Hematologic

Question 1

Erythrocytes or red blood cells (RBCs)

Answer 1

Responsible for transporting nutrients and oxygen to the body tissues and waste products from the tissues

Question 2

Thrombocytes or platelets

Answer 2

Responsible for clotting

Question 3

Leukocytes or white blood cells (WBCs)

Answer 3

• Responsible for fighting infection
• divided into Granulocytes (neutrophils, eosinophils, and basophils) and agranulocytes (lymphocytes and monocytes)

Question 4

Assessment of Hematologic Function

Answer 4

• Complete blood count (CBC)
• Historical data
• Physical assessment findings
• Child’s energy and activity level
• Growth patterns

Question 5

CBC alterations

Answer 5

↓ hemoglobin – evaluate oxygen carrying capacity and effects of hypoxia on tissues

↓ platelets – evaluate for bleeding

↑WBC – evaluate for infection

Question 6

Historical data

Answer 6

• Ask about birth history – weight, gestational diabetes, vit k given at birth
• Sleep/wake patterns and bowel patterns – may be affected by alterations in circulating blood volume or changes in oxygenation
• Family history of hemophilia, sickle cell, thalassemia
• Diet / lead exposure
• Ask about: fatigue/malaise, pallor of the skin, unusual bruising, excessive bleeding or difficulty stopping bleeding, pain

Question 7

Anemia r/t Nutritional deficiency

Answer 7

Iron deficiency, folic acid deficiency, pernicious anemia

Question 8

Anemia r/t Toxin exposure

Answer 8

Lead poisoning

Question 9

Anemia r/t Adverse reaction to medication

Answer 9

Aplastic anemia

Question 10

Hemolytic anemia

Answer 10

(Caused by alteration/destruction of RBC) Sickle cell anemia, thalassemia

Question 11

Anemia

Answer 11

• The most common hematologic disorder of childhood
• Decrease in the number of red blood cells (RBCs) and/or a hemoglobin (Hgb) concentration that is below normal
• Diminished oxygen-carrying capacity of blood, so ↓O2

Question 12

Consequences of Anemia

Answer 12

• Decrease in the oxygen-carrying capacity of the blood leads to a decreased amount of oxygen available to tissues
• When anemia develops slowly, the child adapts (If quick can’t adapt)

Question 13

Effects of Anemia on the Circulatory System

Answer 13

• Hemodilution
• Decreased peripheral resistance
• Increased cardiac circulation and turbulence (May have murmur, May lead to cardiac failure)
• Cyanosis
• Growth retardation

Question 14

Anemic Kids

Answer 14

These kids are pale, tired, tachycardic, dizzy, diaphoretic Infants have poor suck and feeding - Failure to thrive

Question 15

Diagnostic Evaluation of Anemia

Answer 15

• History and physical examination findings • CBC • Other tests can be done to determine the particular type of anemia

Question 16

CBC for anemia**

Answer 16

• Decreased RBCs
• Decreased hemoglobin and hematocrit (Hct)
• Typically, the hemoglobin is less than 10 or 11 g/dL

Question 17

Therapeutic Management of Anemia

Answer 17

• Treat the underlying cause
• Supportive care

Question 18

Treat the underlying cause of anemia

Answer 18

• Transfusion after hemorrhage if needed
• Nutritional intervention for deficiency anemias

Question 19

Supportive care of anemia

Answer 19

• Intravenous (IV) fluids to replace intravascular volume
• Oxygen
• Bed rest
• Diet
• Family education

Question 20

What type of milk do Fe deficiency anemic kids need?

Answer 20

• These kids need iron fortified formulas, oral iron supplements, cows milk continues substances that bind to iron and interfere with absorption so they should not be administered together.
• Milk babies are typically over wt and are anemic

Question 21

Since liquid Fe supplements can stain teeth need to…

Answer 21

give with straw or syringe toward back of mouth, brush teeth after administration, can be toxic if overdose

Question 22

Want kids to take Flintstones but… **

Answer 22

Have kids take Flintstones – but put up with lock bc if eat too many than iron overdose

Question 23

Iron Deficiency Anemia

Answer 23

• Caused by an inadequate supply of dietary iron (cannot produce Hgb)
• Generally preventable
• Predictable at developmental periods

Question 24

Predictable at developmental periods (Iron Deficiency Anemia)

Answer 24

• In premature infants, due to low fetal supply
• At 12 to 36 months, due to ingestion of large amounts of cow’s milk and diet
• In adolescents, due to rapid growth and poor eating habits

Question 25

prophylaxis of Iron Deficiency Iron Supplements

Answer 25

1 to 2 mg/kg/day, up to a maximum of 15 mg elemental iron per day

Question 26

Mild to moderate iron deficiency Supplements

Answer 26

3 mg/kg/day of elemental iron in one or two divided doses

Question 27

Severe iron-deficiency anemia Supplements

Answer 27

4 to 6 mg/kg/day of elemental iron in three divided doses

Question 28

Foods High in iron

Answer 28

red meat, tuna, salmon eggs, tofu, enriched grains, dried beans and peas, dried fruits, leafy green vegetables, and iron fortified breakfast cereals

