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Foot Deformity Correction with Hexapod External Fixator, the Ortho-SUV Frame™. / Takata, Munetomo; Vilensky, Victor A.; Tsuchiya, Hiroyuki; Solomin, Leonid N.

в: Journal of Foot and Ankle Surgery, Том 52, № 3, 01.05.2013, стр. 324-330.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Takata, M, Vilensky, VA, Tsuchiya, H & Solomin, LN 2013, 'Foot Deformity Correction with Hexapod External Fixator, the Ortho-SUV Frame™', Journal of Foot and Ankle Surgery, Том. 52, № 3, стр. 324-330. https://doi.org/10.1053/j.jfas.2013.01.013

APA

Takata, M., Vilensky, V. A., Tsuchiya, H., & Solomin, L. N. (2013). Foot Deformity Correction with Hexapod External Fixator, the Ortho-SUV Frame™. Journal of Foot and Ankle Surgery, 52(3), 324-330. https://doi.org/10.1053/j.jfas.2013.01.013

Vancouver

Takata M, Vilensky VA, Tsuchiya H, Solomin LN. Foot Deformity Correction with Hexapod External Fixator, the Ortho-SUV Frame™. Journal of Foot and Ankle Surgery. 2013 Май 1;52(3):324-330. https://doi.org/10.1053/j.jfas.2013.01.013

Author

Takata, Munetomo ; Vilensky, Victor A. ; Tsuchiya, Hiroyuki ; Solomin, Leonid N. / Foot Deformity Correction with Hexapod External Fixator, the Ortho-SUV Frame™. в: Journal of Foot and Ankle Surgery. 2013 ; Том 52, № 3. стр. 324-330.

BibTeX

@article{582ca6f7936f4fda81fa1785522aa860,
title = "Foot Deformity Correction with Hexapod External Fixator, the Ortho-SUV Frame{\texttrademark}",
abstract = "External fixators enable distraction osteogenesis and gradual foot deformity corrections. Hexapod fixators have become more popular than the Ilizarov apparatus. The Ortho-SUV Frame{\texttrademark} (OSF; Ortho-SUV Ltd, St. Petersburg, Russia), a hexapod that was developed in 2006, allows flexible joint attachment such that multiple assemblies are available. We assessed the reduction capability of several assemblies. An artificial bone model with a 270-mm-long longitudinal foot was used. A 130-mm tibial full ring was attached 60 mm proximal to the ankle joint. A 140-mm, two-third ring forefoot was attached perpendicular to the metatarsal bone axis. A 130-mm, two-third ring hindfoot was attached parallel to the tibial ring. A V-osteotomy, which was combined with 2 oblique osteotomies at the navicular-cuboid bone and the calcaneus, was performed. The middle part of the foot, including the talus, was connected to the tibial ring. We assessed 5 types of forefoot applications and 4 types of hindfoot applications. The range of correction included flexion/extension in the sagittal plane, adduction/abduction in the horizontal plane, and pronation/supination in the coronal plane. Additionally, we reported the short-term results in 9 clinical cases. The forefoot applications in which the axis of the hexapod was parallel to the axis of the metatarsal bones had good results, with 52°/76° for flexion/extension, 48°/53° for adduction/abduction, and 43°/51° for pronation/supination. The hindfoot applications in which the hexapod encircled the ankle joint also had good results, with corresponding values of 47°/58°, 20°/35°, and 28°/31°. Clinically, all deformities were corrected as planned. Thus, multiple assemblies and a wide range of corrections are available with the OSF.",
keywords = "Ankle, Ortho-SUV Frame{\texttrademark}, Pin tract, Surgery, Tibia",
author = "Munetomo Takata and Vilensky, {Victor A.} and Hiroyuki Tsuchiya and Solomin, {Leonid N.}",
year = "2013",
month = may,
day = "1",
doi = "10.1053/j.jfas.2013.01.013",
language = "English",
volume = "52",
pages = "324--330",
journal = "Journal of Foot and Ankle Surgery",
issn = "1067-2516",
publisher = "Elsevier",
number = "3",

}

RIS

TY - JOUR

T1 - Foot Deformity Correction with Hexapod External Fixator, the Ortho-SUV Frame™

AU - Takata, Munetomo

AU - Vilensky, Victor A.

