Adrien Jacquot1,2, Marc-Olivier Gauci3, Jean Chaoui4,5, Mohammed Baba6, Pierric Deransart4, Pascal Boileau3, Daniel Mole7,8, Gilles Walch9. 1. SAS Clinique Louis Pasteu, 7 rue Parmentier, 54270, Essey-lès-Nancy, France. dr.jacquot@chirurgie-artics.fr. 2. Chirurgie des Articulations et du Sport, Centre ARTICS, 24 rue du XXIe regiment d'Aviation, 54000, Nancy, France. dr.jacquot@chirurgie-artics.fr. 3. Institut Universitaire Locomoteur et du Sport, Hôpital Pasteur 2, 30 Voie Romaine, 06000, Nice, France. 4. Société IMASCAP, 65 place Copernic, 29280, Plouzané, France. 5. Institut Mine Telecom Atlantique, 655 Avenue du Technopole, 29280, Plouzané, France. 6. Sydney Adventist Hospital, 185 Fox Valley Road, Wahroonga, 2076, Australia. 7. SAS Clinique Louis Pasteu, 7 rue Parmentier, 54270, Essey-lès-Nancy, France. 8. Chirurgie des Articulations et du Sport, Centre ARTICS, 24 rue du XXIe regiment d'Aviation, 54000, Nancy, France. 9. Centre Orthopédique Santy, Unité Epaule, 24 Avenue Paul Santy, 69008, Lyon, France.
Abstract
PURPOSE: Glenoid loosening after total shoulder arthroplasty (TSA) is influenced by the position of the glenoid component. 3D planning software and patient-specific guides seem to improve positioning accuracy, but their respective individual application and role are yet to be defined. The aim of this study was to evaluate the accuracy of freehand implantation after 3D pre-operative planning and to compare its accuracy to that of a targeting guide. METHOD: Seventeen patients scheduled for TSA for primary glenohumeral arthritis were enrolled in this prospective study. Every patient had pre-operative planning, based on a CT scan. Glenoid component implantation was performed freehand, guided by 3D views displayed in the operating room. The position of the glenoid component was determined by manual segmentation of post-operative CT scans and compared to the planned position. The results were compared to those obtained in a previous work with the use of a patient-specific guide. RESULTS: The mean error for the central point was 2.89 mm (SD ± 1.36) with the freehand method versus 2.1 mm (SD ± 0.86) with use of a targeting guide (p = 0.05). The observed difference was more significant (p = 0.03) for more severely retroverted glenoids (> 10°). The mean errors for version and inclination were respectively 4.82° (SD ± 3.12) and 4.2° (SD ± 2.14) with freehand method, compared to 4.87° (SD ± 3.61) and 4.39° (SD ± 3.36) with a targeting guide (p = 0.97 and 0.85, respectively). CONCLUSION: 3D pre-operative planning allowed accurate glenoid component positioning with a freehand method. Compared to the freehand method, patient-specific guides slightly improved the position of the central point, especially for severely retroverted glenoids, but not the orientation of the component.
PURPOSE: Glenoid loosening after total shoulder arthroplasty (TSA) is influenced by the position of the glenoid component. 3D planning software and patient-specific guides seem to improve positioning accuracy, but their respective individual application and role are yet to be defined. The aim of this study was to evaluate the accuracy of freehand implantation after 3D pre-operative planning and to compare its accuracy to that of a targeting guide. METHOD: Seventeen patients scheduled for TSA for primary glenohumeral arthritis were enrolled in this prospective study. Every patient had pre-operative planning, based on a CT scan. Glenoid component implantation was performed freehand, guided by 3D views displayed in the operating room. The position of the glenoid component was determined by manual segmentation of post-operative CT scans and compared to the planned position. The results were compared to those obtained in a previous work with the use of a patient-specific guide. RESULTS: The mean error for the central point was 2.89 mm (SD ± 1.36) with the freehand method versus 2.1 mm (SD ± 0.86) with use of a targeting guide (p = 0.05). The observed difference was more significant (p = 0.03) for more severely retroverted glenoids (> 10°). The mean errors for version and inclination were respectively 4.82° (SD ± 3.12) and 4.2° (SD ± 2.14) with freehand method, compared to 4.87° (SD ± 3.61) and 4.39° (SD ± 3.36) with a targeting guide (p = 0.97 and 0.85, respectively). CONCLUSION: 3D pre-operative planning allowed accurate glenoid component positioning with a freehand method. Compared to the freehand method, patient-specific guides slightly improved the position of the central point, especially for severely retroverted glenoids, but not the orientation of the component.
Entities:
Keywords:
3D planning; Accuracy; Glenoid component; Patient-specific guides; Positioning; Total shoulder arthroplasty
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