Core C - Biostatistics The Biostatistics Core will develop statistical designs, develop statistical analysis plans, perform data acquisition, develop databases, archive data, develop protocol specific clinical research forms, perform data monitoring for clinical trials involving human subjects, perform data analysis and interpretation and aid in the development of manuscripts, abstracts and presentations.
The specific aims of the Biostatistics Core are:
Aim 1 : Collaborate with SPORE investigators on study design to develop projects with appropriate statistical operating characteristics.
Aim 2 : Provide a statistical analysis plan for each SPORE project.
Aim 3 : Perform statistical analyses of project results as specified in the statistical analysis plan and collaborate with SPORE investigators on the interpretation and reporting of research findings.
Aim 3 : Monitor the conduct of SPORE clinical research projects to ensure patient safety and the scientific integrity of the projects.
Aim 4 : Collaborate with SPORE investigators on interpretation of data analysis results and aid in the development of manuscripts, abstracts and presentations. The Biostatistics Core will provide investigators with the biostatistical and computing expertise that is essential to the design of laboratory-based and clinical studies because it ensures the efficient use of financial, animal and patient resources while minimizing the likelihood of false conclusions. The projects of this SPORE will generate complex data that will require substantial biostatistical and computing input to be effectively analyzed and presented.
Nimmakayala, Rama Krishna; Batra, Surinder K; Ponnusamy, Moorthy P (2018) Unraveling the journey of cancer stem cells from origin to metastasis. Biochim Biophys Acta Rev Cancer 1871:50-63 |
Aithal, Abhijit; Rauth, Sanchita; Kshirsagar, Prakash et al. (2018) MUC16 as a novel target for cancer therapy. Expert Opin Ther Targets 22:675-686 |
Barkeer, Srikanth; Chugh, Seema; Batra, Surinder K et al. (2018) Glycosylation of Cancer Stem Cells: Function in Stemness, Tumorigenesis, and Metastasis. Neoplasia 20:813-825 |
Naramura, Mayumi; Natarajan, Amarnath (2018) Mouse Pancreatic Tumor Model Independent of Tumor Suppressor Gene Inactivation. Pancreas 47:e27-e29 |
Contreras, Jacob I; Robb, Caroline M; King, Hannah M et al. (2018) Chemical Genetic Screens Identify Kinase Inhibitor Combinations that Target Anti-Apoptotic Proteins for Cancer Therapy. ACS Chem Biol 13:1148-1152 |
Wang, Gang; Biswas, Anup K; Ma, Wanchao et al. (2018) Metastatic cancers promote cachexia through ZIP14 upregulation in skeletal muscle. Nat Med 24:770-781 |
Murthy, Divya; Attri, Kuldeep S; Singh, Pankaj K (2018) Phosphoinositide 3-Kinase Signaling Pathway in Pancreatic Ductal Adenocarcinoma Progression, Pathogenesis, and Therapeutics. Front Physiol 9:335 |
Barkeer, Srikanth; Chugh, Seema; Karmakar, Saswati et al. (2018) Novel role of O-glycosyltransferases GALNT3 and B3GNT3 in the self-renewal of pancreatic cancer stem cells. BMC Cancer 18:1157 |
Rana, Sandeep; Sonawane, Yogesh A; Taylor, Margaret A et al. (2018) Synthesis of aminopyrazole analogs and their evaluation as CDK inhibitors for cancer therapy. Bioorg Med Chem Lett 28:3736-3740 |
Roy, Sohini; Bag, Arup K; Dutta, Samikshan et al. (2018) Macrophage-Derived Neuropilin-2 Exhibits Novel Tumor-Promoting Functions. Cancer Res 78:5600-5617 |
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