Pediatrics - Hematologic and oncologic disorders Flashcards
PED - 10.1
Diagnostic criteria of severe aplastic anaemia, with the exception of:
A) absolute neutrophil count < 0,5 G/L
B) platelet count < 20 G/L
C) corrected reticulocyte ratio < 1%
D) absolute CD4-positive lymphocyte count < 0,2 G/l
ANSWER
D) absolute CD4-positive lymphocyte count < 0,2 G/l
EXPLANATION
Severe aplastic anaemia (SAA) is characterized by bone marrow failure involving each three lineages, i.e. the erythroid, the myeloid and the megakaryopoietic lineages. Accordingly, there is severe anaemia, neutropenia and thrombocytopenia present in the peripheral blood (A ,B ,C). Changes in lymphocyte subpopulations are not characteristic for SAA, decreased absolute CD4-positive lymphocyte count (D) is a diagnostic criterion of AIDS.
PED - 10.2
Factors below may result in the development of aplastic anemia, with the exception of:
A) ionizing radiation
B) chloramphenicol
C) intravenous immunoglobulin preparations
D) parvovirus B19
E) hepatitis C virus
ANSWER
C) intravenous immunoglobulin preparations
EXPLANATION
Contemporary, virus-inactivated/eliminated intravenous immunoglobulin (IVIG) preparations obtained for screen donors do not result in aplastic anaemia. Application of IVIG is recommended in aplastic anaemia (SAA) caused by parvovirus B19 infection. All other factors listed maybe in a causative relationship with SAA, although the exact cause of bone marrow failure mains remains mostly unexplained, the SAA is most frequently idiopathic.
PED - 10.3
Most frequent indications of allogeneic hematopoietic stem cell transplantation, with the exception of:
A) severe aplastic anemia
B) acute lymphoblastic leukemia in second remission
C) high-risk acute myeloid leukemia in first remission
D) high-risk acute lymphoblastic leukemia in first remission
E) thrombotic thrombocytopenic purpura
ANSWER
E) thrombotic thrombocytopenic purpura
EXPLANATION
Thrombotic thrombocytophenic purpura (TTP) is treated by plasmapheresis and not by allogeneic hematopoetic stem cell transplantation (HSCT). HSCT is indicated in the other conditions listed.
PED - 10.5
The syndromes listed below are characterized by the association of hematopoietic and skeletal anomalies, with the exception of:
A) Diamond–Blackfan-anemia
B) Fanconi-anemia
C) „thrombocytopenia with absent radii” (TAR) syndrome
D) Beckwith-Wiedemann syndrome
ANSWER
D) Beckwith-Wiedemann syndrome
EXPLANATION
Conditions listed in points A, B, C represent different forms of constitutional hypoplastic anaemias characterized by single-or multiple lineage bone marrow failure and frequently associated with skeletal anomalies. Bone marrow function is not affected in patients with Beckwith-Wiedemenn syndrome (D).
PED - 10.6
In addition to the signs of bone marrow failure, Fanconi anemia is characterized by signs and symptoms listed below, with the exception of:
A) skeletal malformations
B) hyperpigmentation
C) oculocutaneous albinism
D) spontaneous and induced chromosome fragility
ANSWER
C) oculocutaneous albinism
EXPLANATION
Anomalies listed under points A and B are frequently associated with signs of bone marrow failure in Fanconi-anemia. Oculocutaneous albinism characterizes Hermansky-Publack syndrome, a platelet storage of disease (C). Chromosome fragility (D) is a pathognomonic characteristic of Fanconi-anemia.
PED - 10.8
Average hemoglobin concentration in trimenon (‘physiological’) anemia:
A) 80 g/L
B) 114 g/L
C) 140 g/L
D) 155 g/L
E) 168 g/L
ANSWER
B) 114 g/L
EXPLANATION
The proper replay is B. A is characteristic for the late anemia of premature babies, C and D are the average hemoglobin concentrations of healthy adult females and males, respectively. A represents the average hemoglobin concentration in the umbilical blood of a healthy mature newborn.
