Our overall goal of individualizing cancer treatment can only be met if biological specimens from patients are readily available to guide the need for therapy, the selection of therapy and the optimal dosing of available treatments. Furthermore, discovery of new prognostic and predictive factors will be greatly facilitated by the availability of high quality specimen repositories that contain carefully preserved materials derived from patients who have been uniformly staged and treated and for whom clinical outcomes are known, i.e., from patients enrolled on clinical trials. Conducting correlative science studies requires a coordinated system that includes centralized collection of tumor cells, tissues and biological fluids, storage under controlled conditions, a comprehensive inventory management system, a process to distribute specimens to qualified investigators and to receive the assay results from research laboratories, and policies to address responsible conduct of research, including safeguarding patient confidentiality. Ultimately, the results of the laboratory studies must be linked to and correlated with the clinical outcomes of patients treated on CALGB trials so that statistically valid conclusions can be drawn about the relationship between tumor biology and treatment outcomes. Thus, our specific objectives are as follows: 1) To sustain the core operations of the CALGB specimen repositories including specimen collection, storage, quality control, distribution, inventory management, security and confidentiality;2) To participate in the development of and implement best practices for the operation of human specimen repositories under the guidance of the Group Banking Committee;3) To participate in the development of a web-based portal by the Group Banking Committee which will help to describe the inventory of all the Cooperative Group specimen repositories and insure that this information is publicly available;4) To collaborate with qualified investigators from all over the world in the conduct of outstanding translational research projects that utilize the CALGB specimen repositories and associated clinical data.

Public Health Relevance

Our mission is clear, to improve the outcomes of cancer patients through research. To achieve this goal we pursue a central theme that pervades all of our work in CALGB, individualization of cancer treatment. Whether by use of molecular markers to direct therapy;assessment of a patient's DNA to identify individuals at risk for toxicity;or identification of the needs of special populations we believe that through our work we are offering patients tomorrow's Cancer Treatments Today.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Resource-Related Research Projects--Cooperative Agreements (U24)
Project #
5U24CA114725-09
Application #
8538882
Study Section
Special Emphasis Panel (ZCA1-SRLB-5 (M1))
Program Officer
Lubensky, Irina
Project Start
2005-06-06
Project End
2014-03-31
Budget Start
2013-04-01
Budget End
2014-03-31
Support Year
9
Fiscal Year
2013
Total Cost
$1,086,261
Indirect Cost
$44,890
Name
Brigham and Women's Hospital
Department
Type
DUNS #
030811269
City
Boston
State
MA
Country
United States
Zip Code
02115
Li, Megan; Mulkey, Flora; Jiang, Chen et al. (2018) Identification of a Genomic Region between SLC29A1 and HSP90AB1 Associated with Risk of Bevacizumab-Induced Hypertension: CALGB 80405 (Alliance). Clin Cancer Res 24:4734-4744
Bhatnagar, B; Blachly, J S; Kohlschmidt, J et al. (2016) Clinical features and gene- and microRNA-expression patterns in adult acute leukemia patients with t(11;19)(q23;p13.1) and t(11;19)(q23;p13.3). Leukemia 30:1586-9
Maharry, Sophia E; Walker, Christopher J; Liyanarachchi, Sandya et al. (2016) Dissection of the Major Hematopoietic Quantitative Trait Locus in Chromosome 6q23.3 Identifies miR-3662 as a Player in Hematopoiesis and Acute Myeloid Leukemia. Cancer Discov 6:1036-51
Niederwieser, C; Kohlschmidt, J; Volinia, S et al. (2015) Prognostic and biologic significance of DNMT3B expression in older patients with cytogenetically normal primary acute myeloid leukemia. Leukemia 29:567-75
Eisfeld, Ann-Kathrin; Schwind, Sebastian; Patel, Ravi et al. (2014) Intronic miR-3151 within BAALC drives leukemogenesis by deregulating the TP53 pathway. Sci Signal 7:ra36
Marcucci, Guido; Yan, Pearlly; Maharry, Kati et al. (2014) Epigenetics meets genetics in acute myeloid leukemia: clinical impact of a novel seven-gene score. J Clin Oncol 32:548-56
Whitman, Susan P; Kohlschmidt, Jessica; Maharry, Kati et al. (2014) GAS6 expression identifies high-risk adult AML patients: potential implications for therapy. Leukemia 28:1252-1258
Becker, Heiko; Maharry, Kati; Mrózek, Krzysztof et al. (2014) Prognostic gene mutations and distinct gene- and microRNA-expression signatures in acute myeloid leukemia with a sole trisomy 8. Leukemia 28:1754-1758
Mrózek, Krzysztof; Nicolet, Deedra; Maharry, Kati S et al. (2013) Reply to K. Orendi et al. J Clin Oncol 31:2361-2
Marcucci, Guido; Maharry, Kati S; Metzeler, Klaus H et al. (2013) Clinical role of microRNAs in cytogenetically normal acute myeloid leukemia: miR-155 upregulation independently identifies high-risk patients. J Clin Oncol 31:2086-93

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