Клинико-физиологические особенности метаболизма углекислого газа при хирургических вмешательствах на органах брюшной полости и грудной клетки
Диссертация
У больных, подвергающихся обширным хирургическим вмешательствам, нарушения дыхания в послеоперационном периоде являются одной из основных причин послеоперационной заболеваемости и смертности. При абдоминальных вмешательствах одним из факторов риска легочных осложнений является повышение внутрибрюшного давления (ВБД). В связи с этим, для своевременной диагностики ухудшения абдоминальной перфузии… Читать ещё >
Список литературы
- Авалиани В. М., Киров М. Ю. Анестезия и ведение периоперационного периода в коронарной хирургии // Коронарная хирургия при мультифокальном атеросклерозе: рук. для врачей. М., 2005. С. 136−154.
- Биохимия человека: в 2-х томах. / Р. Марри и др. Т. 2. М.: Мир, 1993.415 с.
- Внутрибрюшная гипертензия и абдоминальный компартмент-синдром: современные представления о диагностике и лечении / Е. Н. Райбужис и др. // Вестн. анестезиологии и реаниматологии. 2010. Т. 7, № 4. С. 14−20.
- Гринхальх Т. Основы доказательной медицины. М.: ГЭОТАР-МЕД, 2004. 240 с.
- Гриппи М. А. Патофизиология легких. М.: Бином, 2008. 304 с.
- Дзыбинская Е. В., Иванина И. В., Козлов И. А. Центральная гемодинамика и транспорт кислорода при разном темпе активности больных, оперированных с после искусственным кровообращением // Общая реаниматология. 2009. N 1. С. 74−78
- Дифференцированное лечение острого дистресс-синдрома, обусловленного прямыми и непрямыми этиологическими факторами
- B. В. Мороз и др. // Общая реаниматология. 2011. N 4. С. 5−15
- Загародная Т. В. Корниенко А. Н. Кецкало М. В. Респираторная терапия острого респираторного дистресс-синдрома у кардиохирургических больных // Общая реаниматология. 2005. N 5.1. C. 65−68
- Зильбер А. П. Клиническая физиология в анестезиологии и рениматологии // М.: Мед, 1984. 479 с.
- Козлов И. А., Романов А. А. Особенности транспорта кислорода при нарушении оксигенирующей функции легких в ранние сроки после искусственного кровообращения // Общая реаниматология. 2009. N6. С. 13−19
- Козлов И. А., Романов А. А., Дзыбинская Е. В. Центральная гемодинамика и транспорт кислорода при «мобилизации альвеол» в ранние сроки после искусственного кровообращения // Общая реаниматология. 2009. N 5. С. 20−25
- Кольман Я., Рём К.-Г. Наглядная биохимия. М.: Мир, 2000. 469 с.
- Коррекция нарушения оксигенирующей функции легких при ранней активизации кардиохирургических больных / И. А. Козлов и др. // Общая реаниматология. 2009. N 2. С. 37−44
- Кузьков В. В., Киров М. Ю. Инвазивный мониторинг гемодинамики в интенсивной терапии и анестезиологии. Архангельск: СГМУ, 2008. 243 с.
- Ланг Т. А., Сесик М. Как описать статистику в медицине. Аннотированное руководство для авторов, редакторов и рецензентов. М.: Практ. медицина, 2011. 480 с.
- Леонов В. П. Ошибки статистического анализа биомедицинских данных//Междунар. журн. мед. практики. 2007. Вып. 2. С. 19−35.
- Марино П. Л. Интенсивная терапия. М.: ГЭОТАР-МЕД, 2010. 764 с.
- Морфологическая оценка безопасности «откпытия» альвеол / А. М. Голубев и др. // Общая реаниматология. 2008. N 3. С. 102−105
- Начала физиологии / А. Д. Ноздрачев и др. СПб.: Лань, 2001. 1088 с.
- Недашковский Э. В. Базовый курс анестезиолога : учеб. пособие / под ред.: Э. В. Недашковского, В. В. Кузькова. Архангельск: СГМУ, 2010. 224 с.
- Общая анестезия с сохраненным спонтанным дыханием через интубационную трубку / В. В. Мороз и др. // Общая реаниматология. 2010. N 3. С. 43−48
- Основы биохимии: в 3-х т. / А. Уайт и др. Т. 1. М.: Мир, 1981. 534 с.
