View clinical trials related to Neoplasms, Second Primary.
Filter by:This research; It was aimed to evaluate the effect of myofascial release using a tennis ball on balance and quality of life in cancer patients who developed peripheral neuropathy.
'Distress' refers to emotional distress, including psychological distress, in cancer patients. This study aims to explore whether mindfulness-based cognitive-behavioral therapy for cancer patients is effective in relieving distress and to discover neurophysiological factors that contribute to relieving distress. Mindfulness meditation, which is the core of mindfulness-based cognitive behavioral therapy, can develop cognitive flexibility through 'awareness of what is happening now'. In this study, a mindfulness-based cognitive behavioral therapy program is implemented for patients with advanced cancer, and clinical characteristics and conditions including distress level are observed through questionnaires and interviews. In addition, genetic data and brain imaging data are collected through blood sampling and brain magnetic resonance imaging. The ultimate goal of this study is to prove the therapeutic efficacy of a mindfulness-based cognitive behavioral therapy program for distress of patients with advanced cancer through an in-depth and multifaceted integrated approach, and to understand the related neurophysiological mechanisms.
Immunity of cancer patients is an important issue. According to cancer immunity, it can be divided into three phases: clearance phase, equilibrium phase, and escape phase (cancer cells can avoid the recognition of immune cells). Βeta-glucans is extracted from yeast, it can increase immune function and drive of hematopoietic stem cells in animals and clinical trials. Glutamine can increase the repair of oral and intestinal mucosa of patients receiving chemical and radiation therapy and can increase the lymphocytes of patients. Colostrum contains IgA, IgG, IgM, etc., known to protect the baby Cancer patients who are infected with intestinal bacteria and undergo systemic chemotherapy are less immune than normal adults. Investigators will compare β-glucan, glutamine, and colostrum immunoglobulin powder with β-glucan and control group, each group has 30 people, and observe the side effects and blood of patients under standard chemotherapy. The performance of the immune system, such as helpers and cytotoxic T cells and NK cells, and to observe the differences in treatment interruption or delay rates and treatment rates.
Clinical results on intra-arterial adjuvant chemotherapy for prevention of liver metastasis following curative resection of pancreatic cancer
More than 4200 new cases of colorectal cancer (CRC) are diagnosed each year in Denmark, and 30.000 patients live with the diagnosis. Up to 40% of CRC patients will have synchronous liver metastases (LM) at the time of the diagnosis or will develop metachronous LM during the course of their disease. CRC-LM are treated with a combination of chemotherapy and liver surgery, but less than 25% of the referred patients with CRC-LM may be treated with curative intend. If looking at population-based data this figure drops to less than 5%. During pre-operative chemotherapy the treatment response is monitored by CT and MR scans, and the patients are then discussed on multidisciplinary team (MDT) conferences. However, monitoring is inaccurate since the simple measurement of size of the liver lesions cannot provide reliable evidence of the treatment response. The cancer cells may actually have been replaced by scar tissue but without any shrinkage. The question is how may we improve the evaluation of treatment response? With the goal of improving the assessment of the response to chemotherapy, and thereby only treat the patients that will benefit from chemotherapy?
