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1Academic Journal
Authors: Ш.Г. , Каршиев
Source: World of Medicine : Journal of Biomedical Sciences; Vol. 2 No. 2 (2025): World of Medicine : Journal of Biomedical Sciences; 66-70 ; 2960-9356
Subject Terms: цитокиновый профиль, множественные переломы челюстей, воспаление, зубодесневая жидкость, ИЛ-1β, ИЛ-6, ИЛ-10
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2
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3Academic Journal
Authors: Pankov, I., Sirazitdinov, S.
Subject Terms: multiple injuries (polytrauma), multiple fractures of the extremities, external fixation, external fixing device, тяжелая политравма, множественные переломы костей конечностей, чрескостный остеосинтез, аппарат Илизарова, аппарат внешней фиксации, 3. Good health
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4Academic Journal
Authors: Pankov I., Sirazitdinov S.
Subject Terms: multiple injuries (polytrauma), multiple fractures of the extremities, external fixation, external fixing device, тяжелая политравма, множественные переломы костей конечностей, чрескостный остеосинтез, аппарат Илизарова, аппарат внешней фиксации
Relation: https://zenodo.org/communities/njd-iscience/; https://zenodo.org/records/7528494; oai:zenodo.org:7528494; https://doi.org/10.5281/zenodo.7528494
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5Academic Journal
Authors: V. H. Sharipova, I. V. Fokin, В. Х. Шарипова, И. В. Фокин
Source: General Reanimatology; Том 19, № 3 (2023); 39-45 ; Общая реаниматология; Том 19, № 3 (2023); 39-45 ; 2411-7110 ; 1813-9779
Subject Terms: ребра, erector spinae muscle, fascial plane, anesthesia, multiple fractures, ribs, мышца, выпрямляющая спину, фасциальная плоскость, обезболивание, множественные переломы
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Relation: https://www.reanimatology.com/rmt/article/view/2300/1733; https://www.reanimatology.com/rmt/article/view/2300/1740; https://www.reanimatology.com/rmt/article/downloadSuppFile/2300/762; https://www.reanimatology.com/rmt/article/downloadSuppFile/2300/763; https://www.reanimatology.com/rmt/article/downloadSuppFile/2300/764; https://www.reanimatology.com/rmt/article/downloadSuppFile/2300/765; https://www.reanimatology.com/rmt/article/downloadSuppFile/2300/766; May L., Hillermann C., Patil S. Rib fracture management. BJA Education. 2016; 16: 26–32. DOI: 1093/bjaceaccp/mkv011; Хаджибаев А.Н., Рахманов Р.О., Султанов П.К., Шарипова В.Х. Диагностика и хирургическая тактика при неотложных состояниях, обусловленных травмой и заболеваниями органов грудной полости. Общая реаниматология. 2016; 12 (4): 57–67. DOI:10.15360/1813-9779-2016-4-57-67; Chapman B.C., Herbert B., Rodil M., Salotto J., Stovall R.T., Biffl W., Johnson J. et al. RibScore: a novel radiographic score based on fracture pattern that predicts pneumonia, respiratory failure, and tracheostomy. J Trauma Acute Care Surg. 2016; 80 (1): 95–101. DOI:10.1097/TA.0000000000000867. PMID: 26683395; Witt C.E., Bulger E.M. Comprehensive approach to the management of the patient with multiple rib fractures: a review and introduction of a bundled rib fracture management protocol. Trauma Surg Acute Care Open. 2017; 2 (1): e000064. DOI:10.1136/tsaco-2016-000064. PMID: 29766081; Galvagno Jr. S.M., Smith C.E., Varon A.J., Hasenboehler E.A., Sultan S., Shaefer G., To K.B. et al. Pain management for blunt thoracic trauma: a joint practice management guideline from the Eastern Association for the Surgery of Trauma and Trauma Anesthesiology Society. J Trauma Acute Care Surg. 2016; 81 (5): 936–951. DOI:10.1097/TA.0000000000001209. PMID: 27533913; Forero M., Adhikary S.D., Lopez H., Tsui C., Chin K.J. The erector spinae plane block: a novel analgesic technique in thoracic neuropathic pain. Reg Anesth Pain Med. 2016; 41 (5): 621–627. DOI:10.1097/AAP.0000000000000451. PMID: 27501016; Шарипова В.Х., Фокин И.В., Саттарова Ф.К., Парпибаев Ф.О. Фасциальная блокада мышцы, выпрямляющей спину, при множественных переломах ребер (клиническое наблюдение). Общая реаниматология. 2020; 16 (5): 22–29. DOI:10.15360/1813-9779-2020-5-22-29; Schwartzmann A., Peng P., Maciel M.A., Forero M. Mechanism of the erector spinae plane block: insights from a magnetic resonance imaging study. Can J Anaesth. 2018; 65 (10): 1165–1166. DOI:10.1007/s12630-018-1187-y. PMID: 30076575; Cho T.-H., Kim S.H., O J., Kwon H.-J., Kim K.W., Yang H.