View clinical trials related to Cervix Neoplasms.
Filter by:The treatment of high grade Cervical Intraepithelial Neoplasia (CIN) 2, 3 is defined according to the colposcopic evaluation of the patient. In case colposcopy findings are satisfactory (visible squamocolumnar junction), both ablative and excisional methods are adequate. In the middle of the 20th century, lateral hemostatic sutures were added to the cold knife conization surgical technique to reduce blood loss. Some authors recommend that these branches should be ligated, but it remains unclear whether these sutures are actually effective in reducing bleeding.This study compared blood loss during cold knife conization of the cervix with and without lateral hemostatic sutures.
The purpose of the study is to determine the diagnostic accuracy of a new magnetic resonance imaging (MRI) technique, the diffusion weighted imaging with body background signal suppression (DWIBS) in the detection of lymph node pathology in patients with gynaecologic malignancies.
The purpose of this study is to test whether or not a new contrast agent called Combidex, a contrast agent formulated from ultra-small superparamagnetic iron oxide (USPIO) improves the ability of Magnetic Resonance Imaging (MRI) to see lymph nodes in the pelvis. It might also help doctors tell whether or not cancer has spread to these lymph nodes. It might allow radiotherapy to be delivered more accurately.
Standard treatment for gynecological cancer is radiation therapy in two phases; whole pelvic radiation and then an internal radiation boost, also called a brachytherapy boost, to treat any remaining tumour. The purpose of this study is to test an alternative radiation boost treatment called conformal intensity modulated radiation therapy or IMRT. Currently, we do not have complete information on the overall effectiveness of IMRT compared to brachytherapy or conformal radiotherapy. We know that IMRT allows the radiation beams to be more accurately focused on the tumor, thereby sparing more normal tissue from radiation damage and lowering risks of side effects. We are investigating the extent to which IMRT can be used to protect normal tissues in patients with cervix, uterine or vaginal cancer from the radiation beams and how much the side effects of radiation are reduced.
This is a phase I/II study to evaluate the safety and toxicity of celecoxib in combination with standard concurrent cisplatin and radiotherapy in women with locally advanced cervix cancer. In addition, we aim to determine the effect of celecoxib (Celebrex) on tumour oxygenation, interstitial fluid pressure, COX-2 levels, prostaglandin E2 levels, angiogenesis and apoptosis.
Objective: To explore the hypothesis that different methods of selecting and printing information for cancer patients could improve emotional support by affecting interaction with others, and so lead to improved psychological wellbeing. Design: Randomised trial with 8 groups (three factors, 2X2X2). Data collected at recruitment and three month follow-up. Participants: 400 patients starting radiotherapy and their 'confidant' (the person in who they confide). Interventions: Printed booklets. 1. Half had 'general' CancerBACUP information for that cancer; half had 'personal' information from the medical record plus selected general information; 2. Half chose information by 'interacting' with the computer; half had a larger volume of material in booklets that were produced 'automatically'. 3. Half had additional 'anxiety management advice'. Outcomes: Patients' views; use of booklet with others; change in reported social support; change in anxiety and depression.
The primary goal of this pilot study is to assess the feasibility of using magnetic resonance (MR) imaging guidance in the Magnetic Resonance Therapy (MRT) unit at the Brigham and Women's Hospital during the implantation of brachytherapy applicators in patients with gynecologic malignancies. Patients with gynecologic malignancies requiring brachytherapy are currently treated under either fluoroscopic or CT visualization of the brachytherapy applicator. Magnetic resonance imaging has been shown in many studies to provide superior visualization of the cervix, vagina and uterus compared to CT. However no prior study has examined the feasibility of using real-time magnetic resonance imaging to assist in the guidance of gynecologic brachytherapy applicators
The purpose of this study is to evaluate the effects of healing touch and relaxation therapy on cervical cancer patients undergoing chemotherapy and radiation treatment.
The purpose of this study is three-fold: 1) to examine the ability of the experimental drug tariquidar to improve chemotherapy results by blocking a protein (P-glycoprotein) on some cancer cells that acts to pump out cancer drugs; 2) examine how tariquidar interacts with the cancer drug docetaxel; and 3) evaluate the effectiveness of combination treatment with tariquidar and docetaxel in treating patients with lung, ovarian, or cervical cancer. Patients 18 years of age and older with recurrent or metastatic (spreading) lung, cervical, or ovarian cancer who cannot benefit from any standard treatment may be eligible for this study. Candidates will be screened with a medical history and physical examination; review of pathology slides; blood and urine tests; imaging tests, including computed tomography (CT) or magnetic resonance imaging (MRI) scans; chest x-ray, electrocardiogram (EKG); and possibly echocardiogram. Participants will undergo the following tests and procedures: Blood draw. Blood is drawn before treatment begins to establish baseline levels for future blood tests. Blood counts are done twice weekly after chemotherapy begins. Central venous catheter placement. A plastic tube is put into a major vein in the chest. It is used to give the study drugs or other medications, including antibiotics and blood transfusions, if needed, and to withdraw blood samples. The line is usually placed under local anesthesia in the radiology department or the operating room. It can stay in the body for months or be removed after each treatment is completed. Chemotherapy. Treatment cycles are 21 days. Both drugs are given on day 1 of each cycle. First, tariquidar is given as a 30-minute infusion. One hour after the tariquidar infusion, docetaxel is infused over 1 hour. (For the first cycle only, docetaxel is given in divided doses one week apart and tariquidar is administered on either day 1 or day 8. The order of tariquidar administration is randomized to generate optimal pharmacokinetic data. Patients will be hospitalized for several days during this cycle to gather research data). The tariquidar dose remains the same throughout the study. Docetaxel may be increased or decreased from cycle to cycle, based on side effects.