| The abnormal cells seen in this illustration are indicative of: | View Page |
| The abnormal RBC indicated by the arrow in this illustration is indicative of: | View Page |
| The abnormal RBCs seen in this illustration are indicative of: | View Page |
| Which of the following conditions might give rise to the red cell abnormality depicted here: | View Page |
| The abnormal RBCs seen in this smear, such as those shown by the arrow are typically seen in: | View Page |
| The abnormal RBCs shape seen in this illustration is: | View Page |
| Which two of the following are associated with macrocytic anemia? | View Page |
| Spherocytes are associated with which two of the following conditions: | View Page |
| If greater than 50% lymphocytes were found on the peripheral blood smear of a 5 month old child you would suspect which of the following conditions: | View Page |
| Which one of the following statements about iron deficiency anemia is false: | View Page |
| RDW is an indication of which of the following: | View Page |
| Hypersegmentation of granulocytes is most commonly associated with: | View Page |
| Match the disease conditions on the left with appropriate red cell appearances on the right: | View Page |
| Which of the following is not associated with RBC macrocytosis? | View Page |
| Which of the following factors does not affect the result of the PTT assay? | View Page |
| Hemophilia A is associated with a deficiency in which coagulation factor: | View Page |
| Hemophilia B or Christmas disease is the result of a hereditary deficiency in which coagulation factor: | View Page |
| Which of the following is not a likely cause of an abnormal thrombin time (TT): | View Page |
| A deficiency in this Factor cannot be evaluated by both the PT and APTT assays: | View Page |
| Which of the following Factors are Vitamin K dependent: | View Page |
| Which of the following tests could be used to distinguish whether an abnormal screening coagulation test result (PT or aPTT) is caused by a factor deficiency or an inhibitor?. | View Page |
| Secondary Hemostasis – Fibrin Formation via the Coagulation Cascade The formation of fibrin involves three interconnected biochemical pathways; the intrinsic, extrinsic, and common pathways. These pathways allow for the interaction of coagulation factors via a finely tuned sequence of chemical processes, where the factors themselves control the activity of the pathway. Most coagulation factors are stimulated and activated by the preceding factor , hence the term, "coagulation cascade." Since factor activation requires the activation of a preceding factor, a deficiency in the functionality or availability of any factor would seriously impact the effectiveness of the coagulation process. Factor deficiencies do occur, however, and often lead to impaired vascular repair and depressed hemostatic activity. | View Page |
| Tests of Hemostatic Function - Mixing Studies Performed after an unexpected, prolonged PT or APTT is encountered to determine if the problem stems from a factor deficiency or the presence of an inhibitor. To perform the test, the patients’ plasma is mixed with an equal volume of pooled normal plasma, and then a PT and APTT are performed off the mixture. If the addition of the pooled plasma brings the resultant values into normal range, then the pooled plasma contained factors the patient's sample was deficient in, and the patient has a factor deficiency. If the results are not “corrected” or brought back into normal range after the addition of pooled normal plasma, then an inhibitor may be present. The next step in the diagnostic sequence of events, if correction has occurred, is to perform a factor assay, to determine which specific factor is lacking. | View Page |
| Which of the following statements is incorrect? | View Page |
| Coagulation Disorders - Inherited Inherited disorders are those which are considered to be inborn, and have some familial linkage. Hemophilia A is a deficiency of coagulation factor VIII. It is the most commonly encountered hereditary based coagulation disorder. Found almost exclusively in males, its pattern of inheritance is sex-linked recessive. This disorder presents clinically with hemorrhagic events ranging in severity from mild to severe. Patients often present with spontaneous bleeding into their joints, a classic symptom of this affliction. The treatment of Hemophilia A often involves the administration of commercial factor VIII products. | View Page |
| Coagulation Disorders - Inherited Hemophilia B is a deficiency of coagulation factor IX. Found almost exclusively in males, its pattern of inheritance is sex-linked recessive. This disorder presents almost identically to Hemophilia A in terms of symptoms, and has a very similar pattern of inheritance. Be sure to keep in mind that while similar, Hemophilia A and B are caused by a deficiency in different coagulation factors. The treatment of Hemophilia B involves therapeutic administration of Factor IX concentrates. | View Page |
| Coagulation Disorders - Inherited Von Willebrands Disease is a platelet disorder. This disorder is characterized by a functional defect in Von Willebrands factor (vWF) itself. This disease often clinically manifests with a concurrent deficiency of factor VIII, but will present with a normal platelet count. As far as genetics and inheritance, both men and women are affected equally. Von Willebrands factor is essential for platelet binding, therefore, a defect in vWF causes impaired platelet adhesion and aggregation. The treatment of Von Willebrands Disease involves the administration cryoprecipitate, as it is rich in vWF. | View Page |
