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1Academic Journal
Source: Ukrainian Neurosurgical Journal; Vol. 30 No. 3 (2024); 30-37
Ukrainian Neurosurgical Journal; Том 30 № 3 (2024); 30-37Subject Terms: транспедикулярная стабилизация, вибуховий перелом, транспедикулярна стабілізація, finite element analysis, грудо-поперековий перехід, грудо-поясничный переход, малоінвазивна хірургія, thoracolumbar junction, малоинвазивная хирургия, скінченно-елементний аналіз, биомеханические свойства, transpedicular stabilization, біомеханічні властивості, burst fracture, конечно-элементный анализ, biomechanical properties, minimally invasive surgery, взрывной перелом
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Access URL: https://theunj.org/article/view/303393
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2Academic Journal
Authors: Нехлопочин, Олексій С., Вербов, Вадим В., Чешук, Євген В., Вороді, Мілан В., Карпінський, Михайло Ю., Яресько, Олександр В.
Source: Ukrainian Neurosurgical Journal; Vol. 30 No. 3 (2024); 30-37 ; Ukrainian Neurosurgical Journal; Том 30 № 3 (2024); 30-37 ; 2663-9092 ; 2663-9084
Subject Terms: взрывной перелом, грудо-поясничный переход, транспедикулярная стабилизация, конечно-элементный анализ, биомеханические свойства, малоинвазивная хирургия, burst fracture, thoracolumbar junction, transpedicular stabilization, finite element analysis, biomechanical properties, minimally invasive surgery, вибуховий перелом, грудо-поперековий перехід, транспедикулярна стабілізація, скінченно-елементний аналіз, біомеханічні властивості, малоінвазивна хірургія
File Description: application/pdf
Availability: https://theunj.org/article/view/303393
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3Academic Journal
Authors: Maiorov B.A., Belen’kiy I.G., Sergeev G.D., Gadoev K.K., Sergeeva M.A.
Contributors: 1
Source: Traumatology and Orthopedics of Russia; Vol 30, No 4 (2024); 47-59 ; Травматология и ортопедия России; Vol 30, No 4 (2024); 47-59 ; 2542-0933 ; 2311-2905 ; 10.17816/2311-2905-2024-30-4
Subject Terms: minimally invasive osteosynthesis, tibial fracture, pilon fracture, multicolumn fixation, complications of osteosynthesis, малоинвазивная хирургия, перелом большеберцовой кости, накостный остеосинтез, многоколонная фиксация, осложнения остеосинтеза
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Relation: https://journal.rniito.org/jour/article/view/17589/pdf; https://journal.rniito.org/jour/article/view/17589/pdf_1; https://journal.rniito.org/jour/article/downloadSuppFile/17589/151038; https://journal.rniito.org/jour/article/downloadSuppFile/17589/151039; https://journal.rniito.org/jour/article/downloadSuppFile/17589/151040; https://journal.rniito.org/jour/article/downloadSuppFile/17589/151041; https://journal.rniito.org/jour/article/downloadSuppFile/17589/151042; https://journal.rniito.org/jour/article/downloadSuppFile/17589/151280; https://journal.rniito.org/jour/article/downloadSuppFile/17589/151281; https://journal.rniito.org/jour/article/view/17589
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4Academic Journal
Authors: D. V. Aleksantsev, Z. Z. Mamedli, A. V. Polinovsky, U. N. Babadjanov, Kh. R. Temirsultanova, P. A. Dibirova, R. A. Setdikov, E. A. Mustafazade, Д. В. Алексанцев, З. З. Мамедли, А. В. Полыновский, У. Н. Бабаджанов, Х. Р. Темирсултанова, П. А. Дибирова, Р. А. Сетдиков, Э. А. Мустафазаде
Source: Surgery and Oncology; Том 14, № 2 (2024); 33-37 ; Хирургия и онкология; Том 14, № 2 (2024); 33-37 ; 2949-5857
Subject Terms: малоинвазивная хирургия, postoperative complications, pelvic surgery, Trendelenburg position, minimally invasive surgery, послеоперационные осложнения, тазовая хирургия, положение Тренделенбурга
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Relation: https://www.onco-surgery.info/jour/article/view/709/465; Гладышев Д.В., Моисеев И.В., Коваленко С.А. и др. Роботическая экстралеваторная брюшно-промежностная экстирпация прямой кишки с трансабдоминальным пересечением леваторов в литотомическом положении пациента. Онкологическая колопроктология 2017;(1):18–26.; Хатьков И.Е., Барсуков Ю.А., Атрощенко А.О. и др. История развития лапароскопической хирургии. Онкологическая колопроктология 2012;(2):35–9.; Федоров С. А., Кичин В.В., Сунгуров В.А., Лихванцев В.В. Позиционные нарушения в практике анестезиолога. Вестник интенсивной терапии им. А.И. Салтанова 2014;(1):20–5.; Cheney F.W. The American Society of Anesthesiologists Closed Claims Project: what have we learned, how has it affected practice, and how will it affect practice in the future? Anesthesiology 1999;91(2):552–6. DOI:10.1097/00000542-199908000-00030; Kroll D.A., Caplan R.A., Posner K. et al. Nerve injury associated with anesthesia. Anesthesiology 1990;73(2):202–7. DOI:10.1097/00000542-199008000-00002; Cheney F.W., Domino K.B., Caplan R.A., Posner K.L. Nerve injury associated with anesthesia: a closed claims analysis. Anesthesiology 1999;90(4):1062–9. DOI:10.1097/00000542-199904000-00020; Practice advisory for the prevention of perioperative peripheral neuropathies 2018: an updated report by the American Society of Anesthesiologists Task Force on Prevention of Perioperative Peripheral Neuropathies. Anesthesiology 2018;128:11–26. DOI: https://doi.org/10.1097/ALN.0000000000001937; Aids to the examination of the peripheral nervous system. Medical Research Council. London, 1976.; Bjoro B., Mykkeltveit I., Rustoen T. et al. Intraoperative peripheral nerve injury related to lithotomy positioning with steep Trendelenburg in patients undergoing robotic-assisted laparoscopic surgery – a systematic review. J Adv Nurs 2020;76(2):490–503. DOI:10.1111/jan.14271; Navarro-Vicente F., García-Granero A., Frasson M. et al. Prospective evaluation of intraoperative peripheral nerve injury in colorectal surgery. Colorectal Dis 2012;14(3):382–5. DOI:10.1111/j.1463-1318.2011.02630.x
