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Inicio Enfermedades Infecciosas y Microbiología Clínica Hipertensión intraabdominal y síndrome compartimental abdominal
Información de la revista
Vol. 28. Núm. S2.
Infecciones intraabdominales
Páginas 2-10 (septiembre 2010)
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Vol. 28. Núm. S2.
Infecciones intraabdominales
Páginas 2-10 (septiembre 2010)
Acceso a texto completo
Hipertensión intraabdominal y síndrome compartimental abdominal
Intraabdominal hypertension and abdominal compartment syndrome
Visitas
12415
Enrique Piacentini
Autor para correspondencia
enpiache@yahoo.com.ar

Autor para correspondencia.
, Carles Ferrer Pereto
Unidad de Cuidados Intensivos, Hospital Universitario Mutua Terrassa, Terrassa, Barcelona, España
Este artículo ha recibido
Información del artículo
Resumen

Si bien el estudio de la presión intraabdominal (PIA) tiene más de 100 años, es en los últimos 5 cuando se han desarrollado los conceptos de hipertensión intraabdominal (HIA) y síndrome compartimental abdominal (SCA) como entidades clínicas de interés en el ámbito de los cuidados intensivos. En diciembre de 2004, en el primer Congreso del Síndrome Compartimental Abdominal, se alcanzó una serie de definiciones, publicadas en 2006. La HIA se define como la PIA ≥ 12 mmHg y se clasifica en 4 grados de gravedad, siendo el SCA el grado máximo, con el desarrollo de fracaso multiorgánico.

La incidencia de HIA en pacientes de unidades de cuidados intensivos es elevada, en torno al 30% al ingreso y del 64% con estancias de 7 días. El aumento de PIA conduce a una disminución del flujo vascular a los órganos esplácnicos, un aumento de la presión intratorácica y una disminución del retorno venoso, con una importante caída del gasto cardíaco.

Estos episodios fisiopatológicos se siguen, en caso de persistir la HIA, del desarrollo de fallo orgánico múltiple, con fracaso renal, cardiocirculatorio, respiratorio e isquemia intestinal. La mortalidad del SCA sin tratamiento es mayor del 60%. La descompresión quirúrgica es el único tratamiento para los pacientes con SCA. En los pacientes con HIA moderada se debe intentar optimizar el tratamiento médico. Éste se basa en: a) monitorización seriada de la PIA; b) optimización de la perfusión sistémica y de la función de los diferentes sistemas en los pacientes con PIA elevada; c) instaurar medidas específicas para disminuir la PIA, y d) la descompresión quirúrgica precoz para la HIA refractaria.

La implantación de las medidas médicas que puedan disminuir la PIA y la realización precoz de la descompresión abdominal en caso de SCA mejoran la sobrevida de los pacientes críticos con HIA.

Palabras clave:
Hipertensión intraabdominal
Fallo multiorgánico
Mortalidad
Abstract

Although intraabdominal pressure (IAP) has been studied for more than 100 years, the concepts of intraabdominal hypertension (IAH) and abdominal compartmental syndrome (ACS) have only been developed as clinical entities of interest in intensive care in the last 5 years. At the first Congress on Abdominal Compartment Syndrome in December 2004, a series of definitions were established, which were published in 2006. IAH is defined as IAP ≥ 12 mmHg and is classified in four severity grades, the maximum grade being ACS, with the development of multiorgan failure.

The incidence of IAH in patients in intensive care units is high, around 30% at admission and 64% in those with a length of stay of 7 days. The increase in IAP leads to reduced vascular flow to the splenic organs, increased intrathoracic pressure and decreased venous return, with a substantial reduction in cardiac output.

