Lumbar spinal stenosis (LSS) is a clinical condition in which the structures within the
canal are compressed as a result of the narrowing of the lumbar spinal canal and nerve
root canals, which is often caused by bones and soft tissues, causing back pain and
neurological deficits in the lower extremities. The incidence in the general population
has been reported as 1.7-8%. It begins to be seen after the age of 50 and its incidence
increases after the age of 65. According to studies, LSS has been detected in 5% of
patients who apply to a general practitioner with persistent back pain. Although it can
be congenital, most cases of lumbar spinal stenosis are caused by changes in the aging
spine as a result of degenerative processes. Changes that can lead to lumbar spinal
stenosis include facet joint hypertrophy, decreased intervertebral disc height,
osteophyte formation and ligamentum flavum hypertrophy. Clinical findings of LSS include
symptoms such as back pain, leg pain, paresthesia, weakness and neurogenic claudication.
Patients with neurogenic claudication experience increased pain when walking and standing
and decreased pain when bending forward. Patients with LSS often change their spinal
posture to allow more lumbar flexion to minimize pain and symptoms while walking; this
can lead to gait abnormalities.
Walking function is important for the maintenance of daily living activities. Gait
disturbance is associated with poor health outcomes. In a gait cycle, the foot has two
distinct phases: stance and swing. These gait phases can be analyzed as a proportion of
the gait cycle and compared to normative values. Furthermore, with the use of more
advanced systems and devices, it is also possible to assess asymmetries and gait
variability in the pelvis and other structures during gait.
Technological advances have led to the emergence of reliable surface sensor technologies
capable of gait analysis in the form of wearable accelerometers. These devices provide
continuous and objective data streams, including parameters such as daily step count,
step rate, and step length. Numerous studies have investigated walking function in LSS
patients using various devices including motion capture systems, inertial sensors,
accelerometers, wearable technologies, electromyography (EMG) and force platforms. In the
study, walking impairment in LSS patients compared to healthy participants was a
significant decrease in walking speed and step length, a slight decrease in cadence and a
slight increase in step duration. As the double-step support and stance phase ratios
increase, the swing phase ratio decreases. Walking asymmetry between the feet also
increases in all phases including stance, swing and double-step support. In addition, LSS
patients may exhibit gait variability with each step. The reasons for these changing gait
patterns are thought to be radicular pain, muscle weakness, low walking tolerance and
increased instability with lumbar spine posture in the lumbar extension position during
walking.
Winter et al. evaluated the walking ability in daily life in patients with knee or hip
osteoarthritis and lumbar spinal stenosis with the help of a wearable accelerometer
device. As a result of the study, walking ability was found to be significantly lower in
LSS individuals compared to healthy individuals.
Santos et al. examined the kinematic and spatiotemporal gait parameters in patients who
underwent surgery with a diagnosis of disc herniation or lumbar stenosis before surgery
and 1 and 6 months after surgery. As a result of the study, there was an increase in the
pelvis, hip and knee range of motion (ROM) after surgery in the disc herniation group,
while there was a decrease in the hip ROM values in the stenosis group. It was also
observed that the pelvis and hip ROM of both groups remained smaller in the stance phase
compared to the control group.
Papadakis et al. examined the changes in gait in patients with lumbar spinal stenosis
with the help of an accelerometer before surgery and 6 and 12 months after surgery and
showed that there was a significant decrease in the changes in gait in the postoperative
period. It was observed that the improvement in the changes in gait was greater in the
first month after surgery compared to the 6th and 12th months after surgery.
Purpose of the study:
The study was planned to compare the gait in healthy and patient groups in patients who
underwent LSS surgery.