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5Academic Journal
Authors: O. A. Beylerli, I. F. Gareev, E. R. Musaev, Ch. Wang, K. Simfukwe, О. А. Бейлерли, И. Ф. Гареев, Э. Р. Мусаев, Ч. Вонг, К. Симфукве
Source: Creative surgery and oncology; Том 14, № 3 (2024); 243-254 ; Креативная хирургия и онкология; Том 14, № 3 (2024); 243-254 ; 2076-3093 ; 2307-0501
Subject Terms: биопсия, surgical treatment, neurological status, tumor histology, tumor location, spinal column stability, minimally invasive surgery, biopsy, хирургическое лечение, неврологический статус, гистология опухоли, локализация опухоли, стабильность позвоночного столба, малоинвазивная хирургия
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Relation: https://www.surgonco.ru/jour/article/view/986/616; Dea N., Gokaslan Z., Choi D., Fisher C. Spine oncology = primary spine tumors. Neurosurgery. 2017;80(3S):S124–30. DOI:10.1093/neuros/nyw064; Ciftdemir M., Kaya M., Selcuk E., Yalniz E. Tumors of the spine. World J Orthop. 2016;7(2):109–16. DOI:10.5312/wjo.v7.i2.109; Missenard G., Bouthors C., Fadel E., Court C. Surgical strategies for primary malignant tumors of the thoracic and lumbar spine. Orthop Traumatol Surg Res. 2020;106(1S):S53–62. DOI:10.1016/j.otsr.2019.05.028; Dang L., Liu Z., Liu X., Jiang L., Yu M., Wu F., et al. Sagittal en bloc resection of primary tumors in the thoracic and lumbar spine: feasibility, safety and outcome. Sci Rep. 2020;10(1):9108. DOI:10.1038/s41598-020-65326-0; Dandurand C., Fisher C.G., Rhines L.D., Boriani S., Charest-Morin R., Gasbarrini A., et al. Feasibility of achieving planned surgical margins in primary spine tumor: a PTRON study. Neurosurg Focus. 2021;50(5):E16. DOI:10.3171/2021.2.FOCUS201091; Schilling A.T., Ehresman J., Huq S., Ahmed A.K., Lubelski D., Cottrill E., et al. Risk Factors for wound-related complications after surgery for primary and metastatic spine tumors: a systematic review and meta-analysis. World Neurosurg. 2020;141:467–78.e3. DOI:10.1016/j.wneu.2020.03.210; Alan N., Cohen J., Ozpinar A., Agarwal N., Kanter A.S., Okonkwo D.O., et al. Top 50 most cited articles on primary tumors of the spine. J Clin Neurosci. 2017;42:19–27. DOI:10.1016/j.jocn.2017.02.019; Mesfin A., El Dafrawy M.H., Jain A., Hassanzadeh H., Kebaish K.M. Total en bloc spondylectomy for primary and metastatic spine tumors. Orthopedics. 2015;38(11):e995–1000. DOI:10.3928/01477447-20151020-08; Sciubba D.M., De la Garza Ramos R., Goodwin C.R., Xu R., Bydon A., Witham T.F., et al. Total en bloc spondylectomy for locally aggressive and primary malignant tumors of the lumbar spine. Eur Spine J. 2016;25(12):4080–7. DOI:10.1007/s00586-016-4641-y; Shah A.A., Paulino Pereira N.R., Pedlow F.X., Wain J.C., Yoon S.S., Hornicek F.J., et al. Modified en bloc spondylectomy for tumors of the thoracic and lumbar spine: surgical technique and outcomes. J Bone Joint Surg Am. 2017;99(17):1476–84. DOI:10.2106/JBJS.17.00141; Quintana L.M. Primary vertebral tumors-and enneking was right. World Neurosurg. 2017;99:775–6. DOI:10.1016/j.wneu.2016.12.092; Darwish A.E., Hasan B.Z., Elgebery A.O., Badr I.T. The clinical and radiological outcome of stages 1 and 2 enneking benign bone lesions with pathological fracture. Injury. 2021;52(10):2920–5. DOI:10.1016/j.injury.2021.01.026; Sciubba D.M., De la Garza Ramos R., Goodwin C.R., Abu-Bonsrah N., Bydon A., Witham T.F., et al. Clinical, surgical, and molecular prognostic factors for survival after spinal sarcoma resection. Neurosurg Focus. 2016;41(2):E9. DOI:10.3171/2016.5.FOCUS16118; Jones M., Alshameeri Z., Uhiara O., Rehousek P., Grainger M., Hughes S., et al. En bloc resection of tumors of the lumbar spine: a systematic review of outcomes and complications. Int J Spine Surg. 2021;15(6):1211–21. DOI:10.14444/8155; Gazzeri R., Telera S., Galarza M., Callovini G.M., Isabella S., Alfieri A. Surgical treatment of intramedullary spinal cord metastases: functional outcome and complications-a multicenter study. Neurosurg Rev. 2021;44(6):3267–75. DOI:10.1007/s10143-021-01491-8; Yamazaki T., McLoughlin G.S., Patel S., Rhines L.D., Fourney D.R. Feasibility and safety of en bloc resection for primary spine tumors: a systematic review by the Spine Oncology Study Group. Spine (Phila Pa 1976). 2009;34(22 Suppl):S31–8. DOI:10.1097/BRS.0b013e3181b8b796; Fisher C.G., DiPaola C.P., Ryken T.C., Bilsky M.H., Shaffrey C.I., Berven S.H., et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine (Phila Pa 1976). 