Analysis of the Risk Factors for the Neutropenic Fever in the High Risk NHL Patients for Developing...
Non-Hodgkin's LymphomaThe domestic standards of G-CSF permit the use of the G-CSF only when the ANC(absolute neutrophil count) drops to 1,000/uL or below. Therefore it is impossible to inject the G-CSF in order to prevent neutropenia. However, 'the 2006 Update of Recommendations for the Use of White Blood Cell Growth Factors: An Evidence-Based Clinical Practice Guideline(J ClinOncol 2006; 24:3187-3205)' and the 'NCCN Guideline' have revealed that as a precaution, it is appropriate to inject the G-CSF to the non-Hodgkin's lymphoma patients with high-risk factors under the anticancer treatment of CHOP-21 Rituximab before the number of neutrophils decreases. Thus, it is intended to analyze the risk factors of febrile neutropenia in a high-risk group of non-Hodgkin's lymphoma patients with a neutropenic fever who receive the CHOP-like regimen and primary G-CSF prophylactic therapy every three weeks. (The definition of neutropenic fever is a fever over 38.3 degrees C or continuous fever lasting longer than 1 hour over 38 degrees C with the number of neutrophil ≤ 500/uL or neutrophil ≤ 1,000/uL in case of expected decline to ≤ 500/uL within 48 hours.)
Zevalin Post-marketing Surveillance for Adequateness of Image Interpretation Criteria in Japan
Non-Hodgkin's Lymphoma (NHL)This study is a regulatory post-marketing surveillance of Zevalin (ibritumomab tiuxetan) in Japan. In-111 Zevalin is, at first, injected to patient for gamma scan imaging to assess biodistribution of the Zevalin. When the imaging shows no altered distribution, Y-90 Zevalin is injected to the patient for the actual treatment. The objective of this study is to assess appropriateness and necessity of revision of the standardized criteria for image interpretation of In-111 Zevalin by comparing assessment by the investigator and the members of the committee for image interpretation of In-111 Zevalin. A total 40 patients will be recruited.
IMPACT Non Hodgkins Lymphoma (NHL) Study
Non-Hodgkin's LymphomaThis is multi-center, international observational study of subjects receiving CHOP-14 or CHOP-21 (with or without Rituximab) for the treatment of NHL. Approximately 100-150 sites will contribute information on subjects treated at their institution.
AIDS and Cancer Specimen Bank (ACSB)
Kaposi's Sarcoma AIDS RelatedKaposi's Sarcoma Classical4 moreThe purpose of this study is to obtain clinical specimens from pathologists and physicians involved in the diagnosis and care of patients with AIDS and non-AIDS associated malignancies. The National Cancer Institute has set up a Bank for tissues and biological fluids from HIVpositive and HIV-negative individuals in order to have specimens available for scientists studying malignancies associated with HIV disease.
A Retrospective Study of Toxicity and Outcome of High Dose Chemotherapy With Autologous Stem Cell...
Non-Hodgkins LymphomaPatients with aggressive Non-Hodgkin-lymphoma treated at first diagnosis with chemotherapy alone or combined chemo-radiotherapy can achieve high response rates. However, patients with relapsed lymphoma still have a poor prognosis. High dose chemotherapy (HDCT) followed by autologous stem cell transplantation (ASCT) is the treatment of choice for these patients. An ASCT allows patients to receive much higher doses of chemotherapy than usual, to improve the chances of curing the disease. The high-dose of chemotherapy destroys the cells in the patients bone marrow and then the patients own cells from either the bone marrow or peripheral blood are used to rescue the patient from intensive treatment. High-dose chemotherapy with autologous stem cell (either bone marrow or peripheral blood) transplantation is used in the treatment of Intermediate/High grade NHL with poor risk disease and in second remission at the Royal Marsden Hospital. The purpose of the present analysis is to determine independent prognostic factors correlated with the long-term outcome of patients with NHL who received an ASCT between January 1991 and June 2005. Accrual of eligible patients currently under follow-up will be performed in clinic at the time of next appointment. All patients accrued will give informed consent to participate in the study for retrospective case note review, after discussion with a study investigator and after receiving a study information sheet. The results of the analysis will be published in a peer-reviewed medical journal. This will include patients treated at the royal Marsden Hospital only.
Interdisciplinary Case-Control Study of Non-Hodgkin's Lymphoma
Non-Hodgkin's LymphomaNon-Hodgkin's lymphoma (NHL) incidence rates have risen three percent per year in the U.S. for four decades. Mortality from NHL has risen 1.6 percent, compared with 0.2 percent for all cancers combined. This epidemic curve appears in both sexes and around the world, suggesting the possibility of an etiologic agent increasing in prevalence in the general environment. Recent research has identified several possible candidates including pesticides, other organochlorines, drinking water nitrates, and sunlight. There is an urgent need to evaluate whether these common exposures are contributing to the rapid rise in NHL, and to investigate other hypothesized risk factors such as viruses, medical conditions, hair dye use, and genetic factors. The purpose of this study is to examine the contribution to NHL risk of these important environmental, occupational, viral, medical, and personal exposures, and to pursue important leads emerging from on-going NHL research. This multidisciplinary, population-based case-control study will involve personal interviews to collect information on demographics, residential history, pesticide use, and occupational exposures; self-administered questionnaires to collect information on diet, family and medical history, and other exposures; tap water and carpet dust sampling to collect information on nitrate and pesticide exposures; and blood sampling for measurements of compounds in the serum, antibodies to viruses, and examination of genetic polymorphisms.
