What Is the Expected Learning Curve in Computer-assisted Navigation for Bone Tumor Resection?

Background Computer navigation during surgery can help oncologic surgeons perform more accurate resections. However, some navigation studies suggest that this tool may result in unique intraoperative problems and increased surgical time. The degree to which these problems might diminish with experie...

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Bibliographic Details
Published in:Clinical orthopaedics and related research 2017-03, Vol.475 (3), p.668-675
Main Authors: Farfalli, Germán L., Albergo, José I., Ritacco, Lucas E., Ayerza, Miguel A., Milano, Federico E., Aponte-Tinao, Luis A.
Format: Article
Language:English
Subjects:
Adolescent
Adult
Argentina
Bone Neoplasms - diagnostic imaging
Bone Neoplasms - pathology
Bone Neoplasms - surgery
Child
Child, Preschool
Clinical Competence
Conservative Orthopedics
Female
Humans
Learning Curve
Male
Margins of Excision
Medicine
Medicine & Public Health
Middle Aged
Operative Time
Orthopedics
Osteotomy - adverse effects
Osteotomy - methods
Radiographic Image Interpretation, Computer-Assisted
Retrospective Studies
Sports Medicine
Surgery
Surgery, Computer-Assisted - adverse effects
Surgical Orthopedics
Symposium: 2015 Meetings of the Musculoskeletal Tumor Society and the International Society of Limb Salvage
Time Factors
Tomography, X-Ray Computed
Treatment Outcome
Tumor
Young Adult
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Summary:Background Computer navigation during surgery can help oncologic surgeons perform more accurate resections. However, some navigation studies suggest that this tool may result in unique intraoperative problems and increased surgical time. The degree to which these problems might diminish with experience–the learning curve–has not, to our knowledge, been evaluated for navigation-assisted tumor resections. Questions/purposes (1) What intraoperative technical problems were observed during the first 2 years using navigation? (2) What was the mean time for navigation procedures and the time improvement during the learning curve? (3) Have there been any differences in the accuracy of the registration technique that occurred over time? (4) Did navigation achieve the goal of achieving a wide bone margin? Methods All patients who underwent preoperative virtual planning for tumor bone resections and operated on with navigation assistance from 2010 to 2012 were prospectively collected. Two surgeons (GLF, LAA-T) performed the intraoperative navigation assistance. Both surgeons had more than 5 years of experience in orthopaedic oncology with more than 60 oncology cases per year per surgeon. This study includes from the very first patients performed with navigation. Although they did not take any formal training in orthopaedic oncology navigation, both surgeons were trained in navigation for knee prostheses. Between 2010 and 2012, we performed 124 bone tumor resections; of these, 78 (63%) cases were resected using intraoperative navigation assistance. During this period, our general indications for use of navigation included pelvic and sacral tumors and those tumors that were reconstructed with massive bone allografts to obtain precise matching of the host and allograft osteotomies. Seventy-eight patients treated with this technology were included in the study. Technical problems (crashes) and time for the navigation procedure were reported after surgery. Accuracy of the registration technique was defined and the surgical margins of the removed specimen were determined by an experienced bone pathologist after the surgical procedure as intralesional, marginal, or wide margins. To obtain these data, we performed a chart review and review of operative notes. Results In four patients (of 78 [5%]), the navigation was not completed as a result of technical problems; all occurred during the first 20 cases of the utilization of this technology. The mean time for navigation proce
ISSN:0009-921X
1528-1132
DOI:10.1007/s11999-016-4761-z