2010;35(22):E1221–9. DOI:10.1097/BRS.0b013e3181e16ae2; Kim B., Moon S.H., Kim S.Y., Kim H.J., Lee H.M. Delayed spinal epidural hematoma after en block spondylectomy for vertebral ewing’s sarcoma. Asian Spine J. 2010;4(2):118–22. DOI:10.4184/asj.2010.4.2.118; Tu C.H., Chiu Y.P., Ji H.R., Chiu C.D. Primary osseous chondrosarcoma in the lumbar spine: case report and literature review with analysis. J Int Med Res. 2021;49(11):3000605211058890. DOI:10.1177/03000605211058890; Howell E.P., Williamson T., Karikari I., Abd-El-Barr M., Erickson M., Goodwin M.L., et al. Total en bloc resection of primary and metastatic spine tumors. Ann Transl Med. 2019;7(10):226. DOI:10.21037/atm.2019.01.25; Ashraf N., Hoffe S., Kim R. French FNCLCC/FFCD 9703 study. Oncologist. 2014;19(4):431. DOI:10.1634/theoncologist.2013-0456; Singh H.P., Grover S., Garg B., Sood N. Histopathological spectrum of soft-tissue tumors with immunohistochemistry correlation and FNCLCC grading: a North Indian experience. Niger Med J. 2017;58(5):149–55. DOI:10.4103/nmj.NMJ_226_16; Versteeg A.L, Dea N., Boriani S., Varga P.P., Luzzati A., Fehlings M.G., et al. Surgical management of spinal osteoblastomas. J Neurosurg Spine. 2017;27(3):321–7. DOI:10.3171/2017.1.SPINE16788; Amendola L., Cappuccio M., De Iure F., Bandiera S., Gasbarrini A., Boriani S. En bloc resections for primary spinal tumors in 20 years of experience: effectiveness and safety. Spine J. 2014;14(11):2608–17. DOI:10.1016/j.spinee.2014.02.030; Kaloostian P.E., Yurter A., Etame A.B., Vrionis F.D., Sciubba D.M., Gokaslan Z.L. Palliative strategies for the management of primary and metastatic spinal tumors. Cancer Control. 2014;21(2):140–3. DOI:10.1177/107327481402100206; Desai B., Hobbs J., Hartung G., Xu G., Gokaslan Z.L., Linninger A., et al. Image-guidance technology and the surgical resection of spinal column tumors. J Neurooncol. 2017;131(3):425–35. DOI:10.1007/s11060-016-2325-4; Barber S.M., Konakondla S., Nakhla J., Fridley J.S., Xia J., Oyelese A.A., et al. Spinal dural resection for oncological purposes: a systematic analysis of risks and outcomes in patients with malignant spinal tumors. J Neurosurg Spine. 2019:32(1):69–78. DOI:10.3171/2019.7.SPINE19477; Varga P.P., Szövérfi Z., Lazary A. Surgical treatment of primary malignant tumors of the sacrum. Neurol Res. 2014;36(6):577–87. DOI:10.1179/1743132814Y.0000000366; Shimizu T., Murakami H., Demura S., Kato S., Yoshioka K., Yokogawa N., et al. Total en bloc spondylectomy for primary tumors of the lumbar spine. Medicine (Baltimore). 2018;97(37):e12366. DOI:10.1097/MD.0000000000012366; Ng S., Boetto J., Poulen G., Berthet J.P., Marty-Ane C., Lonjon N. Partial vertebrectomies without instrumented stabilization during en bloc resection of primary bronchogenic carcinomas invading the spine: feasibility study and results on spine balance. World Neurosurg. 2019;122:e1542–50. DOI:10.1016/j.wneu.2018.11.098; Bakar D., Tanenbaum J.E., Phan K., Alentado V.J., Steinmetz M.P., Benzel E.C., et al. Decompression surgery for spinal metastases: a systematic review. Neurosurg Focus. 2016;41(2):E2. DOI:10.3171/2016.6.FOCUS16166; Avila M.J., Skoch J., Fennell V.S., Palejwala S.K., Walter C.M., Kim S., et al. Combined posterior hemiosteotomies and stabilization with lateral thoracotomy for en bloc resection of thoracic paraspinal primary bone tumors: technical note. J Neurosurg Spine. 2016;24(2):223–7. DOI:10.3171/2015.4.SPINE15107; Cappelletto B., Giorgiutti F., Balsano M. Evaluation of the effectiveness of expandable cages for reconstruction of the anterior column of thespine. J Orthop Surg (Hong Kong). 2020;28(1):2309499019900472. DOI:10.1177/2309499019900472; Fourney D.R., Abi-Said D., Rhines L.D., Walsh G.L., Lang F.F., Mc- Cutcheon I.E., et al. Simultaneous anterior-posterior approach to the thoracic and lumbar spine for the radical resection of tumors followed by reconstruction and stabilization. J Neurosurg. 2001;94(2 Suppl):232–44. DOI:10.3171/spi.2001.94.2.0232; Wei F., Liu Z., Liu X., Jiang L., Dang G., Passias P.G., et al. An approach to primary tumors of the upper cervical spine with spondylectomy using a combined approach: our experience with 19 cases. Spine (Phila Pa 1976). 2018;43(2):81–8. DOI:10.1097/BRS.0000000000001007; Zhong N., Yang M., Ma X., Gao X., Ye C., Yang J., et al. Early major complications after radical resection of primary C2-involved upper cervical chordoma through the combined anterior retropharyngealposterior approach: incidence and risk factors. World Neurosurg. 2021;154:e790–6. DOI:10.1016/j.wneu.2021.08.001; Dubory A., Missenard G., Lambert B., Court C. Interest of laparoscopy for “en bloc” resection of primary malignant sacral tumors by combined approach: comparative study with open median laparotomy. Spine (Phila Pa 1976). 2015;40(19):1542–52. DOI:10.1097/BRS.0000000000001069; Rao P.J., Thayaparan G.K., Fairhall J.M., Mobbs R.J. Minimally invasive percutaneous fixation techniques for metastatic spinal disease. Orthop Surg. 2014;6(3):187–95. DOI:10.1111/os.12114; Payer M., Sottas C. Mini-open anterior approach for corpectomy in the thoracolumbar spine. Surg Neurol. 