Practical Clin Path Non-Regenerative Anemias

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1 Practical Clin Path Non-Regenerative Anemias
Wendy Blount, DVM

2 Non-Regenerative Anemia
Absolute Reticulocyte Count Non-regenerative <50,000/ul Corrected Percent Reticulocytes <0.5% is non-regenerative Consider the erythropoietin (EPO) level The lower the HCT, the higher the EPO level should be (Idexx BioResearch) Renal disease can be associated with inappropriately low EPO levels EPO level high with bone marrow disease

3 Non-Regenerative Anemia
Less often a primary problem of clinical significance Often resolves when primary problem is treated Often mild to moderate RBC morphology less helpful Usually normocytic normochromic Bone marrow disease and iron deficiency anemia are the clinically significant exceptions Also anemia of renal disease (EPO deficiency) Pancytopenia, bicytopenia suggests bone marrow disease Blood morphology can be helpful

4 Non-Regenerative Anemia
Etiologies Lack of iron Lack of erythropoietin Lack of bone marrow cellular precursors Maturation abnormalities Anemia of chronic inflammation or other systemic disease Moderate non-regenerative anemia can be explained by signs of inflammation and systemic illness

5 Diagnostics for Nonregenerative Anemia
Make sure anemia has been present for at least 1 week before assessing regenerative response Bone Marrow Sampling EPO levels Iron testing Blood Morphology – IDA, infectious organisms, leukemias

6 Lack of Erythropoietin
Renal Disease Lack of EPO production shortened RBC lifespan, bone marrow suppression and GI blood loss can also contribute Look for concurrent IDA Endocrinopathy (mildly low EPO) Hypothyroidism – most common Addison’s disease Growth hormone deficiency

7 Renal Disease – Poor EPO Production
Bone Marrow Normal Increased hemosiderin if ACID Or decreased iron stores if IDA Iron Panel Usually normal IDA also possible EPO levels Normal to modestly reduced Lower in cats with CRF than in dogs Respond well to EPO therapy Uremic toxins suppress bone marrow activity (PTH) Also supplement calcitriol??

8 Anemia of Chronic Liver Disease
Compounded by coagulopathy and blood loss, especially in cats RBC Morphology Abnormal lipid metabolism – acanthocytes, target cells, leptocytes, codocytes Microcytosis in dogs with PSS Bone Marrow - variable + Erythroid hypoplasia due to reduced synthesis of nutrients for hematopoiesis Iron panel Increased hepatic iron, + low serum iron Normal TIBC, UIBC EPO levels - variable

9 Endocrinopathy Decreased tissue oxygen consumption causes moderately low EPO levels Bone Marrow normal Iron panel Serum iron decreased EPO levels modestly reduced Anemia resolves after 3-4 months of thyroxine therapy Less common with Addison's

10 Iron Deficiency Anemia
IDA becomes non-regenerative only if chronic blood loss is prolonged and severe, or if diet is lacking in iron Mother’s milk contains little iron Neonates susceptible to non-regenerative IDA due to parasitism Tissue iron stores depleted Liver, spleen, bone marrow Soluble – ferritin Insoluble – hemosiderin

11 Iron Deficiency Anemia
Blood Smear Microcytic, hypochromic nRBC CBC Decreased MCV <60fl, MCH, MCHC <32 g/dl Iron stores – Definitive Diagnosis (KSU) Serum iron & ferritin markedly decreased Transferrin/TIBC normal to increased Increased UIBC decreased transferrin saturation (% = serum iron/TIBC) Normal 20-60%; IDA <10% Bone marrow Depleted iron stores mild erythroid response EPO levels increased

12 Iron Deficiency Anemia
The most common causes of iron deficiency anemia are chronic GI blood loss and flea anemia Blood loss anemia is first strongly regenerative, then non-regenerative as IDA develops Anemia varies from mild to severe Poikilocytosis and hypochromasia are typical Hypoproteinemia often present Anemia won’t budge until iron is supplemented, even if chronic blood loss is corrected Rapid improvement within a week or two supplementing iron

13 Differential Diagnosis
Microcytic anemia Microcytic but not hypochromic Akita, Shiba Inu, Chow chow Puppies Dyserythropioesis of Springer Spaniels (polymyopathy, cardiac) Chloramphenicol toxicity Iron deficiency anemia Hypochromic (low MCHC <32 g/dl) Microcytic (low MCV <60 fl) Copper Deficiency Cu required for Fe to enter RBC Liver disease Especially portasystemic shunt

