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Clinical Relevance- This model is crucial for characterizing in-vivo electrical properties of mandibular and maxillary tissues encountered during dental implant ...
Abstract— Surgical drilling to place dental implants in the mandible and maxilla is associated high risk of iatrogenic injuries to inferior alveolar nerve ...
Real-time proximity sensing of the IAN and maxillary sinus by measuring the electrical impedance properties of tissues, directly from the drill tip, while ...
This model is crucial for characterizing in-vivo electrical properties of mandibular and maxillary tissues encountered during dental implant surgical ...
Real-time proximity sensing of the IAN and maxillary sinus by measuring the electrical impedance properties of tissues, directly from the drill tip, while ...
Missing: Vivo Porcine
Approach: A custom bearing and insulated drill bit were designed to collect 10 cortical and cancellous impedance measurements from ex vivo femurs (2 pigs) and ...
A porcine model. Objective. The study aims to design a novel pedicle navigator based on micro-inertial navigation system (MINS) and bioelectrical impedance ...
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The system, consisting of a novel intracannular bearing and diamond-like carbon coated drill bit integrated onto a standard surgical drill, records electrical ...
Missing: Porcine | Show results with:Porcine
This paper presents a bioimpedance-sensing surgical drill that ... measurement to detect iatrogenic initial pedicle perforation (in the porcine model) Eur.
A bioimpedance-based monitor for real-time detection and ... - Nature
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Jul 29, 2021 · A novel intracranial bioimpedance monitor (BIM) can detect onset of secondary injury, differentiate focal (eg hemorrhage) from global (eg edema) events.