-M. Anatomy of the thoracic paravertebral space: 3D micro-CT findings and their clinical implications for nerve blockade. Reg Anesth Pain Med. 2021; 46 (8): 699–703. DOI:10.1136/rapm-2021-102588. PMID: 33990438; Lopez M.B., Cadorniga Á.G., Gonzales J.M.L., Suarez E.D., Carballo C.L., Sobrino F.P. Erector spinae block. A narrative review. Central Eur J Clin Res. 2018; 1 (1): 28–39. DOI:10.2478/cejcr-2018-0005; Tulgar S., Selvi O., Ozer Z. Clinical experience of ultrasound guided single and bi-level erector spinae plane block for postoperative analgesia in patients undergoing thoracotomy. J Clin Anesth. 2018; 50: 22–23. DOI:10.1016/j.jclinane.2018.06.034. PMID: 29940470; Chin K.J., Adhikary S., Sarwani N., Forero M. The analgesic efficacy of pre-operative bilateral erector spinae plane (ESP) blocks in patients having ventral hernia repair. Anaesthesia 2017; 72 (4): 452–460. DOI:10.1111/anae.13814. PMID: 28188621; Chung K., Kim E.D. Continuous erector spinae plane block at the lower lumbar level in a lower extremity complex regional pain syndrome patient. J Clin Anesth. 2018; 48: 30–31. DOI:10.1016/j.jclinane.2018.04.012. PMID: 29727760; Thiruvenkatarajan V., Hillen С.E., Adhikary S.D. An update on regional analgesia for rib fractures. Curr Opin Anaesthesiol. 2018; 31 (5): 601–607. DOI:10.1097/ACO.0000000000000637. PMID: 30020155; Hamilton D.L., Manickam B. Erector spinae plane block for pain relief in rib fractures. Br J Anaesth. 2017; 118 (3): 474–475. DOI:10.1093/bja/aex013. PMID: 28203765; Luftig J., Mantuani D., Herring A.A., Dixon B., Clattenburg E., Nagdev A. Successful emergency pain control for posterior rib fractures with ultrasound-guided erector spinae plane block. Am J Emerg Med. 2018; 36 (8): 1391–1396. DOI:10.1016/j.ajem.2017.12.060. PMID: 29301653; Syal R., Mohammed S., Kumar R., Jain N., Bhatia P. Continuous erector spinae plane block for analgesia and better pulmonary functions in patients with multiple rib fractures: a prospective descriptive study. Braz J Anesthesiol. 2021: S0104-0014 (21)00361-4. DOI:10.1016/j.bjane.2021.09.010. PMID: 34624374; Adhikary S.D., Liu W.M., Fuller E., Cruz‐Eng H., Chin K.J. The effect of erector spinae plane block on respiratory and analgesic outcomes in multiple rib fractures: a retrospective cohort study. Anaesthesia 2019; 74 (5): 585– 93. DOI:10.1111/anae.14579. PMID: 30740657; Ho A.M.-H., Karmakar M.K., Critchley L.A.H. Acute pain management of patients with multiple fractured ribs: a focus on regional techniques. Curr Opin Crit Care. 2011; 17 (4): 323–327. DOI:10.1097/MCC.0b013e328348bf6f. PMID: 21716105; Forero M., Rajarathinam M., Adhikary S., Chin K.J. Continuous erector spinae plane block for rescue analgesia in thoracotomy after epidural failure: a case report. A A Case Rep. 2017; 8 (10): 254–256. DOI:10.1213/XAA.0000000000000478. PMID: 28252539; Adhikary S.D., Prasad A., Soleimani B., Chin K.J. Continuous erector spinae plane block as an effective analgesic option in anticoagulated patients after left ventricular assist device implantation: a case series. J Cardiothorac Vasc Anesth. 2018; 33 (4): 1063–1067. DOI:10.1053/j.jvca.2018.04.026. PMID: 29753668; Elawamy A., Morsy M.R., Ahmed M.A.Y. Comparison of thoracic erector spinae plane block with thoracic paravertebral block for pain management in patients with unilateral multiple fractured ribs. Pain Physician. 2022; 25 (6): 483–490. PMID: 36122257; Richman J.M., Liu S.S., Courpas G., Wong R., Rowlingson A.J., McGready J., Cohen S.R. et al. Does continuous peripheral nerve block provide superior pain control to opioids? A meta-analysis. Anesth Analg. 2006; 102 (1): 248–257. DOI:10.1213/01.ANE.0000181289. 09675.7D. PMID: 16368838; De La Cuadra-Fontaine J.C., Altermatt F.R. Continuous erector spinae plane (ESP) block: optimizing the analgesia technique. J Cardiothorac Vasc Anesth. 2018; 32 (5): e2–3. DOI:10.1053/j.jvca.2018.03.034. PMID: 29706569; Chou R., Gordon D.B., de Leon-Casasola O.A., Rosenberg J.M., Bickler S., Brennan T., Carter T. et al. Management of postoperative pain: a clinical practice guideline from the American Pain Society, the American Society of Regional Anesthesia and Pain Medicine, and the American Society of Anesthesiologists' Committee on Regional Anesthesia, Executive Committee, and Administrative Council. J Pain. 2016; 17 (2): 131–157. DOI:10.1016/j.jpain.2015.12.008. PMID: 26827847; https://www.reanimatology.com/rmt/article/view/2300
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6Academic Journal
Authors: Меньшиков, А.А., Цеймах, Е.А., Бондаренко, А.В.
