Hamstring Injury Clinical Trial
Official title:
Investigating the Effect of L4 and L5 Lumbar Posterior -Anterior Mobilisations on Measures of Lumbar and Hamstring Range of Motion, and Electromyography Activity of the Erector Spinae and Hamstring
To compare the immediate and short-term effects of L4 and L5 Unilateral Posterior Anterior
(UPA) Mobilisations on the lumbar and hamstring range of motion and EMG activity of the
Erector Spinae and Hamstring muscles.
Using a pre-test post-test crossover design subjects lumbar flexion and active knee extension
with be recorded prior to and following unilateral zygapophyseal joint mobilisations.
Measures will be taken immediately after and then 5, 10, 15, 20, 30 and 60 minutes intervals
post intervention. Mobilisation force will be measured via force plates to ensure consistent
mobilisation pressure.
Following data collection statistical analysis will be undertaken to analyse any potential
benefit of lumbar mobilisations to influence the EMG activity of the Erector Spinae and
Hamstrings. Functional assessment of lumbar range of motion and hamstring range of motion to
be conducted and analyse any effect on movement
25-30 participants will be tested in the Olympia Building Biomechanics Laboratory at Teesside
University.
Due to the nature of the cross-over design participants will attend the laboratory twice, one
week apart.
Baseline measurements of Lumbar flexion and hamstring range of motions will be taken.
During lumbar flexion participants will be asked to stand with their arms at their side
(anatomical position) and feet 8cm part. The tester will demonstrate the flexion motion then
request the subject bends forwards are far as is possible, maintaining knee extension. A
previous reliability study (Page 2012) has indicated four lumbar flexion movements
repetitions were required to prevent the effects of passive stiffness improving the range. On
the fourth trial the measurement via the modified schober test. This requires skin markers to
be placed 10cm above and 5cm below the lumbar-sacral junction and the change distance
calculated at end range. This will be conducted by the lead author, Paul Chesterton, a
physiotherapist with appropriate insurance and qualifications.
Hamstring extensibility will be measured via the active knee extension test. Test leg will be
determined by dominant/kicking leg. Subjects will be secured into anterior pelvic tilt via a
belt and asked to extend the knee to maximal length. A purpose made wooden wedge will provide
a right angle surface to ensure the hip is held at 90 degrees. The digital inclinometer will
record the change in degrees of active knee extension post-test. The knee will be extended to
end range, determined by the subject, with the hip, knee and ankle maintained in neutral. The
non-dominant leg will be secured to the bed via a belt.
To record the surface electromyography (SEMG) activity in the muscles of the participants in
this study the Zerowire Cometa system will be used. This system will record the muscle
activity wirelessly. Every electrode unit is equipped with a small unit for signal processing
and transmission to the data receiver. The electrodes are single use disposable,
self-adhesive silver chloride dual snap on electrodes pre-set at a distance of 20mm.
All participants will have the skin prepared prior to the noraxon electrode being placed on
their skin. Skin preparation will consist of shaving the area to remove any hair then wiping
the area with alcohol wipe then the placing noraxon dual electrode in appropriate position in
relation to recommendations by Seniam (2003). The electrodes are placed in line to the
pennant of the muscle.
Electrodes will be attached according to European recommendation (seniam) at the Paraspinal
muscles, and the Biceps Femoris of the dominant leg. A baseline sEMG will then be taken
whilst the participant is at rest for 60seconds. The electrode placement and sEMG recording
will be taken by a qualified laboratory technician employed by Teesside University.
The intervention will consist of unilateral lumbar mobilisations at the L4 and L5 level in a
Posterior Anterior direction. The plinth will rest on force plates to allow the authors to
analyse the force placed through the vertebrae. Grade three mobilisations will be applied for
a one minute period three times at both L4 and L5 level. Each level will be determined by a
passive physiological intervertebral movement. Participants will receive the mobilisations at
L5 first for one minute followed by L4. This is an appropriate dose for mobilisation
application (Maitland, 2013). This process will be carried out three times.
Following either the control or intervention all measure lumbar flexion, hamstring
extensibility and sEMG activity will be recorded immediately, 5, 10, 15, 20, 30, 60 minutes
post application as a single test.
Data analysis will occur using the zerowire cometa system version 1.6. The raw rate will be
smoothed and rectified using a Butterworth algorithm with a high pass filter with a cut of
frequency of 20Hz at order 5 with the data will be rectified using route mean square (RMS)
set at a window of 20ms.
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