Characteristic for critically ill patients is a hypermetabolism and catabolism that is associated with impairment of the structure and function of essential organs, such as the immune system, kidney, peripheral muscles and the liver. The liver-gut-axis, with liver integrity, metabolism and function are crucial for survival of patients suffering from trauma, operations or infections. The hepatic acute phase response represents a cascade of events characterized by the upregulation of acute phase proteins and the downregulation of constitutive hepatic proteins. The goal of the hepatic acute-phase-response, which is mediated by cytokines and signal transcription factors, is to restore homeostasis. However, multiple studies have shown that a sustained or increased acute phase response is detrimental with the uncontrolled and prolonged action of acute phase proteins. The downregulation of constitutive hepatic proteins may further augment these detrimental effects. Research has focused on the attenuation of the inflammatory response using anti-inflammatory agents or antibodies against pro-inflammatory cytokines such as tumor necrosis (TNF), interleukin-1β (IL-1β), or their receptors. These approaches showed promising results in vitro and in animal models; however, when these approaches entered clinical trials it became evident that these promising animal data could not be substantiated in humans. A different approach is to attenuate the inflammatory cascade by the administration of growth factors. Growth factors exert anabolic effects and affect the inflammatory hepatic metabolism. The present review discusses the effect of recombinant human growth hormone, insulin-like growth factor-I, hepatocyte growth factor and insulin on the hepatic metabolism and homeostasis during inflammation and delineates the therapeutic benefit and limitation of growth factor administration in critically ill patients.