Source: POLYTRAUMA; № 1 (2022): март; 21-27 ; ПОЛИТРАВМА / POLYTRAUMA; № 1 (2022): март; 21-27 ; 2541-867X ; 1819-1495
Subject Terms: polytrauma, multiple rib fractures, floating rib fractures, rib osteosynthesis, chest flotation, severe chest injury, множественные переломы ребер, внутренний остеосинтез, политравма, флотирующие переломы ребер
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Relation: http://poly-trauma.ru/index.php/pt/article/view/375/650; http://poly-trauma.ru/index.php/pt/article/view/375/661; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/375/3978; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/375/3979
Availability: http://poly-trauma.ru/index.php/pt/article/view/375
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7Academic Journal
Authors: A. R. Zaripova, R. I. Khusainova, А. Р. Зарипова, Р. И. Хусаинова
Source: Vavilov Journal of Genetics and Breeding; Том 24, № 2 (2020); 219-227 ; Вавиловский журнал генетики и селекции; Том 24, № 2 (2020); 219-227 ; 2500-3259 ; 10.18699/VJ20.605
Subject Terms: множественные переломы, collagen, bone fragility, bisphosphonates, multiple fractures, коллаген, хрупкость костей, бисфосфонаты
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Relation: https://vavilov.elpub.ru/jour/article/view/2551/1370; Asharani P.V., Keupp K., Semler O., Wang W., Li Y., Thiele H., Yigit G., Pohl E., Becker J., Frommolt P., Sonntag C., Altmüller J., Zimmermann K., Greenspan D.S., Akarsu N.A., Netzer C., Schönau E., Wirth R., Hammerschmidt M., Nürnberg P., Wollnik B., Carney T.J. Attenuated BMP1 function compromises osteogenesis, leading to bone fragility in humans and zebrafish. Am. J. Hum. Genet. 2012;90(4):661-674. DOI 10.1016/j.ajhg.2012.02.026.; Barnes A.M., Cabral W.A., Weis M., Makareeva E., Merta E.L., Leikin S., Eyre D., Trujillo C., Marini J.C. Absence of FKBP10in recessive type XI OI leads to diminished collagen cross-linking and reduced collagen deposition in extracellular matrix. Hum. Mutat. 2012;33(11):1589-1598. DOI 10.1002/humu.22139.; Becker J., Semler O., Gilissen C., Li Y., Bolz H.J., Giunta C., Bergmann C., Rohrbach M., Koerber F., Zimmermann K. Exome sequencing identifies truncating mutations in human SERPINF1in autosomal-recessive osteogenesis imperfecta. Am. J. Hum. Genet. 2011;88(3):362-371. DOI 10.1016/j.ajhg.2011.01.015. Belgian Bone Club. 2019. Available at: http://www.bbcbonehealth.org/osteogenesisimperfecta.; Cabral W.A., Chang W., Barnes A.M., Weis M.A., Scott M.A., Leikin S., Makareeva E., Kuznetsova N.V., Rosenbaum K.N., Tifft C.J., Bulas D.I., Kozma C., Smith P.A., Eyre D.R., Marini J.C. Prolyl 3-hydroxylase 1 deficiency causes a recessive metabolic bone disorder resembling lethal/severe osteogenesis imperfecta. Nat. Genet. 2007;39(3):359-365. DOI 10.1038/ng1968.; Christiansen H.E., Schwarze U., Pyott S.M., AlSwaid A., Al Balwi M., Alrasheed S., Pepin M.G., Weis M.A., Eyre D.R., Byers P.H. Homozygosity for a missense mutation in SERPINH1, which encodes the collagen chaperone protein HSP47, results in severe recessive osteogenesis imperfecta. Am. J. Hum. Genet.2010;86(3):389-398. DOI 10.1016/j.ajhg.2010.01.034.; Costantini A., Krallis P.Ν., Kämpe A., Karavitakis E.M., Taylan F., Mäkitie O., Doulgeraki A. A novel frameshift deletion in PLS3 causing severe primary osteoporosis. J. Hum. Genet.2018;63(8): 923-926. DOI 10.1038/s10038-018-0472-5.; Doyard M., Bacrot S., Huber C., Di Rocco M. FAM46Amutations are responsible for autosomal recessive osteogenesis imperfecta. J. Med. Genet.2018;55(4):278-284. DOI 10.1136/jmedgenet-2017-104999. Epub 2018. Jan 22.; Dwan K., Phillipi C.A., Steiner R.D. Bisphosphonate therapy for osteogenesis imperfecta. Cochrane Database Syst. Rev. 2014;7:Cd005088.; Fratzl-ZelmanN., Barnes A.M., Weis M., Carter E., Hefferan T.E., Perino G., Chang W., Smith P.A., Roschger P., Klaushofer K., Glorieux F.H., Eyre D.R., Raggio C., Rauch F., Marini J.C. Non-lethal type VIII osteogenesis imperfecta has elevated bone matrix mineralization. J. Clin. Endocrinol. Metab. 