Hematology Flashcards

Question

Sickle Cell Disease Splenic sequestration - Dx: ___megaly and ______ suggest the diagnosis of acute splenic sequestration. - Tx: IV ____ and ____ decrease sequestration in the spleen and alleviate symptoms.

Answer 1

Sickle Cell Disease Splenic sequestration - Dx: Splenomegaly and thrombocytopenia suggest the diagnosis of acute splenic sequestration. - Tx: IV hydration and RBC transfusion decrease sequestration in the spleen and alleviate symptoms.

Answer 2

Sickle Cell Disease Acute chest syndrome (ACS) - Development of new pulmonary infiltrate with fever, chest pain, tachypnea, and/or hypoxia. - It is the leading cause of death in adolescents and adults with SCD. - Tx: Respiratory support, hydration (if necessary), and antibiotics that cover pneumococcus, Mycoplasma, and Chlamydia. Exchange transfusions are administered to pts with significant hypoxia and respiratory distress and to those who do not improve with appropriate respiratory support, hydration, and antibiotic therapy.

Answer 3

Sickle Cell Disease ``` Aplastic crisis (red cell aplasia) - Path: Occurs bc of infection with parvovirus B19. ``` - Characterized by a falling hemoglobin (over 1-3 days) and reticulocytopenia. The low retic count differentiates aplastic crisis from other causes of worsening anemia.

Answer 4

Sickle Cell Disease Stroke - Acute tx: - Emergent exchange transfusion, which should be done even before an MRI in pts with sickle cell who are diagnosed with a stroke on the basis of the physical examination. - In addition, pts with SCD who have had a stroke require chronic RBC transfusion to keep the HbS <30% to reduce the risk of recurrence. - Screening: - Use transcranial Doppler ultrasound to screen children with HbSS and HbSB0, starting at 2yo. To prevent strokes, chronic RBC transfusions are recommended for children with abnormally high TCD velocities.

Answer 5

Sickle Cell Disease Moyamoya disease - Occurs in some pts with SCD and is the collateral formation of vessels due to vascular occlusion. The vessels on angiography appear to be a cluster of vessels with a smoky appearance - Risk factor for stroke

Answer 6

Sickle Cell Disease Priapism - Prolonged, painful erection. - Management include hydration and pain control. In many cases, aspiration of the corpora cavernosa and irrigation with a dilute solution of epinephrine rapidly alleviates the condition.

Answer 7

Sickle cell trait (HbAS) - Pt - Unusual to have any sickle cell-related complications, except in cases of extreme physical exertion or low oxygen tension (eg unpressurized aircraft, high altitude). - Hyposthenuria (inability to concentrate urine) and renal papillary necrosis with gross hematuria are the most common complications.

Answer 8

Hemoglobin SC disease (HbSC) - HbC occurs bc of the substitution of lysine for the glutamic acid residue in the 6th position of the B-globin chain. - Pt - Usually less anemia and have less severe hemolysis than those with HbSS. - Splenomegaly remains throughout adolescence and adulthood. - Adolescents are at risk for retinal disease and avascular necrosis of the hips. - Peripheral smears show microcytosis and target cells but not irreversibly sickled cells.

Answer 9

Hemoglobin C disease (HbCC) - Pt: Mild hemolytic anemia and splenomegaly but do not have vaso-occlusive problems. - RBCs are microcytic with large number of target cells on peripheral smear.

Answer 10

Hemoglobin E disease (HbEE) | - Pt: Mild hemolytic anemia with significant microcytosis, hypochromia, and target cells.

Answer 11

Autoimmune hemolytic anemia (AIHA; warm, cold, or paroxysmal) - Labs: Severe, normocytic anemia with a marked reticulocytosis, suggesting destructive process (rather than RBC production failure) - Management - it is a true hematologic emergency - Emergent transfusion of a “least-incompatible” unit of packed RBCs - Rapid initiation of immune suppression with corticosteroids - Other immunosuppressive agents, including rituximab, are used when systemic corticosteroids fail.

Answer 12

1) Warm AIHA - IgG antibodies specific for the Rh group of RBC antigens can bind to these antigens at body temperature. - IgG-coated RBCs and spherocytes are sequestered by the spleen. - Positive direct antibody test findings for IgG is diagnostic of a warm AIHA - The direct Coombs test reveals what components (IgG or C3) are “directly” attached to the patient’s RBCs, suggesting an autoimmune reaction. - The indirect Coombs test reveals antibodies in the pt’s serum that have the potential to bind to RBCs.

Answer 13

2) Cold agglutinin disease - Can occur with Mycoplasma and Epstien-Barr virus. IgM-RBC complexes lyse complement and cause intravascular hemolysis. - IgM disease is Coombs negative - Positive Coombs test for complement C3d only and negative with IgG

Answer 14

3) Paroxysmal cold hemoglobinuria - Caused by cold-reacting IgG (Donath-Landsteiner antibody). This antibody binds at cold temperatures and causes RBC lysis at warm temperatures. PCH is common after viral illness, and tx is supportive. - Positive direct antibody test for complement but negative for IgG - Tx: Keep the pt warm and use a blood warmer for transfusions. Consider plasmapheresis for severe disease. Steroids are less helpful than with warm AIHA.

