Prospects for use of surgical navigation to correct congenital malformations in neonatology
- Authors: Dorofeeva E.I.1, Podurovskaya Y.L.1, Degtyarev D.N.1, Prokhin A.V.2, Aleksandrova N.V.1, Balashov I.S.1, Kozlova A.V.1, Bychenko V.G.1
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Affiliations:
- National Medical Research Center of Obstetrics, Gynecology, and Perinatology named after Academician V.I. Kulakov
- Westtrade Ltd
- Issue: No 12 (2017)
- Pages: 96-103
- Section: Articles
- URL: https://journals.eco-vector.com/0300-9092/article/view/248078
- DOI: https://doi.org/10.18565/aig.2017.12.96-103
- ID: 248078
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Abstract
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About the authors
Elena Igorevna Dorofeeva
National Medical Research Center of Obstetrics, Gynecology, and Perinatology named after Academician V.I. Kulakov
Email: dorofey_i@mail.ru
Ph.D., Head of Clinical Work of Department of Neonatal Surgery
Yulia Leonidovna Podurovskaya
National Medical Research Center of Obstetrics, Gynecology, and Perinatology named after Academician V.I. Kulakov
Email: podurovskaya@yandex.ru
Ph.D., Head of Department of Neonatal Surgery
Dmitry Nikolaevich Degtyarev
National Medical Research Center of Obstetrics, Gynecology, and Perinatology named after Academician V.I. Kulakov
Email: glav_neolog@yahoo.com
Ph.D., M.D., professor, Deputy of Director on Researches
Alexey Victorovich Prokhin
Westtrade Ltd
Email: aleksprohin@gmail.com
Analyst
Natalia Vladimirovna Aleksandrova
National Medical Research Center of Obstetrics, Gynecology, and Perinatology named after Academician V.I. Kulakov
Email: alexandrova.ncagip@gmail.com
Ph.D., M.D., Senior Researcher
Ivan Sergeevich Balashov
National Medical Research Center of Obstetrics, Gynecology, and Perinatology named after Academician V.I. Kulakov
Email: i_balashov@oparina4.ru
Junior researcher at the Laboratory of Bioinformatics.
Alina Vladimirovna Kozlova
National Medical Research Center of Obstetrics, Gynecology, and Perinatology named after Academician V.I. Kulakov
Email: av_kozlova@oparina4.ru
Radiologist of the Department of Radiation Diagnostics
Vladimir Gennadyevich Bychenko
National Medical Research Center of Obstetrics, Gynecology, and Perinatology named after Academician V.I. Kulakov
Email: v_bychenko@oparina4.ru
Head of the department of radiation diagnostics
References
- Исаков Ю.Ф., Володин Н.Н., Гераськин А.В., ред. Неонатальная хирургия. М.: Династия; 2011. 680с. [Isakov Yu.F., Volodin N.N., Geraskin A.V., ed. Neonatal Surgery. Moscow: Dynasty; 2011. 680p. (in Russian)]
- Хаматханова Е.М., Кучеров Ю.И., Фролова О.Г., Дегтярев Д.Н., Демидов В.Н., Морозов Д.А., Подуровская Ю.Л., Дорофеева Е.И., Пименова Е.С., Машинец Н.В., Ушакова И.А. Пути совершенствования медицинской помощи при врожденных пороках развития. Акушерство и гинекология. 2011; 4: 79-84. [Khamatkhanova E.M., Kucherov Yu.I., Frolova O.G., Degtyarev D.N., Demidov V.N., Morozov D.A., Podurovskaya Yu.L., Dorofeyeva E. I., Pimenova E.S., Mashinets N.V., Ushakova I.A. Ways to improve the quality of medical care for congenital malformations. Akusherstvo i Ginekologiya/Obstetrics and Gynecology. 2011; (4): 79-84. (in Russian)]
- Разумовский А.Ю., Мокрушина О.Г. Эндохирургические операции у новорожденных. М.: МИА; 2015. 344с. [Razumovsky A.Yu., Mokrushina O.G. Endosurgical operations in newborns. Moscow: MIA; 2015. 344p. (in Russian)]
- Tack P., Victor J., Gemmel P., Annemans L. 3D-printing techniques in a medical setting: a systematic literature review. Biomed. Eng. Online. 2016; 15: 115.
