Deformity correction and fracture treatment using the software-based Ortho-SUV frame › Научные исследования в СПбГУ

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Deformity correction and fracture treatment using the software-based Ortho-SUV frame. / Solomin, Leonid Nikolaevich; Utekhin, Alexander Igorevich; Vilensky, Viktor Alexandrovich.

The Basic Principles of External Skeletal Fixation Using the Ilizarov and Other Devices. Springer Nature, 2012. стр. 705-803.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференций › глава/раздел › научная › Рецензирование

Harvard

Solomin, LN, Utekhin, AI & Vilensky, VA 2012, Deformity correction and fracture treatment using the software-based Ortho-SUV frame. в The Basic Principles of External Skeletal Fixation Using the Ilizarov and Other Devices. Springer Nature, стр. 705-803. https://doi.org/10.1007/978-88-470-2619-3_17

APA

Solomin, L. N., Utekhin, A. I., & Vilensky, V. A. (2012). Deformity correction and fracture treatment using the software-based Ortho-SUV frame. в The Basic Principles of External Skeletal Fixation Using the Ilizarov and Other Devices (стр. 705-803). Springer Nature. https://doi.org/10.1007/978-88-470-2619-3_17

Vancouver

Solomin LN, Utekhin AI, Vilensky VA. Deformity correction and fracture treatment using the software-based Ortho-SUV frame. в The Basic Principles of External Skeletal Fixation Using the Ilizarov and Other Devices. Springer Nature. 2012. стр. 705-803 https://doi.org/10.1007/978-88-470-2619-3_17

Author

Solomin, Leonid Nikolaevich ; Utekhin, Alexander Igorevich ; Vilensky, Viktor Alexandrovich. / Deformity correction and fracture treatment using the software-based Ortho-SUV frame. The Basic Principles of External Skeletal Fixation Using the Ilizarov and Other Devices. Springer Nature, 2012. стр. 705-803

BibTeX

@inbook{89cc806acbd84036880147b7eabd4106,

title = "Deformity correction and fracture treatment using the software-based Ortho-SUV frame",

abstract = "In the correction of complex multi-component and multi-planar deformities (Tables 16.1 and 16.3) using the Ilizarov frame, unified reduction nodes have to be replaced three to five times (Fig. 17.1) [368]. Every frame re-assembly involves a change in the reductional units and is a highly laborious process in which there is additional patient exposure to radiation. Sometimes, due to the peculiarities of frame assembly (external supports are not oriented at a right angle to the axes of the bone fragments, a bone is not at the center of a support, the support for some reason is not closed, etc.), correction of one component can lead to the secondary translation of other(s). These secondary translations will, in turn, require correction and therefore additional frame re-assembly. ",

author = "Solomin, {Leonid Nikolaevich} and Utekhin, {Alexander Igorevich} and Vilensky, {Viktor Alexandrovich}",

year = "2012",

month = jan,

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doi = "10.1007/978-88-470-2619-3_17",

language = "English",

isbn = "9788847026186",

pages = "705--803",

booktitle = "The Basic Principles of External Skeletal Fixation Using the Ilizarov and Other Devices",

publisher = "Springer Nature",

address = "Germany",

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RIS

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T1 - Deformity correction and fracture treatment using the software-based Ortho-SUV frame

AU - Solomin, Leonid Nikolaevich

AU - Utekhin, Alexander Igorevich

AU - Vilensky, Viktor Alexandrovich

PY - 2012/1/1

Y1 - 2012/1/1

N2 - In the correction of complex multi-component and multi-planar deformities (Tables 16.1 and 16.3) using the Ilizarov frame, unified reduction nodes have to be replaced three to five times (Fig. 17.1) [368]. Every frame re-assembly involves a change in the reductional units and is a highly laborious process in which there is additional patient exposure to radiation. Sometimes, due to the peculiarities of frame assembly (external supports are not oriented at a right angle to the axes of the bone fragments, a bone is not at the center of a support, the support for some reason is not closed, etc.), correction of one component can lead to the secondary translation of other(s). These secondary translations will, in turn, require correction and therefore additional frame re-assembly.

AB - In the correction of complex multi-component and multi-planar deformities (Tables 16.1 and 16.3) using the Ilizarov frame, unified reduction nodes have to be replaced three to five times (Fig. 17.1) [368]. Every frame re-assembly involves a change in the reductional units and is a highly laborious process in which there is additional patient exposure to radiation. Sometimes, due to the peculiarities of frame assembly (external supports are not oriented at a right angle to the axes of the bone fragments, a bone is not at the center of a support, the support for some reason is not closed, etc.), correction of one component can lead to the secondary translation of other(s). These secondary translations will, in turn, require correction and therefore additional frame re-assembly.

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BT - The Basic Principles of External Skeletal Fixation Using the Ilizarov and Other Devices

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