2008;69(1):25–31; discussion 31–2. DOI:10.1016/j.surneu.2007.01.075; Gibbs W.N., Nael K., Doshi A.H., Tanenbaum L.N. Spine oncology: imaging and intervention. Radiol Clin North Am. 2019;57(2):377–95. DOI:10.1016/j.rcl.2018.10.002; Uei H., Tokuhashi Y., Maseda M., Nakahashi M., Sawada H., Nakayama E., et al. Clinical results of multidisciplinary therapy including palliative posterior spinal stabilization surgery and postoperative adjuvant therapy for metastatic spinal tumor. J Orthop Surg Res. 2018;13(1):30. DOI:10.1186/s13018-018-0735-z; Moussazadeh N., Rubin D.G., McLaughlin L., Lis E., Bilsky M.H., Laufer I. Short-segment percutaneous pedicle screw fixation with cement augmentation for tumor-induced spinal instability. Spine J. 2015;15(7):1609–17. DOI:10.1016/j.spinee.2015.03.037; Kumar N., Malhotra R., Maharajan K., Zaw A.S., Wu P.H., Makandura M.C., et al. Metastatic spine tumor surgery: a comparative study of minimally invasive approach using percutaneous pedicle screws fixation versus open approach. Clin Spine Surg. 2017;30(8):E1015–21. DOI:10.1097/BSD.0000000000000400; Yimin Y., Zhiwei R., Wei M., Jha R. Current status of percutaneous vertebroplasty and percutaneous kyphoplasty--a review. Med Sci Monit. 2013;19:826–36. DOI:10.12659/MSM.889479; Redini F., Heymann D. Bone tumor environment as a potential therapeutic target in ewing sarcoma. Front Oncol. 2015;5:279. DOI:10.3389/fonc.2015.00279; Barzilai O., McLaughlin L., Lis E., Reiner A.S., Bilsky M.H., Laufer I. Utility of cement augmentation via percutaneous fenestrated pedicle screws for stabilization of cancer-related spinal instability. Oper Neurosurg (Hagerstown). 2019;16(5):593–9. DOI:10.1093/ons/opy186; Wagner A., Haag E., Joerger A.K., Gempt J., Krieg S.M., Wostrack M., et al. Cement-augmented carbon fiber-reinforced pedicle screw instrumentation for spinal metastases: safety and efficacy. World Neurosurg. 2021;154:e536–46. DOI:10.1016/j.wneu.2021.07.092; Sanli I., van Kuijk S.M.J., de Bie R.A., van Rhijn L.W., Willems P.C. Percutaneous cement augmentation in the treatment of osteoporotic vertebral fractures (OVFs) in the elderly: a systematic review. Eur Spine J. 2020;29(7):1553–72. DOI:10.1007/s00586-020-06391-x; Cheng J.S., Upadhyaya C., Wu J.C., Tu T.H., Mummaneni P.V. Mini-open removal of intradural spinal tumor. Neurosurg Focus. 2012;33(Suppl.1):1. DOI:10.3171/2012.V2.FOCUS12152; Uribe J.S., Dakwar E., Le T.V., Christian G., Serrano S., Smith W.D. Minimally invasive surgery treatment for thoracic spine tumor removal: a mini-open, lateral approach. Spine (Phila Pa 1976). 2010;35(26 Suppl):S347–54. DOI:10.1097/BRS.0b013e3182022d0f; Tan L.A., O’Toole J.E. Tubular retractor selection in minimally invasive spinal tumor resection. J Neurosurg Spine. 2014;20(5):596–7. DOI:10.3171/2013.10.SPINE13944; Dorman J.K. Tumor resection utilizing a minimally invasive spinal retractor with a novel cranial adaptor. Minim Invasive Neurosurg. 2008;51(6):358–60. DOI:10.1055/s-0028-1085447; Álvarez Delgado A. Endoscopic closure systems for perforations, fistulas, and leaks. In expert hands or in all endoscopy units? Rev Esp Enferm Dig. 2020;112(5):335–7. DOI:10.17235/reed.2020.7112/2020; Soldozy S., Syed H.R., Jha R.T., O’Connell K., Ozdemirli M., Voyadzis J.M. Giant granular cell tumor of the cervical spinal cord resected via anterior corpectomy with reconstruction: technical note and review of literature. World Neurosurg. 2020;139:136–41. DOI:10.1016/j.wneu.2020.03.157; Park M.S., Deukmedjian A.R., Uribe J.S. Minimally invasive anterolateral corpectomy for spinal tumors. Neurosurg Clin N Am. 2014;25(2):317–25. DOI:10.1016/j.nec.2013.12.009; Lau D., Chou D. Posterior thoracic corpectomy with cage reconstruction for metastatic spinal tumors: comparing the mini-open approach to the open approach. J Neurosurg Spine. 2015;23(2):217–27. DOI:10.3171/2014.12.SPINE14543; D’Souza M., Gendreau J., Feng A., Kim L.H., Ho A.L., Veeravagu A. Robotic-assisted spine surgery: history, efficacy, cost, and future trends. Robot Surg. 2019;6:9–23. DOI:10.2147/RSRR.S190720; Campbell D.H., McDonald D., Araghi K., Araghi T., Chutkan N., Araghi A. The clinical impact of image guidance and robotics in spinal surgery: a review of safety, accuracy, efficiency, and complication reduction. Int J Spine Surg. 2021;15(s2):S10–20. DOI:10.14444/8136; Lieberman I.H., Kisinde S., Hesselbacher S. Robotic-assisted pedicle screw placement during spine surgery. JBJS Essent Surg Tech. 2020;10(2):e0020. DOI:10.2106/JBJS.ST.19.00020; Cazzato R.L., Auloge P., De Marini P., Boatta E., Koch G., Dalili D., et al. Spinal tumor ablation: indications, techniques, and clinical management. Tech Vasc Interv Radiol. 2020;23(2):100677. DOI:10.1016/j.tvir.2020.100677; Gazis A., Beuing O., Jöllenbeck B., Franke J., Skalej M. Bipolar radio frequency ablation of spinal neoplasms in late stage cancer disease: a report of three cases. Spine (Phila Pa 1976). 2012;37(1):E64–8. DOI:10.1097/BRS.0b013e31821cc57e; Lv N., Geng R., Ling F., Zhou Z., Liu M. Clinical efficacy and safety of bone cement combined with radiofrequency ablation in the treatment of spinal metastases. BMC Neurol. 2020;20(1):418. DOI:10.1186/s12883-020-01998-5; Jimenez-Ruiz F., Arnold B., Tatsui C.E., Cata J.P. Perioperative and anesthetic considerations for neurosurgical laser interstitial thermal therapy ablations. J Neurosurg Anesthesiol. 2018;30(1):10–7. DOI:10.1097/ANA.0000000000000376; Massaad E., Shankar G.M., Shin J.H. Novel applications of spinal navigation in deformity and oncology surgery-beyond screw placement. Oper Neurosurg (Hagerstown). 2021;21(Supp 1):S23–38. DOI:10.1093/ons/opaa322; Overley S.C., Cho S.K., Mehta A.I., Arnold P.M. Navigation and robotics in spinal surgery: Where are we now? Neurosurgery. 2017;80(3S):S86–99. DOI:10.1093/neuros/nyw077; https://www.surgonco.ru/jour/article/view/986