Answer 15

``` NEUTROPENIA Very severe: <200 neutrophils/uL Severe neutropenia = ANC <500 cells/uL Moderate neutropenia = 500-1000 cells/uL Mild neutropenia = 1000-1500 cells/uL ```

Answer 16

Cyclic Neutropenia - In ⅓ of patients, the disorder is inherited in an AD pattern. - Neutropenia occurs at regular interval every 21 +/- 3 days. - Mutations involve the ELANE/ELA2 gene. - Pt: - During 3-5 day periods of neutropenia, which usually have an ANC <200 cells/uL, pt usually presents with fever, aphthous stomatitis, cervical lymphadenitis, and/or rectal and vaginal ulcers. - Management: G-CSF and antibiotics for infections. Oral hygiene is important.

Answer 17

Severe Congenital Neutropenia (Kostmann Syndrome) - Rare AR disorder. - Pt: ANC is typically <200 cells/uL. - Management: G-CSF (often at high dose). BMT is curative.

Answer 18

Severe Chronic Neutropenia - AD neutropenia - Pt: Neutropenia is often the only presenting signs. - Tx: G-CSF

Answer 19

Shwachman-Diamond Syndrome - AR disorder resulting from mutations in the SBDS gene. - 2nd most common cause of exocrine pancreatic insufficiency in children (after CF) - Pt: Characterized by multisystem involvement. - Children present with features similar to those of children with cystic fibrosis, including failure to thrive, steatorrhea due to pancreatic exocrine insufficiency, and recurrent infections. - Unique features include neutropenia and metaphyseal dysostoses. - Exocrine pancreatic insufficiency (EPI): Foul-smelling diarrhea, steatorrhea, sx of fat malabsorption. Fecal pancreatic elastase will be low (indicative of EPI) - Hematologic abnormalities/Bone marrow dysfunction: Intermittent or persistent Neutropenia is universal finding. Anemia and thrombocytopenia are commonly present as well - Short stature is a consistent feature for more than half of individuals - Skeletal abnormalities including metaphyseal dysostosis, thoracic dystrophy with rib cage abnormalities, and costochondral thickening - Diagnostic: - It is recommended that pts suspected of having SDS undergo genetic mutational analysis for SBDS, DNAJC21, and EFL1 genes, which are definitive causes of SDS. - Sweat test is normal - Tx: - Supportive care with pancreatic enzyme replacement (PERT) and, depending on frequency and severity of infections, G-CSF administration of BMT. - Hematopoietic stem cell transplant can cure the hematologic abnormalities of SDS but does not improve the remainder of the disease phenotype - Pts are predisposed to myelodysplastic syndrome and AML/leukemia.

Answer 20

Cartilage-Hair Hypoplasia - Autosomal recessive form of short-limb dysostosis. - Pt: - Characterized by sparse or fine hair. - Pts are at high risk for autoimmune disease - Tx: BMT is the TOC for those with recurrent severe infections.

Answer 21

Neonatal Isoimmune Neutropenia - Self-limited disease that occurs in 1/1000 newborns - Path: - Similar to Rh disease except maternal antibodies result from maternal sensitization to neutrophil antigens that are shared by the fetus and the father but are absent from the mother’s neutrophils. - Infant’s neutrophil count recovers in 6-12 weeks. - Any infection requires quick, appropriate antibiotic therapy. Subsequent siblings are at risk for the same condition.

Answer 22

Chronic Benign Neutropenia / Autoimmune neutropenia (AIN) - The most common cause of neutropenia in “healthy” children and must be differentiated from more serious forms of neutropenia. It can be AD or sporadic. - Path: Autoantibodies to granulocytes - Pt: - Characterized by persistently low ANC <1000 cells/uL - Median age of diagnosis of 8-11 months and typically lasts about 2 years. - Dx: Antineutrophil antibody usually positive. - Tx: Disease is mild and usually does not require treatment. G-CSF is given for severe infections.

Answer 23

Virus-Induced Immune-Related Neutropenia - Most common etiology of neutropenia in children is viral infection resulting in transient bone marrow suppression. - Tx: Viral-induced neutropenia is very common and does not require specific treatment

Answer 24

Myeloperoxidase deficiency - AR disorder - The absence of myeloperoxidase from azurophilic granules in neutrophils is the most common neutrophil disorder. - Pt: Recurrent mild infections but usually is completely asymptomatic due to variable expression of the defect. - Dx: Confirmed by finding the absence of neutrophil myeloperoxidase.

Answer 25

``` Dyskeratosis congenita (aka Zinsser-Cole-Engman syndrome): - Congenital neutropenia syndrome ``` - Abnormal skin pigmentation, nail dystrophy, and leukoplakia of the oral mucosa - Disease initially mainly affects the skin, but a major consequence is progressive bone marrow failure, which occurs in over 80% of patients. The abnormal skin pigmentation includes changes in cutaneous pigmentation and premature graying. - Pts can have continuous lacrimation due to atresia of the lacrimal ducts as well.

Answer 26

Loffler syndrome - Hypereosinophilia, endocardial fibrosis, and mural thrombi. - Tx: Corticosteroids, vinca alkaloids, hydroxyurea, and if necessary BMT.

