Диссертация (1174197), страница 34
Текст из файла (страница 34)
1957. № 5 (19). P. 823–32.227. Holm C. Resuscitation in shock associated with burns. Tradition or evidence-basedmedicine? // Resuscitation. 2000. № 3 (44). P. 157–164.228. Holm C., Horbrand F., Donnersmarck G.H. von, et al. Acute renal failure inseverely burned patients // Burns. 1999. № 2 (25). P. 171–178.229. Holm C., Mayr M., Tegeler J., et al. A clinical randomized study on the effects ofinvasive monitoring on burn shock resuscitation // Burns. 2004. № 8 (30). P.
798–807.230. Holm C., Melcer B., Hörbrand F., et al. Haemodynamic and oxygen transportresponses in survivors and non-survivors following thermal injury // Burns. 2000. № 1227(26). P. 25–33.231. Holm C., Tegeler J., Mayr M., et al. Effect of Crystalloid Resuscitation andInhalation Injury on Extravascular Lung Water // Chest. 2002. № 6 (121). P. 1956–1962.232. Hood L., Balling R., Auffray C. Revolutionizing medicine in the 21st centurythrough systems approaches // Biotechnology Journal. 2012.
№ 8 (7). P. 992–1001.233. Horster S., Stemmler H.-J., Strecker N., et al. Cardiac Output Measurements inSeptic Patients: Comparing the Accuracy of USCOM to PiCCO // Critical CareResearch and Practice. 2012. (2012). P. 1–5.234. Horton J.W., White J., Maass D. Protein Kinase C Inhibition Improves VentricularFunction after Thermal Trauma // The Journal of Trauma: Injury, Infection, and CriticalCare.
1998. № 2 (44). P. 254–265.235. Hoste E.A.A., Maitland K., Brudney C.S.S., et al. Four phases of intravenous fluidtherapy: A conceptual model // British Journal of Anaesthesia. 2014. № 5 (113). P. 740–747.236. Huang P.P., Stucky F.S., Dimick A.R., et al. Hypertonic Sodium Resuscitation IsAssociated with Renal Failure and Death // Annals of Surgery. 1995. № 5 (221). P.543–557.237. Huber W., Mair S., Götz S.Q., et al.
Extravascular lung water and its associationwith weight, height, age, and gender: A study in intensive care unit patients // IntensiveCare Medicine. 2013. № 1 (39). P. 146–150.238. Hudson K., Lifton R., Patrick-Lake B., et al. The Precision Medicine InitiativeCohort Program – Building a Research Foundation for 21 st Century Medicine / K.Hudson, R. Lifton, B. Patrick-Lake, E. Burchard, T. Coles, et al., National Institutes ofHealth, 2015.
107 P.239. Hyland E.J., D’Cruz R., Menon S., et al. Prospective, randomised controlled trialcomparing VersajetTM hydrosurgery and conventional debridement of partial thicknesspaediatric burns // Burns. 2015. № 4 (41). P. 700–707.240. Ihlen H., Simonsen S., Welzel D. Effect of adrenaline on myocardial oxygenconsumption during selective and non-selective beta-adrenoceptor blockade comparison228of atenolol and pindolol // European Journal of Clinical Pharmacology.
1984. № 1 (27).P. 29–34.241. Ince C. Hemodynamic coherence and the rationale for monitoring themicrocirculation // Critical Care. 2015. № Suppl 3 (19). P. S8.242. ISBI Practice Guidelines Committee, Ahuja R.B., Gibran N., et al. ISBI PracticeGuidelines for Burn Care // Burns. 2016. № 5 (42). P. 953–1021.243. Istre G.R., McCoy M., Carlin D.K., et al. Residential fire related deaths andinjuries among children: fireplay, smoke alarms, and prevention // Injury prevention.2002. № 2 (8). P.
128–132.244. Jackson D.M. Diagnosis in the Management of Burns // BMJ. 1959. № 5132 (1). P.1263–1267.245. Jambrik Z., Monti S., Coppola V., et al. Usefulness of ultrasound lung comets as anonradiologic sign of extravascular lung water // American Journal of Cardiology. 2004.№ 10 (93). P. 1265–1270.246. Janzekovic Z. A new concept in the early excision and immediate grafting of burns// The Journal of trauma. 1970.
№ 12 (10). P. 1103–8.247. Jeschke M.G., Chinkes D.L., Finnerty C.C., et al. Pathophysiologic response tosevere burn injury // Annals of Surgery. 2008. № 3 (248). P. 387–400.248. Jeschke M.G., Herndon D.N. Burns in children: Standard and new treatments //The Lancet. 2014. № 9923 (383). P.
1168–1178.249. Joshi R., Witt B. De, Mosier J.M. Optimizing oxygen delivery in the critically Ill:The utility of lactate and central venous oxygen saturation (ScvO2) as a roadmap ofresuscitation in shock // Journal of Emergency Medicine. 2014. № 4 (47). P. 493–500.250. Jozwiak M., Silva S., Persichini R., et al. Extravascular lung water is anindependent prognostic factor in patients with acute respiratory distress syndrome* //Critical Care Medicine. 2013.
