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Point-of-Care Orthopedic Oncology Device Development [PDF]
Current Oncology, 2023 Background: The triad of 3D design, 3D printing, and xReality technologies is explored and exploited to collaboratively realize patient-specific products in a timely manner with an emphasis on designs with meta-(bio)materials.
Ioannis I. Mavrodontis +4 more
doaj +5 more sources
Three-dimensional printing technolgy in orthopedic oncology [PDF]
Clinical and Experimental Pediatrics, 2022 Yongsung Kim
doaj +4 more sources
Orthopedic oncology residency education, how broad and how deep? [PDF]
Journal of Advances in Medical Education and Professionalism, 2023 Orthopedic residency training has long been an area of active research and discussion, and as the knowledge and concepts in subspecialties evolve, it is crucial to investigate the implications of these advancements in the musculoskeletal oncology field ...
SADEGH SABERI +3 more
doaj +2 more sources
Proximal humerus reconstruction in orthopedic oncology. [PDF]
J Cancer Metastasis Treat, 2021 Proximal humeral reconstructive options following radical resection of proximal humeral primary and metastatic bone malignancies have evolved over time. With the relatively recent advent of the reverse total shoulder (RTSA), this technique has been increasingly employed in this setting over hemiarthroplasty techniques.
Pinnamaneni S, Damron TA.
europepmc +4 more sources
Evaluation of Patient Perceptions With Orthopedic Oncology Telehealth: A Pilot Project [PDF]
Journal of Patient Experience, 2020 Telehealth has been used for decades to improve access to care for rural and underserved patients. The adoption of telehealth in orthopedic oncology is novel and expected to positively impact patient access and compliance. However, no previous evaluation
Andrea Evenski MD +5 more
doaj +2 more sources
Reconstructive Science in Orthopedic Oncology. [PDF]
Tech Orthop, 2018 Limb salvage is widely practiced as standard of care in most cases of extremity bone sarcoma. Allograft and endoprosthesis reconstructions are the most widely utilized modalities for the reconstruction of large segment defects; however, complication rates remain high. Aseptic loosening and infection remain the most common modes of failure.
Burke ZDC +4 more
europepmc +7 more sources
Combining Augmented Reality and 3D Printing to Improve Surgical Workflows in Orthopedic Oncology: Smartphone Application and Clinical Evaluation [PDF]
Sensors, 2021 During the last decade, orthopedic oncology has experienced the benefits of computerized medical imaging to reduce human dependency, improving accuracy and clinical outcomes.
Rafael Moreta-Martinez +5 more
doaj +2 more sources
Occupational injuries and burn out among orthopedic oncology surgeons. [PDF]
World J Orthop, 2022 Orthopedic oncology surgeons commonly engage in prolonged and complex surgical procedures. These types of surgeries increase the risk of physical and psychological stressors, which may in turn make these physicians prone to work-related occupational injuries.The aim of this study was to explore in orthopedic oncologists, the prevalence of work-related ...
Alaseem AM +5 more
europepmc +3 more sources
Management of orthopedic oncology patients during coronavirus pandemic. [PDF]
J Surg Oncol, 2020 AbstractThe new measures implemented in hospitals also altered the operation of orthopedics and traumatology departments. The main purpose of this article is to discuss how orthopedic oncology clinics should be organized during the pandemic and to present the process management scheme for patients requiring orthopedic surgery, including trauma surgery,
Şahbat Y +3 more
europepmc +5 more sources
Orthopedic oncology - "the challenges ahead". [PDF]
Front Surg, 2014 Orthopaedic oncology one of the relatively newer sub specialties in orthopaedics has seen rapid strides in recent years. Function preserving alternatives have largely replaced amputation as the means to achieve local control in malignant bone tumors.
Puri A.
europepmc +6 more sources