- Острое повреждение легких при пневмониях / В. В. Мороз и др. // Общая реаниматология. 2008. N 3. С. 106−111
- Применение капнографии и рекрутмента при аортокоронарном шунтировании на работающем сердце. / Е. В. Суборов и др. // Актуальные проблемы анестезиологии и интенсивной терапии: сб. докл. и тез. 2 Беломор. симп. Архангельск, 2007. С. 124−125.
- Ранние гемодинамические нарушения в развитии ОПЛ при тяжелой сочетанной травме / В. В. Мороз и др. // Общая реаниматология. 2005. N1. С. 5−8
- Рябов Г. А. Гипоксия критических состояний. М.: Мед., 1988. 288 с.
- Суборов Е. В., Киров М. Ю. Капнографический мониторинг : возможности и новые перспективы // Вестн. интенсив, терапии. 2008. № 3. С. 3−9.
- Шурыгин И. А. Мониторинг дыхания : пульсоксиметрия, капнография, оксиметрия. СПб.: Невский Диалект, 2000. 301 с.
- Эффективность применения маневра «открытия легких» в условиях ИВЛ у больных с острым респираторным дистресс-синдромом / А. В. Власенко и др. // Общая реаниматология. 2006. N 2. С. 50−66
- A Novel Integrated Pulmonary Index (IPI) Quantifies Heart Rate, EtC02, Respiratory Rate and Sp02% / A. Taft et al. // Anesthesiology. 2008. Vol. 109. Al682.
- A Novel Method (CiMON) for Continuous Intra-Abdominal Pressure Monitoring: Pilot Test in a Pig Model / J. Wauters et al. // Crit. Care Res. Pract. 2012. N 181 563.
- A novel method of distal end-tidal C02 capnography in intubated infants: comparison with arterial C02 and with proximal mainstream end-tidal C02 / A. Kugelman et al. // Pediatrics. 2008. Vol. 122, N 6. P. 12 191 224.
- A study of the physiologic responses to a lung recruitment maneuver in acute lung injury and acute respiratory distress syndrome / M. O. Meadeet al. // Respir. Care. 2008. Vol. 53, N 11. P. 1441−1449.
- Abdominal compartment syndrome Intra-abdominal hypertension: Defining, diagnosing, and managing / T. S. Papavramidis et al. // J. Emerg. Trauma Shock. 2011. Vol. 4, N 2. P. 279−291.
- Accuracy of a new low-flow sidestream capnography technology in newborns: a pilot study / J. J. Hagerty et al. // J. Perinatol. 2002. Vol. 22, N3. P. 219−225
- Acute hemodynamic changes during lung recruitment in lavage and endotoxin-induced ALI / H. Odenstedt et al. // Intensive Care Med. 2005. Vol. 31, N l.P. 112−1120.
- Alveolar recruitment strategy' improves arterial oxygenation during general anaesthesia / G. Tusman et al. // Br. J. Anaesth. 1999. Vol. 82, N l.P. 8−13.
- An evaluation of the Integrated Pulmonary Index (IPI) for the detection of respiratory events in sedated patients undergoing colonoscopy / H. Berkenstadt et al. // J. Clin. Monit. Comput. 2012. Vol. 26, N 3. P. 177 178.
- Anderson C. T., Breen P. H. Carbon dioxide kinetics and capnography during critical care // Crit. Care. 2000. Vol. 4, N 4. P. 207−215.
- Atelectasis and oxygenation in major surgery with either propofol with or without nitrous oxide or isoflurane anaesthesia / A. G. Jensen et al. // Anaesthesia. 1993. Vol. 48, N 12. P. 1094−1096.
- Atelectasis during anesthesia: pathophysiology and treatment / L. M. Malbouisson et al. // Rev. Bras. Anestesiol. 2008. Vol. 58, N 1. P. 7383.
- Bendixen H. H., Hedley-Whyte J., Laver M. B. Impaired oxygenation in surgical patients duaring general anesthesia with controlled ventilation. A concept of atelectasis // N. Engl. J. Med. 1963. Vol. 269. P. 991−996.
- Berton C., Cholley B. Equipment review: new techniques for cardiac output measurement—oesophageal Doppler, Fick principle using carbondioxide, and pulse contour analysis // Crit. Care. 2002. Vol. 6, N 3. P. 216−221.