2016;101(9):3516-3525. DOI 10.1210/jc.2016-1334.; Glorieux F.H., Rauch F., Plotkin H., Ward L., Travers R., Roughley P., Lalic L., Glorieux D.F., Fassier F., Bishop N.J. Type V osteogenesis imperfecta: a new form of brittle bone disease. J. Bone Miner. Res. 2000;15(9):1650-1658. DOI 10.1359/jbmr.2000.15.9.1650.; Glorieux F.H., Ward L.M., Rauch F., Lalic L., Roughley P.J., Travers R. Osteogenesis imperfecta type VI: a form of brittle bone disease with a mineralization defect. J. Bone Miner. Res. 2002;17(1):30-38. DOI 10.1359/jbmr.2002.17.1.30.; Grafe I., Alexander S., Yang T., Lietman C., Homan E.P., Munivez E., Chen Y., Jiang M.M., Bertin T., Dawson B., Asuncion F., Ke H.Z., Ominsky M.S., Lee B. Sclerostin antibody treatment improves the bone phenotype of Crtap (–/–) mice, a model of recessive Osteogenesis Imperfecta. J. Bone Miner. Res. 2016;31(5):1030-1040.; Hoyer-Kuhn H., Franklin J., Allo G., Kron M., Netzer C., Eysel P., Hero B., Schoenau E., Semler O. Safety and efficacy of denosumab in children with osteogenesis imperfect – a first prospective trial. J. Musculoskelet Neuronal. Interact.2016;16(1):24-32.; Ignatovich O.N., Namazova-Baranova L.S., Margieva T.V., Yakhyaeva G.T., Zhurkova N.V., Savostyanov K.V., Pushkov A.A., Krotov I.A. Osteogenesis imperfecta: diagnostic feature. Pediatricheskaya Pharmacologiya = Pediatric Pharmacology. 2018;15(3): 224-232. DOI 10.15690/pf.v15i3.1902. (in Russian); Kruchkova O.A., Kruglov S.V. Treatment of osteogenesis imperfecta. Symptoms of osteogenesis imperfecta. 2014. Available at: https://ymkababy.ru/pregnancy/nesovershennyi-osteogenez-lechenie-nesovershennyi-osteogenez-simptomy.html. (in Russian); Laine C.M., Joeng K.S., Campeau P.M., Kiviranta R., Tarkkonen K., Grover M., Lu J.T., Pekkinen M., Wessman M., Heino T.J., Nieminen-Pihala V., Aronen M., Laine T., Kröger H., Cole W.G., Lehesjoki A.E., Nevarez L., Krakow D., Curry C.J., Cohn D.H., Gibbs R.A., Lee B.H., Mäkitie O. WNT1mutations in early-onset osteoporosis and osteogenesis imperfecta. N. Engl. J. Med. 2013; 368:1809-1816. DOI 10.1056/NEJMoa1215458.; Lapunzina P., Aglan M., Temtamy S., Caparrós-Martin J.A., Valencia M., Letón R., Martinez-Glez V., Elhossini R., Arm K., Vilaboa N., Ruiz-Perez V.L. Identification of a frameshift mutation in Osterix in a patient with recessive osteogenesis imperfecta. Am. J. Hum. Genet.2010;87(1):110-114. DOI 10.1016/j.ajhg.2010.05.016.; Li L., Zhao D., Zheng W., Wang O., Jiang Y., Xia W., Xing X., Li M. A novel missense mutation in P4HB causes mild osteogenesis imperfecta. Biosci. Rep. 2019;39(4). DOI 10.1042/BSR20182118.; Lindahl K., Langdahl B., Ljunggren O., Kindmark A. Treatment of osteogenesis imperfecta in adults. Eur. J. Endocrinol.2014;171(2): R79-R90. DOI 10.1530/EJE-14-0017.; Lindert U., Cabral W.A., Ausavarat S., Tongkobpetch S. MBTPS2 mutations cause defective regulated intramembrane proteolysis in X linked osteogenesis imperfecta. Nat. Commun. 2016;7:11920. DOI 10.1038/ncomms11920.; Lowenstein E.J. Osteogenesis imperfecta in a 3,000-year-old mummy. Childs Nerv. Syst.2009;25(5):515-516. DOI 10.1007/s00381-009-0817-7.; Mahoney M.Ivar the Boneless.2017. Available at: www.englishmonarchs.co.uk/vikings_10.html.; Marini J.C., Forlino A., Bächinger H.P., Bishop N.J., Byers P.H., De Paepe A., Fassier F., Fratzl-Zelman N., Kozloff K.M., Krakow D., Montpetit K., Semler O. Osteogenesis imperfecta. Nat. Rev. Dis. Primers. 2017;3:1-19. DOI 10.1038/nrdp.2017.52.; Mendoza-Londono R., Fahiminiya S., Majewski J. Care4Rare Canada Consortium; Tétreault M., Nadaf J., Kannu P., Sochett E., Howard A., Stimec J., Dupuis L., Roschger P., Klaushofer K., Palomo T., Ouellet J., Al-Jallad H., Mort J.S., Moffatt P., Boudko S., Bächinger H.P., Rauch F. Recessive osteogenesis imperfecta caused by missense mutations in SPARC. Am. J. Hum. Genet.2015;96(6): 979-985. DOI 10.1016/j.ajhg.2015.04.021.; Morello R., Bertin T.K., Chen Y., Hicks J., Tonachini L., Monticone M., Castagnola P., Rauch F., Glorieux F.H., Vranka J., Bachinger H.P., Pace J.M., Schwarze U., Byers P.H., Weis M.A., Fernandes R.J., Eyre D.R., Yao Z., Boyce B.F., Lee B. CRTAPis required for prolyl 3-hydroxylation and mutations cause recessive osteogenesis imperfecta. Cell. 2006;127(2):291-304. DOI 10.1016/j.cell.2006.08.039.; Nadyrshina D.D., Khusainova R.I., Khusnutdinova E.K. Studies of type I collagen (COL1A1) α1 chain in patients with osteogenesis imperfecta. Russ. J. Genet. 