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8Report
Subject Terms: эндоскопическая папиллосфинктеротомия (ЭПСТ), хирургические осложнения, реабилитация, лапаротомия, Холедохолитиаз, лапароскопия, laparoskopiya, холецистэктомия, лазерная литотрипсия, endoskopik papillosfinkterotomiya (EPST), reabilitatsiya, o‘t-tosh kasalliklari, малоинвазивная хирургия, Xoledoxolitiaz, lazer litotripsiya, желчнокаменная болезнь, jarrohlik asoratlari, xoletsistektomiya, laparotomiya, kam invaziv jarrohlik
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9Academic Journal
Authors: N. A. Serebrennikov, D. V. Mizgiryov, A. E. Talypov, Н. А. Серебренников, Д. В. Мизгирёв, А. Э. Талыпов
Source: Russian Sklifosovsky Journal "Emergency Medical Care"; Том 12, № 3 (2023); 418-427 ; Журнал им. Н.В. Склифосовского «Неотложная медицинская помощь»; Том 12, № 3 (2023); 418-427 ; 2541-8017 ; 2223-9022
Subject Terms: интракраниальная гематома, minimally invasive surgical procedures, brain injuries, subdural hematoma, epidural hematoma, intracranial hematoma, малоинвазивная хирургия, черепно-мозговая травма, субдуральная гематома, эпидуральная гематома
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Relation: https://www.jnmp.ru/jour/article/view/1674/1338; https://www.jnmp.ru/jour/article/view/1674/1399; Maas AIR, Menon DK, Adelson PD, Andelic N, Bell MJ, Belli A, et al. Traumatic brain injury: Integrated approaches to improve prevention, clinical care, and research. Lancet Neurol. 2017;16(12):987–1048. https://doi.org/10.1016/S1474-4422(17)30371-X PMID: 29122524; Peeters W, van den Brande R, Polinder S, Brazinova A, Steyerberg EW, Lingsma HF, et al. Epidemiology of traumatic brain injury in Europe. Acta Neurochir (Wien). 2015;157(10):1683–1696. https://doi.org/10.1007/s00701-015-2512-7 PMID: 26269030; Коновалов А.Н., Лихтерман Л.Б., Потапов А.А. (ред.) Клиническое руководство по черепно-мозговой травме: в 3-х т. Т.1. Москва: Антидор; 1998.; Xu T, Yu X, Ou S, Liu X, Yuan J, Huang H, et al. Risk factors for posttraumatic epilepsy: A systematic review and meta-analysis. Epilepsy Behav. 2017;67:1–6. https://doi.org/10.1016/j.yebeh.2016.10.026 PMID: 28076834; Khalili H, Kashkooli NR, Niakan A, Asadi-Pooya AA. Risk factors for post-traumatic epilepsy. Seizure. 2021;89:81–84. https://doi.org/10.1016/j.seizure.2021.05.004 PMID: 34023655; Недугов Г.В. Анализ причин смерти при субдуральных гематомах. Самара: Офорт; 2009.; Silver JM, McAllister TW, Yudofsky SC. Textbook of Traumatic Brain Injury. 2nd ed. American Psychiatric Publishing, Inc.; 2011.; Недугов Г.В. Субдуральные гематомы. Самара: Офорт; 2011.; Zhang J, Liu X, Fan X, Fu K, Xu C, Hu Q, et al. The use of endoscopicassisted burr-hole craniostomy for septated chronic subdural haematoma: A retrospective cohort comparison study. Brain Res. 2018;1678:245–253. https://doi.org/10.1016/j.brainres.2017.10.017 PMID: 29074342; Iliescu IA. Current diagnosis and treatment of chronic subdural haematomas. J Med Life. 2015;8(3):278–284. PMID: 26351527; Потапов А.А., Крылов В.В., Гаврилов А.Г., Кравчук А.Д., Лихтерман Л.Б., Петриков С.С. и др. Рекомендации по диагностике и лечению тяжелой черепно-мозговой травмы. Часть 3. Хирургическое лечение (опции). Журнал вопросы нейрохирургии им. Н.Н. Бурденко. 2016;80(2):93–101. https://doi.org/10.17116/neiro201680293-101; Chan DYC, Chan DTM, Sun TFD, Ng SCP, Wong GKC, Poon WS. The use of atorvastatin for chronic subdural haematoma: a retrospective cohort comparison study. Br J Neurosurg. 2017;31(1):72–77. https://doi.org/10.1080/02688697.2016.1208806 PMID: 27881024; Ansari I, Futane S, Ansari A. Endoscope-assisted, minimally invasive evacuation of sub-acute/chronic epidural hematoma: Novelty or paradox of Theseus? Acta Neurochir (Wien). 2016;158(8):1473–1478. https://doi.org/10.1007/s00701-016-2851-z PMID: 27255655; Liu JT, Tyan YS, Lee YK, Wang JT. Emergency management of epidural haematoma through burr hole evacuation and drainage. A preliminary report. Acta Neurochir (Wien). 2006;148(3):313–317. https://doi.org/10.1007/s00701-005-0723-z PMID: 16437186; Liu W, Ma L, Wen L, Shen F, Sheng H, Zhou B, et al. Drilling skull plus injection of urokinase in the treatment of epidural haematoma: A preliminary study. Brain Inj. 2008;22(2):199–204. https://doi.org/10.1080/02699050801895407 PMID: 18240049; Carney N, Totten AM, O’Reilly C, Ullman JS, Hawryluk GW, Bell MJ, et al. Guidelines for the Management of Severe Traumatic Brain Injury, Fourth Edition. Neurosurgery. 2017;80(1):6–15. https://doi.org/10.1227/NEU.0000000000001432 PMID: 27654000; Ortuño Andériz F, Rascón Ramírez FJ, Fuentes Ferrer ME, Pardo Rey C, Bringas Bollada M, Postigo Hernández C, et al. Decompressive craniectomy in traumatic brain injury: The intensivist’s point of view. Neurocirugía (Astur: Engl Ed). 