Clinical Trial Details
— Status: Completed
Administrative data
NCT number |
NCT04824534 |
Other study ID # |
Z2020223 |
Secondary ID |
|
Status |
Completed |
Phase |
|
First received |
|
Last updated |
|
Start date |
March 1, 2021 |
Est. completion date |
December 30, 2022 |
Study information
Verified date |
August 2023 |
Source |
Zuyderland Medisch Centrum |
Contact |
n/a |
Is FDA regulated |
No |
Health authority |
|
Study type |
Observational [Patient Registry]
|
Clinical Trial Summary
Rationale: The sacroiliac joint (SIJ) is increasingly being recognized as a potential cause
of chronic low back and buttock pain. The SIJ is affected in 14-22% in patients presenting
with this pain. Conservative treatment options include oral analgesic use, physical therapy,
radiofrequency denervation and intraarticular steroid injections. When non-surgical treatment
remains ineffective, surgical intervention is a reasonable option in the form of minimally
invasive sacroiliac joint fusion (MISJF). Recent literature suggests that imbalance and
sagittal sacropelvic morphology can occur in patients with SIJ dysfunction.
Using motion analyses, the investigators want to evaluate full movement patterns in SIJ
patients. Potentially, changes in these parameters can be observed before and after MISJF
surgery.
Objective: To determine spatiotemporal parameters, pelvic obliquity, center of gravity and
load capacity in patients suffering from SIJ dysfunction before and after MISJF surgery.
Movement parameters will also be determined in healthy individuals to compare with patients
suffering from SIJ dysfunction.
Methods: This prospective cohort study will include patients enlisted for MISJF surgery
because of SIJ dysfunction. Spatiotemporal parameters, pelvic obliquity, center of gravity
and load capacity will be examined before and 3 months after surgery in a professional Motion
Lab. Movement parameter of healthy individuals will also be evaluated at the Motion Lab. All
data will be analyzed using MATLAB software.
Description:
1.2 RATIONALE The sacroiliac joint (SIJ) is an anatomic structure that is increasingly being
recognized as a potential cause of chronic low back and buttock pain. The SIJ is affected in
14-22% in patients presenting with this pain.1,2 A wide variability exists in the clinical
presentation of SIJ dysfunction, from localized pain around the SIJ to radiating pain into
the groin or even the entire lower extremity.3 This sometimes makes it challenging to
accurately diagnose SIJ dysfunction during physical examination. Most surgeons palpate the
SIJ to determine the level and area of tenderness. There are also several provocative tests,
but their reliability is limited.4,5 Currently, diagnostic SIJ intraarticular injection is
the benchmark for diagnosing SIJ dysfunction.6 Conservative treatment options include oral
analgesic use, physical therapy, radiofrequency denervation and intraarticular steroid
injections. 7-11 When non-surgical treatment remains ineffective, minimally invasive
sacroiliac joint fusion (MISJF) is a reasonable option.12 Current literature suggests that
imbalance and sagittal sacropelvic morphology can occur in patients with SIJ dysfunction.13
Sagittal imbalance and sagittal sacropelvic morphology can in turn lead to compensatory
motion in the SIJ, leading to more dysfunction and pain.14 The investigators wonder if
changes in spatiotemporal parameters, pelvic obliquity, center of gravity and load capacity
can be observed in patients suffering from SIJ dysfunction before and after MISJF surgery
with the help of motion analysis. Expectedly, these changes correlate to the clinical
condition patients are in
1.3 OBJECTIVES.
This study consists of two different parts, each with different objectives:
1. Process evaluation on measuring movement patterns in the motion lab:
a. What differences can be detected in spatiotemporal parameters, pelvic obliquity,
center of gravity and load capacity between healthy individuals and patients suffering
from SI dysfunction?
2. Clinical evaluation of MISJF surgery in patients with SI dysfunction:
1. What differences can be detected in spatiotemporal parameters, pelvic obliquity,
center of gravity and load capacity in patients suffering from SI dysfunction
before and after MISJF surgery?
2. What changes occur in patients suffering from SI dysfunction after MISJF surgery?
2. STUDY DESIGN 2.1 STUDY POPULATION In total 10 patients suffering from SIJ dysfunction with
an indication for MISJF, 10 healthy individuals under the age of 25 and 10 healthy
individuals matching the demographic characteristics of patients suffering from SI
dysfunction will be included. This is a total of 30 individuals.
2.2 INCLUSION CRITERIA
Inclusion criteria for participating clients in the healthy study group:
- Healthy individuals under the age of 25, with no history of SI dysfunction or lower back
related illnesses
Inclusion criteria for participating clients in the healthy study group with the same
demographic characteristics as the SI dysfunction patients:
- Healthy individuals between the age of 25 and 45, female sex and postpartum with no history
of SI dysfunction or lower back related illnesses
Inclusion criteria for the MISJF group:
- The patient is suffering from SIJ dysfunction (uni- or bilateral) because of postpartum
pelvic instability or because of Ehlers Danlos syndrome and is enlisted for primary
MISJF surgery.