2012;48(3):321-328.; Pigarova E.A., Sheremeta M.S., Kulikova K.S., Belovalova I.M., Tulpakov A.N., Rumiantsev P.O. Osteogenesis imperfecta in combination with Graves disease. Ozhirenie i Metabolism = Obesity and Metabolism. 2017;14(4):77-82. DOI 10.14341/OMET2017477-82. (in Russian); Puig-Hervás M.T., Temtamy S., Aglan M., Valencia M., MartínezGlez V., Ballesta-Martínez M.J., López-González V., Ashour A.M., Amr K., Pulido V., Guillén-Navarro E., Lapunzina P., CaparrósMartín J.A., Ruiz-Perez V.L. Mutations in PLOD2 cause autosomal-recessive connective tissue disorders within the Bruck syndrome-osteogenesis imperfecta phenotypic spectrum. Hum. Mutat. 2012;33(10):1444-1449. DOI 10.1002/humu.22133.; Pyott S.M., Tran T.T., Leistritz D.F., Pepin M.G., Mendelsohn N.J., Temme R.T., Fernandez B.A., Elsayed S.M., Elsobky E., Verma I., Nair S., Turner E.H., Smith J.D., Jarvik G.P., Byers P.H. WNT1mutations in families affected by moderately severe and progressive recessive osteogenesis imperfecta. Am. J. Hum. Genet.2013;92(4): 590-597. DOI 10.1016/j.ajhg.2013.02.009.; Ramachandran M., Jones D. Osteogenesis imperfecta. 2018. Available at: https://emedicine.medscape.com/article/1256726-overview.; Rubinato E., Morgan A., D’Eustacchio A., Pecile V., Gortani G., Gasparini P. A novel deletion mutation involving TMEM38Bin a patient with autosomal recessive osteogenesis imperfecta. Gene.2014; 545(2):290-292. DOI 10.1016/j.gene.2014.05.028.; Sinder B.P., Salemi J.D., Ominsky M.S., Caird M.S., Marini J.C., Kozloff K.M. Rapidly growing Brtl/+ mouse model of osteogenesis imperfecta improves bone mass and strength with sclerostin antibody treatment. Bone. 2015;71:115-123.; Symoens S., Malfait F., D’hondt S., Callewaert B., Dheedene A., Steyaert W. Deficiency for the ER-stress transducer OASIS causes severe recessive osteogenesis imperfecta in humans. Orphanet J. Rare Dis.2013;8:154. DOI 10.1186/1750-1172-8-154.; Tournis S., Dede A.D. Osteogenesis imperfecta – a clinical update. Metabolism. 2018;80:27-37. DOI 10.1016/j.metabol.2017.06.001.; VanDijk F.S., Nesbitt I.M., Zwikstra E.H., Nikkels P.G.J., Piersma S.R., Fratantoni S.A., Jimenez C.R., Huizer M., Morsman A.C., Cobben J.M., van Roij M.H.H., Elting M.W., Verbeke M.I.J.L., Wijnaendts L.C.D., Shaw N.J., Högler W., McKeown C., Sistermans E.A., Dalton A., Meijers-Jeijboer H., Pals G. PPIB mutations cause severe osteogenesis imperfecta. Am. J. Hum. Genet.2009; 85(4):521-527. DOI 10.1016/j.ajhg.2009.09.001.; Ward L.M., Rauch F., Travers R., Chabot G., Azouz E.M., Lalic L., Roughley P.J., Glorieux F.H. Osteogenesis imperfecta type VII: an autosomal recessive form of brittle bone disease. Bone.2002;31(1): 12-18.; Weaver C.M., Alexander D.D., Boushey C.J., Dawson-Hughes B., Lappe J.M., LeBoff M.S., Liu S., Looker A.C., Wallace T.C., Wang D.D. Calcium plus vitamin D supplementation and risk of fractures: an updated meta-analysis from the National Osteoporosis Foundation. Osteoporos. Int. 2016;27:367-376.; Yakhyayeva G.T., Margieva T.V., Namazova-Baranova L.S., Savostyanov K.V., Pushkov A.А., Zhurkova N.V., Zherdev K.V., Vashakmadze N.D., Gevorkyan A.K. Clinical case of rare type V osteogenesis imperfecta. Pediatricheskaya Pharmakologiya = Pediatric Pharmacology. 2015a;12(1):79-84. (in Russian); Yakhyayeva G.T., Namazova-Baranova L.S., Margieva T.V. New aspects of the genetic basis, classification and treatment of osteoge nesis imperfecta: a literature review. Pediatricheskaya Pharmakolo giya = Pediatric Pharmacology. 2015b;12(5):579-588. DOI 10.15690/pf.v12i5.1461. (in Russian); Zhang H., Yue H., Wang C., Gu J., He J., Fu W., Hu W., Zhang Z. Novel mutations in the SEC24D gene in Chinese families with autosomal recessive osteogenesis imperfecta. Osteoporos. Int. 2017; 28(4):1473-1480. DOI 10.1007/s00198-0163866-2.; https://vavilov.elpub.ru/jour/article/view/2551
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8Academic Journal
Authors: Батеха, Вячеслав Игоревич, Подкаменный, Владимир Анатольевич, Новак, Денис Геннадьевич, Григорьев, Евгений Георгиевич
Source: POLYTRAUMA; № 4 (2020): декабрь; 53-57 ; ПОЛИТРАВМА / POLYTRAUMA; № 4 (2020): декабрь; 53-57 ; 2541-867X ; 1819-1495