2021;32(6):278–284. https://doi.org/10.1016/j.neucie.2021.02.002 PMID: 34743825; Wang JW, Li JP, Song YL, Tan K, Wang Y, Li T, et al. Decompressive craniectomy in neurocritical care. J Clin Neurosci. 2016;27:1–7. https://doi.org/10.1016/j.jocn.2015.06.037 PMID: 26879572; Hanko M, Soršák J, Snopko P, Opšenák R, Zeleňák K, Kolarovszki B. Incidence and risk factors of early postoperative complications in patients after decompressive craniectomy: a 5-year experience. Eur J Trauma Emerg Surg. 2021;47(5):1635–1647. https://doi.org/10.1007/s00068-020-01367-4 PMID: 32307561; Hutchinson PJ, Kolias AG, Tajsic T, Adeleye A, Aklilu AT, Apriawan T, et al. Consensus statement from the International Consensus Meeting on the Role of Decompressive Craniectomy in the Management of Traumatic Brain Injury: Consensus statement. Acta Neurochir (Wien). 2019;161(7):1261–1274. https://doi.org/10.1007/s00701-019-03936-y PMID: 31134383; Amano T, Miyamatsu Y, Otsuji R, Nakamizo A. Efficacy of endoscopic treatment for chronic subdural hematoma surgery. J Clin Neurosci. 2021;92:78–84. https://doi.org/10.1016/J.JOCN.2021.07.058 PMID: 34509267; Du B, Xu J, Hu J, Zhong X, Liang J, Lei P, et al. A Clinical Study of the Intra-Neuroendoscopic Technique for the Treatment of SubacuteChronic and Chronic Septal Subdural Hematoma. Front Neurol. 2020;10:1408. https://doi.org/10.3389/fneur.2019.01408 eCollection 2019. PMID: 32010057; Schwarz F, Loos F, Dünisch P, Sakr Y, Safatli DA, Kalff R, et al. Risk factors for reoperation after initial burr hole trephination in chronic subdural hematomas. Clin Neurol Neurosurg. 2015;138:66–71. https://doi.org/10.1016/j.clineuro.2015.08.002 PMID: 26282910; Yan K, Gao H, Zhou X, Wu W, Xu W, Xu Y, et al. A retrospective analysis of postoperative recurrence of septated chronic subdural haematoma: endoscopic surgery versus burr hole craniotomy. Neurol Res. 2017;39(9):803–812. https://doi.org/10.1080/01616412.2017.13217 09 PMID: 28502216; Karakhan VB, Khodnevich AA. Endoscopic surgery of traumatic intracranial haemorrhages. Acta Neurochir Suppl. 1994;61:84–91. https://doi.org/10.1007/978-3-7091-6908-7_15 PMID: 7771231; Rodziewicz GS, Chuang WC. Endoscopic removal of organized chronic subdural hematoma. Surg Neurol. 1995;43(6):569–573. https://doi.org/10.1016/0090-3019(95)00005-4 PMID: 7482236; Hellwig D, Kuhn TJ, Bauer BL, List-Hellwig E. Endoscopic treatment of septated chronic subdural hematoma. Surg Neurol. 1996;45(3):272–277. https://doi.org/10.1016/0090-3019(95)00417-3 PMID: 8638225; Gruber DP, Crone KR. Endoscopic Washout: A New Technique for Treating Chronic Subdural Hematomas in Infants. Pediatr Neurosurg. 1997;27(6):292–295. https://doi.org/10.1159/000121273 PMID: 9655143; Masopust V, Netuka D, Häckel M. Chronic Subdural Haematoma Treatment with a Rigid Endoscope. Minim Invasive Neurosurg. 2003;46(6):374–379. https://doi.org/10.1055/s-2003-812507 PMID: 14968410; Mobbs R, Khong P. Endoscopic-assisted evacuation of subdural collections. J Clin Neurosci. 2009;16(5):701–704. https://doi.org/10.1016/j.jocn.2008.06.023 PMID: 19261476; Ohshima T, Tajima H, Fujii K, Nagakura M, Nishizawa T, Kato K, et al. Combined endovascular and endoscopic surgery for acute epidural hematoma in a patient with poor health. Neurol Med Chir (Tokyo). 2012;52(11):829-831. https://doi.org/10.2176/nmc.52.829 PMID: 23183079; Huang APH, Huang SJ, Hong WC, Chen CM, Kuo LT, Chen YS, et al. Minimally invasive surgery for acute noncomplicated epidural hematoma: An innovative endoscopic-assisted method. J Trauma Acute Care Surg. 2012;73(3):774–777. https://doi.org/10.1097/TA.0b013e31824a7974 PMID: 23007020; Kon H, Saito A, Uchida H, Inoue M, Sasaki T, Nishijima M. Endoscopic surgery for traumatic acute subdural hematoma. Case Rep Neurol. 2013;5(3):208–213. https://doi.org/10.1159/000357367 eCollection 2013 Sep. PMID: 24659965; Codd PJ, Venteicher AS, Agarwalla PK, Kahle KT, Jho DH. Endoscopic burr hole evacuation of an acute subdural hematoma. J Clin Neurosci. 2013;20(12):1751–1753. https://doi.org/10.1016/j.jocn.2013.02.019 PMID: 23962631; Yokosuka K, Uno M, Matsumura K, Takai H, Hagino H, Matsushita N, et al. Endoscopic hematoma evacuation for acute and subacute subdural hematoma in elderly patients. J Neurosurg. 2015;123(4):1065–1069. https://doi.org/10.3171/2014.10.JNS14915 PMID: 25909568; Ueba T, Yasuda M, Inoue T. Endoscopic burr hole surgery with a curettage and suction technique to treat traumatic subacute subdural hematomas. J Neurol Surg A Cent Eur Neurosurg. 2015;76(1):63–65. https://doi.org/10.1055/s-0033-1358606 PMID: 25306208; Suat B, Oguzhan Guven G, Serdar K, Kaya A. Evacuation of subdural collections by endoscopy. Turk Neurosurg. 2015;26(6):871–877. https://doi.org/10.5137/1019-5149.jtn.14113-15.2; Miki K, Yoshioka T, Hirata Y, Enomoto T, Takagi T, Tsugu H, et al. Surgical outcome of acute and subacute subdural hematoma with endoscopic surgery. Neurological Surgery. 2016;44(6):455–462. https://doi.org/10.11477/mf.1436203310 PMID: 27270143; Tamura R, Kuroshima Y, Nakamura Y. Neuroendoscopic Removal of Acute Subdural Hematoma with Contusion: Advantages for Elderly Patients. Case Rep Neurol Med. 2016;2016:2056190. https://doi.org/10.1155/2016/2056190 PMID: 26981295; Májovský M, Masopust V, Netuka D, Beneš V. Flexible endoscopeassisted evacuation of chronic subdural hematomas. Acta Neurochir (Wien). 