View clinical trials related to Neoplasms.
Filter by:The purpose of this study is to compare the decision making of hospitalized subjects with advanced cancer having a verbal discussion about CPR compared to subjects using a video.
This retrospective observational study is designed to assess the response to treatment with fulvestrant at a dose of 500 mg/month with a loading dose of 500 mg (LD-500), in terms of progression free survival (PFS), overall survival (OS), and clinical benefit rate (CBR), in post-menopausal women with Advanced Breast Cancer and estrogen receptor positive, who were treated with this medicinal product and at said dose after having progressed with a previous anti-estrogen therapy. During this study, a retrospective data collection will be carried out using the information contained in the Clinical History of said patients, provided that the treatment with fulvestrant at a dose of 500 mg and LD-500.
Next generation sequencing (including targeted gene seqeuncing, exome and transcriptome sequencing) will be performed from fresh frozen tumor samples to understand the genetic alteration of tumors and to aid in optimal selection of further therapeutic agents.
Background: - Li-Fraumeni syndrome (LFS) is a genetic condition that increases the risk for some types of cancer. LFS may lead to cancer of the bone or connective tissue, breast, and brain. It may also increase the risk for certain types of leukemia and other cancers. The only known cause of LFS is a change (called a mutation ) in a gene known as TP53. However, not all people with LFS have a TP53 mutation. Researchers want to study other possible genetic causes of LFS, and factors that may increase or decrease cancer risk in people with the syndrome. Objectives: - To learn more about the types of cancers that occur in individuals with LFS. - To study the role of the TP53 gene in the development of cancer. - To look for other possible genes that cause LFS - To study the effect of LFS diagnosis on families. - To determine if environmental factors or other genes can change a person s cancer risk associated with LFS. Eligibility: - Individuals with a family or personal medical history of cancers consistent with LFS. - Individuals with a family or personal medical history of cancers that does not meet the diagnosis of LFS, but the history is suggestive for LFS (meets the diagnosis for the so-called Li-Fraumeni like syndrome) - Individuals with certain rare cancers - Individuals with a family or personal history of a TP53 gene mutation, with or without related cancer(s). Design: - Participants will fill out a medical history questionnaire and a family history questionnaire. - Blood samples will be collected for DNA and for storage. Cheek cell samples may be collected if blood cannot be obtained for DNA. Participants can choose to have or not have cancer screening with blood tests, imaging studies, and other exams. - Participants will complete questionnaires about their worries about cancer, stress levels, and coping strategies. Diet and physical activity questionnaires will also be given. Other psychological tests may be given as needed. - Participants will be monitored for several years, with regular followup visits to the National Institutes of Health, if indicated. Any changes in health or cancer status will be recorded.
Bone is a common site of metastasis for a range of malignancies. Bone metastases have the potential to cause significant morbidity including pain, impairment of ambulation and reduced functional independence. Previous research has shown that pathological fractures are observed in 9 to 29 percent of patients with long bone metastases, and a high proportion of these require surgical intervention to relieve pain and restore function. The goal of this study is to describe the clinical outcomes of patients with femoral metastases at high risk of pathological fracture. Patients referred for treatment of femoral metastases at high risk of fracture will be followed prospectively after undergoing with surgery (± post-operative radiotherapy), or radiotherapy alone. Patient and disease characteristics, ambulatory status and limb function will be documented before treatment. These Clinical outcomes of participants in each treatment group will be measured 6 weeks after treatment, and 3- and 6 months after enrolment, with particular reference to patient-reported outcomes relating to pain, ambulatory status, limb function and quality of life.
Breast reconstruction is a common procedure with over 86,000 breast reconstruction procedures performed in the United States in 2009. This is a 1.5-fold increase since 2007. Of these breast reconstructions, 65% use a tissue expander/implant technique. Although satisfactory results can be achieved with a single-stage technique, a two-stage approach is considered more reliable, allowing for precise positioning of the inframammary fold and an opportune time to perform a capsulotomy to increase the breast skin flap by releasing the soft tissue. The placement of the tissue expander and implant under the chest muscles is thought to minimize the incidence of capsular contracture, expander exposure, and in addition, produce acceptable aesthetic results. However, discomfort is often associated with this submuscular placement of a tissue expander or implant, specifically during the expansion phase. Patients undergoing immediate reconstruction using submuscular implants have been shown to have higher analgesic requirements and to have higher pain scores post-operatively, compared to non-reconstructed patients. An uncomfortable reconstruction can lead to under-filling of the expander, a longer expansion process, abandonment of reconstruction, and a compromised quality of life. The use of Botulinum Toxin A (Botox) injections into the chest muscles at the time of surgery may help ease the discomfort that is often associated with this procedure. The investigators propose a prospective double-blind randomized placebo-controlled trial of patients undergoing tissue expander/implant reconstruction. The information gathered from this analysis will provide a greater understanding of the effects of Botox in the setting of two-stage tissue expander/implant breast reconstruction, with the goal to improve patient satisfaction and quality of life.
Endoscopic submucosal dissection (ESD) is a newly developed technique in the field of endoscopic treatment for GI neoplasms, because of its high rate of en bloc resection. The purpose of this study is to evaluate the efficacy and safety of ESD for GI neoplasms.
The main goal of this phase of the study is to determine if objectively assessed Physical Activity (PA) levels in advanced-cancer patients are associated with health care provider (HCP)-assessed ECOG performance status and overall survival. The purpose is to advance the evidence-base for incorporating objective assessment of Physical Activity (PA) in the context of performance status assessment in advanced cancer patients.
This study is an access and distribution protocol for unlicensed cryopreserved cord blood units (CBUs) in pediatric and adult patients with hematologic malignancies and other indications.
The purpose of this study is to learn whether oral Ribavirin is safe and effective in treating patients with solid tumour cancers, that have high levels of the protein eIF4E.