Answer 27

4 inherited platelet disorders cause abnormal platelet morphology: 1) Bernard-Soulier syndrome (large platelets) 2) Wiskott-Aldrich syndrome (small platelets) 3) MYH9-related disorders, including May-Hegglin anomaly (large platelets; white cell inclusions called Dohle bodies) 4) Gray platelet syndrome (pale platelets)

Answer 28

Wiskott-Aldrich syndrome - Extremely rare X-linked disorder that presents with thrombocytopenia with very small platelets (in contrast to ITP in which platelets are large), eczema, and an immune deficiency

Answer 29

Myosin heavy chain 9 (MYH9) disorders - AD mutations - Pt: Bleeding tendency and renal failure, sensorineural hearing loss, and/or cataracts. - Characteristics on the blood smear include macrothrombocytes and Dohle bodies in WBCs.

Answer 30

Thrombocytopenia with absent radius (TAR) syndrome - AR disoder - Pt: - Thrombocytopenia is severe - Thrombocytopenia in the 1st year can be life-threatening, but severe bleeding can be prevented through the use of prophylactic transfusions of single-donor platelets - Bilateral absent radii with shortened forearms with flexion at the elbow, resulting in appearance of clubbed arms but with sparing of the thumb. - Absent radii are a hallmark that distinguishes TAR from other congenital thrombocytopenia - The NORMAL thumb helps to distinguish this disorder from Fanconi anemia or diamond-blackfin or Trisomy 18, in which thumbs are abnormal - Other defects of the upper extremities, cardiac defects (like ToF), a persistently elevated WBC count, and anemia - Congenital heart disease (most often ASD, isolated VSD, or ToF) occurs in 30-35% of patients with TAR syndrome. - Tx: If necessary for clinically significant bleeding, is best accomplished with platelet transfusion

Answer 31

Pseudothrombocytopenia - If pt has an unexpected thrombocytopenia, then review the blood smear. In some cases, platelet clumping results in a factitiously low platelet count on the automated reader.

Answer 32

Immune (Idiopathic) thrombocytopenic Purpura (ITP) - Path: Type II hypersensitivity reaction: Autoimmune platelet-specific antibodies against platelet membrane glycoproteins result in destruction of platelets in spleen - Pt: 1st sign is usually acute petechiae and ecchymosis most common, mucocutaneous bleeding (epistaxis, hematuria, GI bleeding). Antecedent viral infection (in preceding 1-6 weeks) or immunization is found in a large percentage of those affected. - 1. Thrombocytopenia (platelet count <150,000) - Platelet counts normalize in nearly 80% of children with ITP within 12mo of diagnosis - 2. A classic purpuric rash - 3. Normal bone marrow proven by biopsy - 4. The absence of signs of other causes of thrombocytopenia - Work up: Peripheral smear. Peripheral smear with megathrombocytes / megakaryocytes (large platelets but not as large as RBCs; vs giant platelets indicated inherited platelet disorder Bernard-Soulier vs small platelets in Wiskott Aldrich) - Bottom line: The bone marrow is cranking out the platelets as fast as it can, but the destructive process is eliminating them just as fast. - Dx: Diagnosis of exclusion. - Tx: - No bleeding (Skin manifestations only) and platelet count >10,000/uL: observe and monitor platelet count over time - Bleeding (petechia does not count) or platelet count <10,000/uL - 1) IVIG - 2) Glucocorticoids - 3) Anti-Rh(D) immunoglobulin - If ITP becomes chronic, splenectomy, immunosuppressive agents, or thrombopoietin mimetics are treatment options.

Answer 33

Evans syndrome | - ITP is found in association with AIHA.

Answer 34

Thrombotic Thrombocytopenic Purpura (TTP) - Antibodies against ADAMTS13, a protease that breaks down ultra-large von Willebrand factor (vWF) multimers. - Pt: Anemia, thrombocytopenia - Lab findings: Elevated LDH, hyperbilirubinemia, and azotemia. - Dx based on classic pentad: - 1) Thrombocytopenia (usually profound, little/no bleeding) - 2) Microangiopathic hemolytic anemia (may be mild, few schistocytes) - 3) Neurologic dysfunction (typically fluctuating) - 4) Renal dysfunction (mild azotemia, rarely overt renal failure) - 5) Fever (in about 80%) - Condition is life-threatening bc of the risk of thrombosis in small arteries supplying the heart and CNS - Tx: Emergent plasmapheresis and corticosteroids

Answer 35

Neonatal autoimmune thrombocytopenia due to Maternal idiopathic thrombocytopenic purpura or maternal systemic lupus erythematosus - Path: Maternal IgG antiplatelet antibodies cross the placenta and result in increased destruction of fetal platelets - Tx: - Administer IVIG. - IVIG is given during the 3rd trimester to mothers who have ITP, esp if there is maternal bleeding. - IVIG is also given to the newborn with a platelet count <20,000. - If the newborn also has intracranial hemorrhage (<1% risk), give steroids and platelet transfusions as well.

Answer 36

Neonatal alloimmune thrombocytopenia (NAIT) - Path: Maternal antibody production to an antigen expressed on fetal platelets that is not expressed on maternal platelets. Fetal platelets express a paternally inherited antigen - Tx: Self-limiting, requiring only temporary support.