| Which of the following statements regarding coagulation disorders is incorrect? | View Page |
| The condition most likely associated with the peripheral blood picture shown in the photograph is: | View Page |
| The condition most likely associated with the peripheral blood picture in the photograph is: | View Page |
| Conditions in which erythrocytes as photographed here may be present in a peripheral blood smear include: | View Page |
| Cells as shown in this iron-stained bone marrow preparation are found in each of the following conditions except: | View Page |
| G6PD deficiency A ten-year-old boy came to a physician's attention because of recent jaundice and icteric sclerae. The immediate laboratory work revealed: Hct 24%(normal 36%-47%), MCV 79.5 fl (normal 78-95fl),RDW 13%(normal 11.5-15.0%). His blood smear findings are reflected in these photomicrographs. Note particularly the spherocytes in the upper picture. Some resemble a half-blister with the other half of the cell containing solidly-staining hemoglobin. These are called eccentrocytes. When present, they should trigger a search for red cell hereditary G-6PD deficiency and the oxidant that triggered hemolysis. These morphological findings are only clues; specific testing for G-6PD deficiency should be performed. The blue arrows in the upper photomicrograph are directed toward solid-staining spherocytes in which the cell membrane is beaded by inclusions wrapped within the cell membrane, suggesting the remains of denatured hemoglobin. Included on the smear is a target cell, several acanthocytes, a smudge cell, and a few schistocytes. The lower photomicrograph is supravital staining of affected red blood cells, verifying the presence of Heinz bodies. This disorder was first recognized during the Korean war in 10% of black American soldiers given the antimalarial drug primiquine. | View Page |
| Schistocytes vs. bite cells Schistocyte is a general term for a fragmented red blood cell that may assume various shapes, some with horn-like projections (keratocytes), triangle-forms (triangulocytes), and helmet shapes, as illustrated in the upper photograph. Schistocytes are formed when erythrocytes are forced through a vessel blocked with interlacing fibrin strands and the red cells are sliced into fragments. True schistocytes are devoid of central pallor. These damaged cells continue to circulate while healing their torn edges. Finally, they are removed by the spleen. Bite cells (lower photograph) appear when an abnormal hemoglobin aggregate (Heinz body) is nibbled out of a red cell's cytoplasm by the spleen leaving a bitten apple appearance. Glucose 6-PD deficiency secondary to chemical poisoning or injury by oxidant drugs are settings for Heinz body formation, and the telltale bite cells remain as evidence. Hemolytic anemia associated with severe liver disease is another setting where bite cells are formed. | View Page |
| Cardiac hemolysis (Waring Blender Effect) Two photographs of a peripheral blood smear are submitted for review . The smears are from a 9-month-old baby with a heart valve replacement. In the upper photograph is a nucleated RBC and platelets are decreased. Nucleated red cells and occasional giant platelets indicate an active marrow response. In the process of forcing blood cells through the heart valve, erythrocytes are damaged, schistocytes are formed, and platelets are destroyed leading to thrombocytopenia. In the lower field are schistocytes, acanthocytes, echinocytes (burr cells), spherocytes, and the absence of platelets. The presence of burr cells could represent an artifact of smear preparation, but with the history of valve replacement, the red cell changes are likely the result of red cell damage as the cells circulate through the new valve. This situation is described as Waring Blender Effect because of damage to blood cells passing through the new valve, looking as if they had suffered the onslaught of a blender. Target cells and mild hypochromia may reflect iron deficiency through the loss of iron from destruction of RBC's. Iron loss through red cell destruction may be reflected in some hypochromia. | View Page |
| A 10-year-old child presents with jaundice and scleral icterus. The photograph captures a section of the peripheral blood smear. The report should direct attention to: | View Page |
| Considering the predominance of microspherocytes on the blood smear, and the patient's jaundiced condition, what is the most likely diagnosis? | View Page |
| Atypical smear: Case follow-up The patient whose blood smear is shown in the photograph was a 32-year-old female from Virginia who came to the high country of Colorado to ski. The day after arrival, she experienced shortness of breath, fatigue, and upper abdominal pain. She was seen in a medical center in the mountains where a working diagnosis of altitude sickness was made. A CBC revealed RBCs 5.1 x 1012/L, hemoglobin 12.8g/dL, MCV 60fL, hematocrit 40.9%, and normal total WBC, differential, and platelet count. The RDW was normal. Further questioning revealed a previous diagnosis of heterozygous beta-chain thalassemia. No other abnormal hemoglobins were found on hemoglobin electrophoresis, but HbA-2 was elevated to 5%, supporting the diagnosis of beta thalassemia. The patient's poikylocytosis and anisocytosis may be a clue to an underlying erythrocyte abnormality. Persons with iron deficiency anemia may experience various degrees of hypoxia upon arriving at high altitudes. Those with sickle cell disease and thalassemia minor (as in this case) may experience bone pain or other symptoms of "crisis" and/or alteration in the appearance of their erythrocytes upon sudden high altitude exposure. The classic teaching is that in differentiating iron deficiency anemia from thalassemia, increased RDW would favor iron deficiency; normal RDW favors thalassemia. | View Page |
