Ground reaction force of the hip, knee and ankle joints in adolescent idiopathic scoliosis: comparison between normal populations
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Date
2016
Authors
Sivalingarajah, Prema
Journal Title
Journal ISSN
Volume Title
Publisher
Pusat Pengajian Sains Perubatan, Universiti Sains Malaysia
Abstract
Background
Scoliosis particularly Adolescent idiopathic scoliosis (AIS) is a relatively common
condition seen in orthopaedic practice which can modify human locomotion. Thus far,
no report yet on GRF comparison between pre- and post-operative treatment. This data
is expected to give clinicians evidence based information on how scoliosis can affect all
major weight bearing joints in term of its ground reaction force.
Aim and Objective
This study aimed to establish and compare the GRF on the three main weight-bearing
lower limbs joints during a normal walking gait, among normal person, person with
idiopathic scoliosis without spinal fusion, and person with idiopathic scoliosis with
spinal fusion.
Method
Targeted subjects were recruited from Hospital Raja Perempuan Zainab II and Hospital
Universiti Sains Malaysia, the two only referral hospitals for spinal cases in Kelantan,
Malaysia. A total of 41 subjects fulfilling the recruiting criteria were recruited, namely
control group without scoliosis (n=14), study group with scoliosis without spinal fusion
(n=14), and study group with scoliosis with spinal fusion (n=13). The gait analysis was
done at Sport Science Unit, School of Health Sciences, USM, equipped with an optical
motion capture system consisting of six high-resolution digital cameras. These values
were computed during walking on the gait platform over the force plate.
Result
GRF profiles for the three study groups on the three axes of the three weight bearing
lower limbs joints versus walking phase was established. There was a noticeable trend
observed in changing of X-axis and Z-axis GRFs versus walking phase on the three
joints among the three study groups. The GRF was at baseline during the heel strike
phase, and then it increased during the early stance and mid stance walking phases, the
GRF decreased during the toe off phase and further decreased back to the baseline.
Similar trend was also found in Y-axis GRF versus walking phase on the knee and ankle
joints, but not the hip joint. In group comparison, there were no significant difference in
the GRF of the three axes of the three joints between AIS without spinal fusion and
normal groups. There were also no significant difference in the GRF of the three axes of
the three joints between AIS with spinal fusion and normal groups. There were no
significant difference in the GRF of the X and Z axes of the three joints between AIS
without spinal fusion and AIS with spinal fusion groups. There was a significant
difference was found between the AIS without spinal fusion group (44.00±26.78) and
group of AIS with spinal fusion (17.85±17.21) at left knee Y-axis GRF, in which the
GRF is significantly higher by mean difference of 26.15 in AIS without spinal fusion
group.
Conclusion
Scoliosis had significant effect on the knee joints Y-axis GRF. Spinal fusion results in
rebalancing of the knee joint Y-axis GRF, in which Y-axis force reflects the propulsive
or braking force in a joint.
Description
Keywords
Spinal curvatures