2016;158(10):1987–1992. https://doi.org/10.1007/s00701-016-2902-5 PMID: 27473394; Kuge A, Tsuchiya D, Watanabe S, Sato M, Kinjo T. Endoscopic hematoma evacuation for acute subdural hematoma in a young patient: a case report. Acute Med Surg. 2017;4(4):451–453. https://doi.org/10.1002/ams2.295 eCollection 2017 Oct. PMID: 29123907; Maruya J, Tamura S, Hasegawa R, Saito A, Nishimaki K, Fujii Y. Endoscopic hematoma evacuation following emergent burr hole surgery for acute subdural hematoma in critical conditions: Technical note. Interdiscip Neurosurg. 2018;12:48–51. https://doi.org/10.1016/j.inat.2018.01.005; Matsumoto H, Minami H, Hanayama H, Yoshida Y. Endoscopic Hematoma Evacuation for Acute Subdural Hematoma in the Elderly: A Preliminary Study. Surg Innov. 2018;25(5):455–464. https://doi.org/10.1 177/1553350618785270 PMID: 29998785; Kawasaki T, Kurosaki Y, Fukuda H, Kinosada M, Ishibashi R, Handa A, et al. Flexible endoscopically assisted evacuation of acute and subacute subdural hematoma through a small craniotomy: preliminary results. Acta Neurochir (Wien). 2018;160(2):241–248. https://doi.org/10.1007/s00701-017-3399-2 PMID: 29192373; Ichimura S, Takahara K, Nakaya M, Yoshida K, Mochizuki Y, Fukuchi M, et al. Neuroendoscopic hematoma removal with a small craniotomy for acute subdural hematoma. J Clin Neurosci. 2019;61:311–314. https://doi.org/10.1016/j.jocn.2018.11.043 PMID: 30472341; Hwang SC, Shin DS. Endoscopic Treatment of Acute Subdural Hematoma with a Normal Small Craniotomy. J Neurol Surg A Cent Eur Neurosurg. 2020;81(1):10–16. https://doi.org/10.1055/s-0039-1685509 PMID: 31272119; Katsuki M, Kakizawa Y, Nishikawa A, Kunitoki K, Yamamoto Y, Wada N, et al. Fifteen cases of endoscopic treatment of acute subdural hematoma with small craniotomy under local anesthesia: Endoscopic hematoma removal reduces the intraoperative bleeding amount and the operative time compared with craniotomy in patients aged 70 or ol. Neurol Med Chir (Tokyo). 2020;60(9):439–449. https://doi.org/10.2176/nmc.oa.2020-0071PMID: 32801274; Miki K, Nonaka M, Kobayashi H, Horio Y, Abe H, Morishita T, et al. Optimal surgical indications of endoscopic surgery for traumatic acute subdural hematoma in elderly patients based on a singleinstitution experience. Neurosurg Rev. 2021;44(3):1635–1643. https://doi.org/10.1007/s10143-020-01351-x PMID: 32700161; Khattar NK, McCallum AP, Fortuny EM, White AC, Ball TJ, Adams SW, et al. Minimally Invasive Endoscopy for Acute Subdural Hematomas: A Report of 3 Cases. Oper Neurosurg (Hagerstown). 2021;20(3):310–315. https://doi.org/10.1093/ons/opaa390 PMID: 33372226; Katsevman GA, Arteaga D, Razzaq B, Marsh RA. Burr-Hole Evacuation of an Acute Epidural Hematoma using the Artemis Neuroevacuation Device With Flexible Endoscopic Visualization: 2-Dimensional Operative Video. World Neurosurg. 2021;150:18. https://doi.org/10.1016/j.wneu.2021.03.021 PMID: 33741544; Panczykowski DM, Okonkwo DO. Premorbid oral antithrombotic therapy and risk for reaccumulation, reoperation, and mortality in acute subdural hematomas: Clinical article. J Neurosurg. 2011;114(1):47–52. https://doi.org/10.3171/2010.7.JNS10446 PMID: 20722610; Maeda T, Yoshino A, Katayama Y. Guidelines for the management of severe traumatic brain injury: Updated in 2013. Japan J Neurosurg. 2013;22(11):831–836. https://doi.org/10.7887/jcns.22.831; Brodbelt A, Warnke P, Weigel R, Krauss JK. Outcome of contemporary surgery for chronic subdural haematoma: Evidence based review. J Neurol Neurosurg Psychiatry. 2004;75(8):1209–1210. PMID: 15258243; Santarius T, Kirkpatrick PJ, Ganesan D, Chia HL, Jalloh I, Smielewski P, et al. Use of drains versus no drains after burr-hole evacuation of chronic subdural haematoma: a randomised controlled trial. Lancet. 2009;374(9695):1067–1073. https://doi.org/10.1016/S0140-6736(09)61115-6 PMID: 19782872; Lind CRP, Lind CJ, Mee EW. Reduction in the number of repeated operations for the treatment of subacute and chronic subdural hematomas by placement of subdural drains. J Neurosurg. 2003;99(1):44– 46. https://doi.org/10.3171/jns.2003.99.1.0044 PMID: 12854742; Spencer RJ, Manivannan S, Zaben M. Endoscope-assisted techniques for evacuation of acute subdural haematoma in the elderly: The lesser of two evils? A scoping review of the literature. Clin Neurol Neurosurg. 2021;207:106712. https://doi.org/10.1016/j.clineuro.2021.106712 PMID: 34091423; Yakar F, Egemen E, Dere UA, Celtikci E, Dogruel Y, Sahinoglu D, et al. Subdural Hematoma Evacuation via Rigid Endoscopy System: A Cadaveric Study. J Craniofac Surg. 2021;32(5):e402–e405. https://doi.org/10.1097/SCS.0000000000007031 PMID: 32956319; Fomchenko EI, Gilmore EJ, Matouk CC, Gerrard JL, Sheth KN. Management of Subdural Hematomas: Part II. Surgical Management of Subdural Hematomas. Curr Treat Options Neurol. 2018;20(8):34. https://doi.org/10.1007/s11940-018-0518-1 PMID: 30019165; https://www.jnmp.ru/jour/article/view/1674
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10Academic Journal
Authors: Макаров, С.А., Аганесов, А.Г., Алексанян, М.М., Микаелян, К.П.
