Efeitos do pneumoperitônio sobre a hemodinâmica e função renais de cães ventilados com volume e pressão controlados
Effects of pneumoperitoneum on renal hemodynamics and function of dogs under volume and pressure-controlled ventilation
Armando Vieira de Almeida; Eliana Marisa Ganem
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Razvi HA, Fields D, Vargas JC. Oliguria during laparoscopic surgery: evidence for direct renal parenchymal compression as an etiologic factor. J Endourol. 1996;10:1-4.
Harman PK, Kron IL, Mclachlan HD. Elevated intra-abdominal pressure and renal function. Ann Surg. 1982;196:594-597.
Punnonen R, Viinamaki O. Vasopressin release during laparoscopy: role of increased intra-abdominal pressure. Lancet. 1982;1:175-176.
Joris JL, Noirot DP, Legrand MJ. Hemodynamic changes during laparoscopic cholecystectomy. Anesth Analg. 1993;76:1067-1071.
Ortega A, Peters J, Incarbone R. A prospective randomized comparison of the metabolic and stress hormonal responses of laparoscopic and open cholecystectomy. J Am Coll Surg. 1996;183:249-256.
Koivusalo AM, Kellokumpu I, Scheinin M. Randomized comparison of the neuroendocrine response to laparoscopic cholecystectomy using either conventional or abdominal wall lift techniques. Br J Surg. 1996;83:1532-1536.
O'leary E, Hubbard K, Tormey W. Laparoscopic cholecystectomy: haemodynamic and neuroendocrine response after pneumoperitoneum and changes in position. Br J Anaesth. 1997;76:640-644.
Koivusalo AM, Kellokumpu I, Ristkari S. Splanchnic and renal deterioration during and after laparoscopic cholecystectomy: a comparation of the carbon dioxide pneumoperitoneum and the abdominal wall lift method. Anesth Analg. 1997;85:886-891.
Koivusalo AM, Kellokumpu I, Scheinin M. A comparison of gasless mechanical and conventional carbon dioxide pneumoperitoneum methods for laparoscopic cholecystectomy. Anesth Analg. 1998;86:153-158.
Hamilton BD, Chow GK, Inman SR. Increased intra-abdominal pressure during pneumoperitoneum stimulates endothelin release in a canine model. J Endourol. 1998;12:193-197.
David CM. Ventilação Mecânica: Repercussões Hemodinâmicas. Ventilação Mecânica. 1996:77-86.
Gouvea F, Ferreira E, Campos AP. Monitorização hemodinâmica: métodos invasivos. Rev Bras Anestesiol. 1992;42:21-41.
Morrison DF. Multivariate Statistical Methods. 1967.
Dualé C, Bolandard F, Duband P. Conséquences physiopathologiques de la chirurgie coelioscopique. Ann Chir. 2001;126:508-514.
Dunn MD, McDougall EM. Renal physiology: Laparoscopic considerations. Urol Clin Norh Am. 2000;27:609-614.
McDougall EM, Monk TG, Wolf Jr JS. The effect of prolonged pneumoperitoneum on renal function in an animal model. J Am Coll Surg. 1996;182:317-328.
Chang DT, Kirsch AJ, Sawczuk IS. Oliguria during laparoscopic surgery. J Endourol. 1994;8:349-352.
Dolgor B, Kitano S, Yoshida T. Vasopressin antagonist improves renal function in a rat model of pneumoperitoneum. J Surg Res. 1998;79:109-114.
London ET, Ho HS, Neuhaus AM. Effect of intravascular volume expansion on renal function during prolonged CO2 pneumoperitoneum. Ann Surg. 2000;231:195-201.
Walder AD, Aitkenhead AR. Role of vasopressin in the haemodynamic response to laparoscopic cholecystectomy. Br J Anaesth. 1997;78:264-266.
Corwin C, Fabrega AJ, Scott-Conner C. Neurohormonal Response to Laparoscopy and Acute Rise in Intra-Abdominal Pressure. The Pathophysiology of Pneumoperitoneum. 1998:99-113.
Diebel LN. Renal Function and Circulation under the Influence of Pneumoperitoneum. The Pathophysiology of Pneumoperitoneum. 1998:62-69.
Mann C, Boccara G, Pouzeratte Y. The relationship among carbon dioxide pneumoperitoneum, vasopressin release, and hemodynamic changes. Anesth Analg. 1999;89:278-283.
Joris JL, Chiche JD, Canivet JL. Hemodynamic changes induced by laparoscopy and their endocrine correlates: effects of clonidine. J Am Coll Cardiol. 1998;32:1389-1396.
Marcondes M. Regulação do Volume de Fluido Extracelular. Fisiologia renal. 1986:253-270.
Almeida AV, Ganem EM, Carraretto AR. Alterações hemodinâmicas durante o pneumoperitônio em cães ventilados com volume e pressão controlados. Rev Bras Anestesiol. 2003;53:756-766.
Marcondes M. Alterações do Metabolismo da Água. Fisiologia renal. 1986:271-82.
Fessler HE, Brower RG, Wise RA. Effects of positive end-expiratory pressure on the gradient for venous return. Am Rev Respir Dis. 1991;143:19-24.
Kotanidou A, Armaganidis A, Zakynthinos S. Changes in thoracopulmonary compliance and hemodynamic effect of positive end-expiratory pressure in patients with or without heart failure. J Crit Care Med. 1997;12:101-111.
Cisek LJ, Gobet RM, Peters CA. Pneumoperitoneum produces reversible renal dysfunction in animals with normal and chronically reduced renal function. J Endourol. 1998;12:95-100.
Rahman SN, Batt, AT, Dubose TD. Differentiating clinical effects of ANP in oliguric and non-oliguric ATN. J Am Soc Nephrol. 1995;6:474-475.
Moe GM, Legaul T L, Skorechi KL. Control of Extracelular Fluid Volume and Phatophysiology of Edema Formation. The Kidney. 1991:623-676.
Chen J, Doctor B, Mandel MJ. Cytoskeletal dissociation of ezrin during renal anoxia. Role in microvillar injury. Am J Physiol. 1994;36:784-795.
Edelstein CL, Ling H, Schrier RW. The nature of renal cell injury. Kidney Int. 1997;51:1341-1351.
Aires MM. Reabsorção e Secreção Tubular: Técnicas de Depuração. Fisiologia Renal. 1986:89-111.
Furtado MR. Balanço do Potássio e sua Regulação. Fisiologia Renal. 1986:299-310.
Iwase K, Takenaka H, Ishizaka T. Serial changes in renal function during laparoscopic cholecystectomy. Eur Surg Res. 1993;25:203-212.
Pearson MR, Sander ML. Hyperkalaemia associated with prolonged insufflation of carbon dioxide into the peritoneal cavity. Br J Anaesth. 1994;72:602-604.
Malnic G. Excreção Renal de Água e Eletrólitos. Fisiologia Renal. 1986:125-156.
Malnic G. Concentração e Diluição Urinária. Fisiologia Renal. 1986:173-213.