AU - Tsuchiya, Hiroyuki

AU - Solomin, Leonid N.

PY - 2013/5/1

Y1 - 2013/5/1

N2 - External fixators enable distraction osteogenesis and gradual foot deformity corrections. Hexapod fixators have become more popular than the Ilizarov apparatus. The Ortho-SUV Frame™ (OSF; Ortho-SUV Ltd, St. Petersburg, Russia), a hexapod that was developed in 2006, allows flexible joint attachment such that multiple assemblies are available. We assessed the reduction capability of several assemblies. An artificial bone model with a 270-mm-long longitudinal foot was used. A 130-mm tibial full ring was attached 60 mm proximal to the ankle joint. A 140-mm, two-third ring forefoot was attached perpendicular to the metatarsal bone axis. A 130-mm, two-third ring hindfoot was attached parallel to the tibial ring. A V-osteotomy, which was combined with 2 oblique osteotomies at the navicular-cuboid bone and the calcaneus, was performed. The middle part of the foot, including the talus, was connected to the tibial ring. We assessed 5 types of forefoot applications and 4 types of hindfoot applications. The range of correction included flexion/extension in the sagittal plane, adduction/abduction in the horizontal plane, and pronation/supination in the coronal plane. Additionally, we reported the short-term results in 9 clinical cases. The forefoot applications in which the axis of the hexapod was parallel to the axis of the metatarsal bones had good results, with 52°/76° for flexion/extension, 48°/53° for adduction/abduction, and 43°/51° for pronation/supination. The hindfoot applications in which the hexapod encircled the ankle joint also had good results, with corresponding values of 47°/58°, 20°/35°, and 28°/31°. Clinically, all deformities were corrected as planned. Thus, multiple assemblies and a wide range of corrections are available with the OSF.

AB - External fixators enable distraction osteogenesis and gradual foot deformity corrections. Hexapod fixators have become more popular than the Ilizarov apparatus. The Ortho-SUV Frame™ (OSF; Ortho-SUV Ltd, St. Petersburg, Russia), a hexapod that was developed in 2006, allows flexible joint attachment such that multiple assemblies are available. We assessed the reduction capability of several assemblies. An artificial bone model with a 270-mm-long longitudinal foot was used. A 130-mm tibial full ring was attached 60 mm proximal to the ankle joint. A 140-mm, two-third ring forefoot was attached perpendicular to the metatarsal bone axis. A 130-mm, two-third ring hindfoot was attached parallel to the tibial ring. A V-osteotomy, which was combined with 2 oblique osteotomies at the navicular-cuboid bone and the calcaneus, was performed. The middle part of the foot, including the talus, was connected to the tibial ring. We assessed 5 types of forefoot applications and 4 types of hindfoot applications. The range of correction included flexion/extension in the sagittal plane, adduction/abduction in the horizontal plane, and pronation/supination in the coronal plane. Additionally, we reported the short-term results in 9 clinical cases. The forefoot applications in which the axis of the hexapod was parallel to the axis of the metatarsal bones had good results, with 52°/76° for flexion/extension, 48°/53° for adduction/abduction, and 43°/51° for pronation/supination. The hindfoot applications in which the hexapod encircled the ankle joint also had good results, with corresponding values of 47°/58°, 20°/35°, and 28°/31°. Clinically, all deformities were corrected as planned. Thus, multiple assemblies and a wide range of corrections are available with the OSF.

KW - Ankle

KW - Ortho-SUV Frame™

KW - Pin tract

KW - Surgery

KW - Tibia

UR - http://www.scopus.com/inward/record.url?scp=84876851285&partnerID=8YFLogxK

U2 - 10.1053/j.jfas.2013.01.013

DO - 10.1053/j.jfas.2013.01.013

M3 - Article

C2 - 23522737

AN - SCOPUS:84876851285

VL - 52

SP - 324

EP - 330

JO - Journal of Foot and Ankle Surgery

JF - Journal of Foot and Ankle Surgery

SN - 1067-2516

IS - 3

ER -

ID: 49734769