Диссертация (1174197), страница 31
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349–354.74. Ahrns K.S. Trends in burn resuscitation: Shifting the focus from fluids to adequateendpoint monitoring, edema control, and adjuvant therapies // Critical Care NursingClinics of North America. 2004. № 1 (16). P. 75–98.75. Akirov A., Masri-Iraqi H., Atamna A., et al. Low Albumin Levels Are Associatedwith Mortality Risk in Hospitalized Patients // The American Journal of Medicine.2017. № 12 (130). P. 1465.e11-1465.e19.76. Al-Benna S.
Fluid resuscitation protocols for burn patients at intensive care units ofthe United Kingdom and Ireland. // German medical science : GMS e-journal. 2011. (9).P. 1–7.77. Alge J.L., Arthur J.M. Biomarkers of AKI: A Review of Mechanistic Relevance andPotential Therapeutic Implications // Clinical Journal of the American Society ofNephrology.
2015. № 1 (10). P. 147–155.78. Allinovi M., Saleem M., Romagnani P., et al. Lung ultrasound: A novel techniquefor detecting fluid overload in children on dialysis // Nephrology Dialysis214Transplantation. 2017. № 3 (32). P. 541–547.79. Alvarado R., Chung K.K., Cancio L.C., et al. Burn resuscitation // Burns.
2009. № 1(35). P. 4–14.80. American Burn Association 2016 National burn repository Report of data from2006-2015 / American Burn Association, Chicago: American Burn Association, 2016.139 P.81. Anami E.H.T., Zampar E.F., Tanita M.T., et al. Treatment costs of burn victims in auniversity hospital // Burns. 2017. № 2 (43). P. 350–356.82. Anand K.J.S., Carr D.B. The Neuroanatomy, Neurophysiology, and Neurochemistryof Pain, Stress, and Analgesia in Newborns and Children // Pediatric Clinics of NorthAmerica. 1989.
№ 4 (36). P. 795–822.83. Ansermino J.M., Vandebeek C.A., Myers D. An allometric model to estimate fluidrequirements in children following burn injury // Paediatric Anaesthesia. 2010. № 4(20). P. 305–312.84. Antonelli M., Levy M., Andrews P.J.D., et al. Hemodynamic monitoring in shockand implications for management // Intensive Care Medicine.
2007. № 4 (33). P. 575–590.85. Arikan A.A., Zappitelli M., Goldstein S.L., et al. Fluid overload is associated withimpaired oxygenation and morbidity in critically ill children* // Pediatric Critical CareMedicine. 2012. № 3 (13). P. 253–258.86. Arlati S., Storti E., Pradella V., et al. Decreased fluid volume to reduce organdamage: A new approach to burn shock resuscitation? A preliminary study //Resuscitation. 2007.
№ 3 (72). P. 371–378.87. Arturson G., Jonsson C.-E. Transcapillary Transport After Thermal Injury //Scandinavian Journal of Plastic and Reconstructive Surgery. 1979. № 1 (13). P. 29–38.88. Arturson G., Mellander S. Acute Changes in Capillary Filtration and Diffusion inExperimental Burn Injury // Acta Physiologica Scandinavica. 1964. № 4 (62).
P. 457–463.89. Atiyeh B.S., Gunn S.W., Hayek S.N. State of the art in burn treatment // WorldJournal of Surgery. 2005. № 2 (29). P. 131–148.21590. Aukland K., Reed R.K. Interstitial-lymphatic mechanisms in the control ofextracellular fluid volume // Physiological Reviews. 1993. № 1 (73). P. 1–78.91. Baartmans M.G.A., Jong A.E.E. de, Baar M.E. van, et al.
Early management inchildren with burns: Cooling, wound care and pain management // Burns. 2016. № 4(42). P. 777–782.92. Bak Z., Sjöberg F., Eriksson O., et al. Hemodynamic Changes During ResuscitationAfter Burns Using the Parkland Formula // The Journal of Trauma: Injury, Infection,and Critical Care. 2009. № 2 (66). P. 329–336.93. Balseven-Odabaşi A., Tümer A.R., Keten A., et al.