14 Anemia of Chronic Inflammatory Disease
Mild-moderate anemia (can be severe in cats) The most common anemia in small animals Can develop within 7-10 days Iron is sequestered in the macrophages, so not available for RBC production Physiologic metabolic response to deprive infectious organisms of iron Apolactoferrin secreted by neutrophils Chelates iron, especially at low pH of inflammation Macrophages have lactoferrin receptors that internalize the chelated iron Results in diversion of iron from ferritin (soluble) to hemosiderin (insoluble)

15 Anemia of Chronic Inflammatory Disease
Activated macrophages remove RBC from circulation Fever shortens RBC lifespan Iron panel Serum iron normal to decreased Ferritin normal to increased Transferrin/TIBC normal to decreased Bone marrow Increased hemosiderin in macrophages Lack of marked erythroid response Myeloid hyperplasia

16 Anemia of Chronic Inflammatory Disease
EPO levels Normal to decreased Treatment Treat underlying problem Iron administration is of little help, and can make matters worse: Chronic overdose - liver failure, GI distress/fibrosis Acute overdose - pulmonary edema, shock Repeated transfusion can cause chronic overdose EPO administration of little help

17 Non-Regenerative IMHA (NRIMHA)
Iron stores normal Bone marrow Maturation arrest at affected stage May see other bone marrow problems: dyserythropoiesis, hematophagocytic syndromes, myelofibrosis, bone marrow necrosis Can do immunologic staining for definitive diagnosis Etiology Immune mediated destruction of erythroid stem cells later than PRCA Treatment Immunosuppression as for IMHA

18 Pure Red Cell Aplasia (PRCA)
Severe anemia – PCV <10-20% Sometimes spherocytes and stomatocytes Iron stores - normal Bone marrow Nearly absent erythroid precursors Etiology FeLV, FIV, parvovirus infection Immune mediated destruction of earliest erythroid stem cells Treatment Immunosuppression as for IMHA

19 Aplastic Anemia Pancytopenia Etiology Estrogen toxicity Drugs
often preceded by leukocytosis for several weeks Neutropenia first then thrombocytopenia then anemia Etiology Estrogen toxicity Iatrogenic Sertoli cell or granulosa cell tumor Drugs AZT, antineoplastics, azathioprine, phenylbutazone, sulfas, fenbendazole, quinidine, thiacetarsemide, phenobarbital, cephalosporins Cats – propylthiouracil, methimazole, griseofulvin Dobermans – presdisposed to sulfa toxicity Dogs with bute toxicity rarely recover

20 Attendee 5 City TX

21 Aplastic Anemia Etiology
Chloramphenicol causes mild, reversible nonregenerative anemia in dogs Infection Ehrlichia (also immune mediated) Bacterial endotoxins, Aflatoxin B Parvovirus DIC (bone marrow necrosis) Idiopathic Bone marrow Hypocellular bone marrow despite spicules, except plasmacytosis May have myelonecrosis Often need bone marrow histopath to confirm

22 Aplastic Anemia Treatment Discontinue bone marrow toxins
Doxycycline 5-10 mg/kg PO BID x 3 weeks 1 week later - if that fails, immunosuppression Prednisone 1 mg/lb/day If not effective after 1-2 weeks, increase to 2 mg/b/day x 1-2 weeks & start azathioprine Then as for resistant IMHA Prophylactic antibiotics Avoid injury that can risk bleeding Transfuse to buy time for bone marrow response WBC recover first, then platelets, then RBC

23 Aplastic Anemia “Panic Numbers”
Weekly rechecks until near normal range If stable and above panic numbers, continue treatment If numbers falling or below panic thresholds, add/increase immunosuppression PCV <15% K9 <12% fel - transfuse, start EPO Neutrophils 1,000-1,500/ul – amoxicillin x 14d Neutrophils <1,000/ul – amoxi + quinolone Neutrophils <500/ul – start GCSF, treat sepsis Platelets <50K/ul at risk for hemorrhage If no vasculitis, often don’t bleed until <10K/ul 6. Platelets <10-15K/ul – vincristine 0.02 mg/kg IV

24 Myelophthisic Disease
Bone marrow has been replaced by something else Tumor cells Fungal granuloma Fibrous tissue fat Hemogram Normocytic, normochronic anemia nRBC

25 Myelophthisic Disease

26 Myelophthisic Disease
Budding fragmentation, dacryocytosis Large platelets or megaplatelets Degenerative left shift

27 Myelophthisic Disease
Myelofibrosis neoplasia Chronic severe hemolytic anemia Congenital anemia Idiopathic myelofibrosis Nonregenerative anemia and thrombocytosis Organomegaly due to EMH Left shift in all 3 cell lines Can not diagnose on bone marrow aspirate Need bone marrow core biopsy

