47 results on '"Paranjape, Anurag N."'
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2. Development of an In Vitro Model to Study Mechanisms of Ultrasound-Targeted Microbubble Cavitation–Mediated Blood–Brain Barrier Opening
3. Preclinical Models of Brain Metastases
4. Abstract 15915: Ultrasound Targeted Microbubble Cavitation-Induced Endothelial Hyperpermeability is Calcium-Dependent and Regulated by Enos Signaling
5. Abstract 15877: Understanding the Mechanisms of Ultrasound-Targeted Microbubble Cavitation-Mediated Blood Brain Barrier Opening
6. EMT, stemness and tumor plasticity in aggressive variant neuroendocrine prostate cancers
7. Preclinical Models of Brain Metastases
8. Data from Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer
9. Supplementary Figure S1-S10 from Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer
10. Supplementary Table 1 from Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer
11. Supplementary Material and Methods from Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer
12. Supplementary Figure 9 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
13. Supplementary Figure 10 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
14. Supplementary Figure 7 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
15. Data from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
16. Supplementary Figure 2 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
17. Supplementary Table 1 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
18. Supplementary Figure 5 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
19. Supplementary Primary Sequences from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
20. Supplementary Figure 4 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
21. Supplementary Figure 6 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
22. Supplementary Figure Legends 1-10 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
23. Supplementary Figure 8 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
24. Supplementary Figure 3 from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
25. Supplementary Materials and Methods from A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
26. Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer
27. Understanding the mechanisms of ultrasound-targeted microbubble cavitation-mediated blood brain barrier opening
28. Calcium influx via mechanosensitive piezo1 channels regulates ultrasound targeted microbubble cavitation-induced endothelial hyperpermeability
29. A three-dimensional human brain spheroid model for studying sonoporation-induced drug penetration beyond the blood-brain barrier
30. Ultrasound-targeted microbubble cavitation increases paracellular gaps in an in vitro blood brain barrier model
31. Abstract 13414: Studying Sonoporation-Induced Drug Payload Penetration Beyond the Blood-Brain Barrier Using Multi-Cellular Human Brain Spheroids
32. How to protect the chromosomal ends?: Telomerase, chromosome stability and aging
33. Reactive astrocytic S1P3 signaling modulates the blood–tumor barrier in brain metastases
34. SCDT-11. ASTROCYTIC S1P3 SIGNALING MODULATES BLOOD-TUMOR BARRIER PERMEABILITY IN BRAIN METASTASES
35. TMIC-34. IN VITRO STUDY OF ROLE OF ASTROCYTIC S1P3 IN REGULATING BLOOD-BRAIN/TUMOR BARRIER PERMEABILITY
36. SCDT-12. IN VITRO STUDY OF ROLE OF ASTROCYTIC S1P3 IN REGULATING BLOOD-BRAIN/TUMOR BARRIER PERMEABILITY
37. TMIC-19. ASTROCYTIC S1P3 SIGNALING MODULATES BLOOD-TUMOR BARRIER PERMEABILITY IN BRAIN METASTASES
38. Tyrosine kinase inhibitors induce mesenchymal stem cell–mediated resistance in BCR-ABL+ acute lymphoblastic leukemia
39. Abstract 4330: Astrocytic S1P3 regulates blood-brain/tumor barrier permeability
40. N-BLR, a primate-specific non-coding transcript leads to colorectal cancer invasion and migration
41. Abstract 4065: Delineating the role of epithelial-mesenchymal transition in the generation and maintenance of prostate cancer stem cells
42. A novel embryonic plasticity gene signature that predicts metastatic competence and clinical outcome
43. Bmi1 regulates self-renewal and epithelial to mesenchymal transition in breast cancer cells through Nanog
44. A Monoclonal Antibody against Human Notch1 Ligand–Binding Domain Depletes Subpopulation of Putative Breast Cancer Stem–like Cells
45. Phenotypic and Functional Characterization of Human Mammary Stem/Progenitor Cells in Long Term Culture
46. Tyrosine kinase inhibitors induce mesenchymal stem cell–mediated resistance in BCR-ABL+acute lymphoblastic leukemia
47. N-BLR, a primate-specific non-coding transcript leads to colorectal cancer invasion and migration
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