Oral Squamous Cell Carcinoma Clinical Trial
Official title:
Effect of Melatonin in Combination With Neoadjuvant Chemotherapy to HIF-1⍺, CD44, CD133, and miR-210 Expression and Clinical Response in Locally Advanced Oral Squamous Cell Carcinoma (OSCC)
Verified date | November 2019 |
Source | Indonesia University |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
Backgrounds
Squamous cell carcinoma of the oral cancer (OSCC) is the sixth most common malignancy.
Surgery is the mainstay of treatment for oral cancers. In locally advanced and unresectable
oral cancer, surgery presents challenges primarily because the head and neck region have many
critical structures that can be damaged by tumor or treatment. Damage to the critical
structures can result in significant structural, cosmetic and functional deficits that
negatively impact quality of life.
Use of NC was found to achieve resectability in 39% of locally advanced unresectable oral
cancers. Patil et al. reported response rate with the three drugs regimen (TPF) for NC was
32% and 27,37% for two drugs regimen (TP). The overall response rate in the TPF group was
significantly higher than that in the PF group, both in the induction-chemotherapy phase and
after locoregional therapy (33,3% vs 19,9%, p = 0,004). Chemoresistancy has become the
challenge in OSCC treatment affecting tumor response to chemotherapy.
Hypoxic microenvironment found in OSCC is marked by the high expression of HIF-1α. CD44 and
CD133 as a cancer stem cells marker in head and neck (HNSCC) and miR-210 known as hypoxamiR
has been reported to contribute chemoresistancy. As hypoxia inarguably one of the main causes
of chemoresistancy, it is agreeable to use melatonin as an antioxidant to reduce the hypoxic
condition in tumor microenvironment. Melatonin, a potent endogenous antioxidant agent is
proven to have an oncostatic effect, was given in expect to reduce the tumor hypoxic
condition so that it would increase the tumor response on NC. Majority of the clinical study
use oral melatonin given once daily in 20 mg dose as the minimal dose to yield anti-tumor
effects.
The purpose of this study is to prove the effectiveness of melatonin to increase clinical
response in locally advanced OSCC patients when treated with NC. The effect of melatonin in
reducing tumor hypoxia will be seen through its effect in decreasing the gene expressions of
HIF-1α, miR-210, CD44, and CD133.
Methods
Study Design
This study is a double blind, randomized clinical trial using placebo as comparison running
from June 2017 to July 2018 . Locally advanced OSSC (stage IVA and IVB) patients that will
receive NC were included in the study. Fifty patients treated at two centres (RSCM and RSKD)
were randomly allocated into two arms. Twenty-five patients received melatonin combined with
three regiment NC (Taxane, Cisplatin, and 5-FU) and the other received placebo with NC.
However only 25 out of 50 patients had completed the study protocol (13 patients in melatonin
arm and 12 in placebo arm)
Evaluation of Clinical Response
The clinical response were assessed by evaluating pre-treatment and post treatment MRI with
the aid of RECIST 1.1. First, it is necessary to estimate the overall tumor burden at
baseline (target and non-target lesion) and use this as a comparator for subsequent
measurement. The tumor response then being determined according to the definition criteria
according to RECIST 1.1, as follows: Complete response (CR) is the disappearance of all
target lesions. Partial response (PR) means there is at least 30% decrement in the sum of
diameters of target lesions, taking as reference the baseline sum diameters. Progressive
disease (PD) means there is at least a 20% increment in the sum of diameters of target
lesions or an absolute increment of at least 5 mm. Stable disease (SD) is when there is
neither a sufficient shrinkage nor sufficient increment of target lesion. Patients who
categorized as PR and CR undergone surgery while those with SD and PD undergone core biopsy.
Genes expression examination
The primer for HIF-1α miR210, CD44, and CD133 genes amplification was design using a Primer
Quest Tool IDT software. The total sequence of each gene attained from GenBank data source:
National Centre for Biotechnology Information (NCBI). The steps of gene expression
examination are RNA isolation, cDNA synthesis, and absolute quantification qPCR. qPCR result
was analyzed based on the gene expression concentration compare to the pre-determined
standard curve (positive control) of each genes.