28 Myelophthisic Disease
Bone Marrow Neoplasia May or may not be associated with leukemia Neoplastic cells in peripheral blood Neoplastic cells often found elsewhere Liver, spleen, lymph nodes Myeloproliferative neoplasia Granulocytes and monocytic “non-lymphoid leukemia” Lymphoproliferative Neoplasia Clinical Signs Bone pain Fever, infection, leukopenia Anorexia, lethargy, vomiting, diarrhea May progress to anemia and thrombocytopenia

29 Myelodysplasia Also known as…. Refractory anemias
RARS – Refractory Anemia with Ringed Sideroblasts RAEB – Refractory Anemia with Excess Blasts Refractory Cytopenias RCMD – Refractory Cytopenias with Multilineage Dysplasia Preleukemia (can progress to acute leukemia) Subacute leukemia Dysmyelopoiesis (due to toxicity) Myelodysplastic Syndrome (MDS)

30 Myelodysplasia Many blast cells in the affected line (5-20%)
But they don’t mature in the usual way, due to acquired genetic mutation maturation arrest – atypical (dysplastic) morphology of RBC precursors Hyperplastic bone marrow with 5-20% blasts Etiology drug induced - chloramphenicol FeLV, FIV Idiopathic, immune mediated

31 Myelodysplasia Siderocytes, Sideroblasts
Contain Pappenheimer bodies – iron granules Resembles basophilic stippling Prussian Blue stains Pappenheimer bodies, but not RNA of basophilic stippling RARS – Refractory Anemia with Ringed Sideroblasts Treatment EPO Corticosteroids (DepoMedrol®)

32 Congenital Dyserythropoiesis
English Springer Spaniels Bone marrow - dyserythropoiesis Polymyopathy Cardiac disease Hemogram – poikilocytosis spherocytes, schistocytes, dacryoctyes, codocytes, vacuolated RBC Giant Schnauzers Vitamin B12 malabsorption Chronic non-regenerative anemia and neutropenia Hemogram – anisocytosis, MCV normal, poikilocytosis macrocytes, schistocytes, acanthocytes, elliptocytes, keratocytes, hypersegmented segs, giant platelets Poodles Dyserythropoiesis (PK deficiency like disease), hemolysis, macrocytosis

33 Folate Deficiency hemogram Macrocytosis (increased MCV)
B12 deficiency anemia not observed in dogs and cats, except Giant schnauzers Etiology folate deficiency Distal small intestinal disease Prolonged TMPS administration Increased requirements during pregnancy Treatment Treat small intestinal disease Supplement if giving TMPS for more than 30 days Supplement during pregnancy

34 Feline Leukemia Causes anemia in numerous ways
ACID by susceptibility to pathogens Pure red cell aplasia Aplastic pancytopenia (NRIMHA) Hemolytic anemia due to hemoplasmas IMHA Myelodysplasia Myelofibrosis Hemophagocytic syndrome You can’t treat FeLV anemia intelligently without a bone marrow sample Hemogram Often macrocytic (>52 fl), normochromic Megaloblastic rubricytes Usually non-regenerative

35 Macrophage Proliferative Disorders
Hemophagocytic Syndrome Benign proliferation of macrophages Causes cytopenias Idiopathic or secondary to chronic antigenic stimulation: IMHA, ITP – Evan’s Syndrome Chronic infection Myelodysplastic syndromes neoplasia Malignant Histiocytosis Aggressive histiocytic neoplasia that results in death within weeks to months

36 Summary PowerPoints – Non-Regenerative Anemia .pptx
.pdfs – 1 and 6 slides per page RBC Cases .pptx, .pdfs – 1 and 6 slides per page Caly – FeLV Anemia Cleocatra – Myelodysplastic Syndrome Laboratory Info EPO – Idexx BioResearch Lab Iron Panel – Kansas State U

37 Summary Hidden Slides Pathophysiology erythropoietin Iron metabolism

38 Acknowledgements Chapter 2: The Complete Blood Count, Bone Marrow Examination, and Blood Banking Douglass Weiss and Harold Tvedten Small Animal Clinical Diagnosis by Laboratory Methods, eds Michael D Willard and Harold Tvedten, 5th Ed 2012 Chapter 3: Erythrocytes Disorders

39 Acknowledgements Chapter 59: Pallor Wallace B Morrison
Textbook of Veterinary Internal Medicine, eds Stephen J Ettinger and Edward C Feldman, 6th Ed 2003 Challenging Anemia Cases Crystal Hoh, ACVIM Heart of Texas Veterinary Specialty Center CAVMA CE