174 results on '"Koh, Amy J."'
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2. Anabolic actions of parathyroid hormone in a hypophosphatasia mouse model
3. Caspase-9 driven murine model of selective cell apoptosis and efferocytosis
4. Polarization of Prostate Cancer-associated Macrophages Is Induced by Milk Fat Globule-EGF Factor 8 (MFG-E8)-mediated Efferocytosis*
5. Parathyroid hormone mediates hematopoietic cell expansion through interleukin-6.
6. Local pulsatile PTH delivery regenerates bone defects via enhanced bone remodeling in a cell-free scaffold
7. The effects of preosteoblast‐derived exosomes on macrophages and bone in mice.
8. Apoptosis-induced CXCL5 accelerates inflammation and growth of prostate tumor metastases in bone
9. Supplementary Figure 1 from Parathyroid Hormone–Related Protein Drives a CD11b+Gr1+ Cell–Mediated Positive Feedback Loop to Support Prostate Cancer Growth
10. Supplementary Figure 4 from Parathyroid Hormone–Related Protein Drives a CD11b+Gr1+ Cell–Mediated Positive Feedback Loop to Support Prostate Cancer Growth
11. Data from Parathyroid Hormone–Related Protein Drives a CD11b+Gr1+ Cell–Mediated Positive Feedback Loop to Support Prostate Cancer Growth
12. Data from Cyclophosphamide Creates a Receptive Microenvironment for Prostate Cancer Skeletal Metastasis
13. Supplementary Figure 2 from Parathyroid Hormone–Related Protein Drives a CD11b+Gr1+ Cell–Mediated Positive Feedback Loop to Support Prostate Cancer Growth
14. Supplementary Figure 3 from Parathyroid Hormone–Related Protein Drives a CD11b+Gr1+ Cell–Mediated Positive Feedback Loop to Support Prostate Cancer Growth
15. Supplementary Figure 1 from Cyclophosphamide Creates a Receptive Microenvironment for Prostate Cancer Skeletal Metastasis
16. Supplementary Figure 2 from Cyclophosphamide Creates a Receptive Microenvironment for Prostate Cancer Skeletal Metastasis
17. Supplementary Figure Legend from Parathyroid Hormone–Related Protein Drives a CD11b+Gr1+ Cell–Mediated Positive Feedback Loop to Support Prostate Cancer Growth
18. Supplementary Figure 3 from Cyclophosphamide Creates a Receptive Microenvironment for Prostate Cancer Skeletal Metastasis
19. Supplementary Figure 5 from Parathyroid Hormone–Related Protein Drives a CD11b+Gr1+ Cell–Mediated Positive Feedback Loop to Support Prostate Cancer Growth
20. Parathyroid Hormone and Trabectedin Have Differing Effects on Macrophages and Stress Fracture Repair
21. Preprogrammed Long‐Term Systemic Pulsatile Delivery of Parathyroid Hormone to Strengthen Bone
22. Osteal macrophages support physiologic skeletal remodeling and anabolic actions of parathyroid hormone in bone
23. Drugs which inhibit osteoclast function suppress tumor growth through calcium reduction in bone
24. Proteoglycan 4, a Novel Immunomodulatory Factor, Regulates Parathyroid Hormone Actions on Hematopoietic Cells
25. Anabolic actions of PTH in murine models: two decades of insights
26. Parathyroid hormone mediates bone growth through the regulation of osteoblast proliferation and differentiation
27. Impact of Proteoglycan-4 and Parathyroid Hormone on Articular Cartilage
28. Unique Pro-Inflammatory Response of Macrophages during Apoptotic Cancer Cell Clearance
29. Cells of the Osteoclast Lineage as Mediators of the Anabolic Actions of Parathyroid Hormone in Bone
30. Anabolic Actions of Parathyroid Hormone during Bone Growth Are Dependent on c-fos
31. 3′,5′-Cyclic Adenosine Monophosphate Activation in Osteoblastic Cells: Effects on Parathyroid Hormone-1 Receptors and Osteoblastic Differentiation in Vitro*
32. Bone Mass is Compromised by the Chemotherapeutic Trabectedin in Association with Effects on Osteoblasts and Macrophage Efferocytosis
33. Inflammatory bone loss associated with MFG‐E8 deficiency is rescued by teriparatide
34. Apoptosis-induced CXCL5 accelerates inflammation and growth of prostate tumor metastases in bone
35. Bone Mass Is Compromised by the Chemotherapeutic Trabectedin in Association With Effects on Osteoblasts and Macrophage Efferocytosis
36. Preprogrammed Long‐Term Systemic Pulsatile Delivery of Parathyroid Hormone to Strengthen Bone
37. Parathyroid hormone (PTH) facilitates macrophage efferocytosis in bone marrow via pro-resolving mediators Resolvin D1 and Resolvin D2
38. Abstract 4152: Efferocytosis of prostate cancer cells induces a tumor-promoting inflammatory response in myeloid macrophages
39. Modulation of Osteoblastic Cell Efferocytosis by Bone Marrow Macrophages
40. Cover Image, Volume 117, Number 7, July 2016
41. Calcium Sensing Receptor Function Supports Osteoblast Survival and Acts as a Co-Factor in PTH Anabolic Actions in Bone
42. Bone marrow macrophages support prostate cancer growth in bone
43. Juxtacrine interaction of macrophages and bone marrow stromal cells induce interleukin-6 signals and promote cell migration
44. Cutting Edge: Parathyroid Hormone Facilitates Macrophage Efferocytosis in Bone Marrow via Proresolving Mediators Resolvin D1 and Resolvin D2
45. Parathyroid Hormone–Related Protein Drives a CD11b+Gr1+ Cell–Mediated Positive Feedback Loop to Support Prostate Cancer Growth
46. Tumor expressed PTHrP facilitates prostate cancer-induced osteoblastic lesions
47. Induction of Apoptosis in the Bone Marrow Promotes Regenerative Actions of Parathyroid Hormone (PTH) in Bone.
48. The Soluble Interleukin-6 Receptor Is a Mediator of Hematopoietic and Skeletal Actions of Parathyroid Hormone
49. PTH/PTHrP receptor is temporally regulated during osteoblast differentiation and is associated with collagen synthesis
50. Impact of proteoglycan‐4 and parathyroid hormone on articular cartilage
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