Answer 37

Kasabach-Merritt syndrome - Destruction of platelets in certain vascular tumors of the skin, liver, or spleen. These tumors include tufted angiomas and kaposiform hemangioendotheliomas. - Pt: - Usually presents early in life. - Clinical syndrome characterized by giant hemangiomas and severe thrombocytopenia. - Dx: Diagnostic criteria include: - 1. Documented hemangioma of the skin or internal organs - 2. Thrombocytopenia and consumptive coagulopathy - 3. Other causes for the abnormalities have been excluded, such as hypersplenism or idiopathic thrombocytopenic purpura - Management: - Medications (steroids, vincristine, propranolol, and interferon-alpha) and supportive care.

Answer 38

Von Willebrand disease - Usually autosomal dominant. - Path: Decreased function or absence of von Willebrand factor due to mutations. - Von Willebrand factor is a linking factor that allows functional platelets to bind to exposed subendothelium / connective tissue proteins/collagen/fibrin to form a clot. - Pt: Menorrhagia is a frequent 1st manifestation of vWD - Labs: - Normal PT, normal/prolonged PTT. Normal platelet count (except mild thrombocytopenia in type 2b vwd) - PTT is usually normal but is prolonged in severe subtypes (due to decreased Factor 8), whereas PT is always normal. - Initial screening tests: Decreased (<30 IU/dL) Plasma von willebrand factor antigen (vwF:Ag, measures total amount of vwf protein present), decreased (<30 IU/dL) Plasma vwf activity (Ristocetin cofactor activity (vwf:RCo) and vwf collagen binding (vwf:CB), decreased/normal factor 8 activity. - Classification determined by Ristocetin:vwF antigen ratio - Type 1 (ratio >0.5-0.7): - AD, most common - Partial quantitative deficiency (due to a decrease in the amount of vWF) - Type 2 (4 subtypes: 2A, 2B, 2M, 2N): Results from qualitative problem - Type 2A - decreased binding of vWF to platelets - Type 2B - increased binding of vWF to platelets, but it is a bleeding disorder. - Type 2M - decreased binding of vWF to platelets - Type 2N - decreased binding of vWF to Factor 8 - Type 3: - AR - Total deficiency of vWF with undetectable vWF levels and low Factor 8 levels - Very serious bleeding phenotype - Dx: A family history of either VWD or bleeding symptoms is required for the diagnosis of VWD. - Diagnosis of Type 1 vWD is confirmed with the combination of all of the following: - Decreased vWF antigen - Proportional decrease in Factor 8 activity (vWF protein is a cofactor of Factor 8) - Proportional decrease in biologic activity, as measured by the ristocetin cofactor (rCoF) assay) - Tx: - DDAVP causes a release of stored vWF and Factor 8 from endothelial cells. DDAVP may be used to treat and prevent bleeding in most patients with Type 1 vWD and some patients with Type 2A. - Trial of DDAVP (Stimate) by looking at if Ristocetin cofactor and Factor 8 increase in response to DDAVP. - Patients with Type 1 and Type 2A who do not respond to DDAVP or have major bleeding or surgery are treated with vWF/Factor 8 concentrates. - For type 2B, 2N, type 3 are required to be treated with vWF/Factor 8.

Answer 39

Bernard-Soulier syndrome - Disorder of platelet function. - AR disorder with mild thrombocytopenia and giant, abnormal platelets that do not aggregate in response to ristocetin but do aggregate in response to ADP, epinephrine, or collagen. - Path: Abnormality is a deficiency of platelet glycoprotein 1b (GP1b) in the platelet membrane, which results in the inability of the platelets to aggregate properly. - Normal PT, PTT, and platelet count. - Dx: Reduced platelet aggregation response to ristocetin

Answer 40

Glanzmann Thrombasthenia - Deficiency in the GP2b/3a complex. Pts are unable to aggregate platelets. - Autosomal recessive disorder with normal platelet counts and poor platelet aggregation in response to ADP, epinephrine, and collagen. - Path: Due to an abnormality in the genes encoding the alphaIIb-beta3 integrin fibrinogen receptor. This results in the inability of platelets to bind fibrinogen and aggregate. - Pt: Severe mucocutaneous bleeding starting in infancy - Epinephrine aggregation test helps to diagnose Glanzmann thrombasthenia.

Answer 41

Drug-induced platelet dysfunction - Aspirin irreversibly inactivates platelet cyclooxygenase, which alters platelet function for the entire lifespan of the platelet. - NSAIDs reversibly inhibit platelet function.

Answer 42

Platelets are an acute phase reactant. Thrombocytosis in children is usually due to a reaction to some secondary cause: acute or chronic infection, iron deficiency anemia, inflammatory disorders, or acute blood loss. It is a benign condition and does not require specific therapy.

Answer 43

Essential thrombocythemia - Rare myeloproliferative disorder with persistent platelet counts >1,000,000 - Thrombosis and bleeding commonly occur bc platelet function is abnormal - Pts who are not bleeding are treated with a platelet aggregation inhibitor, such as aspirin.

Answer 44

PANCYTOPENIA Decrease in more than 1 blood cell line (leukocytes, erythrocytes, or thrombocytes) - Pancytopenia with reticulocytopenia raises concern about bone marrow failure or leukemia. - Any time a child exhibits multiple cytopenias, a bone marrow evaluation should be considered.