Genome Expression in Lymphoma, Leukemia and Multiple Myeloma
LeukemiaMultiple Myeloma3 moreThis study will use genomics-based technology, such as DNA microarrays, to more precisely diagnose subsets of lymphoma, leukemia and multiple myeloma patients. There have been many attempts to classify lymphoid cancers in ways that will be useful for clinical diagnosis and treatment. Although broad diagnostic categories have been reliably defined, patients within each category have distinct clinical courses, suggesting that these classifications could be further divided into molecular (genetic) subtypes. For example, 40 percent of patients with diffuse large B-cell lymphoma achieve long-term disease remissions following combination chemotherapy and are apparently cured, whereas the remaining 60 percent die from the disease. Similarly, some patients with follicular lymphoma develop aggressive disease within a few years of diagnosis, while others have stable disease over 10 to 20 years. Although the distinctions in clinical course of these diseases are recognized, there are no studies to determine the molecular (genetic) basis for this variability. This study will try to define new molecular diagnostic categories in these diseases and correlate them with clinical features, including treatment response, disease remission and overall survival following chemotherapy. This retrospective study will use clinical data and tissue samples from participating centers in the Lymphoma/Leukemia Molecular Profiling Project LLMPP). New patients will not be recruited for this study. Biopsy materials, including fresh frozen or OTC-embedded lymphoma biopsy material, viably frozen samples of peripheral blood cells from leukemia patients, and viably frozen samples of bone marrow aspirates from multiple myeloma patients will be collected from pathologists participating in the LLMPP. RNA and genomic DNA will be extracted from the tumor samples. A variety of technologies will be used to characterize the genome of the cancer cells, including lymphochip microarrays for array-based comparative genomic hybridization; Southern blotting and PCR for translocation of genes previously implicated in these malignancies; and PCR and DNA sequencing methods for analyzing base changes in the genome of the cancer cells. Clinical information from the initial diagnosis to disease relapse will be taken from existing databases and/or patient charts. Gene expression will be correlated with the clinical data. If a small number of genes is found to strongly predict clinical outcome, quantitative RT-PCR assays using the Taqman technology may be developed as an alternative to DNA microarray analysis.
Prognostic Study of Gastric MALT Lymphoma After Eradication of Helicobacter Pylori
Gastric Low-grade MALT Lymphoma With Helicobacter Pylori PositiveTo survey the grade of gastric MALT lymphoma after eradication of Helicobacter pylori
Epidemiology of Burkitt Lymphoma in East Africa Children or Minors (EMBLEM)
LymphomaNon-Hodgkin3 moreBurkitt lymphoma (BL) is an aggressive monoclonal B-cell malignancy that is rare (sporadic) worldwide, but is 100-fold more common (endemic) in equatorial Africa, particularly among children. Epstein-Barr virus (EBV) and malaria are epidemiologically linked to endemic BL in epidemiologic studies, but questions remain about role of EBV variants and the evidence for association with malaria is weak. EBV is ubiquitous, yet only few children develop BL, possibly because only a few EBV variants are pathogenically relevant. The association of BL with malaria is based on ecologic and non-comparative clinical studies. Two case-control studies have reported significant association of high anti-malarial antibodies with BL (OR=5_ among children in Uganda and in Malawi, but selection bias (cases and controls came from dissimilar geographical areas) and reverse causality bias were limitations. Three studies were conducted in the 1960s and 70s to test association of carriage of malaria-resistance gene with BL, two of which reported a significant or marginal inverse association. These pioneering studies were small (240 cases all together) and looked at one polymorphism in one gene (sickle cell gene). Improvements in technologies to characterize genetic variation allow the EBV and malaria hypotheses to be examined with greater power by looking at genetic variation across multiple genes. Epidemiology of Burkitt lymphoma in East African children and minors (EMBLEM) is a case-control study of 1500 BL cases and 3000 age-, sex- and residence-frequency matched controls we are proposing to conduct in East Africa. The study will enroll cases at four hospitals in four regions in East Africa, where malaria transmission is holoendemic and year round. The controls will be enrolled from general population attendees at Health Center II (HC-II) units where the cases originated. The primary study objectives are: 1) to test the hypothesis that genetic resistance to malaria is associated with a lower risk of BL, and 2) to use genome-wide association methods to discover genetic variation that may be associated with decreased or increased risk of BL. Because genetic variation conveys no information on actual exposure to malaria or EBV, in secondary analyses, we will use empiric epidemiological questionnaire and laboratory methods: a) to measure exposure to malaria and its association with BL, and b) to measure EBV variants and their association with BL. To examine issues related to bias and to obtain data to correct for deviations, we will also enroll 2250 population controls from 5% of the villages to obtain population distribution of key exposures variables. This data will be used to reweight the distribution in HC-II controls back to the general population. ...
Long-Term Follow-up Study for Non-Hodgkin's Lymphoma Patients Who Received Study Treatment (Plerixafor...
Non-Hodgkin's LymphomaAutologous TransplantationThis is a long-term observational study of patients that were treated with at least 1 dose of study treatment (plerixafor or placebo) in the AMD3100-3101 protocol (NCT00103610).