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Basics

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BASICS

Definition!!navigator!!

Decreased erythrocyte count or hemoglobin content as a consequence of a decrease in PCV, RBC count, or Hb concentration.

Pathophysiology!!navigator!!

  • Anemia results from 1 or more of the following:
    • Blood loss (internal or external hemorrhage)
    • Increased RBC destruction (intravascular or extravascular hemolysis)
    • Decreased or ineffective RBC production
  • Characterization of anemia (regenerative vs. nonregenerative) is best done by examining bone marrow aspirates. Serial monitoring of PCV and plasma TP concentration may be useful
    • Evaluation of immature RBCs and RBC indices in peripheral blood is unrewarding in horses, even during intense erythropoiesis
  • The circulating RBC mass varies due to the effects of breed, age, activity, and splenic contraction, which can increase the RBCs by ~50%
  • Nonregenerative anemia occurs when the rate of erythropoiesis is insufficient to replace aged RBCs, and develops slowly due to the long lifespan of equine RBCs ( 150 days)
  • Mechanisms associated with nonregenerative anemia include:
    • Diseases interfering with erythropoiesis ( erythrocyte life span or erythropoietin responsiveness)
    • Deficiency or alterations in substances necessary for RBC production
    • Diseases that damage or displace bone marrow elements and affect RBC precursors and/or all marrow precursors

Systems Affected!!navigator!!

Decreased circulating RBC mass, decreased oxygen-carrying capacity, and reduced blood viscosity are the main consequences of anemia, but severity is dependent on the magnitude and rate of development of anemia.

Genetics!!navigator!!

Hereditary disorders of hemostasis may contribute to blood loss anemia.

Incidence/Prevalence!!navigator!!

Dependent upon etiology.

Geographic Distribution!!navigator!!

See Anemia, Heinz body.

Signalment!!navigator!!

There is no breed, sex, or age predilection.

Signs!!navigator!!

General Comments

Clinical signs relate to the compensatory mechanisms activated in response to anemia as well as the primary disease process (often more prominent).

Historical Findings

  • Dependent upon primary disease process
  • Most common presenting complaints are exercise intolerance, signs of depression, and inappetence

Physical Examination Findings

  • Horses with chronic anemia may be subclinical, but exercise may induce exaggerated tachycardia, weakness, and reduced performance
  • In acute or severe cases, tachycardia, tachypnea, and low-grade holosystolic heart murmur are present at rest
  • Pale mucous membranes
  • Other signs depend on the primary disease process and may include:
    • Icterus, fever, and pigmenturia (hemolysis)
    • Weight loss, polyuria, and polydipsia (chronic renal failure)
    • Weight loss, fever, and lethargy (chronic infectious, inflammatory, neoplastic, or immune-mediated processes)

Causes!!navigator!!

Hemorrhage

External hemorrhage, epistaxis, hemothorax, hematuria, hemoperitoneum, GI hemorrhage, or coagulopathy.

Hemolysis

  • Immune-mediated disease (secondary immune-mediated anemia, autoimmune hemolytic anemia or NI)
  • Infectious diseases (piroplasmosis, anaplasmosis, and EIA)
  • Oxidant induced (red maple, phenothiazines, and wild onions)
  • Iatrogenic (hypotonic or hypertonic IV solutions)
  • Other toxicities (IV DMSO, heavy metal toxicosis, bacterial toxins, snake bite)
  • Miscellaneous (endstage hepatic disease, hemolytic uremic syndrome, hemangiosarcoma, and disseminated intravascular coagulation)

Nonregenerative Anemia

  • Anemia of chronic disease associated with infectious, inflammatory, neoplastic, or endocrine disorders
  • Iron deficiency due to chronic hemorrhage or nutritional deficiency
  • Bone marrow failure (myelophthisis, myeloproliferative disease, bone marrow toxins, radiation, immune mediated)
  • Miscellaneous (chronic renal disease, chronic hepatic disease, or recent hemorrhage/hemolysis)

Risk Factors!!navigator!!