- Щаденко С.В., Горбачева А. С., Арсланова А.Р., Толмачев И.В. 3D-визуализация для планирования операций и выполнения хирургического вмешательства (CAS-технологии). Бюллетень сибирской медицины. 2014; 13(4): 165-71. [Shchadenko S.V., Gorbacheva A.S., Arslanova A.R., Tolmachev I.V. 3D-visualization for planning operations and performing surgical intervention (CAS-technology). Bulletin of Siberian Medicine. 2014; 13 (4): 165-71. (in Russian)]
- Mezger U., Jendrewski C., Bartels M. Navigation in surgery. Langenbecks Arch. Surg. 2013; 398(4): 501-14.
- Askeland С., Solberg O.V., Bakeng J.B.L., Reinertsen I., Tangen G.A., Hofstad E.F. et al. CustusX: an open-source research platform for image-guided therapy. Int. J. Comput. Assist. Radiol. Surg. 2016; 11(4): 505-19.
- Розуменко В.Д. Нейронавигационная технология виртуального 3D планирования и интраоперационного сопровождения лазерной термодеструкции внутримозговых опухолей полушарий большого мозга. Ukrain. Neurosurg. J. 2015; 3: 43-9. [Rozumenko V.D. Neuronavigation technology of virtual 3D planning and intraoperative support of laser thermodestruction of intracerebral tumors of the cerebral hemispheres. Ukrain. Neurosurg. J. 2015; 3: 43-9. (in Russian)]
- Reinertsen I., Lindseth F., Askeland C., Iversen D.H., Unsgard G. Intraoperative correction of brain-shift. Acta Neurochir. (Wien). 2014; 156(7): 1301-10.
- Su P., Zhang W., Peng Y., Liang A., Du K., Huang D. Use of computed tomographic reconstruction to establish the ideal entry point for pedicle screws in idiopathic scoliosis. Eur. Spine J. 2012; 21: 23-30.
- Виссарионов С.В., Кокушин Д.Н., Дроздецкий А.П., Белянчиков С.М. Технология использования 3D-KT-навигации в хирургическом лечении детей с идиопатическим сколиозом. Хирургия позвоночника. 2012; 1: 41-7. [Vissarionov S.V., Kokushin D.N., Drozdetsky A.P., Belyanchikov S.M. The technology of 3D-KT-navigation in the surgical treatment of children with idiopathic scoliosis. Hirurgiya pozvonochnika. 2012; 1: 41-7. (in Russian)]
- Yoshida G., Kanemura T., Ishikawa Y. Percutaneous pedicle screw fixation of a hangman’s fracture using intraoperative, full rotation, three-dimensional image (O-arm)-based navigation: a technical case report. Asian Spine J. 2012; 6(3): 194-8.
- Rhee S.J., Park S.H., Cho H.M., Suh J.T. Comparison of precision between optical and electromagnetic navigation systems in total knee arthroplasty. Knee Surg. Relat. Res. 2014; 26(4): 214-21.
- Bae D.K., Song S.J. Computer assisted navigation in knee arthroplasty. Clin. Orthop. Surg. 2011; 3(4): 259-67.
- Ieguchi M., Hoshi M., Takada J., Hidaka N., Nakamura H. Navigation-assisted surgery for bone and soft tissue tumors with bony extension. Clin. Orthop. Relat. Res. 2012; 470(1): 275-83.
- Wong K.C., Kumta S.M. Computer-assisted tumor surgery in malignant bone tumors. Clin. Orthop. Relat. Res. 2013; 471(3): 750-61.