If IAH persists, these physiopathologic episodes are followed by the development of multiorgan failure with renal, cardiocirculatory and respiratory failure and intestinal ischemia. Mortality from untreated ACS is higher than 60%. The only treatment for ACS is surgical decompression. In patients with moderate IAH, medical treatment should be optimized, based on the following measures: a) serial IAP monitoring; b) optimization of systemic perfusion and the function of the distinct systems in patients with high IAP; c) instauration of specific measures to decrease IAP; and d) early surgical decompression for refractory IAH. The application of the medical measures that can reduce IAP and early abdominal decompression in ACS improve survival in critically ill patients with IAH.

Keywords:
Intraabdominal hypertension
Multiorgan failure
Mortality
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Bibliografía
[1.]
H. Emerson.
Intra-abdominal pressures.
Arch Intern Med, 7 (1911), pp. 754-784
[2.]
Weber. Arch F Anat Phys U Wissensch Med (Müller's).1851. p. 88.
[3.]
Braune. Centralbl F D Med Wissensch.1865;iii:913.
[4.]
Wendt. Arch D Heilk. 1876;xvii:527.
[5.]
Quincke. Deutsch Arch F Klin Med. 1878;xxi:453.
[6.]
Heinricius. Ztschr F Biol.1890;newseries viii:113.
[7.]
Weitz. Deutsch Arch F Klin Med. 1909;xcv:257.
[8.]
R.F. Rushmer.
The nature of intraperitoneal and intrarectal pressures.
Am J Physiol, 147 (1947), pp. 242-249
[9.]
J.L. Duomarco, R. Rimini.
La presión intraabdominal en el hombre.
El Ateneo, (1947),
[10.]
M. Decramer, A. De Troyer, S. Kelly, L. Zocchi, P. Macklem.
Regional differences in abdominal pressure swings in dogs.
J Appl Physiol, 57 (1984), pp. 1682-1687
[11.]
M.L. Malbrain, M. Cheatham, A. Kirkpatrick, M. Sugrue, M. Parr, J. De Waele, et al.
Results from the Conference of Experts on Intra-abdominal Hypertension and Abdominal Compartment Syndrome. Part I: De?nitions.
Intensive Care Med, 32 (2006), pp. 1722-1732
[12.]
N.C. Sánchez, P.L. Tenofsky, J.M. Dort, L.Y. Shen, S.D. Helmer, R.S. Smith.
What is normal intra-abdominal pressure?.
Am Surg, 67 (2001), pp. 243-248
[13.]
M.L. Cheatham, M.W. White, S.G. Sagraves, J.L. Johnson, E.F. Block.
Abdominal perfusion pressure: a superior parameter in the assessment of intra-abdominal hypertension.
J Trauma, 49 (2000), pp. 621-626
[14.]
M. Sugrue, A. Bauman, F. Jones, G. Bishop, A. Flabouris, M. Parr, et al.
Clinical examination is an inaccurate predictor of intra-abdominal pressure.
World J Surg, 26 (2002), pp. 1428-1431
[15.]
M.L. Malbrain.
Different techniques to measure intra-abdominal pressure (IAP): time for a critical re-appraisal.
Intensive Care Med, 30 (2004), pp. 357-371
[16.]
A. Schachtrupp, D. Henzler, S. Orfao, W. Schaefer, R. Schwab, P. Becker, et al.
Evaluation of a modi?ed piezoresistive technique and a water-capsule technique for direct and continuous measurement of intra-abdominal pressure in a porcine model.
Crit Care Med, 34 (2006), pp. 745-750
[17.]
Z. Balogh, F. Jones, S. D’Amours, M. Parr, M. Sugrue.
Continuous intra-abdominal pressure measurement technique.
Am J Surg, 188 (2004), pp. 679-684
[18.]
M.L. Malbrain, D. Deeren, T.J. De Potter.
Intra-abdominal hypertension in the critically ill: it is time to pay attention.
Curr Opin Crit Care, 11 (2005), pp. 156-171
[19.]
M.L. Cheatham, M.L. Malbrain, A. Kirkpatrick, M. Sugrue, M. Parr, J. De Waele, et al.
