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Trial registered on ANZCTR

Registration number

ACTRN12616001308482

Ethics application status

Approved

Date submitted

16/08/2016

Date registered

19/09/2016

Date last updated

22/05/2017

Type of registration

Prospectively registered

Titles & IDs

Public title

Improving biomechanical risk factors for non-contact knee injury: the effect of kinesiotape and motor control retraining on postural stability and lower limb biomechanics of a single leg squat and single leg landing task in healthy females

Scientific title

Secondary ID [1]

Nil

Universal Trial Number (UTN)

U1111-1186-2123

Trial acronym

Linked study record

Health condition

Health condition(s) or problem(s) studied:

Non-contact knee injury

Condition category

Condition code

Physical Medicine / Rehabilitation

Physiotherapy

Musculoskeletal

Other muscular and skeletal disorders

Injuries and Accidents

Other injuries and accidents

Intervention/exposure

Study type

Interventional

Description of intervention(s) / exposure

There will be multiple interventions within this study, and it will be broken down into three separate three-way cross-over trials performed at the same site with different participants which will then be combined for data analysis. Note that for all trials, participants will be randomly allocated to one of 6 sequences (ABC, ACB, BAC, BCA, CAB, CBA) so that there are equal numbers in each sequence.

Sub Trial 1. Trunk Motor Retraining - Washout Period 1 Week
Control (C): No intervention performed
Intervention A: a single session of isolated trunk motor retraining, with the therapist guiding 5x 10 second contractions of transversus abdominis (with 10sec rest periods), with real time ultrasound used for visual feedback
Intervention B: a single session of global trunk motor retraining, with the therapist guiding a 5x 10 second plank on elbows and toes (with 10 sec rest periods) with verbal feedback from therapist re: correct exercise form

Sub Trial 2: Hip Motor Retraining - Washout Period 1 Week
Control (C): No intervention performed
Intervention A: a single session of isolated hip motor retraining, with the therapist guiding two separate sets of 5x 5 second contractions of gluteus minimus and quadratus femoris respectively (with 5 sec rest periods) - real time ultrasound used as visual feedback
Intervention B: a single session of global hip motor retraining, with the therapist guiding 5x 10 sec arabesques and 5x 10sec McConnell wall push (with 10sec rest periods) - verbal feedback from therapist re:correct exercise form

Sub Trial 3: Kinesiotaping - Washout Period 1 Week
Control (C): No intervention performed
Intervention A: application of kinesiotape to the ankle joint by the therapist with effects measured immediately after application, with the tape removed after the session is complete. Tape will be applied in a sling, from the anterior tibia, travelling medially and inferiorly to move underneath the arch of the foot, and back up to the anterior tibia via the lateral aspect of the foot and leg. This will be applied with 50% stretch
Intervention B: application of kinesiotape to the hip joint by the therapist with effects measured immediately after application, with the tape removed after the session is complete. Taping will be in a spiral external rotation pattern beginning from the lateral femoral condyle, crossing the thigh anteriorly, over the greater trochanter then posteriorly to the PSIS , applied with 50% stretch.

All interventions will be supervised by a qualified APA Sports Physiotherapist. Strategies to improve adherence are irrelevant as all exercises will be performed in a single session and monitored and guided by the researchers

Intervention code [1]

Prevention

Comparator / control treatment

This study will be controlled by use of a crossover trial - the participants will act as their own control. Each participant will also undergo a control session where they complete a baseline and post-intervention assessment without receiving any intervention.

Control group

Active

Outcomes

Primary outcome [1]

2D frontal plane measure of knee valgus (frontal plane projection angle) during a single leg squat and single leg jump measured by video capture and analysis of anatomical markers using Dartfish Biomechanical Analysis software

Timepoint [1]

Immediately after intervention

Primary outcome [2]

Centre of Pressure (COP) calculations from a force plate and accompanying software - COP velocity during a single leg squat and single leg jump.

Timepoint [2]

Immediately after intervention

Secondary outcome [1]

2D frontal plane lateral trunk flexion angle during a single leg squat and single leg jump measured by video capture and analysis of anatomical markers using Dartfish Biomechanical Analysis software

Timepoint [1]

Immediately after intervention

Secondary outcome [2]

2D sagittal plane hip flexion angle during a single leg squat and single leg jump measured by video capture and analysis of anatomical markers using Dartfish Biomechanical Analysis software

Timepoint [2]

Immediately after intervention

Secondary outcome [3]

2D sagittal plane knee flexion angle during a single leg jump measured by video capture and analysis of anatomical markers using Dartfish Biomechanical Analysis software

Timepoint [3]

Immediately after intervention

Secondary outcome [4]

Centre of Pressure (COP) calculations from a force plate and accompanying software - COP length during a single leg squat and single leg jump

Timepoint [4]

Immediately After Intervention

Secondary outcome [5]

Centre of Pressure (COP) calculations from a force plate and accompanying software - COP average radial displacement during a single leg squat and single leg jump.

Timepoint [5]

Immediately After Intervention

Secondary outcome [6]

Centre of Pressure (COP) calculations from a force plate and accompanying software - COP area of 95% ellipse during a single leg squat and single leg jump.

Timepoint [6]

Immediately after intervention

Secondary outcome [7]

Force Plate Data Output - Peak Vertical Force (as calculated by force plate software) during a single leg squat and single leg jump.

Timepoint [7]

Immediately after intervention

Secondary outcome [8]

Force Plate Data Output - Peak Posterior Shear Force (as calculated by force plate software) during a single leg squat and single leg jump.

Timepoint [8]

Immediately after intervention

Eligibility

Key inclusion criteria

Female aged 18-35

Minimum age

18 Years

Maximum age

35 Years

Sex

Females

Can healthy volunteers participate?

