PURPOSE: Therapy of unresectable hepatic metastases may include tumor necrosis factor (TNF)-alpha treatment. Because of its serious systemic side effects, TNF-alpha is only used in isolated hepatic perfusion. This, however, is a technically demanding procedure with a substantial mortality rate. The infusion of TNF-alpha via the hepatic artery without hepatic isolation would be less invasive. Systemic side effects, however, have not been studied yet. Therefore, we evaluated in pigs the effects of TNF-alpha hepatic artery infusion (HAI) on systemic hemodynamics, inflammation, and organ injury. METHODS: Animals were randomized in three groups. In group 1, HAI was performed with 0.9% NaCl (n = 6). In group 2, 20 microg/kg TNF-alpha (n = 6), and in group 3, 40 microg/kg TNF-alpha (n = 6) were added. HAI was performed over 15 min, followed by 120 min of observation. Finally, 250 ml hydroxyethylstarch (HAES; 6%) was administered for resuscitation and hemodynamics were analyzed for another 30 min. RESULTS: Hepatic artery TNF-alpha infusion did not cause complications such as bleeding, cardiac depression, pulmonary dysfunction, or SIRS. TNF-alpha induced a 30% decrease of MAP and systemic vascular resistance, as well as a rise in heart rate and endexspiratory pCO(2). TNF-alpha also moderately (10-20%) lowered the cardiac preload and induced a metabolic acidosis, which, however, could easily be controlled. TNF-alpha HAI did not induce liver toxicity, and all hemodynamic changes normalized either spontaneously within the 120-min observation period, or, at least, after HAES resuscitation. CONCLUSIONS: TNF-alpha-based HAI, which may represent a minimally invasive alternative to isolated hepatic perfusion, can be performed without early systemic hemodynamic complications.
PURPOSE: Therapy of unresectable hepatic metastases may include tumor necrosis factor (TNF)-alpha treatment. Because of its serious systemic side effects, TNF-alpha is only used in isolated hepatic perfusion. This, however, is a technically demanding procedure with a substantial mortality rate. The infusion of TNF-alpha via the hepatic artery without hepatic isolation would be less invasive. Systemic side effects, however, have not been studied yet. Therefore, we evaluated in pigs the effects of TNF-alpha hepatic artery infusion (HAI) on systemic hemodynamics, inflammation, and organ injury. METHODS: Animals were randomized in three groups. In group 1, HAI was performed with 0.9% NaCl (n = 6). In group 2, 20 microg/kg TNF-alpha (n = 6), and in group 3, 40 microg/kg TNF-alpha (n = 6) were added. HAI was performed over 15 min, followed by 120 min of observation. Finally, 250 ml hydroxyethylstarch (HAES; 6%) was administered for resuscitation and hemodynamics were analyzed for another 30 min. RESULTS: Hepatic artery TNF-alpha infusion did not cause complications such as bleeding, cardiac depression, pulmonary dysfunction, or SIRS. TNF-alpha induced a 30% decrease of MAP and systemic vascular resistance, as well as a rise in heart rate and endexspiratory pCO(2). TNF-alpha also moderately (10-20%) lowered the cardiac preload and induced a metabolic acidosis, which, however, could easily be controlled. TNF-alpha HAI did not induce liver toxicity, and all hemodynamic changes normalized either spontaneously within the 120-min observation period, or, at least, after HAES resuscitation. CONCLUSIONS:TNF-alpha-based HAI, which may represent a minimally invasive alternative to isolated hepatic perfusion, can be performed without early systemic hemodynamic complications.
Authors: A M Eggermont; H Schraffordt Koops; J M Klausner; B B Kroon; P M Schlag; D Liénard; A N van Geel; H J Hoekstra; I Meller; O E Nieweg; C Kettelhack; G Ben-Ari; J C Pector; F J Lejeune Journal: Ann Surg Date: 1996-12 Impact factor: 12.969
Authors: B C Vrouenraets; B B Kroon; A C Ogilvie; A N van Geel; O E Nieweg; A J Swaak; A M Eggermont Journal: Ann Surg Oncol Date: 1999-06 Impact factor: 5.344