Trial Hypothesis: Acute, progressing lethal neurooncological process can be transferred into chronic and non-lethal, the survival rates and life quality can be improved by of control of tumor cells (TCs) quantity and targeted regulation of effector functions of tumor stem cells (TSCs). Brief Description: The first line therapy of brain metastases of lung cancer (BMLC) involves allogeneic haploidentical hematopoietic stem cells (HSCs), dendritic vaccine (DV) and cytotoxic lymphocytes (CTLs). TCs and TSCs are isolated from BMLC sample. Dendritic cells are isolated from peripheral blood mononuclear cells and cultured. Tumor sample provides tumor specific antigens to prepare DV. CTLs are obtained from peripheral blood after DV administrations. HSCs are harvested from closely related donor after granulocyte-colony-stimulating factor (G-CSF) administration. Allogeneic HSCs are administered intrathecally 5 times every 2 weeks, at day 1, 14, 28, 42, 56. DV is given 3 times every 2 weeks (day 14, 28, 42) subcutaneously in four points. CTLs are administered every 2 weeks for 3 months, then 3 times every 1 month intrathecally. Six months after the therapy completion, the efficiency is evaluated and the cohort demonstrating efficiency continues the therapy, while cohort demonstrating no efficiency is transferred to active comparator arm. Second line therapy involves DV with recombinant proteins, CTLs and autologous HSC with modified proteome. Autologous HSCs are mobilized by G-CSF. Carcinogenesis-free intracellular pathways of signal transduction able to respond to targeted regulation of therapeutic cell systems with specific properties, are detected in TSCs using complete transcriptome profiling of gene expression, proteome mapping and profiling of proteins, bioinformation and mathematical analysis and mathematical modeling of protein profiles. To find key oncospecific proteins in TSCs and TCs, the targets for TSCs regulation are detected, as well as protein ligands able to regulate reproductive and proliferative properties of TSCs. Using these data of TCs and TSCs proteins, the cell preparations to initiate adoptive immune response are prepared: DV loaded with recombinant proteins analogous to key tumor antigens, CTLs and autologous proteome-based HSCs. Autologous proteome-modified HSCs, DV and CTLs are administered as in the first line therapy.
Trial Hypothesis: Acute, progressing lethal neurooncological process can be transferred into chronic and non-lethal, the survival rates and life quality can be improved by of control of tumor cells (TCs) quantity and targeted regulation of effector functions of tumor stem cells (TSCs). Brief Description: The first line therapy of brain metastases of breast cancer (BMBC) involves allogeneic haploidentical hematopoietic stem cells (HSCs), dendritic vaccine (DV) and cytotoxic lymphocytes (CTLs). TCs and TSCs are isolated from BMBC sample. Dendritic cells are isolated from peripheral blood mononuclear cells and cultured. Tumor sample provides tumor specific antigens to prepare DV. CTLs are obtained from peripheral blood after DV administrations. HSCs are harvested from closely related donor after granulocyte-colony-stimulating factor (G-CSF) administration. Allogeneic HSCs are administered intrathecally 5 times every 2 weeks, at day 1, 14, 28, 42, 56. DV is given 3 times every 2 weeks (day 14, 28, 42) subcutaneously in four points. CTLs are administered every 2 weeks for 3 months, then 3 times every 1 month intrathecally. Six months after the therapy completion, the efficiency is evaluated and the cohort demonstrating efficiency continues the therapy, while cohort demonstrating no efficiency is transferred to active comparator arm. Second line therapy involves DV with recombinant proteins, CTLs and autologous HSC with modified proteome. Autologous HSCs are mobilized by G-CSF. Carcinogenesis-free intracellular pathways of signal transduction able to respond to targeted regulation of therapeutic cell systems with specific properties, are detected in TSCs using complete transcriptome profiling of gene expression, proteome mapping and profiling of proteins, bioinformation and mathematical analysis and mathematical modeling of protein profiles. To find key oncospecific proteins in TSCs and TCs, the targets for TSCs regulation are detected, as well as protein ligands able to regulate reproductive and proliferative properties of TSCs. Using these data of TCs and TSCs proteins, the cell preparations to initiate adoptive immune response are prepared: DV loaded with recombinant proteins analogous to key tumor antigens, CTLs and autologous proteome-based HSCs. Autologous HSCs, DV and CTLs are administered as in the first line therapy.
Magnetic Resonance guided Focused Ultrasound (MRgFUS) has demonstrated to be effective for pain control through thermally-induced cell death and periosteal denervation caused by cortical heating relative to acoustic energy absorption. There is also evidence that a high intensity focused ultrasound beam can penetrate through the cortical bone to the medullary space, producing thermal necrosis of cancer tissue. However, little is known about the potential effects of MRgFUS as first line therapeutic modality for pain palliation in skeletal metastases. Our hypothesis sought to assess the clinical performance of MRgFUS primary treatment of painful bone metastases and determine the potential of this technique for local tumor control.
It is uncertain, whether hilar lymphadenectomy should be performed routinely in patients undergoing resection of colorectal liver metastases. For this reason it is the aim of the present prospective randomized trial to evaluate, if routine lymphadenectomy reduces recurrent disease in patients undergoing resection of colorectal liver metastases.