Results from the International Conference of Experts on Intra-abdominal Hypertension and Abdominal Compartment Syndrome. II Recommendations.
Intensive Care Med, 33 (2007), pp. 951-962
[20.]
M.L. Malbrain, D. Chiumello, P. Pelosi, A. Wilmer, N. Brienza, V. Malcangi, et al.
Prevalence of intra-abdominal hypertension in critically ill patients: a multicentre epidemiological study.
Intensive Care Med, 30 (2004), pp. 822-829
[21.]
M.G. Vidal, J. Ruiz Weisser, F. González, M.A. Toro, C. Loudet, C. Balasini, et al.
Incidence and clinical effects of intra-abdominal hypertension in critically ill patients.
Crit Care Med, 36 (2008), pp. 1823-1831
[22.]
D. Salkin.
Intraabdominal pressure and its regulation.
Am Rev Tuberc, 30 (1934), pp. 436-457
[23.]
M. Sugrue, M.D. Buist, A. Lee.
Intra-abdominal pressure measurement using a modified nasogastric tube: description and validation of a new technique.
Intensive Care Med, 20 (1994), pp. 588-591
[24.]
A.R. Hargens, S.J. Mubarak.
Current concepts in the pathophysiology, evaluation, and diagnosis of compartment syndrome.
Hand Clin, 14 (1998), pp. 371-383
[25.]
R.V. Patel, F.S. Haddad.
Compartment syndromes.
Br J Hosp Med (Lond), 66 (2005), pp. 583-586
[26.]
W.O. Richards, W. Scovill, B. Shin, W. Reed.
Acute renal failure associated with increased intra-abdominal pressure.
Ann Surg, 197 (1983), pp. 183-187
[27.]
M. Sugrue, F. Jones, S.A. Deane, G. Bishop, A. Bauman, K. Hillman.
Intra-abdominal hypertension is an independent cause of postoperative renal impairment.
Arch Surg, 134 (1999), pp. 1082-1085
[28.]
L. Dalfino, L. Tullo, I. Donadio, V. Malcagni, N. Brienza.
Intra-abdominal hypertension and acute renal failure in critically ill patients.
Intensive Care Med, 34 (2008), pp. 707-713
[29.]
A.C. Guyton.
Formation of urine by the kidney: renal blood flow, glomerular filtration and their control. Textbook of Medical Physiology.
WB Saunders, (1991),
[30.]
I. De Laet, Ml. Malbrain, J.L. Jadoul, P. Rogiers, M. Sugrue.
Renal implications of increased intra-abdominal pressure: are the kidneys the canary for abdominal hypertension?.
Acta Clin Belg Suppl, 62 (2007), pp. 119-130
[31.]
A. Kirkpatrick, R. Colistro, K.B. Laupland, D.L. Fox, D. Konkin, V. Kock, et al.
Renal arterial resistive index response to intraabdominal hypertension in a porcine model.
Crit Care Med, 35 (2007), pp. 207-213
[32.]
J.M. Doty, B.H. Saggi, H.J. Sugerman, C.R. Blocher, R. Pin, I. Fakhry, et al.
The effect of increased intra-abdominal pressure on renal function.
J Trauma, 47 (1999), pp. 1000-1003
[33.]
J. Wauters, P. Claus, N. Brosens, M. McLaughlin, M. Malbrain, A. Wilmer.
Pathophysiology of renal hemodynamics and renal cortical microcirculation in a porcine model of elevated intra-abdominal pressure.
J Trauma, 66 (2009), pp. 713-719
[34.]
Z. Peng, L. Critchley, G. Joynt, P. Gruber, C. Jenkins, A. Ho.
Effects of norepinephrine during intra-abdominal hypertension on renal blood flow in bacteremic dogs.
Crit Care Med, 36 (2008), pp. 834-841
[35.]
J.M. Doty, B.H. Saggi, C.R. Blocher, I. Fakhry, T. Gehr, D. Sica, et al.
Effect of increased renal parenchymal pressure on renal function.