- Bhat Y. R., Abhishek N. Mainstream end-tidal carbon dioxide monitoring in ventilated neonates. Singapore Med. J. 2008. Vol. 49, N 3. P. 199−203.
- Blood lactate and mixed venous-arterial PC02 gradient as indices of poor peripheral perfusion following cardiopulmonary bypass surgery / M. Ariza et al. // Intensive Care Med. 1991. Vol. 17, N 6. P. 320−324.
- Blood lactate levels during cardiopulmonary bypass for valvular heart surgery / S. B. Shinde et al. // Ann. Card. Anaesth. 2005. Vol. 8, N 1. P. 39−44.
- Central venous 02 saturation and venous-to-arterial C02 difference as complementary tools for goal-directed therapy during high-risk surgery / E. Futier et al. // Crit. Care. 2010. Vol. 14, N 5. P. R193.
- Central venous-arterial carbon dioxide difference as an indicator of cardiac index / J. Cuschieri et al. // Intensive Care Med. 2005. Vol. 31, N6. P. 818−822.
- Central venous-to-arterial carbon dioxide difference: an additional target for goal-directed therapy in septic shock? / F. Vallee et al. // Intensive Care Med. 2008. Vol. 34, N 12. P. 2218−2225.
- Cheifetz I. M., Maclntyre N. R. Respiratory controversies in the critical care setting. Conference summary // Respir. Care. 2007. Vol. 52, N 5. P. 636−644.
- Chiles K. T., Feeney C. M. Abdominal compartment syndrome successfully treated with neuromuscular blockade // Indian. J Anaesth. 2011. Vol. 55, N 4. P. 384−387.
- Colman Y., Krauss B. Microstream capnograpy technology: a new approach to an old problem // J. Clin. Monit. Comput. 1999. Vol. 15, N 6. P. 403−409.
- Comparison of a sidestream capnograph and a mainstream capnograph in mechanically ventilated dogs / F. J. Teixeira Neto et al. // J. Am. Vet.
- Med. Assoc. 2002. Vol. 221, N 11. P. 1582−1585.
- Conservative vs restrictive individualized goal-directed fluid replacement strategy in major abdominal surgery: A prospective randomized trial / E. Futier et al. // Arch. Surg. 2010. Vol. 145, N 12. P. 1193−1200.
- Correlation of gas exchange impairment to development of atelectasis during anaesthesia and muscle paralysis / G. Hedenstierna et al. // Acta Anaesthesiol. Scand. 1986. Vol. 30, N 2. P. 183−191.
- Critical level of oxygen delivery after cardiopulmonary bypass / T. Komatsu et al. // Crit. Care Med. 1987. Vol. 15, N 3. P. 194−197.
- Critical oxygen delivery in conscious humans is less than 7.3 ml 02 x kg (-l) x min (-l) / J. A. Lieberman et al. // Anesthesiology. 2000. Vol. 92, N2. P. 407−413.
- De Keulenaer B. L., De J. J., Waele M. L. Malbrain Nonoperative management of intra-abdominal hypertension and abdominal compartment syndrome: evolving concepts // Am. Surg. 2011. Vol. 77, suppl. 1. S. 34−41.
- Dead Space Fraction Changes During Positive End-Expiratory Pressure Titration Following Lung Recruitment in Acute Respiratory Distress Syndrome Patients / F. Guo et al. // Respir. Care. 2012 Mar. 12.
- Defining hypoxia: a systems view of V02, glycolysis, energetics, and intracellular P02 / R. J. Connett et al. // J. Appl. Physiol. 1990. Vol. 68, N 3. P. 833−842.
- Detection of tissue hypoxia by arteriovenous gradient for PC02 and pH in anesthetized dogs during progressive hemorrhage / P. Van der Linden et al. // Anesth. Analg. 1995. Vol. 80, N 2. P. 269−275.
- Development of atelectasis and arterial to end-tidal PC02-difference in a porcine model of pneumoperitoneum / C. M. Strang et al. // Br. J Anaesth. 2009. Vol. 103, N 2. P. 298−303.
- Domsky M., Wilson R. F., Heins J. Intraoperative end-tidal carbon dioxide values and derived calculations correlated with outcome: prognosis and capnography // Crit. Care Med. 1995. Vol. 23, N 9. P. 1497−1503.
- Donald M. J., Paterson B. End tidal carbon dioxide monitoring in prehospital and retrieval medicine: a review // Emerg. Med. J. 2006. Vol. 23, N 9. P. 728−730.