Burn injuries among childrenaged up to seven years. // The Turkish journal of pediatrics. № 4 (51). P. 328–35.94. Bangalore H., Borrows E., Martin N. Early Use of Albumin in Children WithExtensive Burns // Pediatric Critical Care Medicine. 2016.
№ 10 (17). P. 1018–1019.95. Baraduc H.-A.-P. Des Causes de la mort à la suite des brûlures superficielles, desmoyens de l’éviter / H.-A.-P. Baraduc, Paris: J.-B. Baillière et fils, 1862. 47; In-8 P.96. Barlow R., Price P., Reid T.D., et al. Prospective multicentre randomised controlledtrial of early enteral nutrition for patients undergoing major upper gastrointestinalsurgical resection. // Clinical nutrition (Edinburgh, Scotland). 2011. № 5 (30).
P. 560–6.97. Barrow R.E., Jeschke M.G., Herndon D.N. Early fluid resuscitation improvesoutcomes in severely burned children // Resuscitation. 2000. № 2 (45). P. 91–96.98. Baxter C.R., Shires T. Physiological Response To Crystalloid Resuscitation ofSevere Burns // Annals of the New York Academy of Sciences. 1968. № 3 (150). P.874–894.99. Bellomo R., Reade M.C., Warrillow S.J.
The pursuit of a high central venousoxygen saturation in sepsis: growing concerns // Critical Care. 2008. № 2 (12).100. Beltramo F., Menteer J., Razavi A., et al. Validation of an Ultrasound CardiacOutput Monitor as a Bedside Tool for Pediatric Patients // Pediatric Cardiology. 2016.№ 1 (37). P. 177–183.101. Beltramo F., Menteer J., Razavi A., et al. Letter to Editor: Reliability of theUltrasound Cardiac Output Monitor for Pediatric Patients // Pediatric Cardiology. 2016.№ 6 (37). P.
1189–1190.216102. Bendall J.C., Simpson P.M., Middleton P.M. Effectiveness of PrehospitalMorphine, Fentanyl, and Methoxyflurane in Pediatric Patients // Prehospital EmergencyCare. 2011. № 2 (15). P. 158–165.103. Berger M.M., Bernath M.-A., Chioléro R.L. Resuscitation, anaesthesia andanalgesia of the burned patient // Current opinion in anaesthesiology. 2001.
№ 4 (14). P.431–435.104. Berger M.M., Que Y. A protocol guided by transpulmonary thermodilution andlactate levels for resuscitation of patients with severe burns // Critical Care. 2013. № 5(17). P. 195.105. Berndtson A.E., Sen S., Greenhalgh D.G., et al. Estimating severity of burn inchildren: Pediatric Risk of Mortality (PRISM) score versus Abbreviated Burn SeverityIndex (ABSI) // Burns. 2013. № 6 (39). P. 1048–1053.106. Bittner E.A., Shank E., Woodson L., et al. Acute and Perioperative Care of theBurn-injured Patient // Anesthesiology. 2015.
№ 2 (122). P. 448–464.107. Black D.A. Treatment of Burn Shock with Plasma and Serum. // British medicaljournal. 1940. № 4168 (2). P. 693–7.108. Blalock A. Experimental Shock: VI. The Probable Cause for the Reduction in theBlood Pressure Following Mild Trauma to an Extremity // Archives of Surgery. 1931.№ 4 (22). P.
598–609.109. Bloemsma G.C., Dokter J., Boxma H., et al. Mortality and causes of death in aburn centre // Burns. 2008. № 8 (34). P. 1103–1107.110. Bognar Z., Foldi V., Rezman B., et al. Extravascular lung water index as a sign ofdeveloping sepsis in burns // Burns. 2010. № 8 (36). P. 1263–1270.111. Bouwmeester N.J., Anand K.J.S., Dijk M. van, et al. Hormonal and metabolicstress responses after major surgery in children aged 0–3 years: a double‐blind,randomized trial comparing the effects of continuous versus intermittent morphine† //BJA: British Journal of Anaesthesia. 2001.