Answer 45

Aplastic Anemia - Aplastic anemia is a stem cell disorder with the clinical presentation of pancytopenia, rather than anemia, and therefore is a misnomer. Aplastic anemia involves all cell lines, whereas aplastic crisis involves the red cell line only. - Path: - Cause is unknown in >50% of cases, with the remainder due to certain drugs, toxins, infections, or radiation exposure. - Idiosyncratic causes are sulfa drugs, gold, chloramphenicol, and insecticides. - Include hepatitis, CMV, EBV, HIV, and parvovirus testing in the initial evaluation of aplastic anemia. - In addition, evaluate children with aplastic anemia for inherited bone marrow failure syndromes (IBMFS). - Pt: - Combination of bruising and pallor suggests a marrow disorder affecting >1 cell line. - Lab: Normocytic/macrocytic anemia (INCREASED MCV), leukopenia, reticulocytopenia (hallmark is inappropriately low reticulocyte count), thrombocytopenia - Evaluation: - Bone marrow biopsy evaluation for percent cellularity is necessary in evaluation with pancytopenia - Pts have hypocellularity with decrease in all cell lines and fatty infiltration of marrow or acellular bone marrow - While acute leukemia most often presents with hypercellular bone marrow, aplastic anemia presents with markedly hypocellular marrow - Diagnostic criteria for severe aplastic anemia: At least 2 severe cytopenias (ANC <500, plt <20,000, or retic <60,000) and bone marrow cellularity of <25% - Treatment: - Immunosuppressive therapy with antithymocyte globulin (ATG), cyclosporine, and prednisone offers a complete response rate of 65%, although relapses are common. - Matched BMT, is available, has a 10-year survival rate of >80% - A patient treatment medically is at risk for a secondary malignancy if the pt has an underlying IBMFS.

Answer 46

Fanconi Anemia - most common congenital cause of aplastic anemia - AR or XLD. - Path: Poor DNA repair mechanisms. - Pt: - Presents with pancytopenia. - Classically, present with short stature, absent or abnormal thumbs, abnormal radii, microcephaly, cafe-au-lait spots, dark pigmentation, and renal anomalies - THUMB HYPOPLASIA is a common clinical feature - Patients have a 15% risk of developing AML. - Can present as macrocytic anemia with or without other cytopenias - Tx: BMT is the only known cure for aplasia, but it does not decrease risks of other cancers. Do not confuse with Fanconi Syndrome, which is a renal condition characterized by generalized proximal tubular dysfunction.

Answer 47

Red Cell Aplasia - Defined by anemia in the setting of reticulocytopenia. - Differentiating the 3 red cell aplasias below - Parvovirus B19 usually occurs in school-aged children and has associated fever, rash, and arthropathy - TEC typically occurs in children 1-4 yo and has normocytic RBCs and no rash, fever, or arthropathy - DBA is most often diagnosed in children <1yo and has macrocytic RBCs. Pts also often have congenital deformities.

Answer 48

Parvovirus B19 - Pt: - In an otherwise healthy pt, this is a transient phenomenon and is often asymptomatic. - However, chronic infection with red cell aplasia can be seen in the immunocompromised - Remember: In patients with hemolytic anemias such as sickle cell disease, parvovirus B19 infection can cause an aplastic crisis. - Pt: - Suspect in patients presenting with red cell aplasia in the setting of fever, rash, and/or arthropathy. - The rash can have a “slapped cheek” presentation of erythema infectiosum, one of the presentations or parvovirus B19 seen in otherwise healthy children. - Tx: Supportive. IVIG is prescribed for complicated cases in immunosuppressed patients

Answer 49

Transient erythroblastopenia of childhood - Acquired, self-limited condition seen in previously healthy children between 1-3 yo (under 4 years old) - Path: Unknown. - Labs: NORMOCYTIC anemia, absolute reticulocytopenia. Normal MCV - New-onset isolated normocytic anemia with reticulocytopenia in a healthy toddler (no congenital anomalies) should raise suspicion for transient erythroblastopenia of childhood. - Management: - Idiopathic, self-limited anemia. In most cases, anemia resolves in 1-2 months without transfusions, and does not recur. - Supportive care with transfusion for symptomatic anemia while waiting for the bone marrow to start producing red cells again. - Pts should be followed with serial CBC and reticulocyte counts to insure the expected full erythropoietic recovery.

Answer 50

Congenital Hypoplasia Anemia (Diamond-Blackfan Anemia) - AD - Path: Intrinsic defect of erythroid progenitor cells which results in increased apoptosis - Problem making RBCs - Most are diagnosed at <1yo. - Pt: - Presents in infancy with profound MACROCYTIC anemia and reticulocytopenia by 2-6 months. - Pallor. - ⅓ have various congenital deformities: craniofacial defects, short stature, and limb abnormalities, thumb anomalies, glaucoma, renal anomalies, hypogonadism, short, webbed necks, congenital heart disease, and intellectual disability - Triphalangeal thumbs. - Presence of congenital anomalies - Labs: - MACROCYTIC anemia (NO hypersegmentation). Increased MCV - Elevated erythrocyte ADA activity - Tx: - Manage with transfusions until 6-12 months of age, then try corticosteroids.

Answer 51

HEMOSTASIS - Primary hemostatic problems (90% involve low platelets or platelet dysfunction) result in multiple, tiny, superficial hemorrhages. Pts present with petechiae, ecchymosis, and mucocutaneous bleeding. Remember that vasculitis disorders are a cause of bruising or palpable purpura in a child with a normal platelet count. - Patients with a coagulation disorder, such as hemophilia, develop deep tissue bleeding, including hematomas or hemarthroses.