Statistical analysis
The data was analysed with statistics software SPSS 20. Saphiro Wilk was used to test data
normal distribution. Data with normal distribution and with p > 0,05 presented in mean +-
standard deviation (SD). Data with abnormal data distribution presented in median (minimal
and maximal value). The statistical difference of gene concentration level (numerical data)
between melatonin and placebo was analysed using normality test of Saphiro Wilk. Data with
normal distribution was tested using unpaired-T test, while data with abnormal distribution
was tested using Mann Whitney. Statistically significant different stated as p < 0,05.
Status | Completed |
Enrollment | 50 |
Est. completion date | December 18, 2018 |
Est. primary completion date | July 30, 2018 |
Accepts healthy volunteers | No |
Gender | All |
Age group | N/A and older |
Eligibility |
Inclusion Criteria: 1. Patients with locally advanced oral squamous cell carcinoma 2. Patients with locally advanced oral squamous cell carcinoma who are planned with neoadjuvant chemotherapy 3. Patients with locally advanced oral squamous cell carcinoma who are planned with neoadjuvant chemotherapy who have not received any definitive treatment modalities, including surgical resection and chemoradiation therapy before the study conducted 4. Patients who are willing to sign the informed consent form to be our subject participants 5. Karnofky >50 Exclusion Criteria: 1. Patients who are already treated with definitive therapy for locally advanced oral squamous cell carcinoma 2. Patients who are not eligible to be treated with chemotherapy |
Country | Name | City | State |
---|---|---|---|
Indonesia | Faculty of Medicine, Universitas Indonesia | Jakarta Pusat | DKI Jakarta |
Lead Sponsor | Collaborator |
---|---|
Indonesia University |
Indonesia,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Clinical Response as Measured by RECIST 1.1. Criteria | Clinical Response is measured using RECIST 1.1. criteria. CR (Complete response) is defined as disappearance of all target lesion, and pathological lymph node showing reduction of its shortest axis to less than 10 mm. PR (Partial response) is defined as reduction of total target lesion diameter at least by 30%. PD (Progressive disease) is defined as total target lesion diameter increased in size atleast by 20% or 5 mm OR occurence of one new lesion. SD (Stable disease) is defined as absence of reduction or increasing of target lesion. Patients with PR and CR are considered as positive response. Patients with SD and PD are considered as negative response. | 1 Year | |
Secondary | Change in Expression of HIF-1? as Measured by qRT-PCR Absolute Quantification | Expression of HIF-1? is measured at the initial period of the study (baseline) and after 3 neoadjuvant chemotherapy cycles are completed using qRT-PCR Absolute Quantification. Change was calculated from two time points as the value at the later time point minus the value at the earlier time point. | 1 Year | |
Secondary | Change in Expression of miR-210 as Measured by qRT-PCR Absolute Quantification | Expression of miR-210 is measured at the initial period of the study (baseline) and after 3 neoadjuvant chemotherapy cycles are completed using qRT-PCR Absolute Quantification. Change was calculated from two time points as the value at the later time point minus the value at the earlier time point. | 1 Year | |
Secondary | Change in Expression of CD44 as Measured by qRT-PCR Absolute Quantification | Expression of CD44 is measured at the initial period of the study (baseline) and after 3 neoadjuvant chemotherapy cycles are completed using qRT-PCR Absolute Quantification. Change was calculated from two time points as the value at the later time point minus the value at the earlier time point. | 1 Year | |
Secondary | Change in Expression of CD133 as Measured by qRT-PCR Absolute Quantification | Expression of CD133 is measured at the initial period of the study (baseline) and after 3 neoadjuvant chemotherapy cycles are completed using qRT-PCR Absolute Quantification. Change was calculated from two time points as the value at the later time point minus the value at the earlier time point. | 1 Year |
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