Summary
Forty cases of hemolysis (drop of hematocrit > 12%/12 h) were retrospectively analyzed for hyperamylasemia and pancreatic complications. In 15 subjects the serum amylase level was > 360 U/l, i.e., three times the normal range, in ten the amylase level exceeded 900 U/l. Excluding patients in circulatory shock and/or hepatic coma, acute pancreatitis as defined by an elevation of serum amylase and clinical signs (epigastric pain) was present in four, with additional ultrasound findings (pancreatic swelling) and/or laparatomy/postmortem findings in a further six subjects (total ten patients = 25%) with various causes of hemolysis: autoimmune hemolysis 2, microangiopathic hemolytic anemia 2, toxicemia, G-6-PDH deficiency, septic abortion, malaria, Wilson's disease, and hypophosphatemia, one case each. In all subjects acute renal failure and in seven an activation of intravascular coagulation was seen. Three patients died (33% vs 47% of all hyperamylasemic patients and 46% of the whole group), but none of the deaths was attributed to pancreatitis. Pancreatic postmortem findings were diffuse edema and patchy parenchymal necrosis in two cases and petechial bleeding in one case. We conclude that acute pancreatitis is a complication of massive hemolysis, occurring at a prevalence of above 20%. It may progress from diffuse edema and inflammation to focal necrosis, rarely if ever to gross hemorrhage, and does not contribute to the high mortality of massive hemolysis. Back pain in hemolysis might originate from the pancreas rather than from the kidneys.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Araki T, Ueda M, Taketa K, Kosaka K (1989) Pancreatic-type hyperamylasemia in end-stage renal disease. Dig Dis Sci 34: 1425–1427
Baker WF (1989) Clinical aspects of disseminated intravascular coagulation. Semin Thromb Hemost 15: 1–57
Berk JE, Fridhandler L, Ness RL (1979) Amylase and isoamylase activities in renal insufficiency. Ann Intern Med 90: 351–353
Bess MA, Edis AJ, van Heerden JA (1980) Hyperparathyreoidism and pancreatitis. Chance or causal association? JAMA 243: 246–247
Goldfinger D (1977) Acute hemolytic transfusion reactions — a fresh look at pathogenesis and considerations regarding therapy. Transfusion 17: 85–98
Martin W, Villani GM, Jothianandan D, Furchgott RF (1985) Selective blockage of endothelium-dependent and glyceryl trinitrate-induced relaxation by hemoglobin and by methylene blue in the rabbit aorta. J Pharmacol Exp Ther 232: 708–716
Merendino KA, Manhas DR (1973) Man-made gallstones: a new entity following cardiac valve replacement. Ann Surg 177: 696–699
Rabiner SF, Friedman LH (1968) The role of intravascular hemolysis and the reticuloendothelial system in the production of a hypercoagulable state. Br J Haematol 126: 1127–1132
Rutzky EA, Robards M, van Dyke JA, Bostand SG (1986) Acute pancreatitis in patients with end-stage renal disease without transplantation. Arch Intern Med 146: 1741–1744
Sadrzadeh SMH, Graf E, Panter S, Hallaway PE, Eaton JW (1984) Hemoglobin. A biologic Fenton reagent. J Biol Chem 259: 14354–14356
Steer ML (1986) Etiology and pathophysiology of acute pancreatitis. In: Go VLW (ed) The exocrine pancreas: biology, pathology, and diseases. Raven, New York, pp 465–474
Walker JF, Cronin CJ, Donohoe JF, Carmody M, O'Dwyer WF (1981) Acute severe intravascular hemolysis: an unrecognized cause of pancreatitis. Br Med J 282: 1929
Warshaw AL, O'Hara PJ (1978) Susceptibility of the pancreas to ischemic injury in shock. Ann Surg 188: 197–201
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Druml, W., Laggner, A.N., Lenz, K. et al. Pancreatitis in acute hemolysis. Ann Hematol 63, 39–41 (1991). https://doi.org/10.1007/BF01714959
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01714959