Answer 52

5 tests which are usually done to assess coagulation and platelets status - 1) Prothrombin time (PT) measure the function of extrinsic and common pathways. - 2) Activated PTT measures the function of the intrinsic and the common pathways. - 3) The thrombin time measures the time of conversion of fibrinogen to fibrin; it is abnormal only if there is a problem with this process. An increased thrombin time reflects decreased or defective fibrinogen, elevated fibrin degradation products (FDPs), or the presence of heparin or heparin-like anticoagulants. - 4) Platelet count - 5) Bleeding time (<10 minutes is normal) reflects the effectiveness of platelet aggregation. In other words, it is a measure of both adequate platelet number and adequate platelet function. Bc this test is difficult, it is not often used. Instead, rapid platelet function analysis (PFA) is performed.

Answer 53

If there is a greatly increased PTT with a normal PT and normal platelet count, check to see if the PT normalizes when the patient’s plasma is mixed 1:1 with normal plasma (a “mixing study”). If it does correct, the platelet has a clotting factor deficiency; if it does not correct, the pt has developed an inhibitor to a clotting factor protein, usually a lupus anticoagulant or Factor 8 inhibitor.

Answer 54

Vwf stabilizes factor 8 | - The one factor not made in the liver is Factor 8. Factor 8 is made in endothelial cells

Answer 55

Heparin binds to the enzyme inhibitor antithrombin III (AT), causing a conformational change that results in its activation.

Answer 56

Warfarin is an anticoagulant inhibits the vitamin K-dependent synthesis of calcium-dependent clotting factors II, VII, IX and X, as well as the regulatory factors protein C, protein S, and protein Z.

Answer 57

Antithrombin and proteins C and S are naturally occurring anticoagulants.

Answer 58

``` Hemophilia A (Factor 8 deficiency) - Due to a deficiency of Factor 8 ``` - Inheritance: X-linked recessive (more likely in males). ⅓ of cases are sporadic and have no family hx of bleeding. - Family hx of might be positive for bleeding in males on the maternal side of the family. - Pt: - Easy bruising, muscle and joint hemorrhages, and prolonged hemorrhage after surgery or trauma - but typically no mucosal bleeding or excessive bleeding after minor cuts. - Excessive bleeding following neonatal elective circumcision is a classic presentation of hemophilia. - Labs: Prolonged PTT. PT unaffected. - Tx: - It is important to begin the treatment of bleeding episode with the onset of symptoms and not wait until it is clinically established. - DDAVP is a treatment option for some patients with mild Factor 8 deficiency. DDAVP challenge is done to prove response. - DDAVP causes a release of vWF and Factor 8 stores from endothelial cells. - If a patient has an adequate response to DDAVP, it can be used as treatment for an acute bleed and prophylactically for a tooth extraction in pts with mild disease (ie Factor 8 levels >5%). - DDAVP is not effective in pts with moderate or severe hemophilia. - Patients with moderate or severe Factor 8 deficiency who have acute bleeding are treated with Factor 8 concentrate. - It is important to know when to suspect intracranial hemorrhage and how to manage it. - A new or worsening headache in a pt with hemophilia is very concerning for a possible intracranial bleed. Symptoms of intracranial bleeding in infants include lethargy and poor feeding. - Start factor therapy immediately for hemophilia patients with serious head trauma, even in the absence of LOC or an abnormal neurologic exam. - Consider emergent CT of the head without contrast after factor is administered. - It is important to recognize and aggressively treat bleeding into the forearm. - Bleeding in the forearm of a person with hemophilia is an emergency bc of the risk of hemophilia is an emergency because of the risk of compartment syndrome and nerve damage and long-term risk of contractures.

Answer 59

Hemophilia B (Factor 9 deficiency) (“Christmas disease”) - X-linked recessive (more likely in males) - Labs: Prolonged PTT. - Tx: Treat an acute bleed with a Factor 9 concentrate.

Answer 60

Factor 11 Deficiency (Hemophilia C) - Autosomal recessive. - Pt: - These pts usually do not get hemarthroses. - For some reason, these patients tend to have more mucosal bleeding, such as epistaxis and menorrhagia. - The risk of bleeding does not correlate with the level of Factor 11. - Tx: - Tranexamic acid and e-aminocaproic acid are useful for mucosal bleeding. - For severe bleeding episodes, use fresh frozen plasma.

Answer 61

Factor 5, 7, and 10 Deficiencies - Rare autosomal recessive bleeding disorders. - Know that acquired Factor 10 deficiency can be seen in pts with amyloidosis.

Answer 62

``` Factor 12 (Hageman factor) Deficiency - Autosomal recessive disorder. ``` - Pt: Do NOT have a clinical bleeding disorder and can even undergo surgery without worry of bleeding. Do NOT cause bleeding - Decreased factor 12. Normal PT and very prolonged PTT

Answer 63

Factor 13 Deficiency - Rare autosomal recessive disorder. - Factor XIII (13) is responsible for clot formation. Since it plays a role after the formation of a clot, an absence of factor 13 would not prolong the PT or PTT (which are measures of time to clot formation, not clot stabilization) - Ask about consanguinity bc offspring of consanguineous parents are at higher risk for rare disorders. - Pt: Severe bleeding problems and severe scarring with superficial wounds and yet have a normal PT and PTT