Subject Terms: polytrauma, multiple rib fractures, femoral bone fracture, lung contusion, hemopericardium, cardiac tamponade, delayed tamponade, сочетанная травма, множественные переломы ребер, перелом бедренной кости, ушиб легкого, гемоперикард, тампонада сердца, отсроченная тампонада
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Availability: http://poly-trauma.ru/index.php/pt/article/view/257
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9Academic Journal
Authors: Скрябин, Е.Г., Смирных, А.Г., Буксеев, А.Н., Аксельров, М.А., Наумов, С.В., Сидоренко, А.В., Чупров, А.Ю.
Source: POLYTRAUMA; № 3 (2020): сентябрь; 45-53 ; ПОЛИТРАВМА / POLYTRAUMA; № 3 (2020): сентябрь; 45-53 ; 2541-867X ; 1819-1495
Subject Terms: children and adolescents, multiple vertebral fractures, diagnosis, treatment, дети и подростки, множественные переломы позвонков, диагностика, лечение
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Relation: http://poly-trauma.ru/index.php/pt/article/view/256/540; http://poly-trauma.ru/index.php/pt/article/view/256/589; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/256/3323; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/256/3324
Availability: http://poly-trauma.ru/index.php/pt/article/view/256
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10Academic Journal
Authors: A. R. Zaripova, I. R. Minniakhmetov, R. I. Khusainova, A. V. Tyurin, N. A. Scriabin, T. S. Korotkaya, E. Y. Zakharova, А. Р. Зарипова, И. Р. Минниахметов, Р. И. Хусаинова, А. В. Тюрин, Н. А. Скрябин, Т. С. Короткая, Е. Ю. Захарова
Source: Medical Genetics; Том 19, № 8 (2020); 57-58 ; Медицинская генетика; Том 19, № 8 (2020); 57-58 ; 2073-7998
Subject Terms: множественные переломы, osteogenesis imperfecta, mutations, collagen genes, multiple fractures, несовершенный остеогенез, мутации, гены коллагена
File Description: application/pdf
Availability: https://www.medgen-journal.ru/jour/article/view/1681
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11Academic Journal
Authors: V. Kh. Sharipova, I. V. Fokin, F. K. Sattarova, F. O. Parpibayev, В. Х. Шарипова, И. В. Фокин, Ф. К. Саттарова, Ф. О. Парпибаев
Source: General Reanimatology; Том 16, № 5 (2020); 22-29 ; Общая реаниматология; Том 16, № 5 (2020); 22-29 ; 2411-7110 ; 1813-9779 ; 10.15360/1813-9779-2020-5
Subject Terms: множественные переломы ребер, erector spinae muscle, analgesia, multiple rib fractures, мышца, выпрямляющая спину, обезболивание
File Description: application/pdf
Relation: https://www.reanimatology.com/rmt/article/view/1964/1449; https://www.reanimatology.com/rmt/article/view/1964/1450; Forero M., Adhikary S.D., Lopez H., Tsui C., Chin K.J. The Erector Spinae Plane Block: A Novel Analgesic Technique in Thoracic Neuropathic Pain. Reg Anesth Pain Med. 2016; 41 (5): 621-627. DOI:10.1097/AAP.0000000000000451. PMID: 27501016.; ManaB.L., Alvaro G.C., JoseM.L., EnriqueD.S., CarlosL.C., Francisco P.S. Erector Spinae Block. A narrative review. Central Eur J Clin Res. 2018; 1 (1): 28-39. DOI:10.2478/cejcr-2018-0005. PMID: 30292068.; Tulgar S., Selvi O., Ozer Z. Clinical experience of ultrasound guided single and bi-level erector spinae plane block for postoperative analgesia in patients undergoing thoracotomy. Journal of Clinical Anesthesia 2018; 50: 22-23. DOI:10.1016/j.jclinane.2018.06.034. PMID: 29940470.; Chin K.J., Adhikary S.D., Sarwani N., Forero M. The analgesic efficacy of pre-operative bilateral erector spinae plane (ESP) blocks in patients having ventral hernia repair. Anaesthesia. 2017; 72: 452-460. DOI:10.1111/anae.13814. PMID: 28188621.; Chung K., Kim E.D. Continuous erector spinae plane block at the lower lumbar level in a lower extremity complex regional pain syndrome patient. J Clin Anesth 2018; 48: 30-31. DOI:10.1016/j.jclinane.2018.04.012. PMID: 29727760.; Hamilton D.L., Manickam B. Erector spinae plane block for pain relief in rib fractures. Br J Anaesth. 2017; 118 (3): 474-475. DOI:10.1093/bja/aex013. PMID: 28203765.; Venkatesan T., Hillen E., Sanjib A. An update on regional analgesia for rib fractures. Curr Opin Anaesthesiol. 2018. 