J Trauma, 48 (2000), pp. 874-877
[36.]
G.L. Bloomfield, C.R. Blocher, I.F. Fakhry, D.A. Sica, H.J. Sugerman.
Elevated intra-abdominal pressure increases plasma renin and aldosterone levels.
J Trauma, 42 (1997), pp. 997-1005
[37.]
D.J. Cullen, J.P. Coyle, R. Teplick, M.C. Long.
Cardiovascular, pulmonary, and renal effects of massively increased intraabdominal pressure in critically ill patients.
Crit Care Med, 17 (1989), pp. 118-125
[38.]
P.C. Ridings, G.L. Bloomfield, C.R. Blocher, H.J. Sugerman.
Cardiopulmonary effects of raised intra-abdominal pressure before and after intravascular volume expansion.
J Trauma, 39 (1995), pp. 1071-1075
[39.]
J. Kashtan, J.F. Green, E.Q. Parsons, J.W. Holcroft.
Hemodynamic effects of increased abdominal pressure.
J Surg Res, 30 (1981), pp. 249-255
[40.]
M. Chang, P. Miller, R. D’Agostino, M. Wayne.
Effects of abdominal decompression on cardiopulmonary function and visceral perfusion in patients with intra-abdominal hypertension.
J Trauma, 44 (1998), pp. 440-445
[41.]
M.L. Cheatham, M.L. Malbrain.
Cardiovascular implications of abdominal compartment syndrome.
Acta Clin Belg Suppl, 1 (2007), pp. 98-112
[42.]
C.B. Caldwell, J.J. Ricotta.
Changes in visceral blood flow with elevated intra-abdominal pressure.
J Surg Res, 43 (1987), pp. 14-20
[43.]
C. Ince.
The microcirculation is the motor of sepsis.
Crit Care, 4 (2005), pp. S13-S19
[44.]
P. Olofsson, S. Berg, H. Ahn, L.H. Brudin, T. Vikstro, K.M. Johansson.
Gastrointestinal microcirculation and cardiopulmonary function during experimentally increased intra-abdominal pressure.
Crit Care Med, 37 (2009), pp. 230-239
[45.]
J.D. Richardson, J.K. Trinkle.
Hemodynamic and respiratory alterations with increased intra-abdominal pressure.
J Surg Res, 20 (1976), pp. 401-410
[46.]
L. Gattinoni, P. Pelosi, P.M. Suter, A. Pedoto, P. Vercesi, A. Lissoni.
Acute respiratory distress syndrome caused by pulmonary and extrapulmonary disease. Different syndromes?.
Am J Respir Crit Care Med, 158 (1998), pp. 3-11
[47.]
V.M. Ranieri, N. Brienza, S. Santostasi, F. Puntillo, L. Mascia, N. Vitale, et al.
Impairment of lung and chest wall mechanics in patients with acute respiratory distress syndrome: role of abdominal distension.
Am J Respir Crit Care Med, 156 (1997), pp. 1082-1091
[48.]
M.L. Malbrain, D. Deeren, R. Nieuwendijk, T.J. De Potter.
Partitioning of respiratory mechanics in intra-abdominal hypertension.
Intensive Care Med, 29 (2003), pp. S85
[49.]
T. Mutoh, W.J. Lamm, L.J. Embree, J. Hildebrandt, R.K. Albert.
Volume infusion produces abdominal distension, lung compression, and chest wall stiffening in pigs.
J Appl Physiol, 72 (1992), pp. 575-582
[50.]
P. Pelosi, G. Foti, M. Cereda, P. Vicardi, L. Gattinoni.
Effects of carbon dioxide insufflation for laparoscopic cholecystectomy on the respiratory system.
Anaesthesia, 51 (1996), pp. 744-749
[51.]
M. Quintel, P. Pelosi, P. Caironi, J.P. Meinhardt, T. Luecke, P. Herrmann, et al.
An increase of abdominal pressure increases pulmonary edema in oleic acid induced lung injury.