Answer 64

Disseminated Intravascular Coagulation (DIC) - DIC is the most common acquired coagulopathy. - Path: It is always a secondary condition, so the underlying disease must be treated for the DIC to resolve. DIC occurs in diseases that promote tissue-factor release. These include: - Massive direct tissue trauma - Production of tumor necrosis factor (esp seen in solid tumors) - Sepsis - Endotoxin production in certain infections - Placental tissue substances in obstetric patients with placental abruption, dead fetus, or amniotic fluid embolism - Acute promyelocytic leukemia - Rattlesnake or viper envenomation - Lab results reflect the abnormalities with - Prolonged PT and PTT - Thrombocytopenia - Decreased fibrinogen - Elevated D-dimer (This is an FDP specifically produced by the action of plasmin on fibrin.) - Increased thrombin time (due to both decreased fibrinogen and increased FDPs) - Tx: Treat underlying disorder. With severe bleeding, give fresh frozen plasma and platelets. Give cryoprecipitate if fibrinogen is low.

Answer 65

Vitamin K Deficiency - Vitamin K deficiency results in decreased production of factors 2, 7, 9, and 10 and of proteins C and S - Path: - Newborn infants are functionally vitamin K deficient and require vitamin K supplements soon after birth. Newborns who don’t receive vitamin K at birth are at risk for vitamin K deficiency bleeding (VKDB) - Tx: - Administer IV vitamin K to patients with vitamin K deficiency if the pt is bleeding. Fresh frozen plasma or nonactivated prothrombin complex concentrate can be used while waiting for the vitamin K to take effect (8 hours). - Likewise, the effect of warfarin can be reversed with vitamin K. However, if a pt on warfarin has significant bleeding, give fresh frozen plasma or nonactivated prothrombin complex concentrate for immediate factor replacement.

Answer 66

Lupus Anticoagulants - LACs are common in young children in the setting of viral infection. They are not pathogenic and resolve spontaneously. - Pt: In most cases, a pt with LAC does not present with bleeding. It is associated with thrombosis. - Lupus anticoagulants (LACs) result in a prolonged PTT. - Use a PTT mixing study to differentiate congenital factor deficiency from an LAC. - A pt with a deficiency of a clotting factor corrects completely when mixed with normal plasma (ie with normal factor levels). On the other hand, the PTT of pts with inhibitors remains abnormally prolonged after the mix. In these cases, a 1:1 dilution of the patient’s plasma is not sufficient to eliminate the full effect of the inhibitor of the PTT.

Answer 67

Bleeding disorders that appear with a normal platelet count, PT, PTT, and bleeding time - Mild vWD - Mild hemophilia - Factor 13 deficiency (rare)

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Venous thrombosis | - RF: Most common cause of DVT in children is a central venous catheter.

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Renal vein thrombosis - Infants with hx of birth asphyxia, shock, and/or sepsis are at increased risk of developing endothelial cell injury leading to renal vein thrombus formation. - It is also more common in infants of diabetic mothers and in those with congenital hypercoagulable states. - Pt: - Sudden onset of gross hematuria and a unilateral or bilateral flank mass. - Almost all pts have at least 1 of the following: Gross hematuria, unilateral or bilateral flank mass, and/or thrombocytopenia.

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Protein S or C deficiency - Infants who are homozygous for protein S or C deficiency have neonatal purpura fulminans with life-threatening thrombosis.

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Protein C is an anticoagulant protein. A deficiency of protein C would result in an increased risk of thrombosis, not an increased risk of bleeding.

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Factor 5 Leiden (Activated protein C (APC) resistance) | - Path: Mutation in factor V where protein C cannot bind to, leading to hypercoagulable state

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RBC transfusions - A transfusion of 10ml/kg typically raises the hemoglobin by 2.5-3 g/dL. - A transfusion of 5 ml/kg will increase the hemoglobin 1g/dl.

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Complications of RBC transfusions - Hemolytic reaction (life-threatening with fever, chills, flank pain, and oozing from IV sites) - Path: - Antibodies in the recipients’ plasma to antigens on the transfused RBCs. - Hemolysis caused by ABO incompatibility would only occur in the case of a clerical error, but it would be severe. - Delayed hemolytic transfusion reaction can occur due to incompatibility with minor RBC antigens and tend to be less severe. - Febrile nonhemolytic reaction (fever and chills only) - Caused by the passive infusion of cytokines on leukocytes in the donor’s plasma or the presence of antibodies in the recipient’s plasma to antigens on donor leukocytes. - This is usually defined as a temperature increase >1C - Risk for febrile transfusion reactions can be reduced by leukoreduction of the blood product (filtering) prior to infusion. - Allergic transfusion reactions - Caused by antibodies in the recipient to plasma proteins in the donor - Range from mild reactions to full anaphylaxis. - Transfusion-associated graft-vs-host disease - Occurs when donor lymphocytes in the transfused product recognize the host (recipient) as foreign and cause immunological rejection. - Skin (rash), liver (elevated liver function test results and bilirubin levels), and intestines (diarrhea). - The risk for this complication can be completely ameliorated by irradiating the blood product prior to infusion. - Transfusion-associated lung injury - Presents within 6 hours of a transfusion and manifests with significant respiratory symptoms, pulmonary edema, and sometimes accompanying severe systemic findings, such as hypotension. - Chronic transfusions result in iron overload.