- Duke T. Dysoxia and lactate // Arch. Dis. Child. 1999. Vol. 81, N 4. P. 343−350.
- Dynamics of re-expansion of atelectasis during general anaesthesia / Rothen H. U. et al. // Br. J. Anaesth. 1999. Vol. 82, N 4. P. 551−556.
- Early goal-directed therapy in the treatment of severe sepsis and septic shock / E. Rivers et al. // N. Engl. J. Med. 2001. Vol. 345, N 19. P. 1368−1377.
- Effects of hypercapnia and hypocapnia on ventilatory variability and the chaotic dynamics of ventilatory flow in humans / M. N. Fiamma et al. // Am. J. Physiol. Regul. Integr. Comp. Physiol. 2007. Vol. 292, N 5. P. 1985−1993.
- Effects of recruitment maneuver on atelectasis in anesthetized children / G. Tusman et al. //Anesthesiology. 2003. Vol. 98, N 1. P. 14−22.
- Effects of sevoflurane, propofol, and adjunct nitrous oxide on regional cerebral blood flow, oxygen consumption, and blood volume in humans K. K. Kaisti et al. // Anesthesiology. 2003. Vol. 99, N 3. P. 603−613.
- End-tidal and arterial carbon dioxide measurements correlate across all levels of physiologic dead space / S. D. McSwain et al. // Respir. Care. 2010. Vol. 5, N 3. P. 288−293.
- End-tidal carbon dioxide during cardiopulmonary resuscitation in humanspresenting mostly with asystole: a predictor of outcome / J. P. Cantineau et al.. // Crit. Care Med. 1996. Vol. 24, N 5. P. 791−796.
- End-tidal C02 as a predictor of survival in out-of-hospital cardiac arrest / M. Eckstein et al. // Prehosp. Disaster. Med. 2011. Vol. 26, N 3. P. 148 150.
- Et Small intestine intramucosal PCO (2) and microvascular blood flow during hypoxic and ischemic hypoxia / R. Neviere et al. // Crit. Care Med. 2002. Vol. 30, N 2. P. 379−384.
- Ferris B. G., Pollard D. S. Effect of deep and quiet breathing on pulmonary compliance in man // J. Clin. Invest. 1960. Vol. 39. P. 143 149.
- Goal-directed intraoperative therapy reduces morbidity and length of hospital stay in high-risk surgical patients / A. Donati et al. // Chest. 2007. Vol. 132, N 6. P. 1817−1824.
- Gozal Y., Gozal D. Validation of the integrated pulmonary index in the post anesthesia care unit // Eur. J. Anaesth. 2009. Vol. 26, suppl. 45. P. 36, 3AP4−2.
- Groeneveld A. J., E. K. Jansen, J. Verheij Mechanisms of pulmonary dysfunction after on-pump and off-pump cardiac surgery: a prospective cohort study // J. Cardiothorac. Surg. 2007. Vol. 14, N 2. P. 11.
- Habib M. P. Physiologic implications of artificial airways // Chest. 1989. Vol. 96, N 1. P. 180−184.
- Hakobyan R. V., Mkhoyan G. G. Epidural analgesia decreases intraabdominal pressure in postoperative patients with primary intraabdominal hypertension // Acta Clin. Belg. 2008. Vol. 63, N 2. P. 86−92.
- Hypoxaemia during anaesthesia—an observer study / J. T. Moller et al. // Br. J. Anaesth. 1991. Vol. 66, N 4. P. 437−444.
- Hypoxemia after myocardial revascularization: analysis of risk factors / T. F. Szeles et al. // Rev. Bras. Anestesiol. 2008. Vol. 58, N 2. P. 124 136.
- Ince C. The microcirculation is the motor of sepsis // Crit. Care. 2005. Vol. 9, suppl. 4. P. 13−19
- Incidence and prognosis of intraabdominal hypertension in a mixed population of critically ill patients: a multiple-center epidemiological study / M. L. Malbrain et al. // Crit. Care Med. 2005. Vol. 33, N 2. P. 315−322.
- Incidence of and risk factors for pulmonary complications after nonthoracic surgery / F. A. McAlister et al. // Am. J. Respir. Crit. Care Med. 2005. Vol. 171, N 5. P. 514−517.
