View clinical trials related to Cancer.
Filter by:70% of all cancer patients develop some form of visceral (internal organs) or skeletal metastases (spread of disease). Approximately one third of cancer patients develop metastases to the spinal column. The prognosis once spinal metastases have been diagnosed and the most appropriate treatment still remains controversial. To date there is no one good diagnostic tool to predict survival and/or outcome after radiotherapy or surgical intervention. Tokuhashi, et al, formulated and presented a preoperative scoring system to evaluate indications for surgery and predict outcome in patients with metastases to the spinal column. Six variables are measured to calculate this score: general medical condition, number of extraspinal metastases, number of vertebral metastases, status of metastases to the major internal organs, primary tumor type, and presence of a neurologic deficit. This scoring system has been gaining acceptance in literature. In 1998, Tokuhashi, et al, modified this scoring system by diversifying the tumor types into six categories. After a retrospective analysis Tokuhashi reported that patients with scores less than or equal to 8 will die of their disease within 6 months and those with scores of 12 or greater will survive an average of 12 months or more. The purpose of this study is to determine 1) the Tokuhashi score's validity in predicting survival after developing spinal metastases, 2) the relationship of treatment on survival after detecting spinal metastases in relation to the Tokuhashi score. Patients will be enrolled into the study and followed prospectively for as long as possible regardless of intervention. There will be three groups based on their Tokuhashi score, each group will require approximately 163 subjects statistically.
This study evaluates the feasibility of the NBI technique in the detection of early cancer lesions.
This is a study to compare the efficacy and tolerability of two laxatives for treatment of opioid-induced constipation in adult outpatients with cancer treated at the British Columbia Cancer Pain and Symptom Management/Palliative Care clinics. Each participating patient will be randomly assigned to one of two treatment groups.
The overall aim of this pilot study is to conduct a combined N-of-1 trial (N-1-T) of MPH (methylphenidate) for amelioration of fatigue in children with cancer, and to evaluate the N-1-T design both for individual clinical decision making and for clinical trials in symptom management in pediatric oncology patients. Because no one knows which of the study options are best, participants will receive liquid MPH on some days and a placebo on other days. We will compare how the participant feels on MPH days with how they feel on placebo days to determine whether MPH makes a difference.
The study consists of two parts: Drug Interaction (Pharmacokinetic) Phase and Pharmacodynamic Phase The primary study objective for the Drug Interaction Study is to determine the pharmacokinetic interactions between RAD001 and JI-101. The primary study objective for the Pharmacodynamic Study is progression-free survival at 2 moths, evaluated separately in each of the three cohorts. These will include a determination of tumor response using Response Evaluation Criteria in Solid Tumors (RECIST) Criteria and an assessment of ephrinB4 expression in blood samples. Secondary objectives are to determine safety and tolerability of JI-101. The investigational products are everolimus (42-O-(2-hydroxyethyl) rapamycin) and JI-101 (1-[1-(2-amino-pyridin-4-ylmethyl)-1H-indol-4-yl]-3-(5-bromo-2 methoxy-phenyl)-urea) Eligible patients meeting all study entry criteria will be enrolled in the study. For the Drug Interaction study, patients with solid tumors will receive a single dose (10 mg) of Everolimus by mouth on Day 1 and Day 8 and JI-101 capsules (200 mg) by mouth on Day 8 and Day 15. For the Pharmacodynamic Study, all patients will receive JI-101 capsules by mouth (200 mg BID) for 28 day treatment cycles.
RATIONALE: Cyproheptadine hydrochloride may prevent weight loss caused by cancer or cancer treatment. It is not yet known whether cyproheptadine is more effective than a placebo in preventing weight loss in young patients receiving chemotherapy for cancer. PURPOSE: This randomized phase III trial is studying cyproheptadine hydrochloride to see how well it works in preventing weight loss in young patients receiving chemotherapy for cancer.
The overall study objective is to evaluate the dose limiting toxicities and the recommended phase II dose of Panitumumab when combined with the standard of care treatment with cisplatin, fluorouracil and radiation in patients with locally advanced esophageal cancer. The investigators will also be assessing the ability of PET (Positron Emission Tomography) imaging to predict the degree of pathologic response. All patients will have a pre-study FDG (F-18 Fluorodeoxyglucose) PET scan and will receive radiation therapy and chemotherapy over a 35 day period. 4-8 weeks post radiation and chemotherapy patients will be restaged with a PET/CT scan. It is anticipated that approximately 30 patients enrolled will undergo an esophagectomy which is considered standard of care post radiation and chemotherapy. The surgery will allow us to compare this study regimen to the historical standard of care (Cisplatin/fluorouracil chemotherapy with radiation therapy).
This an open two-arm interventional randomised feasibility study in anaemic patients treated with chemotherapy. Randomisation is performed between two transfusion thresholds: Haemoglobin < 6.0 mmol/l (9.9 g/dL) versus haemoglobin < 7.1 mmol/l (11.7 g/dL) for female and 8.1 mmol/l (13.4 g/dL) for males.Primary end-point is quality of life
Hypothesis: The addition of RAD001 to TS-1/CDDP is safe and can improved the efficacy of TS-1/CDDP. The rationale for combining RAD001 with TS-1/CDDP are: 1. Potential synergism for the combination TS-1/CDDP Activation of the PI3K/AKT/mTOR pathway is frequently a characteristic of worsening prognoses (through increased aggressiveness), resistance to treatment, extension of disease and progression. The antitumour effect of RAD001 is mediated through the antiproliferative and antiangiogenic activity of mTOR inhibition. In preclinical study, RAD001 demonstrated synergism with CDDP in several cancer types including lung (A549; CI 0.47), epidermoid cancer (KB-31; CI 0.74), colon cancer (HCT116; CI 0.47) and gastric cancer (SNU 1; CI 0.204, SNU 216; CI 0.546, SNU 638; CI 0.039, SNU 668; CI 0.396) (IB, Lee 2008 AACR). 2. Potential for overcoming TS-1/CDDP resistance. Upregulation of Akt pathway was found to be an important mechanism for acquired resistance to CDDP (Lee 2005 Gyn Onc, Liu 2007 Cancer Res). In addition, gastric cancers with upregulated Akt pathway are associate with primary resistance to 5- fluorouracil, adriamycin, mitomycin C, and cisplatin (Oki 2007 PASCO) 3. Overlapping antitumour activities with TS-1/CDDP RAD001 is effective and well tolerated against subcutaneous tumours established from a variety of tumour cell lines of diverse histotypes (NSCLC, pancreatic, gastric, colon, renal, melanoma, epidermoid), including a Pgp170-overexpressing, multi-drug resistant tumor line. Partial response to single agent RAD001 was seen in a patient with gastric cancer at the dose of 5mg/day and 2 patients (gastric and oesophageal cancer) at the dose of 10mg/day, in study C2101 and C1101 respectively. A clinical benefit (stable disease, partial response and complete response) was observed in 55% of patient with gastric cancer who had failed 1st line therapy (Yamada 2009 GCS ASCO). A phase III study of RAD001 in patients with 2nd/3rd line gastric cancer has currently opened for recruitment.
The Radiotracer 18F-FLT can non-invasively assess excessive cell growth in PET scan images. Tumour growth rate is a useful indicator of tumour aggression and response to treatment. Imaging and measuring the cell growth with 18F-FLT may be useful in monitoring response to anticancer treatment.