C Robert Valeri1, Richard L Veech. 1. Naval Blood Research Lab Inc., 195 Bournehurst Drive, Plymouth, MA 02360, United States. navblood@nbrl.org
Abstract
BACKGROUND: Recent publications have reported the severe adverse events associated with blood products but have not considered the effect of the volume and composition of the resuscitative fluids infused with the blood products. METHODS: Injury leads to cellular reaction characterized by insulin resistance during which glucose cannot enter muscle and fat cells. In all cells, mitochondrial pyruvate dehydrogenase activity is decreased during insulin deficiency leaving cells deficient in substrates needed to power the Krebs cycle and make ATP. RESULTS: d-β-Hydroxybutyrate, a normal ketone body metabolite, enters cells on the monocarboxylate transport mimicking the action of insulin and bypassing the enzymatic block at PDH. Metabolism of ketone bodies increases efficiency of mitochondrial energy production and cellular ATP level. CONCLUSION: Infusion of 250 ml of 600 mM Na d-β-hydroxybutyrate solution, with the same osmotic strength as the hypertonic NaCl solution currently being used, would correct insulin resistance, provide energy substrates for cells to produce ATP, correct the tendency of injured tissue to swell due to decreased energy of ionic gradients and correct acidosis observed in hemorrhage. Copyright Â
BACKGROUND: Recent publications have reported the severe adverse events associated with blood products but have not considered the effect of the volume and composition of the resuscitative fluids infused with the blood products. METHODS: Injury leads to cellular reaction characterized by insulin resistance during which glucose cannot enter muscle and fat cells. In all cells, mitochondrial pyruvate dehydrogenase activity is decreased during insulin deficiency leaving cells deficient in substrates needed to power the Krebs cycle and make ATP. RESULTS: d-β-Hydroxybutyrate, a normal ketone body metabolite, enters cells on the monocarboxylate transport mimicking the action of insulin and bypassing the enzymatic block at PDH. Metabolism of ketone bodies increases efficiency of mitochondrial energy production and cellular ATP level. CONCLUSION: Infusion of 250 ml of 600 mM Na d-β-hydroxybutyrate solution, with the same osmotic strength as the hypertonicNaCl solution currently being used, would correct insulin resistance, provide energy substrates for cells to produce ATP, correct the tendency of injured tissue to swell due to decreased energy of ionic gradients and correct acidosis observed in hemorrhage. Copyright Â
Authors: Kathryn Maitland; Sarah Kiguli; Robert O Opoka; Charles Engoru; Peter Olupot-Olupot; Samuel O Akech; Richard Nyeko; George Mtove; Hugh Reyburn; Trudie Lang; Bernadette Brent; Jennifer A Evans; James K Tibenderana; Jane Crawley; Elizabeth C Russell; Michael Levin; Abdel G Babiker; Diana M Gibb Journal: N Engl J Med Date: 2011-05-26 Impact factor: 91.245
Authors: Anne L Slaughter; Geoffrey R Nunns; Angelo D'Alessandro; Anirban Banerjee; Kirk C Hansen; Ernest E Moore; Christopher C Silliman; Travis Nemkov; Hunter B Moore; Miguel Fragoso; Kiara Leasia; Erik D Peltz Journal: Shock Date: 2018-05 Impact factor: 3.454