31 (5): 601-607. DOI:10.1097/ACO.0000000000000637. PMID: 30020155.; Forero M., Rajarathinam M., Adhikary S., Chin K.J. Continuous Erector Spinae Plane Block for Rescue Analgesia in Thoracotomy After Epidural Failure: A Case Report. A A case reports. 2017; 8 (10): 254256. PMID:28252539. DOI:10.1213/XAA.0000000000000478.; Adhikary S.D, Bernard S., Lopez H., Chin K.J. Erector spinae plane block versus retrolaminar block: a magnetic resonance imaging and anatomical study. Regional Anesthesia and Pain Medicine. 2018; 43: 756-762. DOI:10.1097/AAP.0000000000000798. PMID: 29794943.; Ivanusic J., Konishi Y., Barrington M.J. A cadaveric study investigating the mechanism of action of erector spinae blockade. Reg Anesth Pain Med. 2018; 43: 567-571. DOI:10.1097/AAP.0000000000000789. PMID: 29746445.; Tulgar S., Balaban O. Spread of local anesthetic in erector spine plane block at thoracic and lumbar levels. Reg Anesth Pain Med. 2019; 44: 134-135. DOI:10.1136/rapm-2018-000027. PMID: 30640667.; Forero M., Rajarathinam M., Adhikary S.D., Chin K.J. Erector spinae plane block for the management of chronic shoulder pain: a case report. Can J Anesth. 2018; 65: 288-293. DOI:10.1007/s12630-017-1010-1. PMID: 29134518.; Schwartzmann A., Peng P., Maciel M.A., Forero M. Mechanism of the erector spinae plane block: insights from a magnetic resonance imaging study. Can J Anaesth. 2018; 65 (10): 1165-1166. DOI:10.1007/s12630-018-1187-y. PMID: 30076575.; Luftig J., Mantuani D., Herring A.A., Dixon B., Clattenburg E., Nagdev A. Successful emergency pain control for posterior rib fractures with ultrasound-guided erector spinae plane block. Am J Emerg Med. 2018; 36 (8): 1391-1396. DOI:10.1016/j.ajem.2017.12.060. PMID: 29301653.; Adhikary S.D., Liu W.M., Fuller W.M., Cruz-EngH., Chin K.J. The effect of erector spinae plane block on respiratory and analgesic outcomes in multiple rib fractures: a retrospective cohort study. Anaesthesia. 2019; 74: 585-593. DOI:10.1111/anae.14579. PMID: 30740657.; Witt C.E., Bulger E.M. Comprehensive approach to the management of the patient with multiple rib fractures: a review and introduction of a bundled rib fracture management protocol. Trauma Surgery & Acute Care Open 2017; 2 (1): e000064. DOI:10.1136/tsaco-2016-000064. PMID: 29766081.; Todd S.R., McNally M.M., Holcomb J.B., Kozar R.A., Kao L.S., Gonzalez E.A., Cocanour C.S., Vercruysse G.A., Lygas M.H., Brasseaux B.K., Moore A.F. A multidisciplinary clinical pathway decreases rib fracture-associated infectious morbidity and mortality in high-risk trauma patients. Am J Surg. 2006; 192: 806-811. DOI:10.1016/j.amjsurg.2006.08.048. PMID: 17161098.; Martin T.J., Eltorai A.S., Dunn R., Varone A., Joyce M.F., Kheirbek T., Adams C., Eltorai A.E. Clinical management of rib fractures and methods for prevention of pulmonary complications: A review. Injury. 2019. 50 (6): 1159-1165. DOI:10.1016/j.injury.2019.04.020. PMID: 31047683.; https://www.reanimatology.com/rmt/article/view/1964
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12Academic Journal
Source: Pain, Anaesthesia and Intensive Care; № 4(93) (2020); 55-62
PAIN, ANAESTHESIA & INTENSIVE CARE; № 4(93) (2020); 55-62Subject Terms: 616-001.3+616-001.36+616-001.5+616-06, политравма, множественные переломы длинных костей, остеосинтез, осложнения, політравма, множинні переломи довгих кісток, ускладнення, polytrauma, multiple long bone fractures, osteosynthesis, complications, 3. Good health
File Description: application/pdf
Access URL: http://jpaic.aaukr.org/article/view/220677
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13Academic Journal
Source: Pain, Anaesthesia and Intensive Care; № 2(91) (2020); 76-86
Біль, знеболення та інтенсивна терапія; № 2(91) (2020); 76-86
PAIN, ANAESTHESIA & INTENSIVE CARE; № 2(91) (2020); 76-86Subject Terms: 616-001.36+616-001.5+616-06+616.718, политравма, множественные переломы длинных костей, остеосинтез, осложнения, політравма, множинні переломи довгих кісток, ускладнення, multiple trauma, multiple long bone fractures, osteosynthesis, complications, 3. Good health
File Description: application/pdf
Access URL: http://jpaic.aaukr.org/article/view/205603
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14Academic Journal
Authors: Шерман, С.В., Агаларян, А.Х., Агаджанян, В.В., Галятина, Е.А., Гаврилов, А.В., Гусева, Г.Н.
