2,286 results on '"Loda, Massimo"'
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2. Distinct mesenchymal cell states mediate prostate cancer progression
3. Transcriptomes of Prostate Cancer with TMPRSS2:ERG and Other ETS Fusions.
4. Whole Slide Image to DICOM Conversion as Event-Driven Cloud Infrastructure
5. Author Correction: An oncogene–tumor suppressor cascade drives metastatic prostate cancer by coordinately activating Ras and nuclear factor-κB
6. The Prostate Cancer Androgen Receptor Cistrome in African American Men Associates with Upregulation of Lipid Metabolism and Immune Response.
7. ChatGPT for digital pathology research
8. Federated benchmarking of medical artificial intelligence with MedPerf
9. Castration-resistant prostate cancer cells are dependent on the high activity of CDK7
10. MedPerf: Open Benchmarking Platform for Medical Artificial Intelligence using Federated Evaluation
11. Metformin Overcomes the Consequences of NKX3.1 Loss to Suppress Prostate Cancer Progression
12. Linking African ancestral substructure to prostate cancer health disparities
13. Plasma metabolomics profiling of 580 patients from an Early Detection Research Network prostate cancer cohort
14. Spatial transcriptomic analysis of virtual prostate biopsy reveals confounding effect of tissue heterogeneity on genomic signatures
15. “Stromal cells in prostate cancer pathobiology: friends or foes?”
16. Coffee, Phosphoinositide 3-Kinase Signaling Pathway, and Prostate Cancer: A Prospective Study in the Health Professionals Follow-Up Study
17. Shotgun transcriptome, spatial omics, and isothermal profiling of SARS-CoV-2 infection reveals unique host responses, viral diversification, and drug interactions
18. Systematic Assessment of Tumor Purity and Its Clinical Implications
19. Family history of prostate cancer and the incidence of ERG- and phosphatase and tensin homolog-defined prostate cancer.
20. A MIR17HG-derived long noncoding RNA provides an essential chromatin scaffold for protein interaction and myeloma growth
21. Obesogenic High-Fat Diet and MYC Cooperate to Promote Lactate Accumulation and Tumor Microenvironment Remodeling in Prostate Cancer
22. Supplementary Figure S1 from Obesogenic High-Fat Diet and MYC Cooperate to Promote Lactate Accumulation and Tumor Microenvironment Remodeling in Prostate Cancer
23. Data from Obesogenic High-Fat Diet and MYC Cooperate to Promote Lactate Accumulation and Tumor Microenvironment Remodeling in Prostate Cancer
24. Supplementary Tables S1-S19 from Obesogenic High-Fat Diet and MYC Cooperate to Promote Lactate Accumulation and Tumor Microenvironment Remodeling in Prostate Cancer
25. Supplementary Information from Obesogenic High-Fat Diet and MYC Cooperate to Promote Lactate Accumulation and Tumor Microenvironment Remodeling in Prostate Cancer
26. Associating serum testosterone levels with African ancestral prostate cancer health disparities
27. PD09-06 EXPLORING STROMAL DYNAMICS IN PROSTATE CANCER: INSIGHTS FROM SPATIAL TRANSCRIPTOMIC ANALYSES
28. PD09-08 SPATIAL TRANSCRIPTOMIC CLONAL DECONVOLUTION IDENTIFIES THE ‘LETHAL CLONE’ IN PROSTATE CANCER AS DEFINED BY ABILITY TO METASTASIZE TO LYMPH NODES
29. Blocking lipid synthesis induces DNA damage in prostate cancer and increases cell death caused by PARP inhibition
30. Supplementary Figure 2 from Semi-Supervised, Attention-Based Deep Learning for Predicting TMPRSS2:ERG Fusion Status in Prostate Cancer Using Whole Slide Images
31. Supplementary Figure 1 from Semi-Supervised, Attention-Based Deep Learning for Predicting TMPRSS2:ERG Fusion Status in Prostate Cancer Using Whole Slide Images
32. Supplementary Tables 1 and 2 from Semi-Supervised, Attention-Based Deep Learning for Predicting TMPRSS2:ERG Fusion Status in Prostate Cancer Using Whole Slide Images
33. Data from Semi-Supervised, Attention-Based Deep Learning for Predicting TMPRSS2:ERG Fusion Status in Prostate Cancer Using Whole Slide Images
34. Expression of IGF/insulin receptor in prostate cancer tissue and progression to lethal disease
35. A prospective study of aspirin use and prostate cancer risk by TMPRSS2:ERG status
36. Rare Germline Variants Are Associated with Rapid Biochemical Recurrence After Radical Prostate Cancer Treatment: A Pan Prostate Cancer Group Study
37. O-GlcNAc transferase couples MRE11 to transcriptionally active chromatin to suppress DNA damage
38. MYC drives aggressive prostate cancer by disrupting transcriptional pause release at androgen receptor targets
39. Cis-vaccenic acid is a key product of stearoyl-CoA desaturase 1 and a critical oncogenic factor in prostate cancer
40. Supplementary File 1 from Adipose Triglyceride Lipase Is a Therapeutic Target in Advanced Prostate Cancer That Promotes Metabolic Plasticity
41. Supplementary Figures S1-S28 from Adipose Triglyceride Lipase Is a Therapeutic Target in Advanced Prostate Cancer That Promotes Metabolic Plasticity
42. Data from Adipose Triglyceride Lipase Is a Therapeutic Target in Advanced Prostate Cancer That Promotes Metabolic Plasticity
43. Supplementary Tables 1-8 from Adipose Triglyceride Lipase Is a Therapeutic Target in Advanced Prostate Cancer That Promotes Metabolic Plasticity
44. Supplementary File 2 from Adipose Triglyceride Lipase Is a Therapeutic Target in Advanced Prostate Cancer That Promotes Metabolic Plasticity
45. Canonical AREs are tumor suppressive regulatory elements in the prostate
46. Applications of Digital Pathology in Cancer: A Comprehensive Review
47. The New York State SARS-CoV-2 Testing Consortium: Regional Communication in Response to the COVID-19 Pandemic
48. EZH2 inhibition activates a dsRNA–STING–interferon stress axis that potentiates response to PD-1 checkpoint blockade in prostate cancer
49. SARS-CoV-2 antibody characterization in emergency department, hospitalized and convalescent patients by two semi-quantitative immunoassays
50. Dietary lycopene intake and risk of prostate cancer defined by ERG protein expression 1
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