| AbstractList | Delahunt E, O'Driscoll J, Moran K. Effects of taping and exercise on ankle joint movement in subjects with chronic ankle instability: a preliminary investigation. Objective - To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with chronic ankle instability. Design - Laboratory-based, repeated-measures study. Setting - University biomechanics laboratory. Participants - Subjects with chronic ankle instability (N=11) as defined by the Cumberland Ankle Instability Tool. Interventions - Each participant performed 3 single-leg drop landings onto a forceplate under 3 different conditions. These conditions were: condition 1 (no tape), condition 2 (taped), and condition 3 (postexercise taped). Main Outcome Measures - Kinematic data were used to identify ankle joint sagittal plane and rear-foot frontal plane positions at 50ms before initial contact (IC) and at IC, under each of the conditions. Results - There was a significant effect on the angle of ankle joint plantar flexion, both at 50ms before IC (F sub(2,18)=29.4, P<.001) and at IC (F sub(2,18)=16.1, P<.001), as a result of the application of tape. Post hoc analysis revealed that condition 1 (no tape) resulted in significantly greater plantar flexion angle at 50ms before IC than condition 2 (taped) (7.7+/-3.0 degree ; P=.002) and condition 3 (postexercise taped) (8.3+/-4.8 degree ; P=.01). Similarly, condition 1 (no tape) resulted in significantly greater plantar flexion at IC than both condition 2 (taped) (5.3+/-3.2 degree ; P<.001) and condition 3 (postexercise taped) (5.3+/-4.4 degree ; P=.001). No significant differences were evident between condition 2 (taped) and condition 3 (postexercise taped) (P>.05). Conclusions - These results indicate that taping acted to reduce the degree of plantar flexion at both 50ms before and at IC with the ground, and that these reductions were retained even after exercise. Abstract Delahunt E, O'Driscoll J, Moran K. Effects of taping and exercise on ankle joint movement in subjects with chronic ankle instability: a preliminary investigation. Objective To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with chronic ankle instability. Design Laboratory-based, repeated-measures study. Setting University biomechanics laboratory. Participants Subjects with chronic ankle instability (N=11) as defined by the Cumberland Ankle Instability Tool. Interventions Each participant performed 3 single-leg drop landings onto a forceplate under 3 different conditions. These conditions were: condition 1 (no tape), condition 2 (taped), and condition 3 (postexercise taped). Main Outcome Measures Kinematic data were used to identify ankle joint sagittal plane and rear-foot frontal plane positions at 50ms before initial contact (IC) and at IC, under each of the conditions. Results There was a significant effect on the angle of ankle joint plantar flexion, both at 50ms before IC (F2,18 =29.4, P <.001) and at IC (F2,18 =16.1, P <.001), as a result of the application of tape. Post hoc analysis revealed that condition 1 (no tape) resulted in significantly greater plantar flexion angle at 50ms before IC than condition 2 (taped) (7.7±3.0°; P =.002) and condition 3 (postexercise taped) (8.3±4.8°; P =.01). Similarly, condition 1 (no tape) resulted in significantly greater plantar flexion at IC than both condition 2 (taped) (5.3±3.2°; P <.001) and condition 3 (postexercise taped) (5.3±4.4°; P =.001). No significant differences were evident between condition 2 (taped) and condition 3 (postexercise taped) ( P >.05). Conclusions These results indicate that taping acted to reduce the degree of plantar flexion at both 50ms before and at IC with the ground, and that these reductions were retained even after exercise. OBJECTIVE: To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with chronic ankle instability. DESIGN: Laboratory-based, repeated- measures study. SETTING: University biomechanics laboratory. PARTICIPANTS: Subjects with chronic ankle instability (N=11) as defined by the Cumberland Ankle Instability Tool. INTERVENTIONS: Each participant performed 3 single- leg drop landings onto a forceplate under 3 different conditions. These conditions were: condition 1 (no tape), condition 2 (taped), and condition 3 (postexercise taped). MAIN OUTCOME MEASURES: Kinematic data were used to identify ankle joint sagittal plane and rear-foot frontal plane positions at 50 ms before initial contact (IC) and at IC, under each of the conditions. RESULTS: There was a significant effect on the angle of ankle joint plantar flexion, both at 50 ms before IC (F(2,18)=29.4, P<.001) and at IC (F(2,18)=16.1, P<.001), as a result of the application of tape. Post hoc analysis revealed that condition 1 (no tape) resulted in significantly greater plantar flexion angle at 50 ms before IC than