Application of additive 3D printing technologies in neurosurgery, vertebrology and traumatology and orthopedics

Yarikov, A.; Викторович, Яриков Антон; Gorbatov, Roman O.; Олегович, Горбатов Роман; Denisov, Anton; Андреевич, Денисов Антон; Smirnov, I.; Игоревич, Смирнов Игорь; Fraerman, Alexandr P.; Петрович, Фраерман Александр; Sosnin, A.; Геннадьевич, Соснин Андрей; Perlmutter, O.; Александровна, Перльмуттер Ольга; Kalinkin, A. A.; Александрович, Калинкин Александр

doi:10.17816/clinpract64944

Cited by 7 publications

(1 citation statement)

References 21 publications

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“…The CT data were imported into the Mimics software in DICOM format, and the vertebral body boundary was accurately differentiated and separated manually in the image processing stage. The method was the same as the Pilon fracture treatment in the previous chapter, and the single vertebral body spinal model of the C7-S1 segment was extracted, which was convenient for subsequent three-dimensional reconstruction, and the three-dimensional spinal model was obtained [ 22 ].…”

Section: Experiments and Analysismentioning

confidence: 99%

Application of Digital Orthopedic Technology in Orthopedic Trauma

Lin

Gong

et al. 2022

Computational and Mathematical Methods in Medicine

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In order to solve the limitation of auxiliary treatment means in the process of orthopedic trauma surgery, and further improve the effective integration of orthopedic trauma clinical surgery and computer technology, a new orthopedic trauma auxiliary treatment means based on digital orthopedic technology was proposed with the aid of virtual digital technology. The method builds a 3D model of fracture fragments through 3D orthopedic modeling and obtains a high-quality 3D model through processing. Later clinical tests verify the feasibility of this auxiliary treatment method. The test results show that the precision of the 3D reconstruction model based on custom option fitting is higher than that based on optimal option fitting, and the precision difference is within 0.2%. This result also indicates that the 3D model obtained by 3D reconstruction has higher accuracy. The results show that three-dimensional finite element modeling technology can accurately simulate the stress of the spine of orthopedic patients and can reduce the incidence of complications through preoperative diagnosis, curative effect prediction, and trauma surgery, which has a good aid for postoperative recovery.

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Section: Experiments and Analysismentioning

confidence: 99%

Application of Digital Orthopedic Technology in Orthopedic Trauma

Lin

Gong

et al. 2022

Computational and Mathematical Methods in Medicine

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Titanium Strut-based Lattice Structure Via Additive Manufacturing for Spinal Cage: A Review

Azmi,

Jalil,

Mazlan

2024

Lecture Notes in Bioengineering

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Effectiveness of 3D visualization technologies in planning and performing reconstructive plastic surgeries in patients with elbow contractures caused by ossification

Petlenko,

Fedyunina,

Aliyev

et al. 2024

Traumatology and Orthopedics of Russia

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Background. Open reconstructive plastic surgeries are the most radical method of treating patients with elbow contractures caused by ossification. However, these surgeries pose a serious problem due to the large number of unsatisfactory results. The aim of the study is a comparative assessment of the effectiveness between standard techniques and 3D visualization technologies in the surgical treatment of patients with elbow contractures caused by ossification. Methods. Using random number generation, all patients (n = 71) were randomized into two groups. The first group included 34 patients with elbow contractures caused by ossification that underwent surgical intervention using 3D technologies to assess the ossification process. The second group enrolled 37 patients with a similar nosology that underwent standard examination and surgical treatment. The results were evaluated intraoperatively and 180 days after the surgery. The data were obtained from primary medical records and further survey. Results. The application of new planning technology and tactics for onstructive plastic surgeries made it possible to reduce the surgery time by 1.2 times (p0.05), reduce blood loss by 1.3 times (p0.05) and increase the relative number of patients with sufficient movement volume by 10.6% (p0.05). The assessment of various performance parameters (range of motion, pain syndrome, quality of life etc.) showed that after 6 months in the main group, the relative number of patients with problems related to the operated joint was significantly lower than in the control group: 20.5% vs 84.7% (p0.05). Conclusions. The data obtained indicate that the use of the new technique for planning and performing reconstructive plastic surgery in patients with elbow contractures caused by ossification contributes to a less invasive intervention and achievement of better intraoperative and medium-term treatment results.

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Application of additive 3D printing technologies in neurosurgery, vertebrology and traumatology and orthopedics

Cited by 7 publications

References 21 publications

Application of Digital Orthopedic Technology in Orthopedic Trauma

Application of Digital Orthopedic Technology in Orthopedic Trauma

Titanium Strut-based Lattice Structure Via Additive Manufacturing for Spinal Cage: A Review

Effectiveness of 3D visualization technologies in planning and performing reconstructive plastic surgeries in patients with elbow contractures caused by ossification

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