Resuscitation after uncontrolled venous hemorrhage: Does increased resuscitation volume improve regional perfusion?

BACKGROUND Recent studies have questioned the use of aggressive fluid resuscitation after uncontrolled arterial hemorrhage until the bleeding is controlled. However, it remains unknown whether resuscitation after hemorrhage from a venous origin (usually nonaccessible to surgical intervention) has any beneficial or deleterious effects on regional perfusion. The aim of this study, therefore, was to determine whether increased volume of fluid resuscitation after uncontrolled venous hemorrhage improves hemodynamic profile and regional perfusion in various tissues. MATERIALS AND METHODS After methoxyflurane anesthesia and midline laparotomy, both lumbar veins in the rat were severed, which resulted in lowering the mean arterial blood pressure to approximately 40 mm Hg. This pressure was maintained for 45 minutes by allowing further bleeding from the lumbar veins. The abdominal incision was then closed in layers and the animals received either 0, 10, or 30 mL of lactated Ringer's solution intravenously over a period of 60 minutes. Cardiac output and regional blood flow were determined by radioactive microspheres immediately or at 1.5 hours after the completion of resuscitation. RESULTS Fluid resuscitation with 10 or 30 mL lactated Ringer's solution increased mean arterial blood pressure and cardiac output immediately after resuscitation compared with the nonresuscitated animals. At both time points, regional perfusion in the heart, kidney and intestines remained significantly decreased compared with the sham values, irrespective of the volume of fluid resuscitation. Moreover, no further improvements in hemodynamics or regional perfusion occurred when volume resuscitation was increased from 10 mL to 30 mL. Total hepatic blood flow, however, increased with 10 mL lactated Ringer's solution compared with the other hemorrhage groups and the increase was evident even at 1.5 hours after resuscitation. CONCLUSIONS Fluid resuscitation after uncontrolled venous bleeding transiently increased cardiac output and mean arterial blood pressure compared with nonresuscitated animals. Moderate fluid administration, i.e., 10 mL, however, did increase total hepatic blood flow. In contrast, increasing the resuscitation volume to 30 mL did not improve hemodynamic parameters or regional perfusion. Thus moderate instead of no resuscitation or larger volume of resuscitation is recommended in an uncontrolled model of venous hemorrhage.

[1]  L. Flint Judgment driven resuscitation--new acquaintance or old friend? , 1996, Shock.

[2]  G. Shires,et al.  Effects of isotonic saline solution resuscitation on blood coagulation in uncontrolled hemorrhage. , 1996, Surgery.

[3]  A. Peitzman,et al.  Improved outcome with fluid restriction in treatment of uncontrolled hemorrhagic shock. , 1995, Journal of the American College of Surgeons.

[4]  A. Barber,et al.  Isotonic Saline Resuscitation in Uncontrolled Hemorrhage Under Various Anesthetic Conditions , 1995, Annals of surgery.

[5]  A. Banerjee,et al.  Whither immediate fluid resuscitation? , 1994, The Lancet.

[6]  L. Jacobs Timing of fluid resuscitation in trauma. , 1994, The New England journal of medicine.

[7]  P E Pepe,et al.  Immediate versus delayed fluid resuscitation for hypotensive patients with penetrating torso injuries. , 1994, The New England journal of medicine.

[8]  W C Watson,et al.  Limiting initial resuscitation of uncontrolled hemorrhage reduces internal bleeding and subsequent volume requirements. , 1994, The Journal of trauma.

[9]  S. Stern,et al.  Effect of blood pressure on hemorrhage volume and survival in a near-fatal hemorrhage model incorporating a vascular injury. , 1993, Annals of emergency medicine.

[10]  W. Shoemaker,et al.  Relationship between supranormal circulatory values, time delays, and outcome in severely traumatized patients , 1993, Critical care medicine.

[11]  I. Chaudry,et al.  Crystalloid is as effective as blood in the resuscitation of hemorrhagic shock. , 1992, Annals of surgery.

[12]  Z. Ba,et al.  Mechanism of the beneficial effects of ATP-MgCl2 following trauma-hemorrhage and resuscitation: downregulation of inflammatory cytokine (TNF, IL-6) release. , 1992, The Journal of surgical research.

[13]  C. Wade,et al.  The detrimental effects of intravenous crystalloid after aortotomy in swine. , 1991, Surgery.

[14]  T. Kowalenko,et al.  Improved outcome with hypotensive resuscitation of uncontrolled hemorrhagic shock in a swine model. , 1991, The Journal of trauma.

[15]  P. Pepe,et al.  Prospective evaluation of preoperative fluid resuscitation in hypotensive patients with penetrating truncal injury: a preliminary report. , 1991, Journal of Trauma.

[16]  Z. Ba,et al.  Hepatocellular dysfunction persists during early sepsis despite increased volume of crystalloid resuscitation. , 1991, The Journal of trauma.

[17]  E. Moore,et al.  Incommensurate oxygen consumption in response to maximal oxygen availability predicts postinjury multiple organ failure. , 1991, The Journal of trauma.

[18]  I. Chaudry,et al.  Crystalloid resuscitation restores but does not maintain cardiac output following severe hemorrhage. , 1991, The Journal of surgical research.

[19]  R. Demling,et al.  Posttraumatic multisystem organ failure. , 1988, JAMA.

[20]  M. Krausz,et al.  Is hypertonic saline resuscitation safe in 'uncontrolled' hemorrhagic shock? , 1988, The Journal of trauma.

[21]  E. Faist,et al.  Multiple organ failure in polytrauma patients. , 1983, The Journal of trauma.

[22]  D. Coln,et al.  FLUID THERAPY IN HEMORRHAGIC SHOCK. , 1964, Archives of surgery.

[23]  M. Krausz,et al.  Quantitative measurement of bleeding following hypertonic saline therapy in 'uncontrolled' hemorrhagic shock. , 1989, The Journal of trauma.