420 results on '"Alifano, Marco"'
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2. Outcomes and costs with the introduction of robotic-assisted thoracic surgery in public hospitals
3. Protective effect of height on long-term survival of resectable lung cancer: a new feature of the lung cancer paradox
4. Mitochondrial metabolism sustains CD8+T cell migration for an efficient infiltration into solid tumors
5. The dual role of citrate in cancer
6. The potential for citrate to reinforce epigenetic therapy by promoting apoptosis
7. Impact of sarcopenia indexes on survival and severe immune acute toxicity in metastatic non-small cell lung cancer patients treated with PD-1 immune checkpoint inhibitors
8. Movie S2 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
9. Movie S8 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
10. Supplementary Tables from Intracellular Factor H Drives Tumor Progression Independently of the Complement Cascade
11. Supplementary Data from Acute Influenza Infection Promotes Lung Tumor Growth by Reprogramming the Tumor Microenvironment
12. Supplementary Figures from Intracellular Factor H Drives Tumor Progression Independently of the Complement Cascade
13. Movie S7 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
14. Figure S1 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
15. Data from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
16. Data from Intracellular Factor H Drives Tumor Progression Independently of the Complement Cascade
17. Figure S3 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
18. Supplementary Figures from Intracellular Factor H Drives Tumor Progression Independently of the Complement Cascade
19. Supplementary Table 1 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
20. Figure S2 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
21. Data from Acute Influenza Infection Promotes Lung Tumor Growth by Reprogramming the Tumor Microenvironment
22. Legends for supplementary figures and Videos from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
23. Figure S2 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
24. Movie S1 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
25. Movie S9 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
26. Figure S4 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
27. Figure S1 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
28. Data from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
29. Movie S2 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
30. Movie S6 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
31. Movie S4 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
32. Data from Intracellular Factor H Drives Tumor Progression Independently of the Complement Cascade
33. Movie S8 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
34. Movie S4 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
35. Movie S5 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
36. Movie S5 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
37. Movie S6 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
38. Supplementary Tables from Intracellular Factor H Drives Tumor Progression Independently of the Complement Cascade
39. Movie S3 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
40. Movie S1 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
41. Movie S7 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
42. Figure S3 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
43. Figure S4 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
44. Legends for supplementary figures and Videos from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
45. Movie S9 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
46. Supplementary Table 1 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
47. Movie S3 from CAR T-cell Entry into Tumor Islets Is a Two-Step Process Dependent on IFNγ and ICAM-1
48. Supplementary Data from Acute Influenza Infection Promotes Lung Tumor Growth by Reprogramming the Tumor Microenvironment
49. Digital versus Traditional chest drainage system: let’s move (with prudence) toward stronger evidence.
50. Table S1 from Orchestration and Prognostic Significance of Immune Checkpoints in the Microenvironment of Primary and Metastatic Renal Cell Cancer
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