View clinical trials related to Lung Cancer.
Filter by:Hypoxia is a key factor in malignant progression of a neoplasm. It is our aim to explore the basis for quantitative in vivo tumor imaging by Cu-61 diacetyl-bis(N4-methylthiosemicarbazone)PET imaging as a surrogate of tissue hypoxia. We hypothesize that the hypoxia levels are predictive of the tumor response to therapy. Patients will have 2 CU-ATSM PET scans done and the goal is to show spatially stable tracer distributions that correlate with tumor hypoxia. This study will serve as a pilot study for a PO1 submission
The purpose of this study is to obtain chemical information from part of your body without a biopsy. This is done using a technique called magnetic resonance spectroscopy (MRS) which is similar to magnetic resonance imaging (MRI) except that signals are detected from the chemicals (spectroscopy) naturally present in your body using radio waves. To receive this information from your body, small loops of wire (surface coils), placed near the tissue of interest, may be used to more effectively detect signals that come from the chemicals in your body. The investigators may use a second radio channel simultaneously, which will allow us to obtain greater chemical information (decoupling). The results may also help us to understand how this study can be used to help other patients with your condition.
The purpose of this study is to find out about the pain and quality of life of individuals who are adult cancer survivors. By quality of life, we mean how you are feeling about different aspects of your life, including your physical health, your emotional health, and your ability to carry out daily activities. We are interested in people's opinions about their quality of life, as well as the factors that affect their quality of life. In addition, learning about pain will help us to develop new services for adult cancer survivors.
This study has been designed to utilize already obtained biopsy specimens for investigation of the utility of a new, non-invasive optical diagnostic technique. The study will allow a careful correlation between the Optical coherence tomography findings and conventional histology.
For patients with 1-6 intraparenchymal brain metastases from various primary histologies (except for melanoma), stereotactic radiosurgery (administered upfront or concurrently) or complete surgical resection with neural stem cell (NSC)-preserving whole-brain radiotherapy (WBRT) results in improved neurocognitive profile over standard WBRT. The goal of this study is to assess feasibility of this treatment approach.
The primary aim of the proposed study is to develop and assess the feasibility of delivering a smoking cessation intervention to patients undergoing lung surgery that begins before surgery and continues up to 3 months post-discharge. The secondary aim is to assess smoking cessation rates 3 months following surgery.
To establish a serial ascertainement of specimens from patients with bone sarcomas to be used in ongoing cytogenetic and molecular genetic analyses. These data will be integrated and correlated with the established Orthopaedic Service clinical database.
The purpose of this study is to compare the results of two CT scans of the chest performed within minutes of each other. We will compare several different measurements of lung cancer tumors. This study will help show whether we can get accurate results when we compare measurements on different CT scans. This information is important for patients with cancer, who often have more than one CT scan during their treatment.
The basic premise of this research proposal is to determine whether there is any significant association between germline polymorphisms and cancers of colon, bladder, breast, testicular, prostate, ovaries, kidney, lung, lymphoid organs, and head and neck. This is an exploratory study designed to generate hypotheses for further research.
The purpose of this study is to study whether the presence of lung cancer in your body can be detected by testing the blood, and if the results of these blood tests change as your tumor shrinks or grows.