View clinical trials related to Cervix Cancer.
Filter by:AIM: To develop and standardize a cost effective methodology or algorithm for mRNA E6/E7 for HPV genotypes 16, 18, 31, 33 and 45 as compared to commercially available assays which can be incorporated to triage excess false positives from primary screening for cervical cancers Objectives: 1. Development and standardization of methodology /algorithm for mRNA E6/E7 testing for HPV genotypes 16, 18, 31, 33 and 45 using Real-time RT-PCR, in cervical samples. 2. To compare the test performance of this HPV E6/E7 mRNA assay to HPV DNA by HC 2 as secondary screening test, with the reference standard of colposcopy with biopsy, to triage women found positive in primary screening by VIA , in a population based screening for cancer of cervix. 3. To determine number of false positives in the primary screening test after testing VIA positives with a known high specificity secondary screening test (HPV-DNA HC II ) compared to HPV E6/E7 mRNA testing. Study Population: Women in the age group of 30-65 years, who test positive on primary cervical screening test VIA will be enrolled for the proposed diagnostic tests along with reference standard of colposcopy with guided biopsy. Methodology: Women in the age group of 30-65 years undergoing routine cervical cancer screening through hospital ( Preventive Oncology screening clinic) and community based screening programs with abnormal test result using the primary cervical cancer screening test VIA will be recruited in the study. The primary screening test VIA will be administered by application of 5% Acetic Acid to the cervix and visualizing the cervix with the help of a halogen focus lamp. VIA will be considered to be positive if definite acetowhite lesions are visualized close to the squamocolumnar junction.
Demonstrate the limitations of conventional dosimetry (2D) for the adjuvant brachytherapy treatment and assess whether tridimensional dosimetry relates more faithfully with the occurrence of adverse effects.
The purpose of the trial is to establish the tolerability of HuMax-TF-ADC in a mixed population of patients with specified solid tumors.
Research of predictive clinical and biological factors in breast cancer : genomic, proteomic, mutation
Optical Coherence Tomography (OCT) is a technology using harmless near infra-red light scatter to produce an image. Prior studies with OCT have demonstrated that OCT of the uterine cervix can differentiate between grades of pre-invasive and invasive cervical disease and cancer. This study will evaluate the ability of the NIRIS 1300e imaging (OCT) system to detect pre-invasive cervical disease and cervical cancer.
Observational study based on the routine clinical treatment and diagnostic course, to correlate imaging features with outcome objectives. Outcome will evaluated as clinical response to the standard treatment and as recurrence and survival in the follow up. The study hypothesis is that data extracted form FDG-PETCT used in the routine clinical practice can predict outcomes following standard treatment.
Non operated cervix cancer are usually treated by radio-chemotherapy. Non control local rate is inexplicably close to 30%. However, important volume of those tumors and their hypoxia degree induce phenomenon of pathologic angiogenesis, explaining these therapeutic failures. Persistence of tumor hypoxia could be a predictive factor of local control
The purpose of this study is to look for low levels of oxygen (hypoxia) in your cervix cancer using a special x-ray test called a positron emission tomography (PET)scan. Hypoxia may have an effect on how cervix cancer grows and responds to treatments like radiotherapy and chemotherapy. Doctors at Princess Margaret Hospital have measured hypoxia in over 300 patients. The use of PET scans to measure hypoxia may be better and simpler than the methods used previously.
A theoretical planning study to compare the normal tissue irradiation when using intensity modulated radiotherapy (IMRT) as opposed to standard radiotherapy for the definitive treatment of cervical cancer.
Patients with cervix cancer having radiotherapy experience side-effects because the radiotherapy fields have to be quite large to account for tumour movement in the pelvis during treatment, this irradiates a lot of normal tissues. This study aims to characterize and model the tumour motion, as well as the motion of surrounding normal tissues, during treatment. By doing this, the investigators can look at ways to minimise tumour motion and spare more normal tissues. By tailoring the radiotherapy dose more accurately, the investigators will reduce the side-effects of treatment and improve local control of the tumour. By doing multiple magnetic resonance imaging (MRI) scans of the patients during treatment, the investigators can identify where the tumour and surrounding normal tissues are at that point in time. Collecting all the information from these scans, will allow the investigators to model the motion of the tumour and these pelvic organs, and investigate the best way to target the tumour while still sparing normal tissues.