Carbon-fiber reinforced intramedullary nailing in musculoskeletal tumor surgery: a national multicentric experience of the Italian Orthopaedic Society (SIOT) Bone Metastasis Study Group.
暂无分享,去创建一个
V. Denaro | M. Lisanti | R. Biagini | R. Piana | A. Piccioli | D. Donati | P. Maniscalco | R. Capanna | M. Gatti | M. Spinelli | B. Rossi | A. Di Martino | F. Gherlinzoni | F. Camnasio
[1] C. Zoccali,et al. The Carbofix™ "Piccolo Proximal femur nail": A new perspective for treating proximal femur lesion. A technique report. , 2016, Journal of orthopaedics.
[2] G. Farfalli,et al. Structural allograft reconstruction of the foot and ankle after tumor resections , 2016, MUSCULOSKELETAL SURGERY.
[3] Alexandria O. Starks,et al. Thromboembolism After Intramedullary Nailing for Metastatic Bone Lesions. , 2015, The Journal of bone and joint surgery. American volume.
[4] V. Denaro,et al. How do we estimate survival? External validation of a tool for survival estimation in patients with metastatic bone disease—decision analysis and comparison of three international patient populations , 2015, BMC Cancer.
[5] John H. Healey,et al. Carbon fiber intramedullary nails reduce artifact in postoperative advanced imaging , 2015, Skeletal Radiology.
[6] R. Biagini,et al. Bone metastases of unknown origin: epidemiology and principles of management , 2015, Journal of Orthopaedics and Traumatology.
[7] M. Bhandari,et al. The Use of Carbon-Fiber-Reinforced (CFR) PEEK Material in Orthopedic Implants: A Systematic Review , 2015, Clinical medicine insights. Arthritis and musculoskeletal disorders.
[8] D. Hak,et al. Use of carbon-fiber-reinforced composite implants in orthopedic surgery. , 2014, Orthopedics.
[9] D. Perugia,et al. Preliminary experience with Piccolo Composite™, a radiolucent distal fibula plate, in ankle fractures. , 2014, Injury.
[10] A. Piccioli,et al. Impending fracture: A difficult diagnosis. , 2014, Injury.
[11] Pietro Ruggieri,et al. Management of long bone metastases: recommendations from the Italian Orthopaedic Society bone metastasis study group , 2014, Expert review of anticancer therapy.
[12] F. Catani,et al. A new volar plate made of carbon-fiber-reinforced polyetheretherketon for distal radius fracture: analysis of 40 cases , 2014, Journal of Orthopaedics and Traumatology.
[13] M. Maybody,et al. Embolization of Hypervascular Bone Metastases Reduces Intraoperative Blood Loss: A Case-control Study , 2014, Clinical orthopaedics and related research.
[14] R. Hillock,et al. Utility of Carbon Fiber Implants in Orthopedic Surgery: Literature Review , 2014 .
[15] Ni Xin-ye,et al. The prospect of carbon fiber implants in radiotherapy , 2012, Journal of applied clinical medical physics.
[16] D. Seligson,et al. The invisible nail: a technique report of treatment of a pathological humerus fracture with a radiolucent intramedullary nail. , 2011, Injury.
[17] M. Yaszemski,et al. Metastatic bone disease: diagnosis, evaluation, and treatment. , 2009, The Journal of bone and joint surgery. American volume.
[18] Z. Lidar,et al. Surgical management of metastatic bone disease. , 2009, The Journal of bone and joint surgery. American volume.
[19] G. Maccauro,et al. Anterograde femoral nail for the treatment of femoral metastases , 2008, European Journal of Orthopaedic Surgery & Traumatology.
[20] S. Kurtz,et al. PEEK biomaterials in trauma, orthopedic, and spinal implants. , 2007, Biomaterials.
[21] Virginia Tsapaki,et al. Estimation of radiation doses to patients and surgeons from various fluoroscopically guided orthopaedic surgeries. , 2007, Radiation protection dosimetry.
[22] H. Sugiura,et al. Prognostic factors and a scoring system for patients with skeletal metastasis. , 2005, The Journal of bone and joint surgery. British volume.
[23] E. Noordijk,et al. Comparative analysis of risk factors for pathological fracture with femoral metastases. , 2004, The Journal of bone and joint surgery. British volume.
[24] W. Ward,et al. Metastatic Disease of the Femur: Surgical Treatment , 2003, Clinical orthopaedics and related research.
[25] D. Campanacci,et al. The treatment of metastases in the appendicular skeleton. , 2001, The Journal of bone and joint surgery. British volume.
[26] S. Ramakrishna,et al. Quantitative Radiographic Analysis of Fiber Reinforced Polymer Composites , 2001, Journal of biomaterials applications.
[27] K. Harrington. Orthopedic surgical management of skeletal complications of malignancy , 1997, Cancer.
[28] H. Boxma,et al. Impending and actual pathological fractures in patients with bone metastases of the long bones. A retrospective study of 233 surgically treated fractures. , 1994, The European journal of surgery = Acta chirurgica.
[29] H. Mirels. Metastatic Disease in Long Bones A Proposed Scoring System for Diagnosing Impending Pathologic Fractures , 1989, Clinical orthopaedics and related research.
[30] R. A. Colyer. Surgical stabilization of pathological neoplastic fractures. , 1986, Current problems in cancer.
[31] W. Hop,et al. The influence of intramedullary nailing upon the development of metastases in the treatment of an impending pathological fracture: an experimental study , 1983, Clinical & Experimental Metastasis.
[32] D. Harris. An improved central venous pressure manometer , 1969 .
[33] C. Marco,et al. The Carbon Fiber Intramedullary Nail in Pathological Humeral Shaft Fractures: Two Case Reports , 2015 .
[34] Felix H Cheung. The practicing orthopedic surgeon's guide to managing long bone metastases. , 2014, The Orthopedic clinics of North America.
[35] M. Salai,et al. Carbon fiber reinforced PEEK Optima--a composite material biomechanical properties and wear/debris characteristics of CF-PEEK composites for orthopedic trauma implants. , 2013, Journal of the mechanical behavior of biomedical materials.
[36] T. Theologis,et al. Femoral nailing for metastatic disease of the femur: a comparison of reamed and unreamed femoral nailing. , 2000, Injury.
[37] R. Atkins,et al. Reconstruction nailing for pathological subtrochanteric fractures with coexisting femoral shaft metastases. , 1993, The Journal of bone and joint surgery. British volume.