№ 2 (41). P. 472–480.251. Judkins K. Current consensus and controversies in major burns management //Trauma. 2000. № 4 (2). P. 239–251.252. Kallinen O., Maisniemi K., Bohling T., et al. Multiple Organ Failure as a Cause ofDeath in Patients With Severe Burns // Journal of Burn Care & Research. 2012. № 2229(33). P. 206–211.253. Kamp-jensen M., Olesen K.L., Bach V., et al. Changes in serum electrolyte andatrial natriuretic peptide concentrations, acid-base and haemodynamic status after rapidinfusion of isotonic saline and ringer lactate solution in healthy volunteers // BritishJournal of Anaesthesia. 1990. № 5 (64).
P. 606–610.254. Kapoor P., Dhawan I., Jain P., et al. Lactate, endothelin, and central venousoxygen saturation as predictors of mortality in patients with Tetralogy of Fallot //Annals of Cardiac Anaesthesia. 2016. № 2 (19). P. 269–276.255. Kersten A. Kardiale Hämodynamik bei Schock // Medizinische Klinik Intensivmedizin und Notfallmedizin. 2016. № 7 (111). P. 590–595.256. Khorasani E.N., Mansouri F. Effect of early enteral nutrition on morbidity andmortality in children with burns // Burns. 2010. № 7 (36). P. 1067–1071.257. Kinsky M.P., Milner S.M., Button B., et al. Resuscitation of severe thermal injurywith hypertonic saline dextran: effects on peripheral and visceral edema in sheep.
// TheJournal of trauma. 2000. № 5 (49). P. 844–53.258. Klasen H.J. History of Burns / H.J. Klasen, Rotterdam: Erasmus Publishing, 2004.632 P.259. Klein M.B., Hayden D., Elson C., et al. The association between fluidadministration and outcome following major burn: A multicenter study // Annals ofSurgery. 2007. № 4 (245). P. 622–628.260. Knirsch W., Kretschmar O., Tomaske M., et al. Cardiac output measurement inchildren: Comparison of the Ultrasound Cardiac Output Monitor with thermodilutioncardiac output measurement // Intensive Care Medicine. 2008. № 6 (34). P. 1060–1064.261. Knobloch K. Non-invasive hemodynamic monitoring in burn shock resuscitation //Burns.
2010. № 7 (36). P. 1135–1136.262. Kobayashi K., Ikeda H., Higuchi R., et al. Epidemiological and outcomecharacteristics of major burns in Tokyo // Burns. 2005. № 1 (31). P. S3–S11.263. Kor D.J., Warner D.O., Carter R.E., et al. Extravascular Lung Water andPulmonary Vascular Permeability Index as Markers Predictive of Postoperative AcuteRespiratory Distress Syndrome // Critical Care Medicine. 2015. № 3 (43).
P. 665–673.230264. Kraft R., Herndon D.N., Al-Mousawi A.M., et al. Burn size and survivalprobability in paediatric patients in modern burn care: A prospective observationalcohort study // The Lancet. 2012. № 9820 (379). P. 1013–1021.265. Kraft R., Herndon D.N., Branski L.K., et al. Optimized fluid managementimproves outcomes of pediatric burn patients // Journal of Surgical Research.
2013. № 1(181). P. 121–128.266. Kramer G., Lund T., Beckum O. Pathophysiology of burn shock and burn edemaeditor D. Herndon, Philadelphia: Saunders Elsevier, 2007. 93–104 с.267. Kuzkov V. V., Kirov M.Y., Sovershaev M.A., et al. Extravascular lung waterdetermined with single transpulmonary thermodilution correlates with the severity ofsepsis-induced acute lung injury // Critical Care Medicine. 2006. № 6 (34). P. 1647–1653.268. Lacro R. V., Dietz H.C., Sleeper L.A., et al. Atenolol versus Losartan in Childrenand Young Adults with Marfan’s Syndrome // New England Journal of Medicine.
2014.№ 22 (371). P. 2061–2071.269. Latenser B.A. Critical care of the burn patient: The first 48 hours // Critical CareMedicine. 2009. № 10 (37). P. 2819–2826.270. Lavrentieva A. Critical care of burn patients. New approaches to old problems //Burns. 2016. № 1 (42).
P. 13–19.271. Lee E.-P., Hsia S.-H., Lin J.-J., et al. Hemodynamic Analysis of Pediatric SepticShock and Cardiogenic Shock Using Transpulmonary Thermodilution // BioMedResearch International. 2017. № Article ID 3613475 (2017). P. 1–7.272. Lei L., Jiajun S., Guangyi W., et al. [Significance of extravascular lung waterindex, pulmonary vascular permeability index, and intrathoracic blood volume index inthe differential diagnosis of burn-induced pulmonary edema]. // Zhonghua shao shangza zhi = Zhonghua shaoshang zazhi = Chinese journal of burns. 2015.
№ 3 (31). P. 186–91.273. Lemson J., Backx A.P., van Oort A.M., et al. Extravascular lung watermeasurement using transpulmonary thermodilution in children // Pediatric Critical CareMedicine. 2009. № 2 (10). P. 227–233.231274. Lemson J., van Die L.E., Hemelaar A.E., et al. Extravascular lung water indexmeasurement in critically ill children does not correlate with a chest X-ray score ofpulmonary edema. // Crit Care. 2010. № 3 (14).
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