condition 2 (taped) (7.7+/-3.0 degrees ; P=.002) and condition 3 (postexercise taped) (8.3+/-4.8 degrees ; P=.01). Similarly, condition 1 (no tape) resulted in significantly greater plantar flexion at IC than both condition 2 (taped) (5.3+/-3.2 degrees ; P<.001) and condition 3 (postexercise taped) (5.3+/-4.4 degrees ; P=.001). No significant differences were evident between condition 2 (taped) and condition 3 (postexercise taped) (P>.05). CONCLUSIONS: These results indicate that taping acted to reduce the degree of plantar flexion at both 50 ms before and at IC with the ground, and that these reductions were retained even after exercise. To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with chronic ankle instability. Laboratory-based, repeated-measures study. University biomechanics laboratory. Subjects with chronic ankle instability (N=11) as defined by the Cumberland Ankle Instability Tool. Each participant performed 3 single-leg drop landings onto a forceplate under 3 different conditions. These conditions were: condition 1 (no tape), condition 2 (taped), and condition 3 (postexercise taped). Kinematic data were used to identify ankle joint sagittal plane and rear-foot frontal plane positions at 50 ms before initial contact (IC) and at IC, under each of the conditions. There was a significant effect on the angle of ankle joint plantar flexion, both at 50 ms before IC (F(2,18)=29.4, P<.001) and at IC (F(2,18)=16.1, P<.001), as a result of the application of tape. Post hoc analysis revealed that condition 1 (no tape) resulted in significantly greater plantar flexion angle at 50 ms before IC than condition 2 (taped) (7.7+/-3.0 degrees ; P=.002) and condition 3 (postexercise taped) (8.3+/-4.8 degrees ; P=.01). Similarly, condition 1 (no tape) resulted in significantly greater plantar flexion at IC than both condition 2 (taped) (5.3+/-3.2 degrees ; P<.001) and condition 3 (postexercise taped) (5.3+/-4.4 degrees ; P=.001). No significant differences were evident between condition 2 (taped) and condition 3 (postexercise taped) (P>.05). These results indicate that taping acted to reduce the degree of plantar flexion at both 50 ms before and at IC with the ground, and that these reductions were retained even after exercise. Delahunt E, O'Driscoll J, Moran K. Effects of taping and exercise on ankle joint movement in subjects with chronic ankle instability: a preliminary investigation. To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with chronic ankle instability. Laboratory-based, repeated-measures study. University biomechanics laboratory. Subjects with chronic ankle instability (N=11) as defined by the Cumberland Ankle Instability Tool. Each participant performed 3 single-leg drop landings onto a forceplate under 3 different conditions. These conditions were: condition 1 (no tape), condition 2 (taped), and condition 3 (postexercise taped). Kinematic data were used to identify ankle joint sagittal plane and rear-foot frontal plane positions at 50ms before initial contact (IC) and at IC, under each of the conditions. There was a significant effect on the angle of ankle joint plantar flexion, both at 50ms before IC (F 2,18=29.4, P<.001) and at IC (F 2,18=16.1, P<.001), as a result of the application of tape. Post hoc analysis revealed that condition 1 (no tape) resulted in significantly greater plantar flexion angle at 50ms before IC than condition 2 (taped) (7.7±3.0°; P=.002) and condition 3 (postexercise taped) (8.3±4.8°; P=.01). Similarly, condition 1 (no tape) resulted in significantly greater plantar flexion at IC than both condition 2 (taped) (5.3±3.2°; P<.001) and condition 3 (postexercise taped) (5.3±4.4°; P=.001). No significant differences were evident between condition 2 (taped) and condition 3 (postexercise taped) ( P>.05). These results indicate that taping acted to reduce the degree of plantar flexion at both 50ms before and at IC with the ground, and that these reductions were retained even after exercise. To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with chronic ankle instability.OBJECTIVETo examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with chronic ankle instability.Laboratory-based, repeated-measures study.DESIGNLaboratory-based, repeated-measures study.University biomechanics laboratory.SETTINGUniversity biomechanics laboratory.Subjects with chronic ankle instability (N=11) as defined by the Cumberland Ankle Instability Tool.PARTICIPANTSSubjects with chronic ankle instability (N=11) as defined by the Cumberland Ankle Instability Tool.Each participant performed 3 single-leg drop landings onto a forceplate under 3 different conditions. These conditions were: condition 1 (no tape), condition 2 (taped), and condition 3 (postexercise taped).INTERVENTIONSEach participant performed 3 single-leg drop landings