  • Dependent on risk factors for the primary disease process
  • Age (e.g. neoplasia, middle uterine artery rupture) and sex (e.g. idiopathic urethral hemorrhage in geldings)
  • Any infectious or inflammatory disease
  • Foals consuming incompatible colostrum are at risk for NI
  • Inadequate preventative anthelmintic use or long-term high-dose NSAID administration
  • Geographic location for exposure to infectious agents or toxic plants

Diagnosis

Outline

DIAGNOSIS

Differential Diagnosis!!navigator!!

  • Identification of the basic mechanisms involved, using historical, clinical, hematologic, and biochemical findings
  • Severe hemorrhage or hemolysis should be suspected with sudden onset of clinical signs or a history of trauma
  • Chronic nonregenerative anemia secondary to infectious, inflammatory, or neoplastic conditions may be associated with fever and weight loss
  • Laboratory error may result in a falsely low PCV or RBC count and falsely high MCH and MCHC

CBC/Biochemistry/Urinalysis!!navigator!!

  • PCV, RBC count, and (except in IV hemolysis) Hb concentrations below the lower limit of reference intervals
  • Reticulocytes, nucleated RBCs, Howell–Jolly bodies, polychromasia, anisocytosis, and RBC indices are less useful for classification of anemia in horses
  • A moderate increase in MCV (hemolytic anemia) and red cell distribution width (hemorrhagic anemia) may occur 2–3 weeks after onset of regenerative anemia
  • Increased MCH values may indicate free Hb (hemolysis) while decreased MCH, MCHC, and mean cell volume may indicate iron deficiency anemia
  • Heinz bodies may be observed with hemolytic anemia due to oxidative injury
  • Rouleaux formation may complicate recognition of autoagglutination in immune-mediated hemolytic anemia
  • Neoplastic cells may be observed in blood smears with myeloproliferative disorders
  • Severe neutropenia and thrombocytopenia may accompany myelophthisis
  • Blood loss usually results in concomitant decreases in PCV and TP
  • Hemolytic anemia usually results in decreased PCV, normal TP, and marked increases in serum total direct bilirubin concentration with normal liver enzymes
  • Nonregenerative anemia due to inadequate erythropoiesis may be accompanied by normal or increased TP (due to increased globulin and fibrinogen concentrations) and an inflammatory leukogram

Other Laboratory Tests!!navigator!!

  • Positive direct Coombs test is evidence for immune-mediated hemolytic anemia
  • Microscopic examination of blood diluted with saline (1:4) aids in differentiating autoagglutination from rouleaux formation in horses with immune-mediated hemolytic anemia
  • Serum Fe concentration usually is increased, total iron-binding capacity usually decreased, and storage iron usually increased in horses with anemia of chronic disease
  • Serum iron concentration, percentage saturation of transferrin, and storage iron usually are decreased, while total iron-binding capacity usually is increased in iron deficiency anemia
  • Coggins or C-ELISA test for diagnosis of EIA
  • Serology for Babesia, Theileria, or Anaplasma phagocytophilum
  • Identification of organisms in blood smears

Imaging!!navigator!!

As indicated for underlying disease processes.

Other Diagnostic Procedures!!navigator!!

  • Bone marrow aspiration and core biopsy may show increased erythropoiesis and a decreased M:E ratio in horses with regenerative anemia or may reveal decreased erythropoiesis and an increased M:E ratio with nonregenerative anemia. Infiltration with abnormal cell types may be observed in myelodysplasia or myeloproliferative disorders
  • Abdominocentesis or thoracocentesis to detect internal hemorrhage
  • Fecal occult blood to detect GI hemorrhage, but this test lacks sensitivity and specificity
  • Endoscopy to assist in detecting respiratory or GI hemorrhage

Pathologic Findings!!navigator!!

Associated with primary disease.

Treatment

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TREATMENT

Aims!!navigator!!

