Oxidation of exposed sulfhydryl gro

Oxidation of exposed sulfhydryl groups on hemoglobin causes formation of disulfide bonds and distortion of the tertiary structure of the hemoglobin molecule. The result is precipitation of hemoglobin, which may then coalesce to form intracellular inclusions called Heinz bodies. Small, non-pathologic “endogenous” Heinz bodies can be found in blood of many healthy cats, but their presence is abnormal in other species. Increased numbers of these “endogenous” Heinz bodies are found in cats with diabetes mellitus (associated with ketone production), lymphoma and hyperthyroidism. Although many of these cats are not anemic, their red blood cell lifespans are reduced and they have lower hematocrits than cats with the same disease but lower numbers of Heinz bodies.

Heinz bodies may be seen in Wright’s stained smears, especially if they are large and distort the red cell membrane. In contrast, small “endogenous” Heinz bodies, such as those that can be seen in cats, are harder to visualize. Heinz bodies can be easily observed with supravital stains, such as new methylene blue, as illustrated in the picture below.
Extensive Heinz body formation and attachment to the membrane increase the rigidity of the red blood cells and render them susceptible to fragmentation and entrapment in the spleen where they are phagocytized.
Diagnosis of an oxidant-induced hemolytic anemia is based on finding a regenerative anemia with characteristic red blood cell morphologic abnormalities of Heinz bodies and eccentrocytes. Some causes of oxidant injury also cause intravascular red blood cell lyse (rupturing of red blood cell membranes) and manifest with hemoglobinemia and hemoglobinuria. Some animals may also develop methemoglobinemia (brown plasma) from oxidant-induced injury to the iron in hemoglobin (reduced iron or Fe2+ is converted to oxidized iron or Fe3+ in the porphyrin of hemoglobin, producing methemoglobin). Note, that methemoglobemia, Heinz bodies or eccentrocytes may dominate in a particular condition. Causes of oxidant-induced hemolytic anemia are:

Inherited disorders: Enzyme deficiencies (necessary for enzyme function) in pathways that guard against oxidant injury can result in oxidant-induced hemolytic anemia, e.g. Glucose-6-phosphate dehydrogenase (G6PD) in horses, or methemoglobinemia, e.g. flavin adenine dinucleotide (FAD) deficiency in horses.
Toxins: Wilted red maple leaves (horses, camelids), Pistachia species (horses), Brassica spp. (kale, turnips; cattle), zinc (dogs ingesting pennies minted after 1982), copper (sheep), skunk musk (dogs, red panda), naphthalene (dogs), nitrate (cattle), onions.
Drugs: Acetaminophen, vitamin K1, phenothiazine drenches, benzocaine, propofol. These act as oxidants.
Mineral deficiency: Selenium is necessary for the function of enzymes that protect against oxidant injury. Selenium deficiency in cattle can result in oxidant injury to red blood cells.