Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT05151159 |
| Other study ID # |
IMP3, cervical cancer |
| Secondary ID |
|
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
January 1, 2003 |
| Est. completion date |
December 31, 2022 |
Study information
| Verified date |
May 2023 |
| Source |
University of Mostar |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
The results of recent research on cervical cancer and its precancerous lesions have linked
the expression of IMP3 protein to cervical dysplasia and the possibility of severe cervical
dysplasia (CIN III) progressing to squamous cell carcinoma. A higher expression of IMP3
protein was found in the cytoplasms of severe cervical dysplasia (CIN III) cells and invasive
tumor cells compared to CIN I and CIN II change cells. The sensitivity of IMP3 expression in
tumor cells was 96%. In preparations that were IMP3 negative, no further monitoring and
treatment revealed squamous cell carcinoma. Further analyzes indicated the possibility of
determining IMP3 expression on first cervical biopsy specimens in patients with HSIL ( high
grade squamous intraepithelial lesion) lesions as a biomarker to detect a subset of patients
in whom lesion invasiveness can be expected.
Description:
Molecular biomarkers could selectively identify patients with a more unfavorable clinical
course. One of these biomarkers is IMP3 - insulin-like growth factor II mRNA binding protein.
The IGF group is a complex regulatory network at the cellular and substantial levels and
plays a key physiological role in the development of the organism and the maintenance of
normal cellular function during fetal and postnatal life. Overexpression of growth factors
and their receptors is a common event during carcinogenesis. The IGF signaling system is
under strict control of the normal physiological state and a deviation in this delicate
balance can be a trigger for many molecular events leading to the development of malignancy.
One member of the IGF system is the insulin-like growth factor II mRNA binding protein (IMP)
which has been found to be an activator of IGF-II translation mRNA thus gaining a dominant
role in controlling IGF-II-dependent cell proliferation.
The IMP protein family contains 3 proteins (IMP1, IMP2, IMP3). IMP3 is normally expressed in
fetal tissues during embryogenesis. In adulthood, it appears as an oncoprotein that is
expressed only in tumor tissues without the presence in the surrounding (adjacent) benign
tissue. Previous in vitro studies have shown that IMP3 stimulates tumor cell proliferation by
activating IGF II translation and adhesion and invasion via adhesion molecules and matrix
metalloproteinases 1.
The results of recent research on cervical cancer and its precancerous lesions have linked
the expression of IMP3 protein to cervical dysplasia and the possibility of severe cervical
dysplasia (CIN III) progressing to squamous cell carcinoma. A higher expression of IMP3
protein was found in the cytoplasms of severe cervical dysplasia (CIN III) cells and invasive
tumor cells compared to CIN I and CIN II change cells. The sensitivity of IMP3 expression in
tumor cells was 96%. In preparations that were IMP3 negative, no further monitoring and
treatment revealed squamous cell carcinoma. Further analyzes indicated the possibility of
determining IMP3 expression on first cervical biopsy specimens in patients with HSIL lesions
as a biomarker to detect a subset of patients in whom lesion invasiveness can be expected.
Based on previous studies, a monoclonal antibody specific for IMP3 has been developed and is
successfully used in routine immunohistochemical methods that study the expression of IMP3
proteins in various malignancies. It has recently been found that the expression of IMP3
protein is associated with a more aggressive clinical course and a less favorable outcome in
both gynecological and malignant diseases of other organ systems.
Research issues
Despite previous knowledge of prevention, detection and treatment, cervical cancer still
causes great pain and mortality. The clinical course has so far been overlooked with regard
to the clinical and pathological stage of the disease, and based on histological parameters
and anatomical extent of the disease, a decision was made on further treatment and prognosis
of the disease.
Previous research has only provided an introduction to the association of IMP3 protein
expression with cervical cancer. An association was found between the increased expression of
IMP3 protein in gynecological and other cancers in the body with a poorer disease outcome.
This study would look at the expression of IMP3 protein in cervical squamous cell carcinoma
with the aim of detecting and linking the increased expression of IMP3 protein in patients
who are expected to have an unfavorable clinical course and a poorer prognosis. Only patients
in FIGO 1A1 and 1B1 disease stages will be observed, which has not been done in previous
studies. In this way, patients who would be treated surgically would be singled out, and in
whom a worse clinical outcome could be predicted and additional treatment could be planned
individually.
Purpose of research
The study will determine the importance of immunohistochemical expression of IMP3 protein in
cervical squamous cell carcinoma as a prognostic factor associated with higher tumor
histological grade, higher FIGO stage, poorer course and disease outcome.