Source: POLYTRAUMA; № 1 (2023): март; 45-50 ; ПОЛИТРАВМА / POLYTRAUMA; № 1 (2023): март; 45-50 ; 2541-867X ; 1819-1495
Subject Terms: spinal fractures, elderly age, transpedicular fixation, postoperative pain, minimally invasive spine surgery, переломы позвонков, пожилой возраст, транспедикулярная фиксация, послеоперационная боль, малоинвазивная хирургия позвоночника
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Availability: http://poly-trauma.ru/index.php/pt/article/view/310
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11Academic Journal
Authors: М. Жульков, К. Козырь, И. Зыков, А. Таркова, Х. Агаева, А. Сабетов, Д. Сирота, Д. Сергеевичев, А. Чернявский
Source: Патология кровообращения и кардиохирургия, Vol 26, Iss 2 (2022)
Subject Terms: малоинвазивная хирургия, самораскрывающийся протез аортального клапана, стеноз аортального клапана, транскатетерная имплантация аортального клапана, Surgery, RD1-811
File Description: electronic resource
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12Academic Journal
Authors: Ковальчук, B., Паньків, O.
Source: Clinical anatomy and operative surgery; Vol. 5 No. 1 (2006); 44-47
Клиническая анатомия и оперативная хирургия; Том 5 № 1 (2006); 44-47
Клінічна анатомія та оперативна хірургія; Том 5 № 1 (2006); 44-47Subject Terms: liver resection, minimal invasive surgery, intrahepatic angioarchitecture, резекция печени, малоинвазивная хирургия, внутрипеченочная ангиоархитектоника, резекція печінки, малоінвазивна хірургія, внутрішньопечінкова ангіоархітектоніка
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Access URL: http://kaos.bsmu.edu.ua/article/view/258651
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13Academic Journal
Authors: Мансуров, Джалолидин, Уразовская, Ирина, Сайганов, Сергей, Ткаченко, Александр, Хайдаров, Валерий, Балглей, Александр, Тотоев, Заурбек
Source: POLYTRAUMA; № 3 (2022): сентябрь; 80-88 ; ПОЛИТРАВМА / POLYTRAUMA; № 3 (2022): сентябрь; 80-88 ; 2541-867X ; 1819-1495
Subject Terms: osteoarthritis of the knee joint, conservative treatment, minimally invasive surgery, total knee arthroplasty, остеоартрит коленного сустава, консервативное лечение, малоинвазивная хирургия, артропластика коленного сустава
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Availability: http://poly-trauma.ru/index.php/pt/article/view/399
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14Academic Journal
Authors: G.N. Dushina, A.I. Bezzabotnov, A.S. Shradka, V. Kumar, M.A. Frolov
Source: Практическая медицина
Subject Terms: обратный циклодиализ ab interno, внутриглазное давление, малоинвазивная хирургия глаукомы, minimally invasive glaucoma surgery, uveoscleral outflow of intraocular fluid, супрацилиарный металлический имплантат, supraciliary metallic implant, увеосклеральный путь оттока внутриглазной жидкости, reverse cyclodialysis ab interno, intraocular pressure, 3. Good health
Access URL: https://openrepository.ru/article?id=246343
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15Academic Journal
Authors: Ţîbîrnă, Andrei, Cigoreanu, Gheorghe
Source: Bulletin of the Academy of Sciences of Moldova. Medical Sciences; Vol. 70 No. 2 (2021): Medical Sciences; 96-100 ; Buletinul Academiei de Științe a Moldovei. Științe medicale; Vol. 70 Nr. 2 (2021): Ştiinţe medicale; 96-100 ; Вестник Академии Наук Молдовы. Медицина; Том 70 № 2 (2021): Медицина; 96-100 ; 1857-0011 ; 10.52692/1857-0011.2021.2-70
Subject Terms: рак, щитовидной железы, малоинвазивная хирургия, cancer, thyroid gland, minimal invasive surgery, glanda tiroidă, chirurgia miniinvazivă
File Description: application/pdf
Relation: https://bulmed.md/bulmed/article/view/3322/3322; https://bulmed.md/bulmed/article/view/3322
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16Academic Journal
Source: Science and Education, Vol 2, Iss 5, Pp 99-104 (2021)
Subject Terms: эхинококкоз, малоинвазивная хирургия, интервенционная радиология, эндохирургия, Science (General), Q1-390, Education (General), L7-991
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17Academic Journal
Authors: Ахмад Салех Солиман Шрадка, Винод Шарванович Кумар, Михаил Александрович Фролов, Галина Николаевна Душина, Андрей Игоревич Беззаботнов
Source: Медицина в Кузбассе, Vol 18, Iss 1, Pp 61-65 (2019)
Subject Terms: малоинвазивная хирургия глаукомы, глаукома, супрацилиарный металлический имплантат, циклодиализ ab interno, увеосклеральный путь оттока внутриглазной жидкости, Medicine
File Description: electronic resource
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18Academic Journal
Subject Terms: IPOM и eTEP, эндоскопическая герниопластика, endoscopic hernioplasty, economic feasibility, малоинвазивная хирургия, экономическая целесообразность, IPOM and eTEP, minimally invasive surgery, 3. Good health
Access URL: https://research-journal.org/en/medicine/endoskopicheskie-gernioplastiki-u-pacientov-s-posleoperacionnymi-gryzhami-perednej-bryushnoj-stenki-obosnovanie-xirurgicheskoj-taktiki-i-ekonomicheskoj-effektivnosti/
https://cyberleninka.ru/article/n/endoskopicheskie-gernioplastiki-u-patsientov-s-posleoperatsionnymi-gryzhami-peredney-bryushnoy-stenki-obosnovanie-hirurgicheskoy
https://research-journal.org/wp-content/uploads/2021/04/4-106-2.pdf#page=188 -
19Academic Journal
Authors: Шрадка А.С., Кумар В., Фролов М.А., Душина Г.Н., Беззаботнов А.И.
Source: Современные технологии в офтальмологии
Subject Terms: малоинвазивная хирургия глаукомы, глаукома, дренажная хирургия глаукомы, супрацилиарный металлический имплантат, обратный меридиональный циклодиализ, циклодиализ ab interno, увеосклеральный путь оттока внутриглазной жидкости, внутриглазное давление
Availability: https://openrepository.ru/article?id=246344
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20Academic Journal
Authors: Shradka A.S., Kumar V., Frolov M.A., Dushina G.N., Bezzabotnov A.I.
Source: Практическая медицина
Subject Terms: minimally invasive glaucoma surgery, supraciliary metallic implant, reverse cyclodialysis ab interno, uveoscleral outflow of intraocular fluid, intraocular pressure, малоинвазивная хирургия глаукомы, супрацилиарный металлический имплантат, обратный циклодиализ ab interno, увеосклеральный путь оттока внутриглазной жидкости, внутриглазное давление
Availability: https://openrepository.ru/article?id=246343