MICROANGIOPATHIC HEMOLYTIC ANEMIA

Dr. Brijendra Bahadur Singh KGMU, LUCKNOW Microangiopathic Hemolytic A nemia

PATHOGENESIS Mechanical shearing of RBC membranes as the cell rapidly pass through turbulent areas of small blood vessels partially blocked by micro thrombi or damaged endothelium. Upon shearing , RBC membranes quickly reseal with minimal escape of hemoglobin and schistocytes are formed. Thromobocytopenia occurs due to consumption of platelets in the thrombi formed in microvasculature

Schistocytes in the PBS- Characteristic feature Grading of schistocytes - Fragmented red cells as % off all red cells - <1% - occasional 1%- 3% - 1+ 3% - 6%- 2+ 6%- 12%- 3+ >12% - 4+ Helmet cells , Microspherocytes , polychromasia & nRBC Thrombocytopenia

Causes of MAHA Thrombotic thrombocytopenic purpura(TTP) Hemolytic uremic syndrome(HUS) HELLP syndrome Disseminated intravascular coagulation Severe burns Malignant hypertension SLE, Scleroderma Drugs- C yclosporin , G emcitabane , M itomycin – c C. difficile, R. rickettsii , B. anthracis

THROMBOTIC THROMBOCYTOPENIC PURPURA Moschowitz syndrome Most common in adults, 4 th decade, F>M Characterized by MAHA severe thrombocytopenia serum LDH activity Neurological dysfunction, fever and renal failure Deficiency of vWF cleaving protease known as a disintegrin and metalloproteinase with a thrombospondin type 1 motiff , member 13( ADAMTS- 13 )

Pathogenesis of TTP ( contd.) ADAMTS13 serves an important antithrombotic function by preventing VWF excessive binding and activating platelets Platelets- VWF microthrombi block small blood vessels results in thrombocytopenia, ischemia in brain, kidney and other organs; and hemolytic anemia due to RBC rupture Intravascular hemolysis and extensive tissue ischemia result in a striking increase in serum LDH

TYPES OF TTP Idiopathic Secondary Inherited

Idiopathic TTP No precipitating event Autoantibodies to ADAMTS13 Autoantibodies are usually IgG class but can be IgM or IgA

Secondary TTP I nfections, pregnancy, surgery, trauma, inflammation and disseminated malignancy possibly by depressing the synthesis of ADAMTS13 Inhibitory reaction to ADAMTS13 occurs in conditions like hematopoietic stem cell transplantation; autoimmune disorders; HIV; drugs like quinine, ticlopidine and trimethoprim

Inherited TTP Upshaw- schulman syndrome Severe ADAMTS13 deficiency by mutation in the ADAMTS13 gene May present in infancy or childhood with recurrent episodes

Laboratory findings of TTP and HUS Hematologic- ↓hemoglobin ↓platelets ↑ reticulocyte count PBS- Schistocytes Polychromasia nRBC (severe cases)

Biochemical ↑ LDH activity ↑ serum total and indirect bilirubin ↓ serum haptoglobin level Hemoglobinemia Hemoglobinuria Proteinuria Hematuria

Treatment of TTP Idiopathic TTP - 80 to 90% patients respond to plasma exchange therapy Corticosteroids are useful to suppress autoimmune response Rituximab - in relapsing TTP Secondary TTP - do not respond well to plasma exchange, prognosis is poor except for TTP is related to autoimmune disease, pregnancy and ticlodipine use Inherited TPP - infusion of fresh frozen plasma

HEMOLYTIC UREMIC SYNDROME Characterized by MAHA, thrombocytopenia and acute renal failure Two types- 1-Typical HUS 2- Atypical HUS Typical HUS- K/A S higa toxin – associated HUS or S tx - HUS Comprises 90% cases of HUS Most common cause is infection with S higa toxin producing Escherichia coli (STEC) such as serotype O157:H7, some strains of S higella have also implicated

Pathogenesis of typical HUS Absorbed from the intestine into plasma Gb3 glycolipid receptors( CD77) on endothelial cells particularly in glomerulus and brain Inhibit protein synthesis, causes endothelial cell injury and apoptosis Shiga toxin along with other cytokines secreted causes prothrombotic changes – expression of TF, secretion of ULVWF multimers Platelet activation and formation of platelet- fibrin thrombi results in blockage of microvasculature of glomeruli- Acute renal failure

Atypical HUS 10% of cases Uncontrolled activation of alternative complement system 50% to 70% of patients have inherited mutations in gene Inactivating mutations in genes for complement regulatory proteins including complement factor H, complement factor I, membrane cofactor protein and thrombomodulin Activating mutations in genes for complement factor B and C3 An acquired form of aHUS is associated with autoantibodies against complement factor H in 5 %to 10% of cases

HELLP SYNDROME Hemolysis, elevated liver enzymes and low platelet count < 1% of all pregnancies but develops in approximately 10 % to 20% of pregnancies with severe preeclampsia( mc 3 rd trimester) Exact pathogenesis is not known In pre-eclampsia, abnormalities in the development of placental vasculature result in poor perfusion and hypoxia Antiangiogenic proteins are released from the placenta that blocks the action of placental growth factors Continued vascular insufficiency leads to endothelial cell dysfunction causing platelet activation and fibrin deposition in the microvasculature, particularly in liver