Yes

Key exclusion criteria

6 Month history of lower limb, abdominal or spinal pathology injury or surgery, chronic ankle instability, any history of serious knee injury, vestibular or balance impairments, cognitive impairments, non-english speaking, severe cardiopulmonary, neuromuscular or integumentary disorders

Study design

Purpose of the study

Prevention

Allocation to intervention

Randomised controlled trial

Procedure for enrolling a subject and allocating the treatment (allocation concealment procedures)

N/A

Methods used to generate the sequence in which subjects will be randomised (sequence generation)

Participants will be assigned a numeric identifier, with each identifier being randomly allocated to one of 6 sequences via use of an online software (randomizer.org)

Masking / blinding

Open (masking not used)

Who is / are masked / blinded?

Intervention assignment

Crossover

Other design features

N/A

Phase

Not Applicable

Type of endpoint/s

Efficacy

Statistical methods / analysis

ANOVA and a post-hoc least significant difference test will be used for data analysis. Note that the target number of participants was determined primarily by the likely maximum number of participants that will be able to be recruited.

Recruitment

Recruitment status

Completed

Date of first participant enrolment

Anticipated

3/10/2016

Actual

6/03/2017

Date of last participant enrolment

Anticipated

6/03/2017

Actual

20/04/2017

Date of last data collection

Anticipated

5/05/2017

Actual

5/05/2017

Sample size

Target

100

Accrual to date

Final

Recruitment in Australia

Recruitment state(s)

NSW,VIC

Recruitment postcode(s) [1]

2640 - Thurgoona

Funding & Sponsors

Funding source category [1]

University

Name [1]

Charles Sturt University

Address [1]

Charles Sturt University
School of Community Health
Elizabeth Mitchell Drive, Thurgoona, NSW 2640

Country [1]

Australia

Primary sponsor type

University

Name

Charles Sturt University

Address

Charles Sturt University School of Community Health
Elizabeth Mitchell Drive
Thurgoona, NSW 2640

Country

Australia

Secondary sponsor category [1]

None

Name [1]

N/A

Address [1]

N/A

Country [1]

Ethics approval

Ethics application status

Approved

Ethics committee name [1]

Charles Sturt University Human Research Ethics Commitee

Ethics committee address [1]

School of Community Health
PO Box 789
ALBURY NSW 2640

Ethics committee country [1]

Australia

Date submitted for ethics approval [1]

12/08/2016

Approval date [1]

15/09/2016

Ethics approval number [1]

H16140

Summary

Brief summary

Non-contact knee injuries (especially those involving the ligaments of the knee) are prevalent in the female athlete population. The risk of knee injury has been largely correlated with several specific biomechanical patterns including knee valgus and lateral trunk flexion during dynamic tasks, as well as measures of postural control. The research team is interested in whether novel injury prevention strategies could help to reduce these risk factors during dynamic tasks (single leg squat and single leg landing). Specifically, we are interested to see if risk factors for knee injury can be reduced following one of the following three interventions. 

1. contracting specific muscles of the trunk, known as trunk motor control retraining, for a few moments at a time over a 5 minute period prior to performing a single leg squat and single leg jump task that will be captured using a force plate and motion analysis software for examination of joint angles. 
2. contracting specific muscles of the hip, known as hip motor control retraining, for a few moments at a time over a 5 minute period prior to performing a single leg squat and single leg jump task that will be captured using a force plate and motion analysis software for examination of joint angles. 
3. application of a soft, flexible sports tape, called kinesio tape applied to joints of the lower limb prior to performing a single leg squat and single leg jump task that will be captured using a force plate and motion analysis software for examination of joint angles. 

The research team is also interested in relationships between participant height, body composition, leg dominance, and biomechanics, which will be measured using image capture technology and a force plate. The intervention groups will consist of females aged between 18-35 because this is the population most considered 'high risk' for serious knee injury. The aim of the study is to investigate the effects of trunk motor control retraining, hip motor control retraining and application of kinesio tape on biomechanical risk factors for non-contact knee injury during a single leg squat and a single leg landing in female athletes. Participants will be asked to attend three data collection sessions, spread out over a minimum period of three weeks (in order to include for a washout period). The first session will include completion of a health and activity questionnaire and gathering of participant details, such as height and weight. In each of the three visits, participants will either undergo a control session OR trunk muscle retraining OR hip muscle retraining OR application of sports tape to the lower limb, with analysis of a single leg squat and a single leg landing via motion capture ( the sequence will be randomly allocated)

Trial website

Trial related presentations / publications

Public notes

Contacts

Principal investigator

Name

Miss Sophie Dahlenburg

Address

Charles Sturt University, Elizabeth Mitchell Drive
Room 422, Building 673 (Gordon Beavan Building)
PO Box 789
Thurgoona, NSW, 2640

Country

Australia

Phone

+61478689461

Fax

[email protected]

Contact person for public queries

Name

Sophie Dahlenburg

Address

Charles Sturt University, Elizabeth Mitchell Drive
Room 422, Building 673 (Gordon Beavan Building)
PO Box 789
Thurgoona, NSW, 2640

Country

Australia

Phone

+61478689461

Fax

[email protected]

Contact person for scientific queries

Name

Sophie Dahlenburg

Address

Charles Sturt University, Elizabeth Mitchell Drive
Room 422, Building 673 (Gordon Beavan Building)
PO Box 789
Thurgoona, NSW, 2640

Country

Australia

Phone

+61478689461

Fax

[email protected]

No information has been provided regarding IPD availability

What supporting documents are/will be available?

No Supporting Document Provided

Results publications and other study-related documents

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No additional documents have been identified.

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