- Intra-abdominal hypertension and abdominal compartment syndrome in nontrauma surgical patients / M. Bjorck et al. // Am. Surg. 2011. Vol. 77, suppl. 1. S.62−66.
- Intraoperative calorimetry in aortic bifurcation reconstruction / D. Balogh et al. // Anaesthesist. 1995. Vol. 44, N 8. P. 552−557.
- Isserles S. A. Breen P. H. Can changes in end-tidal PC02 measure changes in cardiac output? // Anesth. Analg. 1991. Vol. 73, N 6. P. 808 814.
- Jaffe M. B. Infrared measurement of carbon dioxide in the human breath: «breathe-through» devices from Tyndall to the present day // Anesth. Analg. 2008. Vol. 107, N 3. P. 890−904.
- Jensen L., Yang L. Risk factors for postoperative pulmonary complications in coronary artery bypass graft surgery patients // Eur. J. Cardiovasc. Nurs. 2007. Vol. 6, N 3. P. 241−246.
- Jindani A., Williams B. T. Postoperative cardiac surgical care: an alternative approach // Br. Heart. J. 1993. Vol. 70, N 1. P. 98.
- Kallet R. H., Siobal M. S. Measuring dead space: does it really matter? Or. What are we waiting for? // Respir. Care. 2010. Vol. 55, N 3. P. 350 352.
- Lactate clearance vs central venous oxygen saturation as goals of early sepsis therapy: a randomized clinical trial / A. E. Jones et al. // JAMA.2010. Vol. 303, N 8. P. 739−746.
- Leach R. M., Treacher D. F. The relationship between oxygen delivery and consumption // Dis. Mon. 1994. Vol. 40, N 7. P. 301−368.
- Localised abdominal compartment syndrome: bladder-over-gastric pressure ratio (B/G ratio) as a clue to diagnosis / M. L. Malbrain et al. // Acta Clin. Belg. 2010. Vol. 65, N 2. P. 98−106.
- Lundquist H. CT-assessment of dependent lung densities in man during general anaesthesia // Acta Radiol. 1995. Vol. 36, N 6. P. 626−632
- Lung recruitment and positive airway pressure before extubation does not improve oxygenation in the post-anaesthesia care unit: a randomized clinical trial / A. B. Lumb et al. // Br. J. Anaesth. 2010 Vol. 104, N 5. P. 643−637.
- Maddirala S., Khan A. Optimizing hemodynamic support in septic shock using central and mixed venous oxygen saturation // Crit. Care Clin. 2010. Vol. 26, N 2. P. 323−333.
- Magnusson L., Spahn D. R. New concepts of atelectasis during general anaesthesia // Br. J. Anaesth. 2003. Vol. 91, N 1. P. 61−72.
- Mahmound K. M., Ammar A. S. A comparison between two different alveolar recruitment maneuvers in patients with acute respiratory distress syndrome // Int. J. Crit. Illn. Inj Sci. 2011. Vol. 1, N 2. 114−120.
- Malbrain M. L., Deeren D. H. Effect of bladder volume on measured intravesical pressure: a prospective cohort study // Crit. Care. 2006. Vol. 10, N4. P. 98.
- Mead J., Collier C. Relation of volume history of lungs to respiratory mechanics in anesthetized dogs // J. Appl. Physiol. 1959. Vol. 14, N 5. P. 669−678.
- Microstream capnography improves patient monitoring during moderate sedation: a randomized, controlled trial / J. R. Lightdale et al. // Pediatrics. 2006. Vol. 117, N 6. P. 1170−1178.
- Molloy E. J., K. Deakins Are carbon dioxide detectors useful in neonates?
- Arch. Dis. Child. Fetal. Neonatal. Ed. 2006. Vol. 91, N 4. P. 295−298.
- Monitoring dead space during recruitment and PEEP titration in an experimental model / G. Tusman et al. // Intensive Care Med. 2006. Vol. 32, N11. P. 1863−1871.
- Multicenter study of central venous oxygen saturation (ScvO (2)) as a predictor of mortality in patients with sepsis / J. V. Pope et al. // Ann. Emerg. Med. 2010. Vol. 55, N 1. P. 40−46.el.
- Padovani C., Cavenaghi O. M. Alveolar recruitment in patients in the immediate postoperative period of cardiac surgery // Rev. Bras. Cir. Cardiovasc. 2011. Vol. 26, N 1. P. 116−121.
