41 results on '"LUCINI, V."'
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2. Human skin-derived stem cells inhibit brain tumor growth
3. Tailoring of anti angiogenic therapies to tumor stage improves therapeutic efficacy in mouse models of human gliomas
4. In vivo targeting ability of human glioblastoma by human skin-derived stem cells
5. Local intracerebral delivery of endogenous inhibitors by osmotic minipumps effectively suppresses glioma growth in vivo (vol 63, pg 2499, 2003)
6. Effect of human skin-derived stem cells on vessel architecture, tumor growth, and tumor invasion in brain tumor animal models
7. Studio di inibitori endogeni di angiogenesi in un modello murino transgenico di tumore cerebrale.
8. Human skin-derived stem cells interfer with brain tumor growth by reducing angiogenesis and invasion
9. Il tailoring delle terapie antiangiogeniche in base allo stadio tumorale incrementa l’efficacia terapeutica in modelli murini di gliomi umani.
10. Tailoring of anti angiogenic therapies to tumor stage improves therapeutic efficacy in mouse models of human gliomas
11. Tailoring of anti angiogenic therapies to tumor stage improves therapeutic efficacy in mouse models of human gliomas
12. Strategie di inibizione di angiogenesis ed invasione nei gliomi maligni
13. Combinatorial administration of molecules that simultaneously inhibit angiogenesis and invasion leads to increased therapeutic efficacy in mouse models of malignant glioma
14. Human skin-derived stem cells inhibit brain tumor growth
15. Combinatorial Administration of Molecules that Simultaneously Inhibits Angiogenesis and Invasion Leads to Increased Therapeutic Efficacy in Mouse Models of Malignant Glioma
16. Human Skin-Derived Stem Cells Inhibit Brain Tumor Growth
17. Human skin-derived stem cells inhibit brain tumor growth
18. Human skin-derived stem cells inhibit brain tumor growth.
19. Local intracerebral delivery of endogenous inhibitors by osmotic minipumps effectively suppresses glioma growth in vivo
20. IS20I, a specific alphavbeta3 integrin inhibitor, reduces glioma growth in vivo
21. Long-term inhibition of glioma growth by systemic administration of human PEX
22. Synergistic Suppression of Glioma Growth by Combinatorial Administration of Endogenous Inhibitors
23. In Vivo Targeting Ability of Human Glioblastoma by Human Skin-Derived Stem Cells
24. Inhibition of Glioma Growth by a Synthetic Inhibitor of VEGF
25. Synergistic suppression of glioma growth by combinatorial administration of endogenous inhibitors
26. Suppression of malignant glioma recurrence in a newly developed animal model by endogenous inhibitors
27. Suppression of glioma recurrence in a newly developed animal model by endogenous inhibitors.
28. Long-term inhibition of human malignant glioma growth by human PEX
29. Local delivery of endogenous inhibitors effectively inhibits human malignant glioma growth in vivo
30. Inhibition of Glioma Growth by Endogenous Inhibitors
31. Suppression of glioma recurrence in a newly developed animal model by endogenous inhibitors
32. Low-dose chemotherapy combined with an antiangiogenic drug reduces human glioma growth in vivo
33. Simultaneous inhibition of glioma angiogenesis, cell proliferation, and invasion by a naturally occurring fragment of human metalloproteinase-2
34. Anti angiogenic therapy is effective against recurrence of human gliomas in Vivo
35. Low dose and semicontinuous chemotherapy plus a anti angiogenic drug inhibits the growth of human gliomas in Vivo
36. FGF-4 is expressed human gliomas and involved in glioma growth and angiogenesis
37. IS201, a specific alphavBeta3 inhibitor, reduces glioma growth in Vivo
38. Anti angiogenic therapy reduces the incidence of recurrence of human malignant gliomas in vivo
39. Combination of low dose and semicontinous chemoterapy and an anti angiogenic drug suppresses the growth of human gliomas in vivo
40. PEX, a natural occurring fragment of MMP-2, simultaneously inhibits angiogenesis, cell proliferation and migration in vitro and potently suppresses glioma growth in vivo
41. RP-697, a specific alphavBeta3 inhibitor, suppresses glioma growth in vivo
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