Am J Respir Crit Care Med, 169 (2004), pp. 534-541
[52.]
C. Ferrer, E. Piacentini, E. Molina, J. Trenado, B. Sánchez, J.M. Nava.
Higher peep levels results in small increases in intraabdomial pressure in critical care patients.
Intensive Care Med, 34 (2008), pp. S140
[53.]
E.J. Hazebroek, J.J. Haitsma, B. Lachmann, H.J. Bonjer.
Mechanical ventilation with positive end-expiratory pressure preserves arterial oxygenation during prolonged pneumoperitoneum.
Surg Endosc, 16 (2002), pp. 685-689
[54.]
C.B. Caldwell, J.J. Ricotta.
Changes in visceral blood flow with elevated intraabdominal pressure.
J Surg Res, 43 (1987), pp. 14-20
[55.]
M.H. Friedlander, R.J. Simon, R. Ivatury, R. DiRaimo, G.W. Machiedo.
Effect of hemorrhage on superior mesenteric artery flow during increased intra-abdominal pressures.
J Trauma, 45 (1998), pp. 433-489
[56.]
L.N. Diebel, S.A. Dulchavsky, R.F. Wilson.
Effect of increased intra-abdominal pressure on mesenteric arterial and intestinal mucosal blood flow.
J Trauma, 33 (1992), pp. 45-48
[57.]
M. Schafer, H. Sagesser, J. Reichen, L. Krähenbühl.
Alterations in hemodynamics and hepatic and splanchnic circulation during laparoscopy in rats.
Surg Endosc, 15 (2001), pp. 1197-1201
[58.]
Y. Yavuz, K. Ronning, O. Lyng, J.E. Grønbech, R. Mårvik.
Effect of carbon dioxide pneumoperitoneum on tissue blood flow in the peritoneum, rectus abdominis, and diaphragm muscles.
Surg Endosc, 17 (2003), pp. 1002-1007
[59.]
M. Blobner, R. Bogdanski, E. Kochs, J. Henke, A. Findeis, S. Jelen-Esselborn.
Effects of intraabdominally insufflated carbon dioxide and elevated intraabdominal pressure on splanchnic circulation: an experimental study in pigs.
Anesthesiology, 89 (1998), pp. 475-482
[60.]
M. Sugrue, F. Jones, A. Lee, M.D. Buist, S. Deane, A. Bauman, et al.
Intraabdominal pressure and gastric intramucosal pH: is there an association?.
World J Surg, 20 (1996), pp. 988-991
[61.]
F. Bongard, N. Pianim, S. Dubecz, S. Klein.
Adverse consequences of increased intraabdominal pressure on bowel tissue oxygen.
J Trauma, 39 (1995), pp. 519-525
[62.]
L.A. Schwarte, T.W. Scheeren, C. Lorenz, F. De Bruyne, A. Fournell.
Moderate increase in intra-abdominal pressure attenuates gastric mucosal oxygen saturation in patients undergoing laparoscopy.
Anesthesiology, 100 (2004), pp. 1081-1087
[63.]
S.M. Jakob.
Clinical review: splanchnic ischaemia.
Crit Care, 6 (2002), pp. 306-312
[64.]
N.J. Gargiulo III, R.J. Simon, W. Leon, G.W. Machiedo.
Hemorrhage exacerbates bacterial translocation at low levels of intra-abdominal pressure.
Arch Surg, 133 (1998), pp. 1351-1355
[65.]
L.N. Diebel, S.A. Dulchavsky, W.J. Brown.
Splanchnic ischemia and bacterial translocation in the abdominal compartment syndrome.
J Trauma, 43 (1997), pp. 852-855
[66.]
E. Eleftheriadis, K. Kotzampassi, K. Papanotas, N. Heliadis, K. Sarris.
Gut ischemia, oxidative stress, and bacterial translocation in elevated abdominal pressure in rats.
World J Surg, 20 (1996), pp. 11-16
[67.]