- Pathophysiology of giant incisional hernias with loss of abdominal wall substance / L. De Santis et al. // Acta Biomed. 2003. Vol. 74, suppl. 2. P. 34−37.
- Pattern of spontaneous breathing: potential marker for weaning outcome. Spontaneous breathing pattern and weaning from mechanical ventilation / M. El-Khatib et al. // Intensive Care Med. 2001. Vol. 27, N 1. P. 52−58.
- Pelosi P. Quintel M., Malbrain M. L. Effect of intra-abdominal pressure on respiratory mechanics // Acta Clin. Belg. Suppl. 2007, N 1. P. 78−88.
- Positive end-expiratory pressure (PEEP) during anaesthesia for the prevention of mortality and postoperative pulmonary complications / G. Imberger et al. // Cochrane Database Syst. Rev. 2010. Vol. 8, N 9. CD007922
- Positive End-Expiratory Pressure Following Coronary Artery Bypass
- Grafting / D. A. Dongelmans et al. // Minerva Anestesiol. 2012. 4. Apr
- Postoperative pulmonary complications: how to anticipate and prevent the risk? / A. B. Younossian et al. // Rev. Med. Suisse. 2011. Vol. 7, N 317. P. 2214, 2216−2219.
- Predicting dead space ventilation in critically ill patients using clinically available data / D. C. Frankenfield et al. // Crit. Care Med. 2010. Vol. 38, N 1. P. 288−291.
- Prevalence of intra-abdominal hypertension in critically ill patients: a multicentre epidemiological study / M. L. Malbrain et al. // Intensive Care Med. 2004. Vol. 30, N 5. P. 822−829
- Prognostic value of the pulmonary dead-space fraction during the early and intermediate phases of acute respiratory distress syndrome / J. M. Raurich et al. // Respir. Care. 2010. Vol. 55, N 3. P. 282−287.
- Prognostic value of the pulmonary dead-space fraction during the first 6 days of acute respiratory distress syndrome / R. H. Kallet et al. // Respir. Care. 2004. Vol. 49, N 9. P. 1008−1014
- Pulmonary dead-space fraction as a risk factor for death in the acute respiratory distress syndrome / T. J. Nuckton et al. // N. Engl. J. Med. 2002. Vol. 346, N 17. P. 1281−1286.
- Pulmonary dysfunction after cardiac surgery / C. S. Ng et al. // Chest. 2002. Vol. 121, N 4. P. 1269−1277.
- Recruitment maneuver: does it promote bacterial translocation? / N. Cakar et al. // Crit. Care Med. 2002. Vol. 30, N 9. P. 2103−2106.
- Recruitment maneuvers during lung protective ventilation in acute respiratory distress syndrome / A. Villagra et al. // Am. J. Respir. Crit. Care Med. 2002. Vol. 165, N 2. P. 165−170.
- Recruitment maneuvers for acute lung injury: a systematic review / E. Fan et al. // Am. J. Respir. Crit. Care Med. 2008. Vol. 178, N 11. P. 1156−1163.
- Reintam Blaser A. Risk factors for intra-abdominal hypertension inmechanically ventilated patients / Reintam Blaser A, Parm P, Kitus R, Starkopf J. // Acta Anaesthesiol Scand. 2011 May-55(5):607−14.
- Respiratory effects of different recruitment maneuvers in acute respiratory distress syndrome / J. M. Constantin et al. // Crit. Care. 2008. Vol. 12, N 2. R. 50.
- Respiratory muscle strength and hemodynamics in chronic heart failure / Y. Nishimura et al. // Chest. 1994. Vol. 105, N 2. P. 355−359.
- Respiratory physiotherapy and incidence of pulmonary complications in off-pump coronary artery bypass graft surgery: an observational follow-up study /1. Yanez-Brage et al. // BMC Pulm. Med. 2009. Vol. 28, N 9. P. 36.
- Risk of pulmonary complications after elective abdominal surgery / V. A. Lawrence et al. // Chest. 1996. Vol. 110, N 3. P. 744−750.
- Rocco P. R., Pelosi P., de Abreu M. G. Pros and cons of recruitment maneuvers in acute lung injury and acute respiratory distress syndrome // Expert. Rev. Respir. Med. 2010. Vol. 4, N 4. P. 479−489.
- Shepherd S. J., Pearse R. M. Role of central and mixed venous oxygen saturation measurement in perioperative care // Anesthesiology. 2009. Vol. Ill, N 3. P. 649−656.
