50 results on '"Metheny-Barlow, Linda J."'
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2. Fibronectin Produced by Cerebral Endothelial and Vascular Smooth Muscle Cells Contributes to Perivascular Extracellular Matrix in Late-Delayed Radiation-Induced Brain Injury
3. Safety of pioglitazone during and after radiation therapy in patients with brain tumors: a phase I clinical trial
4. Cerebrovascular Remodeling and Neuroinflammation is a Late Effect of Radiation-Induced Brain Injury in Non-Human Primates
5. Anti-CD47 immunotherapy as a therapeutic strategy for the treatment of breast cancer brain metastasis
6. supplementary Tables 1 through 5 from Activation of the c-Met Pathway Mobilizes an Inflammatory Network in the Brain Microenvironment to Promote Brain Metastasis of Breast Cancer
7. Figure S1-S7 from Loss of XIST in Breast Cancer Activates MSN-c-Met and Reprograms Microglia via Exosomal miRNA to Promote Brain Metastasis
8. Data from Loss of XIST in Breast Cancer Activates MSN-c-Met and Reprograms Microglia via Exosomal miRNA to Promote Brain Metastasis
9. Data from Activation of the c-Met Pathway Mobilizes an Inflammatory Network in the Brain Microenvironment to Promote Brain Metastasis of Breast Cancer
10. Supplementary Figures 1 through 7 from Activation of the c-Met Pathway Mobilizes an Inflammatory Network in the Brain Microenvironment to Promote Brain Metastasis of Breast Cancer
11. Supplementary Materials and Methods and Supplementary Figure Legends from Activation of the c-Met Pathway Mobilizes an Inflammatory Network in the Brain Microenvironment to Promote Brain Metastasis of Breast Cancer
12. Correction: TGLI1 transcription factor mediates breast cancer brain metastasis via activating metastasis-initiating cancer stem cells and astrocytes in the tumor microenvironment
13. Impact of Breathing 100% Oxygen on Radiation-Induced Cognitive Impairment
14. Differential Expression of Homer1a in the Hippocampus and Cortex Likely Plays a Role in Radiation-Induced Brain Injury
15. Correction: Loss of XIST in Breast Cancer Activates MSN-c-Met and Reprograms Microglia via Exosomal miRNA to Promote Brain Metastasis
16. Pericytes on the Tumor Vasculature: Jekyll or Hyde?
17. Breast cancer subtype affects patterns of failure of brain metastases after treatment with stereotactic radiosurgery
18. Abstract 1979: JAK2/STAT3 and TrkA pathways are frequently co-activated in triple-negative and HER2-enriched breast cancers and the co-activation correlates with an increased potential of metastasis
19. Angiotensin-(1–7) prevents radiation-induced inflammation in rat primary astrocytes through regulation of MAP kinase signaling
20. Abstract 5025: Antifungal ketoconazole inhibits tumor-specific transcription factor tGLI1 leading to suppression of breast cancer stem cells and brain metastasis
21. Paradoxical Effects of Platelet-Derived Growth Factor-A Overexpression in Malignant Mesothelioma: Antiproliferative Effects In Vitro and Tumorigenic Stimulation In Vivo
22. TGLI1 transcription factor mediates breast cancer brain metastasis via activating metastasis-initiating cancer stem cells and astrocytes in the tumor microenvironment
23. Abstract 3689: Tumor-specific gain-of-function tGLI1 transcription factor is a novel mediator of breast cancer stem cells and a novel transcriptional activator of cancer stemness genes
24. Identification of CD37, cystatin A, and IL-23A gene expression in association with brain metastasis: analysis of a prospective trial
25. Safety of pioglitazone during and after radiation therapy in patients with brain tumors: a phase I clinical trial
26. Loss of XIST in Breast Cancer Activates MSN-c-Met and Reprograms Microglia via Exosomal miRNA to Promote Brain Metastasis
27. Regulation of Tie2 During VEGI-Mediated Inhibition of Angiogenesis
28. Abstract 5125: Muscadine grape extract inhibits breast cancer brain metastatic cells by multiple mechanisms
29. Abstract 1227: Angiotensin-(1-7) reduces triple negative breast cancer brain metastatic growth in association with decreased c-Met signaling
30. Activation of the c-Met Pathway Mobilizes an Inflammatory Network in the Brain Microenvironment to Promote Brain Metastasis of Breast Cancer
31. Abstract 1792: Radiation-induced downregulation of GLT-1 glutamate transporter mRNA expression is reversed by renin-angiotensin system inhibitors
32. Tumor-induced loss of mural Connexin 43 gap junction activity promotes endothelial proliferation
33. Cellular response of the rat brain to single doses of137Cs γ rays does not predict its response to prolonged ‘biologically equivalent’ fractionated doses
34. Differential Expression of Homer1a in the Hippocampus and Cortex Likely Plays a Role in Radiation-Induced Brain Injury
35. Abstract A64: Identification of p75NTR/TrkB-BDNF axis in breast cancer brain metastasis
36. Abstract 3728: Astaxanthin as an adjunct therapy for breast cancer
37. Pericytes on the Tumor Vasculature: Jekyll or Hyde?
38. Cross‐talk between endothelial and breast cancer cells regulates reciprocal expression of angiogenic factors in vitro
39. Regulation of Tie2 During VEGI-Mediated Inhibition of Angiogenesis
40. Abstract 1560: Breast tumor disrupt gap junction mediated vessel stabilization by two distinct mechanisms
41. Angiotensin-(1-7) Reduces Fibrosis in Orthotopic Breast Tumors
42. Abstract 3430: Breast tumor cells inhibit vascular gap junction communication by downregulation of mural cell Connexin 43
43. Abstract 473: Generation of a mouse model of breast cancer brain metastasis
44. Vascular Endothelial Growth Inhibitor (VEGI), an Endogenous Negative Regulator of Angiogenesis
45. Pentameric procyanidin from Theobroma cacao selectively inhibits growth of human breast cancer cells
46. Direct chemotactic action of angiopoietin-1 on mesenchymal cells in the presence of VEGF
47. The enigmatic role of angiopoietin-1 in tumor angiogenesis
48. Cellular response of the rat brain to single doses of 137Cs γ rays does not predict its response to prolonged 'biologically equivalent' fractionated doses.
49. Cellular response of the rat brain to single doses of (137)Cs γ rays does not predict its response to prolonged 'biologically equivalent' fractionated doses.
50. Angiopoietins and Tie2 in health and disease.
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