PED - 10.10
Clinical signs of iron deficiency anemia in infants and toddlers, with the exception of:
A) craniotabes
B) restlessness
C) psychomotor retardation
D) pale skin and mucous membranes
E) somatic retardation
ANSWER
A) craniotabes
EXPLANATION
Craniotabes (A) is a sign of rickets.
PED - 10.11
Factors listed below may result in iron deficient anemia, with the exception of:
A) excessive cow milk diet in toddlers
B) celiac disease
C) periods of rapid growth (e.g. infancy and puberty)
D) hemolysis
E) blood loss
ANSWER
D) hemolysis
EXPLANATION
Hemolysis may be associated with iron overload, in particular if patient is transfusion-dependent (D).
PED - 10.12
Hypochromic, microcytic anemias, with the exception of:
A) β-thalassemia
B) glucose-6-phosphate-dehydrogenase deficiency
C) lead poisoning
D) copper deficiency
E) iron deficiency
ANSWER
B) glucose-6-phosphate-dehydrogenase deficiency
EXPLANATION
Glucose-6-phosphate-dehydrogenase deficiency (B) results in normochromic normocytic anemia.
PED - 10.13
Frequent signs and complications of hemolytic anaemia, with the exception of:
A) jaundice
B) acholic feces (clay-colored stools)
C) early development of gallstones
D) dark urine with elevated urobilinogen level
E) splenomegaly
ANSWER
B) acholic feces (clay-colored stools)
EXPLANATION
The color of feces is usually darken than normal in patients with hemolytic anemia. Acholic faces (B) is characteristic for post hepatic jaundice.
PED - 10.14
Signs of hemolytic crisis in case of severe intravascular hemolysis, with the exception of:
A) fever, fever chills accompanied by severe abdominal or flank pain
B) sudden onset and enhancement of jaundice and splenomegaly
C) shock with or without DIC
D) onset of hyperkalemia, oliguria, anuria
E) reticulocytopenia
ANSWER
E) reticulocytopenia
EXPLANATION
Hemolysis including hemolytic crisis is associated with elevated reticulocyte count as a sign of increased compensatory erythropoiesis and not with reticulocytopenia (E).
PED - 10.15
Hemolytic diseases in children, with the exception of:
A) Evans-syndrome
B) glucose-6-phosphate-dehidrogenase deficiency
C) hereditary spherocytosis
D) Kasabach–Merritt-syndrome
E) methemoglobinemia
ANSWER
E) methemoglobinemia
EXPLANATION
Methemoglobinemia (E) does not result in hemolysis.
PED - 10.16
Characteristic clinical and biological findings in patients with hereditary spherocytosis, with the exception of:
A) increased osmotic fragility of the red cells due to cell membrane defect
B) presence of microspherocytes in the blood smear
C) both hemolytic and aplastic crisis may occur
D) microspherocytes will vanish from peripheral blood after splenectomy
E) hemolysis will stop after splenectomy
ANSWER
D) microspherocytes will vanish from peripheral blood after splenectomy
EXPLANATION
Decay of microspherocytes occurs in the spleen. Therefore, the presents of microspherocytes in the peripheral blood will increase after splenectomy (D), but the hemolytic anemia will improve because of a decreased rate of splenic eliminations of microspherocytes.
PED - 10.18
Eosinophilia is frequently present in the conditions listed below, with the exception of:
A) allergic disorders
B) inflammatory bowel diseases
C) measles
D) scarlet fever
E) toxocariasis
ANSWER
C) measles
EXPLANATION
Among contagious childhood infections only scarlet fever is associated with eosinophilia (D); therefore, measles (C) is not characterized by eosinophilia. Conditions listed under A, B and E are associated with eosinophilia.
PED - 10.20
Signs of hyperleukocytosis syndrome, with the exception of:
A) central nervous system bleeding
B) ARDS
C) polyuria
D) thrombosis
E) lung hemorrhage
ANSWER
C) polyuria
EXPLANATION
Hyperleukocytosis syndrome can be associated with oligo-anuria rather than with polyuria (C).