Suture Packaging as a Marker for Intraoperative Image Alignment in Augmented Reality on Mobile Devices

Preoperative vascular imaging has become standard practice in the planning of microsurgical breast reconstruction. Currently, translating perforator locations from radiological findings to a patient's abdomen is often not easy or intuitive. Techniques using three-dimensional printing or patient...

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Veröffentlicht in:Plastic and reconstructive surgery. Global open 2024-06, Vol.12 (6), p.e5933
Hauptverfasser: Necker, Fabian N, Cholok, David J, Shaheen, Mohammed S, Fischer, Marc J, Gifford, Kyle, Le Castillo, Chris, Scholz, Michael, Leuze, Christoph W, Daniel, Bruce L, Momeni, Arash
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Sprache:eng
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Zusammenfassung:Preoperative vascular imaging has become standard practice in the planning of microsurgical breast reconstruction. Currently, translating perforator locations from radiological findings to a patient's abdomen is often not easy or intuitive. Techniques using three-dimensional printing or patient-specific guides have been introduced to superimpose anatomy onto the abdomen for reference. Augmented and mixed reality is currently actively investigated for perforator mapping by superimposing virtual models directly onto the patient. Most techniques have found only limited adoption due to complexity and price. Additionally, a critical step is aligning virtual models to patients. We propose repurposing suture packaging as an image tracking marker. Tracking markers allow quick and easy alignment of virtual models to the individual patient's anatomy. Current techniques are often complicated or expensive and limit intraoperative use of augmented reality models. Suture packs are sterile, readily available, and can be used to align abdominal models on the patients. Using an iPad, the augmented reality models automatically align in the correct position by using a suture pack as a tracking marker. Given the ubiquity of iPads, the combination of these devices with readily available suture packs will predictably lower the barrier to entry and utilization of this technology. Here, our workflow is presented along with its intraoperative utilization. Additionally, we investigated the accuracy of this technology.
ISSN:2169-7574
2169-7574
DOI:10.1097/GOX.0000000000005933