about
Micro-computed tomography derived anisotropy detects tumor provoked deviations in bone in an orthotopic osteosarcoma murine model.Microscope sterility during spine surgery.Jagged1 is essential for osteoblast development during maxillary ossification.Fibrin accumulation secondary to loss of plasmin-mediated fibrinolysis drives inflammatory osteoporosis in miceA Subdermal Osteochondroma in a Young Girl.Coagulopathies in orthopaedics: links to inflammation and the potential of individualizing treatment strategies.Hemiepiphysiodesis Implants for Late-onset Tibia Vara: A Comparison of Cost, Surgical Success, and Implant Failure.Symptomatic Accessory Medial Meniscus Associated With Popliteal Pterygium Syndrome.Leptin Elevation as a Risk Factor for Slipped Capital Femoral Epiphysis Independent of Obesity Status.Elevated d-Dimer Is Not Predictive of Symptomatic Deep Venous Thrombosis After Total Joint Arthroplasty.A Clinical Prediction Algorithm to Stratify Pediatric Musculoskeletal Infection by Severity.Autocrine VEGF/VEGFR1 signaling in a subpopulation of cells associates with aggressive osteosarcoma.Pleiotropic effects of bisphosphonates on osteosarcoma.Stuffed Animals in the Operating Room: A Reservoir of Bacteria With a Simple Solution.Bisphosphonates inhibit osteosarcoma-mediated osteolysis via attenuation of tumor expression of MCP-1 and RANKL.The temporal and spatial development of vascularity in a healing displaced fracture.Supraclavicular nerve entrapment and clavicular fracture.A Novel Classification System Based on Dissemination of Musculoskeletal Infection is Predictive of Hospital Outcomes.2010 Young Investigator Award winner: Therapeutic aprotinin stimulates osteoblast proliferation but inhibits differentiation and bone matrix mineralization.Medial approach for drainage of the obturator musculature in children.Pediatric Musculoskeletal Infection: Hijacking the Acute-Phase Response.Proximal location in extremity long bones is a poor prognostic factor for osteosarcoma: A retrospective cohort study of 153 patients.Leclercia adecarboxylata Musculoskeletal Infection in an Immune Competent Pediatric Patient: An Emerging Pathogen?The hyperglycemic byproduct methylglyoxal impairs anticoagulant activity through covalent adduction of antithrombin III.Epidemiology, diagnosis, and treatment of pericapsular pyomyositis of the hip in children.Bisphosphonates: from softening water to treating PXE.Quantifying intra-osseous growth of osteosarcoma in a murine model with radiographic analysis.Implant contamination during spine surgery.Differential development of the distal and proximal femoral epiphysis and physis in mice.Plasmin Prevents Dystrophic Calcification After Muscle Injury.Vitamin K-Dependent Coagulopathy in Pediatric Osteomyelitis: A Case Report.Characterizing the Acute Phase Response in Healthy Patients Following Total Joint Arthroplasty: Predictable and Consistent.Acetabular retroversion in Down syndrome.Radiation Exposure During Operative Fixation of Pediatric Supracondylar