Aims of therapy are identification and elimination of primary cause of anemia, nursing care, minimizing physiologic stress, ensuring adequate tissue perfusion, and administering blood transfusions if indicated.

Appropriate Health Care!!navigator!!

  • Large-volume isotonic or small-volume hypertonic saline fluid therapy if there are signs of hemorrhagic shock
  • Whole blood or packed RBC transfusion if PCV decreases to < 8–12%, although transfusion may be required despite higher PCV (~20%) in cases of acute blood loss
    • Cross-matching is strongly recommended, particularly if the patient has received previous transfusions or has been pregnant
    • If cross matching is not possible a known Aa/Qa-negative donor should be used, if available
    • If a typed donor is not available then a gelding of the same breed that has never received a transfusion may be a reasonable alternative

Nursing Care!!navigator!!

  • Close monitoring of vital signs, serial determination of PCV and TP, and adjustment of infusion rate are essential in horses receiving fluid therapy
  • Monitor for renal failure induced by hemoglobinuria or hypoxia

Activity!!navigator!!

  • Horses with lethargy, intolerance to mild exercise, or a PCV < 15% should be restricted to stall rest
  • Transport of severely anemic animals may cause clinical deterioration

Diet!!navigator!!

  • Ensure access to oxidative plant toxins is eliminated
  • Oral iron supplementation in horses with confirmed iron deficiency anemia (rare)

Client Education!!navigator!!

Dependent upon etiology.

Surgical Considerations!!navigator!!

May be indicated with significant uncontrolled internal hemorrhage, although this carries a high anesthetic risk. Loss of accumulated blood may be associated with clinical deterioration—consider autotransfusion.

Medications

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MEDICATIONS

Drug(s) of Choice!!navigator!!

Specific therapy of the primary disease process.

Precautions!!navigator!!

  • Severe reactions to transfusions may occur and necessitate careful monitoring and prompt therapy
  • Hypertonic saline should be used with caution in horses with uncontrolled bleeding as it may cause increased blood loss
  • Parenteral administration of iron formulations is not recommended as iron deficiency is extremely rare and serious adverse reactions may occur

Follow-up

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FOLLOW-UP

Patient Monitoring!!navigator!!

Monitor PCV to assess regenerative responses. PCV should increase by an average of 0.5–1% per day within 3–5 days of an acute hemorrhagic or hemolytic episode.

Prevention/Avoidance!!navigator!!

Dependent upon etiology.

Possible Complications!!navigator!!

Hypoxia-associated injury to numerous tissues and organ systems, or death in severe cases.

Expected Course and Prognosis!!navigator!!

Highly dependent upon the cause, severity, and rapidity of onset.

Miscellaneous

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MISCELLANEOUS

Associated Conditions!!navigator!!

Dependent upon etiology.

Age-Related Factors!!navigator!!

Dependent upon etiology.

Pregnancy/Fertility/Breeding!!navigator!!

For discussion of NI, see Anemia, immune mediated

Abbreviations!!navigator!!

  • C-ELISA = competitive enzyme-linked immunosorbent assay
  • DMSO = dimethylsulfoxide
  • EIA = equine infectious anemia
  • GI = gastrointestinal
  • Hb = hemoglobin
  • MCH = mean cell hemoglobin
  • MCHC = mean cell hemoglobin concentration
  • M:E = myeloid-to-erythroid
  • NI = neonatal isoerythrolysis
  • NSAID = nonsteroidal anti-inflammatory drug
  • PCV = packed cell volume
  • RBC = red blood cell
  • TP = total protein

Suggested Reading

Satué K, Muñoz A, Gardón JC. Interpretation of alterations in the horse erythrogram. J Hematol Res 2014;1:110.

Author(s)

Author: Harold C. McKenzie

Consulting Editors: David Hodgson, Harold C. McKenzie, and Jennifer L. Hodgson

Acknowledgment: The author and editors acknowledge the prior contribution of Nicholas Malikedes.