Implementation of Cone Beam Computed Tomography, Digital Sculpting and Three-Dimensional Printing in Facial Epithesis—A Technical Note

Egelhoff, Katarzyna; Idzi, Piotr; Bargiel, Jakub; Wyszyńska-Pawelec, Grażyna; Zapała, Jan; Gontarz, Michał

doi:10.3390/app122311974

Cited by 3 publications

(3 citation statements)

References 21 publications

(35 reference statements)

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“…Advancements in technology are reshaping numerous aspects of our society and industries, particularly within healthcare. Cutting-edge digital tools like computer-aided design/manufacturing, rapid prototyping, 3D bioprinting, augmented/virtual reality, artificial intelligence (AI) with deep learning models, and "omics" analysis are progressively finding applications across diverse medical fields, serving diagnostic and therapeutic functions [29,30]. Deep learning, a branch within machine learning, utilizes multi-layered artificial neural networks to comprehend data representations with various levels of abstraction [31].…”

Section: Discussionmentioning

confidence: 99%

“Air Sign” in Misdiagnosed Mandibular Fractures Based on CT and CBCT Evaluation

Gontarz,

Bargiel,

Gąsiorowski

et al. 2024

Diagnostics

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Background: Diagnostic errors constitute one of the reasons for the improper and often delayed treatment of mandibular fractures. The aim of this study was to present a series of cases involving undiagnosed concomitant secondary fractures in the mandibular body during preoperative diagnostics. Additionally, this study aimed to describe the “air sign” as an indirect indicator of a mandibular body fracture. Methods: A retrospective analysis of CT/CBCT scans conducted before surgery was performed on patients misdiagnosed with a mandibular body fracture within a one-year period. Results: Among the 75 patients who underwent surgical treatment for mandibular fractures, mandibular body fractures were missed in 3 cases (4%) before surgery. The analysis of CT/CBCT before surgery revealed the presence of an air collection, termed the “air sign”, in the soft tissue adjacent to each misdiagnosed fracture of the mandibular body. Conclusions: The “air sign” in a CT/CBCT scan may serve as an additional indirect indication of a fracture in the mandibular body. Its presence should prompt the surgeon to conduct a more thorough clinical examination of the patient under general anesthesia after completing the ORIF procedure in order to rule-out additional fractures.

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Section: Discussionmentioning

confidence: 99%

“Air Sign” in Misdiagnosed Mandibular Fractures Based on CT and CBCT Evaluation

Gontarz,

Bargiel,

Gąsiorowski

et al. 2024

Diagnostics

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“…For patients with cancer or other diseases undergoing endoscopic skull base surgery, quality-of-life (QOL) parameters are important. Therefore, facial reconstructions through plastic surgery help patients with anterior cranial base malignancies preserve or improve their QOL [16]. Currently, facial reconstructions of patients with empty nose syndrome (ENS) have yielded satisfactory results compared with other methods [17].…”

Section: Introductionmentioning

confidence: 99%

Computational Human Nasal Reconstruction Based on Facial Landmarks

Tuan

Thinh

2023

Mathematics

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This research presented a mathematical-based approach to the computational reconstruction of the human nose through images with anthropometric characteristics. The nasal baselines, which were generated from facial aesthetic subunits combined with the facial landmarks, were reconstructed using interpolation and Mesh adaptive direct search algorithms to generate points that would serve as the support for the layer-by-layer reconstruction. The approach is proposed as the basis for nasal reconstruction in aesthetics or forensics rather than focusing on the applications of image processing or deep learning. A mathematical model for the computational reconstruction was built, and then volunteers were the subjects of nasal reconstruction experiments. The validations based on the area errors—which are based on four samples and eight sub-regions with different values depending on the regions C1, C2, and C3 and nasal shapes of the volunteers—were measured to prove the results of the mathematical model. Evaluations have demonstrated that the computer-reconstructed noses fit the original ones in shape and with minimum area errors. This study describes a computational reconstruction based on a mathematical approach directly to facial anthropometric landmarks to reconstruct the nasal shape.

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“…AM has several advantages over conventional techniques as well a over the CAM subtractive techniques. Some of the main advantages are: the ability to rapid fabricate complex structures at a considerably reduced cost [3]; a full or partially digital workflow with integrating patient's data (Cone beam computed tomography-CBCT, intraoral scan, facial scan), design in a large variety of CAD software and manufacturing carried out directly by printing the prosthesis itself or indirectly by printing prosthesis prototypes or molds [4]; less material waste; possible to reprint molds without the need of designing them again [5]; availability of different type of materials mimicking the defects needing to be restored (soft or hard tissue) [2]; constant improvements in material characteristics by adding different components [6] or improving in manufacturing techniques [7].…”

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confidence: 99%