K. Kotzampassi, D. Paramythiotis, E. Eleftheriadis.
Deterioration of visceral perfusion caused by intra-abdominal hypertension in pigs ventilated with positive endexpiratory pressure.
Surg Today, 30 (2000), pp. 987-992
[68.]
L.N. Diebel, R.F. Wilson, S.A. Dulchavsky, J. Saxe.
Effect of increased intra-abdominal pressure on hepatic arterial, portal venous, and hepatic microcirculatory blood flow.
J Trauma, 33 (1992), pp. 279-282
[69.]
T. Nakatani, Y. Sakamoto, I. Kaneko, H. Ando, K. Kobayashi.
Effects of intra-abdominal hypertension on hepatic energy metabolism in a rabbit model.
J Trauma, 44 (1998), pp. 446-453
[70.]
S. Kimura, T. Yoshioka, M. Shibuya, T. Sakano, R. Tanaka, S. Matsuyama.
Indocyanine green elimination rate detects hepatocellular dysfunction early in septic shock and correlates with survival.
Crit Care Med, 29 (2001), pp. 1159-1163
[71.]
A. Escorsell, A. Ginés, J. Llach, J.C. García-Pagán, J.M. Bordas, J. Bosch, et al.
Increasing intra-abdominal pressure increases pressure, volume, and wall tension in esophageal varices.
Hepatology, 36 (2002), pp. 936-940
[72.]
L.G. Josephs, J.R. Este-McDonald, D.H. Birkett, E.F. Hirsch.
Diagnostic laparoscopy increases intracranial pressure.
J Trauma, 36 (1994), pp. 815-819
[73.]
G.L. Bloomfield, P.C. Ridings, C.R. Blocher, A. Marmarou, H.J. Sugerman.
A proposed relationship between increased intra-abdominal, intrathoracic, and intracranial pressure.
Crit Care Med, 25 (1997), pp. 496-503
[74.]
R.J. Rosenthal, R.L. Friedman, A.M. Kahn, J. Martz, S. Thiagarajah, D. Cohen, et al.
Reasons for intracranial hypertension and hemodynamic instability during acute elevations of intra-abdominal pressure: observations in a large animal model.
J Gastrointest Surg, 2 (1998), pp. 415-425
[75.]
P.J. Andrews, G. Citerio.
Intracranial pressure. Part one: historical overview and basic concepts.
Intensive Care Med, 30 (2004), pp. 1730-1733
[76.]
G. Citerio, E. Vascotto, F. Villa, S. Celotti, A. Pesenti.
Induced abdominal compartment syndrome increases intracranial pressure in neurotrauma patients: a prospective study.
Crit Care Med, 29 (2001), pp. 1466-1471
[77.]
M.A. Miglietta, L.J. Salzano, W.C. Chiu, T.M. Scalea.
Decompressive laparotomy: a novel approach in the management of severe intracranial hypertension.
J Trauma, 55 (2003), pp. 551-554
[78.]
G.L. Bloomfield, J.M. Dalton, H.J. Sugerman, P.C. Ridings, E.J. DeMaria, R. Bullock.
Treatment of increasing intracranial pressure secondary to the acute abdominal compartment syndrome in a patient with combined abdominal and head trauma.
J Trauma, 39 (1995), pp. 1168-1170
[79.]
I. Irgau, Y. Koyfman, J.I. Tikellis.
Elective intraoperative intracranial pressure monitoring during laparoscopic cholecystectomy.
Arch Surg, 130 (1995), pp. 1011-1013
[80.]
M. Sugrue, S. D’Amours.
The problems with the positive end expiratory pressure (PEEP) in association with abdominal compartment syndrome (ACS).
J Trauma, 51 (2001), pp. 419-420
[81.]
B.A. Pruitt Jr..
Protection from excessive resuscitation: “Pushing the pendulum back”.
J Trauma, 49 (2000), pp. 567-568
[82.]