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Management of transfusion reactions - Always begins with stopping the infusion of the blood product followed by providing supportive care directed at the specific transfusion reaction. - Administer IV fluids to support BP if the pt becomes hypotensive. - Signs of anaphylaxis require IM epinephrine for treatment. Prepare for emergent airway intervention.

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Leukoreduction - Involves reducing the number of transfused leukocytes. It also removes the risk of human leukocyte antigen alloimmunization and transmission of CMV (which typically resides in leukocytes). - 1) Prevents febrile nonhemolytic transfusion reaction - 2) Removes risk of HLA alloimmunization - 3) Reduces risk of CMV that resides in leukocytes - Good for sickle cell

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Irradiation - Inactivates DNA of leftover donor T lymphocyte, rending replication incompetent, to prevent GVHD - Good for cancer patients

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Platelet Transfusion | - 1 unit of random-donor platelets/kg raises the platelet count by ~50 x 10^9/L.

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Fresh frozen plasma - Contains all clotting factors except platelets - Indications: life threatening bleeding in pt who has received warfarin, severe liver disease, DIC, massive transfusion, isolated congenital factor deficiency that does not have safer product

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Cryoprecipitate - Enriched for vWF, fibrinogen, and factor 8 - Indications: severe liver disease, DIC, afibrinogenemia or significant hypofibrinogenemia, von willebrand dx, factor 8 deficiency

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PORPHYRIAS - Disorders are caused by an enzyme defect in the heme synthesis pathway - Pt: - Hepatic - Neuropathy, mental disturbances, abdominal pain - Erythropoietic group - Cutaneous photosensitivity

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Acute Intermittent Porphyria (AIP) - AD disorder - Path: Due to deficiency (usually 50% of normal) of porphobilinogen (PBG) deaminase - Most common drugs that precipitate attacks: - Barbiturates (eg phenobarbital) - Sulfonamide antibiotics - Antiseizure medications (eg carbamazepine, valproic acid) - Griseofulvin - Synthetic estrogen (birth control pills) - Note: Aspirin, phenothiazines, glucocorticoids, insulin, and acetaminophen are not likely to cause problems - Pt: Expression is variable - Most heterozygous children are asymptomatic, unless some factor increases the production of pyrogens. - Abdominal pain is the most common symptom, along with ileus, abdominal distention, and decreased bowel sounds. - Peripheral neuropathy - Progressive weakness without effective tx can lead to respiratory and bulbar paralysis. - Initial screening: Testing urine for elevated PBG. - Dx: Measure PBG deaminase activity of approx 50% in RBCs. - A normal PBG level in the stool rules out AIP. - Tx: - Acute attacks: - Narcotic analgesics for abdominal pain - Phenothiazines for nausea and vomiting - IV glucose (300g/day) can be helpful with continuous parenteral infusion if the pt cannot maintain oral intake. - IV heme is probably the most effective therapy if given early. - Some women have cyclical attacks, which can be prevented with a LH-release hormone analog.

Answer 83

Porphyria Cutanea Tarda (PCT) - Most common of the porphyria - Path: Congenital or acquired deficiency of the hepatic synthetic enzyme uroporphyrinogen decarboxylase (UROD), which allows buildup of phototoxic porphyrins in the skin - Pt: - Blistering skin lesions are the predominant clinical feature. - Cutaneous photosensitivity and develop fluid-filled vesicles and bullae - Hypertrichosis and hyperpigmentation are also typical. - Usually have liver damage and are predisposed to develop hepatocellular carcinoma. There is also an association with hepatitis C. - Labs: - Affected pts have increased urinary coproporphyrins and uroporphyrins. - The urine of affected pts fluoresces pink with Wood’s lamp examination - Dx: Increased porphyrin levels in liver, plasma, urine, and stool. - Types II and III can be diagnosed by finding decreased UROD activity in RBCs - Tx: - Prevent exposure to offending agent - Usually, phlebotomy to reduce hepatic iron can achieve complete response. - Can also treat with chloroquine or hydroxychloroquine; these combine with excess porphyrins and enhance excretion.

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X-Linked Sideroblastic Anemia (Also see “Anemia, Microcytic”) - Path: Due to deficient activity of the erythroid form of aminolevulinic acid (ALA) synthase and results in ineffective erythropoiesis - Bone marrow studies: Show hypercellular marrow with megaloblastic erythropoiesis. - Dx: Find mutations in the erythroid ALA synthase gene - Tx: Anemia typically responds to pyridoxine (vitamin B6)

Answer 85

``` Erythropoietic Protoporphyria (EPP) - Most common porphyria in children ``` - AR disease. Inheritance pattern appears to be AD with incomplete penetrance - Path: Due to partial deficiency of ferrochelatase. Protoporphyrin accumulates abnormally in erythroid cells and plasma and is excreted in bile and feces. - Pt: - Skin photosensitivity is the major clinical feature and begins in childhood. - Different from other porphyrias in that vesicles are not common - and pigment changes, severe scarring, and hypertrichosis are unusual. - Dx: Elevated levels of protoporphyrin in bone marrow, RBCs, plasma, bile, and feces. - Urinary levels of porphyrin and its precursors are normal - Tx: Oral beta-carotene improves tolerance to sunlight.

Hematology Flashcards

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