| A peripheral smear with red blood cells photographed in a typical field was submitted for review. Which of the following conditions might be eliminated because of the cell population found here? | View Page |
| A blood smear represented by the photograph was submitted for hematologic review. Based on the erythrocyte morphology and the accompanying histogram, which of the following choices is the most likely situation or condition? | View Page |
| Hereditary ovalocytosis and elliptocytosis Ovalocytes are rod shaped erythrocytes with nearly parallel lateral walls. If the long axis of an erythrocyte is no more than twice as long as the short axis, the cell is an ovalocyte. If the long axis is more than twice as long as the short axis, the cell is an elliptocyte. Hemoglobin tends to collect at each end of these cells. The ends of the cells are rounded and never pointed, to be differentated from sickle cells. Ovalocytes present in greater than 25% of red cells on the blood smear are characteristic of hereditary ovalocytosis. The oval shape is attributed to a defect in horizontal red cell membrane protein interactions. Lesser numbers of circulating ovalocytes may be present in various anemias including megaloblastic, sideroblastic, iron deficiency, and in thalassemias. A rare ovalocyte (less than 1%) may be found on almost any peripheral blood smear. Resistance to malarial infection may be a beneficial attribute of hereditary ovalocytosis. | View Page |
| A frail 85-year-old woman living in an extended care facility was found lying on the floor. Her eating habits had been irregular and food intake scanty. Her skin had tissue paper-like quality, with a pearly grey sheen. In good light a faint lemon-yellow color became evident.Her hemoglobin was 9.2 mg/dl. The peripheral blood smear (upper and lower photographs) is most consistent with: | View Page |
| Conditions suggested by the macrocytes and the neutrophil in the photograph to the right include: | View Page |
| Hypersegmented Neutrophils The focus of these photographed fields is on the occasional large oval macrocyte,and the large, hypersegmented neutrophils representing either vitamin B-12 or folic acid deficiency, or both. The distinct hypochromia of many of the erythrocytes reflects low iron stores. | View Page |
| Iron Deficiency Absorption of iron is interrupted in the absence of the stomach. Microcytic, hypochromic red cells are not conspicuous in the previous slides to reflect this deficiency. However, multiple factors influencing red cell morphology are so diverse in this case and therapy so uncontrolled that iron deficiency is not perfectly expressed morphologically. | View Page |
| Another View Another view taken from the same patient's slide. Although no lymphocyte is seen in this field, many of the cells appear quite small with increased areas of central pallor. This patient had iron deficiency anemia. | View Page |
| Microcyte with Normal Hemoglobin Content A microcyte with normal hemoglobin content (one-third of central pallor) can be seen in the center of this field, just below and to the left of the lymphocyte. Since many of the other cells in this field are normal or larger than normal, the MCV would be within the normal range although the diameter and volume of this individual cell would be lower than normal. This type of microcyte can be seen in some hemolytic anemias and the rare enzyme deficiency, pyruvate kinase deficiency anemia. | View Page |
| Microcyte Diameter The diameter of microcytes is less than 7 microns and the MCV is below 80 cubic microns. Notice that many of the red cells shown in this field are smaller than the lymphocyte and, in addition, have a greater area of central pallor. This type of microcyte can be seen in iron deficiency anemia and thalassemia. | View Page |
| Another Echinocyte Another example of an echinocyte is seen in the center of this slide. In rare instances, echinocytes circulate in vivo in uremia, following heparin injection, in certain congenital anemias and in pyruvate kinase deficiency. Plastic slides must be used to verify the presence of in vivo echinocytes. Since echinocytes do not aid in the diagnosis of these conditions, their main importance lies in the fact that they are artifactual and reversible and must be distinguished from acanthocytes. | View Page |
| Another Target Cell Another example of a target cell (or codocyte) is seen in the center of this slide. Notice that the hemoglobin in the center of this cell is somewhat lighter in appearance than in the previous slide. A second codocyte can be seen in the upper left portion of the slide. Codocytes appear in conditions which cause the surface of the red cell to increase disproportionately to its volume. This may result from a decrease in hemoglobin, as in iron deficiency anemia, or an increase in cell membrane.
Target cells have excess membrane cholesterol and phospholipid and decreased cellular hemoglobin. Examples of other conditions in which target cells may be present include thalassemias, hgb C disease, post splenectomy and obstructive jaundice. Since their presence can be the result of an in vitro artifact, their value in clinical diagnosis is limited. | View Page |
| Elliptocytes Another example of elliptocytes as seen in hereditary elliptocytosis. Other conditions which may have varying numbers of elliptocytes include thalassemias, iron deficiency, megaloblastic anemia and anemia associated with leukemia. | View Page |