Anemia, biochemical evidence of hemolysis and schistocytes in pbs Platelet count is < 100x10 9 /L ↑Serum LDH activity ↑Serum aspartate aminotransferase activity ↓ platelet count, ↑LDH, ↑aspartate aminotransferase activity are major diagnostic criteria for the HELLP syndrome Therapy includes delivery of fetus and placenta as soon as possible, control seizures, hypertension and fluid balance Mortality rate for mother – 3% to 5% and for fetus- 9% to 24%

DISSEMINATED INTRAVASCULAR COAGULATION Defibrination syndrome or consumption coagulopathy Generalized activation of hemostasis secondary to systemic disease Fibrin microthrombi partially occlude vessels and consume platelets, coagulation factors, coagulation control proteins and fibrinolytic enzymes Fibrin degradation products including D- dimer, become elevated

Acute and uncompensated DIC- deficiencies of multiple hemostasis components C hronic DIC- normal or even elevated clotting factors levels In chronic DIC, liver coagulation factor production and bone marrow platelet production compensate for increased consumption Although DIC is a thrombotic process, thrombi are small and ineffective, so systemic hemorrhage is first or most apparent sign Acute DIC is often fatal and requires immediate medical intervention

CAUSES

Pathogenesis of DIC (contd.) Circulating thrombin is major culprit , activates platelets, activates coagulation proteins and catalyzes fibrin formation Fibrinolytic system may become activated at the level of plasminogen Endothelial cell damaged releasing coagulation active substances Leukocytes particularly monocytes may be induced to release tissue factor Fibrin monomers fails to polymerize and coats platelets and coagulation proteins creating anticoagulant effect

Plasmin circulates in plasma and digests all forms of fibrinogen and fibrin Fibrin degradation products labeled X, Y, D , E and D dimer are detectable in plasma exceeding 20,000ng/mL Symptoms of organ failure such as renal function impairment, ARDS, CNS manifestations Skin , bone and bone marrow necrosis may be seen Purpura fulminans is seen in meningococcemia, chicken pox and spirochete infections

DIC PROFILE TEST REFRENCE INTERVAL VALUE IN DIC Platelet count 1.5-4.5 lac/ <1.5 lac/ Prothrombin time 11-14sec >14 sec PTT 25-35 sec >35 sec D-Dimer 0-240 ng/mL > 240ng/mL, often 10,000 to 20,000 ng/mL Fibrinogen 220-498mg/ dL <220 mg/ dL TEST REFRENCE INTERVAL VALUE IN DIC Platelet count Prothrombin time 11-14sec >14 sec PTT 25-35 sec >35 sec D-Dimer 0-240 ng/mL > 240ng/mL, often 10,000 to 20,000 ng/mL Fibrinogen 220-498mg/ dL <220 mg/ dL

Treatment of DIC Surgery, anti-inflammatory agents, antibiotics, obstetric procedures may normalize hemostasis , particularly in chronic DIC In acute DIC , treatment falls in 2 categories Therapy that slow the clotting process Therapy that replace missing platelets and coagulation factors UFH may be used for its antithrombotic properties but it may aggravate bleeding so careful observation and support needed

Thawed frozen plasma provides all the coagulation factor and replaces blood volume lost Prothrombin complex concentrate, fibrinogen concentrate and factor VIII concentrate may be used in place of plasma Repeated measurements of fibrinogen, PT, PTT Platelet transfusion if severe thrombocytopenia Red blood cells are administered to treat anemia Antifibrinolytic therapy is contraindicated, except in proven systemic fibrinolysis

A 25 year old pregnant lady presents with thrombocytopenia(platelet count< 50,000) and fragmented RBC’S in peripheral smear. Which of the following is the least likely differential diagnosis? A- Thrombotic thrombocytopenic purpura B- Disseminated intravascular coagulation C- HELLP syndrome D- Evans’s syndrome

What RBC morphology is characteristically found in Microangiopathic hemolytic anemia A- M acrocytosis and polychromasia B- S chistocytes and microspehrocytes C- H owell- jolly bodies and bite cells D- Burr cells and crenated cells

A 36 years old woman was brought to the emergency department by her husband because she had experienced a seizure. He reported that she had been well until that morning, when she complained of sudden headache and ,malaise. She was not taking any medications and had no history of previous surgery or pregnancy. Laboratory studies showed a WBC count of 15x10 9 /L, Hb - 7.8g/ dL , platelet count of 18x10 9 /L and schistocytes and helmet cells in peripheral blood film. Chemistry test results included markedly raised serum LDH activity and slight increase in total and indirect bilirubin. The urinalysis results were positive for protein and blood, but there were no RBCs in urine sediment. PT and PTT were with in reference interval. Which of the following in the most likely diagnosis A- HUS B-HELLP C-TTP D-DIC

ADAMTS13 deficiency is associated with: A- HELLP syndrome B- DIC C- TTP D- HUS

Which of the following tests yields results that are abnormal in DIC but are usually within reference interval or just slightly abnormal in TTP and HUS A- Indirect serum bilirubin and serum haptoglobin B- Prothrombin time and partial thromboplastin time C- LDH and AST D- Serum creatinine and serum total protein

Weibel – palade bodies are storage granules for A- Thrombin B- Collagen C- VWF D- Epinephrine

MICROANGIOPATHIC HEMOLYTIC ANEMIA

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