- Smetana G. W. 2006 Preoperative pulmonary evaluation: identifying and reducing risks for pulmonary complications // Cleve Clin. J Med. 2006. Vol. 73, suppl l.P. 36−41.
- Smetana G. W., Lawrence V. A., Cornell J. E. Preoperative pulmonary risk stratification for noncardiothoracic surgery: systematic review for the American College of Physicians // Ann. Intern. Med. 2006. Vol. 144, N8. P. 581−595.
- Sullivan K. J., Kissoon N., Goodwin S. R. End-tidal carbon dioxide monitoring in pediatric emergencies // Pediatr. Emerg. Care. 2005. Vol. 21, N5. P. 327−332.
- Suwanvanichkij V., Curtis J. R. The use of high positive end-expiratorypressure for respiratory failure in abdominal compartment syndrome // Respir. Care. 2004. Vol. 49, N 3. P. 286−290.
- Takami Y., Masumoto H. Mixed venous-arterial C02 tension gradient after cardiopulmonary bypass // Asian. Cardiovasc. Thorac. Ann. 2005. Vol. 13, N3. P. 255−260.
- Tenling A. Atelectasis and gas exchange after cardiac surgery / A. Tenling et al. // Anesthesiology. 1998. Vol. 89, N 2. P. 371−378.
- Titration of PEEP by the arterial minus end-tidal carbon dioxide gradient /1. P. Murray et al. // Chest. 1984. Vol. 85, N 1. P. 100−104.
- Variation in the Pa02/Fi02 ratio with Fi02: mathematical and experimental description, and clinical relevance / D. S. Karbing et al. // Crit. Care. 2007. Vol. 11, N 6. P. 118.
- Veno-arterial carbon dioxide gradient in human septic shock / J. Bakker et al. // Chest. 1992. Vol. 101, N 2. P. 509−515.
- Venoarterial CO (2) difference during regional ischemic or hypoxic hypoxia / B. Vallet et al. // J. Appl. Physiol. 2000. Vol. 89, N 4. P. 1317−1321.
- Venous hypercarbia associated with severe sepsis and systemic hypoperfusion / C. E. Mecher // Crit. Care Med. 1990. Vol. 18, N 6. P. 585−589.
- Venous-arterial PC02 and pH gradients in acutely ill postsurgical patients / L. S. Brandi et al. // Minerva Anestesiol. 1995. Vol. 61, N 9. P. 345 350.
- Ventilatory efficiency during exercise in healthy subjects / X. G. Sun et al. // Am. J. Respir. Crit. Care Med. 2002. Vol. 166, N 11. P. 1443−1448.
- Walsh B. K., Crotwell D. N., Restrepo R. D. Capnography/Capnometry during mechanical ventilation: 2011 // Respir. Care. 2011. Vol. 56, N 4. P. 503−509.
- Ward K. R., Yealy D. M. End-tidal carbon dioxide monitoring in emergency medicine, Part 1: Basic principles // Acad. Emerg. Med. 1998.1191. Vol. 5, N 6. P. 628−636.
- Weaning from ventilation after cardiopulmonary bypass: evaluation of a non-invasive technique / D. E. Withington et al. // Can. J. Anaesth. 1991. Vol. 38, N l.P. 15−19.
- Weissman C. Pulmonary complications after cardiac surgery // Semin. Cardiothorac. Vase. Anesth. 2004. Vol. 8, N 3. P. 185−211.
- What is normal intra-abdominal pressure and how is it affected by positioning, body mass and positive end-expiratory pressure? / B. L. De Keulenaer et al. // Intensive Care Med. 2009. Vol. 35, N 6. P. 969−976.
- Woodburn Morison J. M. A British Medical Association Lecture on massive collapse of the lung (active labar collapse) // Br. Med. J. 1930. Vol. 2, N 3632. P. 237−242.
- Wynne R., Botti M. Postoperative pulmonary dysfunction in adults after cardiac surgery with cardiopulmonary bypass: clinical significance and implications for practice // Am. J. Crit. Care. 2004. Vol. 13, N 5. P. 384 393.
- Ymanaka M. K., Sue D. Y. Comparison of arterial-end-tidal PC02 difference and dead space/tidal volume ratio in respiratory failure // Chest. 1987. Vol. 92, N 5. P. 832−835.