- The patient is mobile enough to perform several tests at the motion lab, needed to
obtain spatiotemporal parameters, pelvic obliquity, center of gravity and load capacity.
2.3 EXCLUSION CRITERIA
Exclusion criteria for all participating clients are:
- The individual is not mobile and/or unable to perform tests at the motion lab, needed to
obtain spatiotemporal parameters, pelvic obliquity, center of gravity and load capacity.
- Inadequate command of the Dutch language.
- Age under 18 years.
3. METHODS This prospective study will examine spatiotemporal parameters, pelvic
obliquity, center of gravity and load capacity in healthy individuals and patients
suffering from SI dysfunction before and after MISJF surgery.
3.1 STUDY PARAMETERS Spatiotemporal parameters, pelvic obliquity, center of gravity and load
capacity are the main study parameters and will be determined in the motion lab when walking
(gait analysis) and during single leg stance (both sides). Further tests may include straight
leg raise while seated and step-ups (both sides).
3.2 STUDY PROCEDURE First, spatiotemporal parameters, pelvic obliquity, center of gravity and
load capacity will be determined in 10 healthy individuals under the age of 25. The same
parameters will be determined in 10 healthy individuals matching the demographic
characteristics of patients suffering from SI dysfunction (female, aged 25 to 45 years and
postpartum). Between these two groups potential differences will be evaluated.
In the second part of the study spatiotemporal parameters, pelvic obliquity, center of
gravity and load capacity will be determined in patients suffering from SI dysfunction before
MISJF surgery. These patients are elected for primary MISJF surgery for SI dysfunction (uni-
or bilateral) because of postpartum pelvic instability or because of Ehlers Danlos syndrome.
These data will be compared to that of the healthy study group. Spatiotemporal parameters,
pelvic obliquity, center of gravity and load capacity will again be measured in the same
patients around 3 months after surgery. The pre- and postoperative outcomes will be analyzed
and compared. The data from the healthy individuals will be used as reference data in these
analyses.
To limit potential biases, the investigators gather extra information from all subjects of
the study. Demographic characteristics will be collected, and questionnaires will be
conducted on clinical outcomes using visual analog scale (VAS) for pain, Oswestry Disability
Index (ODI) for back function and EQ-5D-3L for health-related quality of life.
With regard to the patients suffering from SI dysfunction some additional data on daily
activity will be collected. All these patients will carry an activity monitor/accelerometer
for the duration of 1 week before and after surgery to determine activity in these patients.
Differences before and after surgery will be analyzed in accordance with the spatiotemporal
parameters. Finally, the subjects will be asked to give information about the rehabilitation
process and physiotherapy (which program, duration, frequency etc.).
4. SAFETY REPORTING During motion analyses all subjects are "visitors" at the motion lab, a
liability insurance is in effect during tests. Instructors/researchers are also covered by
this insurance. There is no need for additional insurance.
5. STATISTICAL ANALYSIS Demographic baseline characteristics (e.g. age, ASA classification,
gender, affected side) of the study participants will be described as descriptives.
5.1 STUDY PARAMETERS The main study parameters are spatiotemporal parameters, pelvic
obliquity, center of gravity and load capacity during motion analysis before and after MISJF
surgery for the patients suffering from SI dysfunction. These measurements will be collected
at the motion lab and analyzed into data to compare different parameters between group
differences (healthy versus SI dysfunction e.g.).
Other outcome parameters are change in questionnaires outcome in pain measured in Visual
Analogue Scale (VAS) pain score, disability measured using the Oswestry Disability Index
(ODI) and change in quality-adjusted life years (QALY) measured with EQ-5D-3L. Analysis of
these PROMs will be achieved by linear mixed models to determine the overall effect over time
and difference in change of scores at fixed time points and difference in change from
baseline/preoperative. Between group differences of baseline scores will also be determined,
including data on the rehabilitation process and physiotherapy.
Activity measured by the activity monitors/accelerometers will be a different outcome
parameter. Analysis of the activity data will be achieved to determine overall difference in
change of scores 3 months after MISJF surgery from baseline/preoperative.
6. ADMINISTRATIVE ASPECTS Demographic baseline characteristics data collection will be
carried out using study management software. To protect the privacy of all participants, all
collected data will be encoded. The codes that are related to each individual patient are
saved in an excel file, which is locked with a password. Only the principal investigator of
the specific site will have access to the encoding keys. The outcome parameters from the
motion lab will be saved on the software used at HSZ. Data will be exchanged between HSZ and
Zuyderland Medical Center using secured emails.