Source: POLYTRAUMA; № 1 (2018): март; 70-75 ; ПОЛИТРАВМА / POLYTRAUMA; № 1 (2018): март; 70-75 ; 2541-867X ; 1819-1495
Subject Terms: polytrauma, urinary bladder and vaginal rupture in a girl, multiple pelvic fractures, политравма, разрыв мочевого пузыря и влагалища у девочки, множественные переломы таза
File Description: application/pdf; text/html
Relation: http://poly-trauma.ru/index.php/pt/article/view/67/180; http://poly-trauma.ru/index.php/pt/article/view/67/195; http://poly-trauma.ru/index.php/pt/article/view/67/204; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/67/726; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/67/727; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/67/728; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/67/729; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/67/730; http://poly-trauma.ru/index.php/pt/article/downloadSuppFile/67/731
Availability: http://poly-trauma.ru/index.php/pt/article/view/67
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15Academic Journal
Authors: I. V. Pavlov, S. V. Vissarionov, M. G. Gusev, G. A. Lein
Source: Travmatologiâ i Ortopediâ Rossii, Vol 0, Iss 2, Pp 91-95 (2012)
Subject Terms: Orthopedic surgery, thoracic, hard hyperextension brace, грудной отдел, дети, the burst fracture, 3. Good health, multiple fractures of the vertebrae, compression fracture, 03 medical and health sciences, 0302 clinical medicine, children, компрессионный перелом, множественные переломы позвонков, жесткий гиперэкстензионный корсет, RD701-811, взрывной перелом
Access URL: http://journal.rniito.org/jour/article/download/250/247
https://doaj.org/article/3457fbe23c36487aafda4cb1e9586f73
https://journal.rniito.org/jour/article/download/250/247
https://doaj.org/article/3457fbe23c36487aafda4cb1e9586f73
https://cyberleninka.ru/article/n/kompleksnoe-lechenie-patsienta-s-mnozhestvennymi-perelomami-pozvonkov-v-grudnom-otdele-pozvonochnika
https://cyberleninka.ru/article/n/kompleksnoe-lechenie-patsienta-s-mnozhestvennymi-perelomami-pozvonkov-v-grudnom-otdele-pozvonochnika/pdf
https://core.ac.uk/display/87468675
https://journal.rniito.org/jour/article/view/250 -
16Academic Journal
Authors: Shchekolova, N. B., Ladejshchikov, V. M., Tikhomirov, D. A., Zubareva, N. S., Щеколова, Н. Б., Ладейщиков, В. М., Тихомиров, Д. А., Зубарева, Н. С.
Subject Terms: MULTIPLE FRACTURES, CONCUSSION OF THE BRAIN, HYPOXIA, LACTATE, ERYTHROPOIETIN, МНОЖЕСТВЕННЫЕ ПЕРЕЛОМЫ, СОТРЯСЕНИЕ ГОЛОВНОГО МОЗГА, ГИПОКСИЯ, ЛАКТАТ, ЭРИТРОПОЭТИН
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Relation: Уральский медицинский журнал. 2017. Т. 153, № 9.; http://elib.usma.ru/handle/usma/13502
Availability: http://elib.usma.ru/handle/usma/13502
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17Academic Journal
Authors: ПАНКОВ И.О., СИРАЗИТДИНОВ С.Д.
File Description: text/html
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18Academic Journal
Authors: Панков, И.
Subject Terms: ТЯЖЕЛАЯ ПОЛИТРАВМА, СОЧЕТАННЫЕ И МНОЖЕСТВЕННЫЕ ПЕРЕЛОМЫ КОСТЕЙ КОНЕЧНОСТЕЙ, СИНДРОМ ЖИРОВОЙ ЭМБОЛИИ
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19Academic Journal
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20Academic Journal
Authors: Панков, И., Сиразитдинов, С.
Subject Terms: ПОЛИТРАВМА, МНОЖЕСТВЕННЫЕ ПЕРЕЛОМЫ КОСТЕЙ КОНЕЧНОСТЕЙ, ЧРЕСКОСТНЫЙ ОСТЕОСИНТЕЗ, АППАРАТ ВНЕШНЕЙ ФИКСАЦИИ, MULTIPLE INJURIES (POLYTRAUMA)
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