Volker Stüber scite author profile

OBJECTIVE: In unstable ankle fractures the associated soft tissue damage can be a therapeutic challenge. The aim of this study was to optimize planning of minimally invasive stabilization of ankle fractures by calcaneotibial transfixation, which is a demanding technique due to the complex hind foot anatomy. METHODS: In a retrospective radiographic analysis the angles and dimensions of a safe drill tunnel for calcaneotibial K-wire insertion were defined on standard radiographs of the ankle joint. 165 lateral weight-bearing radiographs (77 right; 88 left) and 147 (80 right; 67 left) mortise views of 186 (90 right; 96 left) uninjured feet from 123 patients (74 women (114 feet); 49 men (72 feet)) were included in this study. The average patient age was 49 (range, 13-85) years. Inter-and intra-observer reliability was evaluated on 20 randomized radiographs that were analyzed in a default set, three times, by two different examiners on three different days. RESULTS: In the lateral view the drilling tunnel was orientated at 59.4 • to the plantar plane with a maximum proximal variance of 7.1 image-mm. Distal variance cannot be tolerated since an ankle joint injury would ensue. In the mortise view the drill tunnel was directed with a mean angle of 18.4 • to the distal tibial articular surface. At most a mean of 11 • fibular-and 13.4 • tibial-expansion can be tolerated. Intra-and inter-observer reliability was higher for the angles than for the drill corridors. CONCLUSION: The three-dimensional (3D) orientation for safe K-wire placement for calcaneotibial transfixation should adhere to the drill tunnels established in this study.

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The influence of metal artifacts on navigation and the reduction of artifacts by the use of polyether-ether-ketone

Citak

Kendoff

Wanich

et al. 2008

Computer Aided Surgery

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Registration is a crucial step in navigation assisted surgery. When performing anatomical pair-point registration, there are several potential sources of error, including inadequate data acquisition, improper segmentation, and distortion resulting from metal artifacts. The aim of this study was to evaluate the influence of metal artifacts on the precision of Iso-C 3D and fluoroscopy-based navigation, and to assess any changes in precision from the use of a newly developed Schanz screw composed of polyether-ether-ketone (PEEK OPTIMA Õ ). A T-shaped test specimen was manufactured from synthetic bone material. It was then scanned with a Siremobil Õ Iso-C 3D while different types of implant were present in the specimen. Five Iso-C 3D scans were acquired: one with a steel Schanz screw in the specimen, one with a titanium screw, one with a PEEK screw, one with a 5-hole plate, and one with no screw or plate present. The registration was analyzed by ''reverse verification'' with a pointer in a purpose-built, manipulable 3D holder. All experiments were then repeated using fluoroscopy-based navigation.Increasing presence of metal in the scan area resulted in an increase in mean error (0.55 mm with the steel Schanz screw, 0.7 mm with the 5-hole plate). Artifacts resulting from the titanium Schanz screw were less than those caused by the stainless steel Schanz screw. While this study demonstrates that metallic artifacts do have an influence on the precision of Iso-C 3D navigation, such artifacts were not found to be a factor when performing fluoroscopy-based navigation.

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Linear bearing device as a solution for optical navigation of fine needle procedures

Stüber

Suero

Department

et al. 2010

THC

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Volker Stüber

Replication of the Range of Native Anterior Cruciate Ligament Fiber Length Change Behavior Achieved by Different Grafts

Establishing an optimal trajectory for calcaneotibial K-wire fixation in emergent treatment of unstable ankle fractures

The influence of metal artifacts on navigation and the reduction of artifacts by the use of polyether-ether-ketone

Linear bearing device as a solution for optical navigation of fine needle procedures

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