M.L. Malbrain.
Abdominal perfusion pressure asa prognostic marker in intra-abdominal hypertension.
Yearbook of intensive care and emergency medicine, pp. 792-814
[83.]
M.L. Cheatham, M.L. Malbrain.
Abdominal perfusion pressure.
Abdominal compartment syndrome, pp. 69-81
[84.]
M.J. Parr, C.I. Olvera.
Medical management of abdominal compartment syndrome.
Abdominal compartment syndrome, pp. 232-239
[85.]
M.B. Estébanez-Montiel, M.A. Alonso-Fernández, A. Sandiumenge, M.J. Jiménez-Martín.
Grupo de Trabajo de Analgesia y Sedación de la SEMICYUC. Prolonged sedation in intensive care units.
Med Intensiva, 32 (2008), pp. 19-30
[86.]
I.R. Mertens zur Borg, S.J. Verbrugge, K.A. Kolkman.
Anesthetic considerations in abdominal compartment syndrome.
Abdominal compartment syndrome, pp. 254-265
[87.]
I. De Laet, E. Hoste, E. Verholen, J.J. De Waele.
The effect of neuromuscular blockers in patients with intra-abdominal hypertension.
Intensive Care Med, 33 (2007), pp. 1811-1814
[88.]
S. Fruhwald, P. Holzer, H. Metzler.
Intestinal motility disturbances in intensive care patients pathogenesis and clinical impact.
Intensive Care Med, 33 (2007), pp. 36-44
[89.]
Z. Balogh, B.A. McKinley, J.B. Holcomb, C.C. Miller, C.S. Cocanour, R.A. Kosar, et al.
Both primary and secondary abdominal compartment syndrome can be predicted early and are harbingers of multiple organ failure.
J Trauma, 54 (2003), pp. 848-859
[90.]
G.B. Drummond, M.K. Duncan.
Abdominal pressure during laparoscopy: effects of fentanyl.
Br J Anaesth, 88 (2002), pp. 384-388
[91.]
A. Wilmer, H. Dits, M.L. Malbrain, E. Frans, J. Tack.
Gastric emptying in the critically ill. The way forward.
Intensive Care Med, 23 (1997), pp. 928-929
[92.]
V. Vachharajani, L.K. Scott, L. Grier, S. Conrad.
Medical management of severe intraabdominal hypertension with aggressive diuresis and continuous ultra-filtration.
Internet J Emerg Intensive Care Med, (2003), pp. 6
[93.]
A. Umgelter, W. Reindl, M. Franzen, C. Lenhardt, W. Huber, R.M. Schmid.
Renal resistive index and renal function before and after paracentesis in patients with hepatorenal syndrome and tense ascites.
Intensive Care Med, 35 (2009), pp. 152-156
[94.]
M.W. Parra, H. Al-Khayat, H.G. Smith, M.L. Cheatham.
Paracentesis for resuscitationinduced abdominal compartment syndrome: an alternative to decompressive laparotomy in the burn patient.
[95.]
Z. Balogh, F.A. Moore, C.E. Goettler, M.F. Rotondo, C.W. Schwab, M.J. Kaplan.
Surgical management of abdominal compartment syndrome.
Abdominal compartment syndrome, pp. 266-296
[96.]
M.L. Cheatham, K. Safcsak.
Is the evolving management of IAH/ACS improving survival?.
Acta Clin Belg, 62 (2007), pp. 268
[97.]
M.B. Drakulovic, A. Torres, T.T. Bauer, J.M. Nicolas, S. Nogue, M. Ferrer.
Supine body position as a risk factor for nosocomial pneumonia in mechanically ventilated patients: a randomized trial.
Lancet, 354 (1999), pp. 1851-1858
[98.]
C. Ferrer, E. Piacentini, J. Trenado, J.M. Nava.
Intra-abdominal pressure measured in supine position underestimates the real value in mechanical ventilated patients.
Intensive Care Med, 33 (2007), pp. 32
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