Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT05120700 |
| Other study ID # |
4.285.308 |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
Phase 1/Phase 2
|
| First received |
|
| Last updated |
|
| Start date |
April 2022 |
| Est. completion date |
May 2025 |
Study information
| Verified date |
October 2021 |
| Source |
University of Sao Paulo General Hospital |
| Contact |
Tiago L Fernandes, Phd |
| Phone |
+5511983830123 |
| Email |
tiagot86[@]hotmail.com |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
A phase I/II clinical trial (first in human) to assess the effectiveness and safety of the
treatment of cartilage injury with a tissue engineering construct composed of stromal
vascular fraction collected from the synovial membrane and infrapatellar fat of the injured
knee, submitted to enzymatic processing in a single surgical time, associated with a collagen
scaffold.
The primary outcomes will be assessed by 3T magnetic resonance imaging, quality of life and
knee function questionnaires, in addition to perioperative and post-operative complications.
Secondary outcomes will be evaluated by measuring the health resources used to ensure
compatibility, reproducibility and generalizability of the technique.
The authors believe that adverse events will be similar to current surgical procedures and
that there will be an improvement in knee function scores and quality of life of patients
undergoing the procedure.
Description:
Introduction: Cartilage injuries affect up to 63% of the population, and can cause pain and
important functional limitations. The evolution to osteoarthritis can lead to a worsening of
quality of life, in addition to being highly disabling. Osteoarthritis is considered a public
healthcare disease with a high economic and social burden without definitive treatment.
Despite the various techniques available today, complete regeneration of damaged hyaline
cartilage is not possible. For these reasons, cell therapy with mesenchymal cells has
received more attention in research due to the relative ease of processing. Synovia and
infra-patellar fat-pad are predictable and easily accessible sources during routine
arthroscopic procedure, in addition to exhibiting the greatest potential for chondrogenic
differentiation between mesenchymal cell donor sites. In a previous pre-clinical
translational study (FAPESP - State of São Paulo Government Research Sponsor Agency), The
authors' group developed the tissue bioengineering protocol in a large animal model according
to the good laboratory practices for in human usage techniques (GMP). After completing this
step, The authors now propose the phase I/II clinical trial.
Purpose: The aim of the study is to evaluate effectiveness and safety for the treatment of
articular cartilage injuries, with a compound of stromal vascular fraction acquired from the
synovia and infrapatellar fat pad of the knee, associated with a collagen scaffold.
Methods: A phase I/II clinical trial (first in human) to assess the safety and efficacy of
the treatment of cartilage injury with a tissue engineering construct.
Inclusion criteria: Patients diagnosed with a single, 3 to 6 cm2 full-thickness cartilage
lesion, symptomatic and without improvement with non-operative treatment. Age between 18 and
40 years.
Exclusion criteria: any previous surgery to treat the injury, presence of pathology in the
contralateral knee or other pathologies that interfere with recovery. Serological tests will
be performed for autologous donors, complete serology: HIV, hepatitis C virus, hepatitis B,
human T-lymphotropic virus, syphilis and Chagas.
Our institutional ethics committees approved the protocol (local CEP: 4.285.308 and national
CAAE: 34798720.5.0000.0068).
The bioengineering construct will be composed of stromal vascular fraction collected from the
synovial membrane and infrapatellar fat of the injured knee, submitted to enzymatic
processing in a single surgical time, associated with a collagen scaffold (Chondro-Gide,
Geistlich, Switzerland). The synovial and adipose tissue are collected through the usual
route of the initial surgical incision for cartilage repair, and subsequently centrifuged for
3 minutes.
The isolation of the vascular-stromal fraction will be carried out through enzymatic
digestion with collagenase IA. The cell suspension will be centrifuged and the cell button
will be suspended in 1 mL of 0.9% saline solution. In one gram of adipose tissue, it is found
an average of 2x106 cells, 10% being composed of stromal cells derived from adipocytes.
Demographic data of patients will be collected, as well as data on the frequency of
complications in the perioperative, immediate and late postoperative periods. The impact on
quality of life and knee function will be assessed by questionnaires. The length of hospital
stay, as well as surgical and outpatient care costs, will be documented. The tissue formed
after the intervention will be evaluated using the modified 3D MOCART score.
Demographic data will be presented in the form of graphs and tables, as well as the
respective frequency distributions of possible complications in the perioperative and
postoperative period, and the assessment of economic feasibility. Statistical analyzes will
be performed to compare the preoperative and postoperative periods.
To assess the assumption of normal distribution, the Shapiro-Wilk test will be performed, and
for the analysis of homogeneity of variances, the Levene test will be performed. In all
inferential analyses, a type I error probability (α) of 0.05 will be considered. To evaluate
the quantitative variables, Student's t test (or Mann-Whitney test, if the variables do not
present normal distribution) or Multivariate Analysis of Variance (MANOVA) will be used. To
verify the association between categorical variables, the chi-square association test will be
used. For all analyses, the SIGMAPlot 12.5 software (Systat Software, Inc.) will be used.
The authors will also perform the assessment by laboratory characterization of the vascular
stromal fraction of mesenchymal stromal cells with two methodologies: flow cytometry
immunophenotyping analysis and cell differentiation analysis for osteogenic lineage,
previously validated by the research group.
Results:
The primary outcomes will be assessed preoperatively, at 6 and 12 months postoperatively by
3T magnetic resonance imaging (quantity and quality of repair), quality of life and knee
function questionnaires, in addition to perioperative and post-operative complications.
Secondary outcomes will be evaluated by measuring the health resources used to ensure
compatibility, reproducibility and generalizability of the technique.
Hypothesis: The authors believe that adverse events such as pain, bleeding and fever will be
similar to current surgical procedures. The authors believe that there will be an improvement
in knee function scores and quality of life of patients undergoing the procedure from the
non-invasive evaluation by magnetic resonance with good quality cartilage tissue.