Reasearch hypothesis
Immunohistochemical expression of IMP3 protein in cervical squamous cell carcinoma was
associated with poorer clinical course and disease outcome, shorter disease-free interval
duration, and poorer 5-year survival outcomes.
Immunohistochemical determination of IMP3 protein expression in cervical cancer - as a new
prognostic factor
The following will be excluded from the research:
- patients who have undergone pre-operative chemo and / or radiotherapy
- patients with associated gynecological or other malignancies
- patients with other histological types of tumors (adenocarcinoma, adenosquamous,
neuroendocrine, etc.) The research will be performed on pathohistological preparations
of surgical material of patients operated for cervical cancer in SKB Mostar in the above
period.
The expression of IMP3 protein will be determined by immunohistochemical method and
statistical analysis will be used to assess the association of expression with clinical and
pathological disease progression and survival parameters.
Insight into medical documentation (patient medical histories and medical documentation of
oncology patients from the Department of Oncology and Gynecology Clinic SKB Mostar) will
provide clinical data on the age of patients, clinical stage of the disease determined by
FIGO classification criteria, recurrence / length of period without signs of disease and
clinical outcome.
Research methods:
Tumor samples for analysis will be obtained by 4μ sections of archived paraffin blocks.
Mouse monoclonal antihuman antibodies an IMP3 (DAKO) at a dilution of 1: 100 will be used for
immunohistochemical analysis.
The immunohistochemical process will begin by dewaxing the tissue first in xylene and then
rehydrating in alcohols of ever lower concentrations. Incubation in 0.1% H2O2 (30 minutes at
room temperature) inactivated endogenous peroxidase. In order to detect antigenic sites, the
sections will be boiled in citrate buffer, pH 9, in a microwave oven at 95 ° C for 10
minutes, then washed in phosphate buffered saline (PBS). After cooling to room temperature,
the sections were incubated with primary antibodies for 60 minutes. After one hour of
incubation with the primary antibody and washing in PBS, secondary detection with
diaminobenzidine (DAB) will be used. An antibody-independent EnVision Detection Systems
Peroxidase (DAB, Rabbit / Mouse K 5007) will be used for this purpose. After a 30-minute
incubation and washing in PBS, the sections will be stained with diaminobenzidine (DAB) for
10 minutes at room temperature and washed in distilled water, and stained with hemalaun. The
incisions will then be fitted into the fitting medium and covered with coverslips. Cells that
reacted with the appropriate primary antibodies should have stained cytoplasms.
The results of immunohistochemical staining will be interpreted semiquantitatively. Samples
with cytoplasmic staining in more than 10% of tumor cells will be considered as positive
expression, and will be classified into 5 categories: 0 (1% -10% of stained cells), 1 (11%
-25%), 2 (26% 50) %), 3 (51% -75%) and 4 (76% -100%). The intensity of IMP3 expression will
be classified as negative, weak, moderate, or severe.
Sections intended for negative control by immunohistochemical staining of each antigen will
be subjected, along with other sections, to the same procedure, except that they will not
incubate with the primary antibody, but will be in PBS during that time. Control slides by
the manufacturer will be used as a positive control.
The specimens will be examined with an Olympus BX40 light microscope (Olympus, Tokyo, Japan).
Total patient survival (OS) was defined as the time period between the date of surgery and
the date of the last clinical control or death from cervical cancer.
Disease-free interval (DFS) is defined as the time interval between the date of surgery and
the date of disease recurrence.
Statistical data processing:
The obtained research results will be stored in the MS Excel 2007 database, for all
statistical analyzes the SPSS 17 statistical program will be used. Descriptive statistics
methods will be used in data analysis. Nonparametric variables will be displayed as frequency
and percentage. Depending on the data distribution, the parametric variables will be
displayed as the arithmetic mean and standard deviation or as the median and interquartile
range. The data distribution will be tested by the Kolmogorov-Smirnov test. A chi-square test
and Fisher's exact test will be used to test for differences between groups for categorical
variables where necessary. Student t-test and one-way analysis of variance (ANOVA) or
Mann-Whitney U test and Kruskal-Wallis test as non-parametric alternatives in case the data
distribution deviates from normal will be used to test the difference between parametric
variables. Appropriate correlation and regression tests will be used to test the correlation
between the examined variables. In the analysis of survival and disease recurrence, the
Kaplan-Meier method and the Cox-Mantel log-rank test or the Mantel-Haenszel test will be used
depending on the data obtained. The probability level of p <0.005 will be taken as
statistically significant.