№ 3 (87). P. 390–399.112. Branski L.K., Herndon D.N., Byrd J.F., et al. Transpulmonary thermodilution forhemodynamic measurements in severely burned children // Critical Care. 2011. № 2(15). P. R118.217113. Breasted J.H. The Edwin Smith Surgical Papyrus, Volume 1: HieroglyphicTransliteration, Translation, and Commentary / J.H. Breasted, Chicago: The Universityof Chicago Press, 1930. 634 P.114.
Brierley J., Peters M.J. Distinct Hemodynamic Patterns of Septic Shock atPresentation to Pediatric Intensive Care // Pediatrics. 2008. № 4 (122). P. 752–759.115. Bronicki R.A. Venous oximetry and the assessment of oxygen transport balance //Pediatric Critical Care Medicine. 2011. № 4 (12). P. S21–S26.116. Bronicki R.A. Hemodynamic Monitoring // Pediatric Critical Care Medicine.
2016.(17). P. S207–S214.117. Bronicki R.A., Anas N.G. The Right Therapy at the Right Time in the RightPatient // Pediatric Critical Care Medicine. 2015. № 4 (16). P. 389–390.118. Bronicki R.A., Taylor M., Baden H. Critical Heart Failure and Shock // PediatricCritical Care Medicine. 2016. № 8 (17). P. S124–S130.119. Brown L.M., Liu K.D., Matthay M.A. Measurement of extravascular lung waterusing the single indicator method in patients: research and potential clinical value //American Journal of Physiology-Lung Cellular and Molecular Physiology. 2009.
№ 4(297). P. L547–L558.120. Browne L.R., Studnek J.R., Shah M.I., et al. Prehospital Opioid Administration inthe Emergency Care of Injured Children // Prehospital Emergency Care. 2016. № 1(20). P. 59–65.121. Bull J.P., Squire J.R. A Study of Mortality in a Burns Unit: Standards for theEvaluation of Alternative Methods of Treatment. // Annals of surgery.
1949. № 2 (130).P. 160–73.122. Burd A., Yuen C. A global study of hospitalized paediatric burn patients // Burns.2005. № 4 (31). P. 432–438.123. Calvano S.E., Xiao W., Richards D.R., et al. A network-based analysis of systemicinflammation in humans // Nature. 2005.
№ 7061 (437). P. 1032–1037.124. Cambiaso-Daniel J., Rontoyanni V.G., Foncerrada G., et al. Correlation betweeninvasive and noninvasive blood pressure measurements in severely burned children //Burns. 2018. № 7 (44). P. 1787–1791.218125. Cancio L.C. Initial assessment and fluid resuscitation of burn patients // SurgicalClinics of North America. 2014. № 4 (94). P.
741–754.126. Cartotto R. Fluid Resuscitation of the Thermally Injured Patient // Clinics in PlasticSurgery. 2009. № 4 (36). P. 569–581.127. Cartotto R., Callum J. A Review of the Use of Human Albumin in Burn Patients //Journal of Burn Care & Research.
2012. № 6 (33). P. 702–717.128. Cartotto R.C., Innes M., Musgrave M.A., et al. How well does the Parklandformula estimate actual fluid resuscitation volumes? // The Journal of burn care &rehabilitation. 2000. № 4 (23). P. 258–265.129. Caruso D.M., Matthews M.R. Monitoring End Points of Burn Resuscitation //Critical Care Clinics. 2016. № 4 (32). P. 525–537.130.
Carvajal H.F. A physiologic approach to fluid therapy in severely burned children.// Surgery, gynecology & obstetrics. 1980. № 3 (150). P. 379–84.131. Carvajal H.F. Fluid resuscitation of pediatric burn victims: a critical appraisal.
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