The long-term outcomes of osteosarcoma have improved; however, patients with metastases, recurrence or axial disease continue to have a poor prognosis. Computer navigation in surgery is becoming ever more commonplace, and the proposed advantages, including precision during surgery, is particularly applicable to the field of orthopaedic oncology and challenging areas such as the axial skeleton. Within this article, we provide an overview of the field of computer navigation and computer-assisted tumour surgery (CATS), in particular its relevance to the surgical management of osteosarcoma
Robert Allan McCulloch, T.F. (2021). Computer Navigation and 3D Printing in the Surgical Management of Bone Sarcoma. CELLS, 10(2), 1-15 [10.3390/cells10020195].
Computer Navigation and 3D Printing in the Surgical Management of Bone Sarcoma
Tommaso FrisoniWriting – Original Draft Preparation
;Davide Maria DonatiSupervision
;
2021
Abstract
The long-term outcomes of osteosarcoma have improved; however, patients with metastases, recurrence or axial disease continue to have a poor prognosis. Computer navigation in surgery is becoming ever more commonplace, and the proposed advantages, including precision during surgery, is particularly applicable to the field of orthopaedic oncology and challenging areas such as the axial skeleton. Within this article, we provide an overview of the field of computer navigation and computer-assisted tumour surgery (CATS), in particular its relevance to the surgical management of osteosarcomaFile | Dimensione | Formato | |
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Computer Navigation and 3D Printing in the Surgical Management of Bone Sarcoma.pdf
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