Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT04954482 |
| Other study ID # |
M2017121 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
April 11, 2017 |
| Est. completion date |
June 23, 2019 |
Study information
| Verified date |
July 2021 |
| Source |
Peking University Third Hospital |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
To establish a III°PCL injury model on fresh cadaver knee specimens, and to define the
pathological and anatomical connotation of III°PCL injury by using anatomical methods.
To explore and establish combined reconstruction techniques, including PCL reconstruction
combined with injury repair and reconstruction, and to explore the role of combined
reconstruction techniques in maintaining knee stability through biomechanical experiments.
Description:
Objective: (1) To establish a III°PCL injury model on fresh cadaver knee specimens, and to
define the pathological and anatomical connotation of III°PCL injury by using anatomical
methods.
(2) To explore and establish combined reconstruction techniques, including PCL reconstruction
combined with injury repair and reconstruction, and to explore the role of combined
reconstruction techniques in maintaining knee stability through biomechanical experiments.
Design: ① The subjects of this study were fresh cadaver knee specimens.
- Sample size:
A Anatomical study of injury model, planning 6 cases. B. Exploration of treatment methods for
complicated injuries. 8 cases of specimens are planned to be used. According to the
pathological and anatomical content of III°PCL injury (IKDC standard), the repair and
reconstruction techniques of combined injury were designed. Arthroscopic transtibial
single-bundle PCL reconstruction technique was used in all the reconstruction of PCL. Using
the robotic arm or universal sensor test system as the biomechanical test platform,
Biomechanical tests were carried out on the experimental specimens, and the results were
compared to determine the shortcomings of the new PCL reconstruction, according to which the
surgical procedures were improved, and then the biomechanical tests were carried out. After
repeated technical improvement (4 cycles, 2 specimens per cycle), the new PCL reconstruction
technique was finally determined.
C To investigate the effect of new PCL reconstruction in maintaining the stability of knee
joint, 8 cases were treated with a specimen plan. Biomechanical tests were performed on each
specimen in its intact state, post-traumatic state (after the establishment of the III°PCL
injury model), and post-traumatic state (after the application of the new PCL reconstruction
technology) using the robotic arm/universal sensor test system.
Outcome evaluation: The biomechanical characteristics of knee specimens under different
conditions were measured, compared and statistically analyzed, and the conclusions were
drawn.
Statistical Methods:
- Multivariate linear analysis model and Bonferroni multiple comparison were used to
compare the kinematics changes of knee joints under various loading conditions and knee
flexion angles under the condition of knee joint integrity, III°PCL injury, PCL
reconstruction, and combined injury treatment.
- Univariate repeated measure ANOVA was used to compare the knee joint integrity,
III°PCL injury, the stability of the knee joint after PCL reconstruction, and the
stability of the knee joint after combined injury treatment (including the back
drawer test and stress radiograph measurement).
