Author | Description | Tags | Downloads |
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Shi et al. 2022. Technology in Cancer Research & Treatment | Comprehensive Evaluation of Carbon-Fiber-Reinforced Polyetheretherketone (CFR-PEEK) Spinal Hardware for Proton and Photon Planning | Radiation Therapy | |
Joerger et al. 2022. Cancers (Basel) | CFR-PEEK Pedicle Screw Instrumentation for Spinal Neoplasms: A Single Center Experience on Safety and Efficacy | Clinical Evidence | |
Kalasauskas et al. 2022. World Neurosurgery | Qualitative Assessment of Titanium versus Carbon Fiber/Polyetheretherketone Pedicle Screw-Related Artifacts: A Cadaveric Study | Imaging | |
Almeida et al. 2022. The Spine Journal, Volume 22, Issue 9, Supplement, Page S185 | Carbon fiber reinforced PEEK implants for spine tumors: a single center experience | Clinical Evidence | |
Henzen et al. 2022. Radiation Oncology | Feasibility of postoperative spine stereotactic body radiation therapy in proximity of carbon and titanium hybrid implants using a robotic radiotherapy device | Radiation Therapy | |
Krätzig et al. 2021. Neurosurgical Review | Carbon fiber-reinforced PEEK versus titanium implants: an in vitro comparison of susceptibility artifacts in CT and MR imaging | Imaging | |
Wagner et al. 2021. World Neurosurgery | Cement-Augmented Carbon Fiber-Reinforced Pedicle Screw Instrumentation for Spinal Metastases: Safety and Efficacy | Clinical Evidence | |
Burkhardt et al. 2021. World Neurosurgery | The Surgical Treatment of Pyogenic Spondylodiscitis using Carbon-Fiber-Reinforced Polyether Ether Ketone Implants: Personal Experience of a Series of 81 Consecutive Patients | Clinical Evidence | |
Trungu et al. 2021. Journal of Neurosurgical Sciences | Percutaneous Carbon-PEEK instrumentation for spine tumors: a prospective observational study | Clinical Evidence | |
Poel et al. 2020. Physics in Medicine and Biology | Assessing the advantages of CFR-PEEK over titanium spinal stabilization implants in proton therapy – a phantom study | Radiation Therapy | |
Schmidhalter et al. 2020. Annual SASRO Meeting | Dosimetric Analysis of Spine SBRT in Case of CFR-PEEK Implants | Radiation Therapy | |
Fleege et al. 2020. Scientific Reports | Carbon fiber-reinforced pedicle screws reduce artifacts in magnetic resonance imaging of patients with lumbar spondylodesis | Imaging | |
Müller et al. 2020. Journal of Applied ClinicalMedical Physics | The dosimetric impact of stabilizing spinal implants in radiotherapy treatment planning with protons and photons: standard titanium alloy vs. radiolucent carbon-fiber-reinforced PEEK systems | Radiation Therapy | |
Külling et al. 2020. Abstract DWG | 12 Months Results for a new CF/PEEK Pedicle-Cage TLIF system demonstrates high fusion rate | Clinical Evidence | |
Burkhardt et al. 2019. Neurosurgical Focus | Anterior cervical spine surgery for the treatment of subaxial cervical spondylodiscitis: a report of 30 consecutive patients | Clinical Evidence | |
Milavec et al. 2019. Journal of Functional Biomaterials | First Clinical Experience with a Carbon Fibre Reinforced PEEK Composite Plating System for Anterior Cervical Discectomy and Fusion | Clinical Evidence | |
Archavlis et al. 2018. Abstracts DGNC | Radiolucent Carbon-Fiber-Reinforced Pedicle Screws in Spine Metastases: Middle-Term Radiological and Clinical Results | Clinical Evidence | |
Hoppe et al. 2018. Journal of Functional Biomaterials | First Results of a New Vacuum Plasma Sprayed (VPS) Titanium-Coated Carbon/PEEK Composite Cage for Lumbar Interbody Fusion | Clinical Evidence | |
Klippel et al. 2018. Annual SSRMP Meeting | Dosimetric Impact of Titanium and Carbon Implants in Photon Therapy | Radiation Therapy | |
Ringel et al. 2017. World Neurosurgery | Radiolucent Carbon Fiber-Reinforced Pedicle Screws for Treatment of Spinal Tumors: Advantages for Radiation Planning and Follow-Up Imaging | Radiation Therapy |
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