onto a forceplate under 3 different conditions. These conditions were: condition 1 (no tape), condition 2 (taped), and condition 3 (postexercise taped).Kinematic data were used to identify ankle joint sagittal plane and rear-foot frontal plane positions at 50 ms before initial contact (IC) and at IC, under each of the conditions.MAIN OUTCOME MEASURESKinematic data were used to identify ankle joint sagittal plane and rear-foot frontal plane positions at 50 ms before initial contact (IC) and at IC, under each of the conditions.There was a significant effect on the angle of ankle joint plantar flexion, both at 50 ms before IC (F(2,18)=29.4, P<.001) and at IC (F(2,18)=16.1, P<.001), as a result of the application of tape. Post hoc analysis revealed that condition 1 (no tape) resulted in significantly greater plantar flexion angle at 50 ms before IC than condition 2 (taped) (7.7+/-3.0 degrees ; P=.002) and condition 3 (postexercise taped) (8.3+/-4.8 degrees ; P=.01). Similarly, condition 1 (no tape) resulted in significantly greater plantar flexion at IC than both condition 2 (taped) (5.3+/-3.2 degrees ; P<.001) and condition 3 (postexercise taped) (5.3+/-4.4 degrees ; P=.001). No significant differences were evident between condition 2 (taped) and condition 3 (postexercise taped) (P>.05).RESULTSThere was a significant effect on the angle of ankle joint plantar flexion, both at 50 ms before IC (F(2,18)=29.4, P<.001) and at IC (F(2,18)=16.1, P<.001), as a result of the application of tape. Post hoc analysis revealed that condition 1 (no tape) resulted in significantly greater plantar flexion angle at 50 ms before IC than condition 2 (taped) (7.7+/-3.0 degrees ; P=.002) and condition 3 (postexercise taped) (8.3+/-4.8 degrees ; P=.01). Similarly, condition 1 (no tape) resulted in significantly greater plantar flexion at IC than both condition 2 (taped) (5.3+/-3.2 degrees ; P<.001) and condition 3 (postexercise taped) (5.3+/-4.4 degrees ; P=.001). No significant differences were evident between condition 2 (taped) and condition 3 (postexercise taped) (P>.05).These results indicate that taping acted to reduce the degree of plantar flexion at both 50 ms before and at IC with the ground, and that these reductions were retained even after exercise.CONCLUSIONSThese results indicate that taping acted to reduce the degree of plantar flexion at both 50 ms before and at IC with the ground, and that these reductions were retained even after exercise. |
| Author | Delahunt, Eamonn Moran, Kieran O'Driscoll, Jeremiah |
| Author_xml | – sequence: 1 givenname: Eamonn surname: Delahunt fullname: Delahunt, Eamonn email: eamonn.delahunt@ucd.ie organization: School of Physiotherapy and Performance Science, University College Dublin, Dublin, Republic of Ireland – sequence: 2 givenname: Jeremiah surname: O'Driscoll fullname: O'Driscoll, Jeremiah organization: Mount Carmel Hospital, Dublin, Republic of Ireland – sequence: 3 givenname: Kieran surname: Moran fullname: Moran, Kieran organization: School of Health and Human Performance, Dublin City University, Dublin, Republic of Ireland |
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| Keywords | CAI IC FI Rehabilitation CAIT initial contact Cumberland Ankle Instability Tool functional instability chronic ankle instability Ankle Physical exercise Human Ankle joint Chronic Reeducation Bandage Orthopedics Instability |
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| Snippet | Delahunt E, O'Driscoll J, Moran K. Effects of taping and exercise on ankle joint movement in subjects with chronic ankle instability: a preliminary... Abstract Delahunt E, O'Driscoll J, Moran K. Effects of taping and exercise on ankle joint movement in subjects with chronic ankle instability: a preliminary... To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with chronic ankle... OBJECTIVE: To examine the effects of ankle joint taping and exercise on ankle joint sagittal plane and rear-foot frontal plane movement in subjects with... |
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| SubjectTerms | Analysis of Variance Ankle Joint - physiopathology Bandages Biological and medical sciences Chronic Disease Diseases of the osteoarticular system Exercise Therapy - methods Female Humans Joint Instability - physiopathology Joint Instability - rehabilitation Male Medical sciences Miscellaneous Movement - physiology Physical Medicine and Rehabilitation Radiotherapy. Instrumental treatment. Physiotherapy. Reeducation. Rehabilitation, orthophony, crenotherapy. Diet therapy and various other treatments (general aspects) Rehabilitation Treatment Outcome |
| Title | Effects of Taping and Exercise on Ankle Joint Movement in Subjects With Chronic Ankle Instability: A Preliminary Investigation |
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