Enhancing the three-dimensional visualization of a foreign object using Mimics software

Asif, Muhammad; Nambiar, Phrabhakaran; Khan, Iqra Muhammad; Aziz, Zeti Adura Che Ab; Noor, Nora Sakina Mohd; Shanmuhasuntharam, P.; Ibrahim, Norliza

doi:10.1016/j.radcr.2019.10.001

Cited by 8 publications

(4 citation statements)

References 11 publications

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“…Recently, software like Mimics (Materialise Interactive Medical Image Control Systems) have been used with CBCT images which has shown to be more effective in determining the location and type of foreign object. However, this study had evaluated for the presence of endodontic file in the maxillofacial region and the application for the same in detecting wooden foreign object should be further investigated [ 19 ]. There has been a report of utilization of navigation system guided by a dental splint to localize and remove a foreign object from the region of maxillary sinus in a minimally invasive manner.…”

Section: Discussionmentioning

confidence: 99%

Temporalis space infection secondary to an undiagnosed intra-oral foreign object – a case report

Singh¹,

Roy²,

Givvimani³

et al. 2021

Medicine and Pharmacy Reports

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The penetration of foreign objects is one of the leading causes of maxillofacial infection following trauma. Failure to detect such objects at initial stages can lead to complications like abscess formation, cellulitis, or space infections. Detection is even more complicated if the patient presents to the maxillofacial center after a delay of days or weeks following trauma. Sole reliance on radiographs or CT can be inconclusive as most of these objects are radiolucent and can be difficult to detect even by the experienced radiologists. We report the case of a patient who had an unwitnessed trauma and presented to our center 7 days after the incident, with signs of buccal space infection. Failure to detect the embedded intra-oral wooden object at an earlier stage led to the propagation of infection to superficial temporal space. The management strategy and pitfalls associated with conventional imaging in detecting wooden object are discussed.

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Section: Discussionmentioning

confidence: 99%

Temporalis space infection secondary to an undiagnosed intra-oral foreign object – a case report

Singh¹,

Roy²,

Givvimani³

et al. 2021

Medicine and Pharmacy Reports

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“…Due to its capability to create high-quality 3D models of medical pictures, it is often used in the medical field. It is the best option for a variety of medical applications, including surgical planning, patient-specific implant design, and medical research, thanks to its sophisticated tools and algorithms and interaction with 3D printing software [20].…”

Section: Materialise Mimicsmentioning

confidence: 99%

On the Use of New 3D Modelization, Reconstruction and Printing Techniques to Improve the Metatarsophalangeal Cancerous Lesion Management

Benchra,

Jaber,

Farahat

et al. 2024

Preprint

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Background: The main objective of this study is to develop a customized metatarsophalangeal implant for the treatment of various conditions affecting this specific joint. This approach involves replacing the joint with a custom implant designed specifically to fit each patient's unique anatomical structure. The need for custom implants stems from the obvious lack of size variety available, which presents a major challenge when, the search for the ideal size implant can be a hard task, also when considering the possibility of extensive modification of the bone to adapt it to the available implant. This adaptation, often synonymous with bone reduction, can cause significant post-operative pain for the patient and impact healing time. Methods: A comparative study of modeling software was carried out to select the perfect software, by defining and comparing the relevant criteria. Similarly, the different biomaterial options were examined and compared to select the one best suited to this project, mentioning the imaging modality used to determine the types of images used for our approach. Finally, the 3D printers used in this work were represented, highlighting their technical characteristics. Findings: A resin metatarsophalangeal implant prototype was created using 3D modeling and reconstruction software and tools. Interpretation: Reconstruction and 3D modeling techniques are revolutionizing implant creation, offering customized solutions for patients suffering from metatarsophalangeal joint disorders caused by a wide range of diseases. These results have significant implications for disability management and rehabilitation, encouraging further exploration and progress.

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“…Mimics software is an interactive medical image control system developed by the Belgian company Materialise, which can threshold segmentation, extraction, and rendering of 2D image information (including CT and MRI), and ultimately realise 3D digital reconstruction [4] .Mimics is widely used in clinical diagnosis, preoperative guidance, and clinical teaching, etc. Comaneanu et al [5] used Mimics software to assist in the design and simulation of humeral fracture repositioning, diagnosis of liver cirrhosis, and positioning and customization of temporomandibular joint prostheses.…”

Section: Comparative Study Of Mimics and Ct In The Degree Of Lung Com...mentioning

confidence: 99%

Advances in three-dimensional reconstruction of medical images for clinical diseases of the lungs

Yu,

Liu

2024

Third International Conference on Biomedical and Intelligent Systems (IC-BIS 2024)

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With the continuous development of medical technology, the current two-dimensional tomographic images can no longer well meet the needs of clinical diagnosis. Three-dimensional reconstruction technology refers to the recovery of the threedimensional structure of the object itself from the two-dimensional image, and rendering, and ultimately the expression of the objective world of virtual reality in the computer. Three-dimensional reconstruction of medical images can reconstruct two-dimensional images of human organs into three-dimensional forms, so as to reduce the two-dimensional image of the three-dimensional image does not visualise the reasons for the clinical analysis of the error, in order to help doctors diagnose all kinds of diseases more accurately. This article reviews the application of three-dimensional reconstruction in lung clinical diseases, and at the same time looks forward to the future application of three-dimensional reconstruction technology in the direction of clinical diagnosis and treatment.

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Enhancing the three-dimensional visualization of a foreign object using Mimics software

Cited by 8 publications

References 11 publications

Temporalis space infection secondary to an undiagnosed intra-oral foreign object – a case report

Temporalis space infection secondary to an undiagnosed intra-oral foreign object – a case report

On the Use of New 3D Modelization, Reconstruction and Printing Techniques to Improve the Metatarsophalangeal Cancerous Lesion Management

Advances in three-dimensional reconstruction of medical images for clinical diseases of the lungs

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