Humerus Fractures: Is Lead Shielding Necessary?Thrombin induced by the extrinsic pathway and PAR-1 regulated inflammation at the site of fracture repair.Internal Rotation Stress Testing Improves Radiographic Outcomes of Type 3 Supracondylar Humerus Fractures.Posttraumatic Proximal Radioulnar Synostosis after Closed Reduction for a Radial Neck and Olecranon Fracture.Performance of TEM-PCR vs Culture for Bacterial Identification in Pediatric Musculoskeletal Infections.Unexpected timely fracture union in matrix metalloproteinase 9 deficient mice.Dilutional coagulopathy in pediatric scoliosis surgery: A single center report
P50
Q33706492-06E29A8C-6E64-42CB-80E4-7F16879F42B5Q33706492-35AEDE5B-EA4D-4CF9-ADAF-2A95194807F6Q33935002-CD95405C-0197-4366-BC5E-19259A4E4ACBQ35013321-5919F8F8-9A1F-4EB4-BA78-CFE31F154501Q35760681-BDA81B23-7F49-478B-92AE-6A7F6C68A2D2Q37590810-66001C9B-F95B-42CB-8108-A6560C5E8B30Q38032935-552136CD-2F7D-4658-B487-0E4FC6608B87Q38304724-BD31601F-72A1-4DF5-98AF-FDA8532C8733Q38493606-933DD510-A5B8-4AEC-8493-90F25D6D07CAQ38683225-69F57484-820F-4396-BCDD-30A862B23CDFQ38803394-05C61D65-3DF6-4E51-9655-7C9B16730784Q38967274-C188251B-C3BA-4F55-A5FB-0594FF17BB60Q39001714-CC1B6083-943E-46D2-82E4-96942D9CEC02Q39014688-644A3692-2985-4DD5-ACF9-977B4886E817Q39020593-784838F3-98E9-4A01-A2B5-CD60A3FA6475Q39032864-F12DE2B6-DE15-49E6-A76C-51C60940B38DQ39160701-079597E2-D779-4BED-84C3-BF608532F196Q39250511-9D81E521-D2BF-44E0-A763-4924182DDD8CQ39684753-7530D33D-229C-4F50-8F8D-F57548FF0230Q39712557-8A606705-F9BA-43E2-A684-86EAA6CFEEF3Q40227059-D2A94981-DF59-4663-B5A3-E080EC158860Q40498176-B1E7A4A8-9F47-4292-AE9D-9CD4E482AA2FQ40769522-4C20ACCE-F5C0-4162-AAEB-A2BC80220E77Q40894247-17663B0F-5D7E-43E6-AD9F-B2E25DED3B74Q41910544-62356FE1-E634-426B-AC01-A6FA73F6A86FQ42242432-9711F2D8-8B69-420C-9501-BC1F637CFFBDQ43208313-906B64EE-E730-495A-ACE6-7524C5F3FDACQ43442365-233B8D9D-1CCE-4F7F-B296-219EDB6CFACCQ44764130-27D59F7F-AEC6-4970-834F-45C530B9BB54Q46851755-64521A3F-B956-4521-8D1C-A85A905F3408Q49113984-EE7BB758-860C-4728-B9A4-6871C173D95DQ49679458-476A53CB-D9A4-4276-9FC7-9543FB3D16C0Q51554118-78492A7A-FCE6-4D08-A644-5DD82F133606Q51804532-C9697C82-449D-44FF-886F-FE0C44D11E29Q53084063-0A6C41E7-44CD-4B94-A998-380F5455C7C8Q53308404-FEA6D5C9-5556-4DA0-9D41-FDC0706FE6C5Q53542661-7CB28C90-51C2-4E73-AC7F-1E5CA55C35DBQ55082941-AC30B925-A1B6-4088-8967-688835C18C0EQ55449599-E6CB3FFD-B202-4E4A-852E-CD51281F8584Q55486778-56D49F91-F125-49DF-A1F6-B005A954DE08
P50
description
hulumtues
@sq
orthopaedic surgeon
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jonathan G Schoenecker
@ast
Jonathan G Schoenecker
@es
Jonathan G Schoenecker
@nl
Jonathan G Schoenecker
@sl
Jonathan G. Schoenecker
@en
type
label
Jonathan G Schoenecker
@ast
Jonathan G Schoenecker
@es
Jonathan G Schoenecker
@nl
Jonathan G Schoenecker
@sl
Jonathan G. Schoenecker
@en
prefLabel
Jonathan G Schoenecker
@ast
Jonathan G Schoenecker
@es
Jonathan G Schoenecker
@nl
Jonathan G Schoenecker
@sl
Jonathan G. Schoenecker
@en
P106
P21
P31
P496
0000-0002-3097-5496