- Al Eissa S., Al-Habib A.F., Jahangiri F.R. Computer-assisted navigation during an anterior-posterior en bloc resection of a sacral tumor. Cureus. 2015; 7(11): 373.
- Jeys L., Matharu G.S., Nandra R.S., Grimer R.J. Can computer navigation-assisted surgery reduce the risk of an intralesional margin and reduce the rate of local recurrence in patients with a tumour of the pelvis or sacrum? Bone Joint J. 2013; 95-B(10): 1417-24.
- Tang P., Hu L., Du H., Gong M., Zhang L. Novel 3D hexa-pod computer-assisted orthopaedic surgery system for closed diaphyseal fracture reduction. Int. J. Med. Robot. 2012; 8(1): 17-24.
- Dagnino G., Georgilas I., Köhler P., Morad S., Atkins R., Dogramadzil S. Navigation system for robot-assisted intra-articular lower-limb fracture surgery. Int. J. Comput. Assist. Radiol. Surg. 2016; 11(10): 1831-43.
- He J., Tan G., Zhou D., Sun L., Li Q., Yang Y., Liu P. Comparison of isocentric C-arm 3-Dimensional navigation and conventional fluoroscopy for percutaneous retrograde screwing for anterior column fracture of acetabulum. Medicine (Baltimore). 2016; 95(2): e2470.
- Курганов И.А., Емельянов С.И., Богданов Д.Ю., Матвеев Н.Л. Виртуальное моделирование при проведении лапароскопической адреналэктомии: «дорогая игрушка» или эффективная поддержка? Доктор Ру. Гастроэнтерология. 2016; 118(1): 80-5. [Kurganov I.A., Emelyanov S.I., Bogdanov D.Yu., Matveev N.L. Virtual simulation when performing laparoscopic adrenalectomy: “expensive toy” or effective support? Doctor.Ru. Gastroenterology. 2016; 118 (1): 80-5. (in Russian)]
- Дубровин В.Н., Егошин А.В., Фурман Я.А., Роженцов А.А., Ерусланов Р.И. Первый опыт применения технологии дополненной реальности на основе 3d-моделирования для интраоперационной навигации при лапароскопической резекции почки. Медицинский альманах. 2015; 37(2): 45-7. [Dubrovin V.N., Egoshin A.V., Furman Ya.A., Rozhentsov A.A., Eruslanov R.I. The first experience of applying the technology of augmented reality on the basis of 3d modeling for intraoperative navigation with laparoscopic resection of the kidney. Meditsinskiy almanakh. 2015; 37 (2): 45-7. (in Russian)]
- Ieiri S., Uemura M., Konishi K., Souzaki R., Nagao Y., Tsutsumi N. et al. Augmented reality navigation system for laparoscopic splenectomy in children based on preoperative CT image using optical tracking device. Pediatr. Surg. Int. 2012; 28(4): 341-6.
- Souzaki R., Ieiri S., Uemura M., Ohuchida K., Tomikawa M., Kinoshita Y. et al. An augmented reality navigation system for pediatric oncologic surgery based on preoperative CT and MRI images. J. Pediatr. Surg. 2013; 48(12): 2479-83.
- Kanzaki M., Kikkawa T., Sakamoto K., Maeda H., Wachi N., Komine H. et al. Three-dimensional simulation, surgical navigation and thoracoscopic lung resection. J. Surg. Case Rep. 2013; 2013(3): rjt015.
- Puri P., еd. Newborn surgery. Hodder Arnold; 2011. 1020p.
- Polites S.F., Habermann E.B., Zarroug A.E., Thomsen K.M., Potter D.D. Thoracoscopic Vs open resection of congenital cystic lung disease- utilization and outcomes in 1120 children in the United States. J. Pediatr. Surg. 2016; 51(7): 1101-5.