Question 29

Lower levels of lead poisoning

Answer 29

• Behavioral problems
• Learning difficulties

Question 30

Higher levels of lead poisoning

Answer 30

• Encephalopathy
• Seizures
• Brain damage

Question 31

Lead poisoning treated with

Answer 31

chelating agents- removes heavy metals. Oral or IV

Question 32

Aplastic Anemia (AA)

Answer 32

• Failure of bone marrow to produce cells
• All formed elements of the blood are simultaneously depressed (pancytopenia) – decreased numbers of all blood cells

Question 33

In hypoplastic anemia, ***

Answer 33

there is profound depression of RBCs but normal levels of white blood cells (WBCs) and platelets

Question 34

Aplastic anemia etiology

Answer 34

• is idiopathic
• Genetic-congenital (autosomal recessive trait)
• Acquired severe or moderate

Question 35

Diagnostic evaluation of aplastic anemia

Answer 35

• History and physical examination results
• Blood and bone marrow examination

Question 36

Nursing assessment of aplastic anemia

Answer 36

• Determine history of exposure to myelosuppressive medications or radiation therapy.
• Obtain a detailed family, environmental, and infectious disease history.
• Note history of epistaxis, gingival oozing, or increased bleeding with menstruation.
• Anemia may lead to headache and fatigue.
• On physical examination, note ecchymoses, petechiae or purpura, oral ulcerations, tachycardia, or tachypnea.

Question 37

Therapeutic Management of aplastic anemia

Answer 37

• Immunosuppressive therapy
• Replace bone marrow- transplant
• Antilymphocyte globulin ALG
• If problem of RBC is because of where getting from (Bone marrow) so bone marrow transplant to make good RBC

Question 38

Sickle Cell anemia

Answer 38

• A hereditary hemoglobinopathy (condition in which abnormal hemoglobin is present)
• RBC do not carry the normal adult hemoglobin

Question 39

Ethnicity of sickle cell

Answer 39

• Occurs primarily in African Americans • Occurs in 1 in 375 infants born in the United States • One in 12 has sickle cell trait
• Occasionally also in persons of Mediterranean descent
• Also seen in persons of South American, Arabian, and East Indian descent

Question 40

In areas of the world where malaria is common, individuals with sickle cell trait tend

Answer 40

tend to have a survival advantage over those without the trait

Question 41

Sickle cell is what type of disorder**

Answer 41

Autosomal recessive disorder

Question 42

One in ____ African Americans is a carrier (i.e., has sickle cell trait)

Answer 42

12

Question 43

If both parents have sickle cell trait then***

Answer 43

each child of theirs will have a 1 in 4 likelihood of having the disease

Question 44

Pathophysiology of Sickle Cell Anemia

Answer 44

• Partial or complete replacement of normal hemoglobin with abnormal hemoglobin S (Hgb S)
• Hemoglobin in the RBCs takes on an elongated “sickle” shape
• Sickled cells are rigid and obstruct capillary blood flow – “clog up”
• Microscopic obstructions lead to engorgement and tissue ischemia
• Hypoxia occurs and causes sickling, leading to pain - Because can’t carry hemoglobin in sickled cell
• Large tissue infarctions occur
• Damaged tissues in organs; impaired function

Question 45

If Splenic sequestration with sickle cell

Answer 45

• May require splenectomy at an early age
• Results in immunity

Question 46

Organs Affected by Sickle Cell Anemia

Answer 46

Question 47

Prognosis for Sickle Cell Anemia

Answer 47

• No cure (except possibly bone marrow transplants)
• Supportive care; prevention of sickling episodes
• Frequent bacterial infections may occur due to immunocompromise
• Bacterial infection is the leading cause of death in young children with sickle cell disease
• Strokes in 5% to 10% of children with disease

Question 48

Precipitating factors of sickle cell crisis

Answer 48

• Anything that increases the body’s need for oxygen or alters the transport of oxygen
• Trauma
• Fever, infection
• Physical and emotional stress
• Increased blood viscosity due to dehydration
• Hypoxia (Results from high altitude, poorly pressurized airplanes, hypoventilation, vasoconstriction due to hypothermia)

Question 49

Vaso-occlusive (VOC) thrombotic ***

Answer 49

• Most common type of crisis and is very painful
• Stasis of blood with clumping of cells in the microcirculation leads to ischemia and then infarction
• Signs are fever, pain, and tissue engorgement

Question 50

Splenic sequestration

Answer 50

• Life-threatening type; death can occur within hours
• Blood pools in the spleen
• Signs are profound anemia, hypovolemia, and shock

Question 51

Aplastic crises

Answer 51

• Diminished production and increased destruction of RBCs
• Triggered by viral infection or depletion of folic acid
• Signs include profound anemia and pallor

Question 52

Diagnosis of Sickle Cell Anemia

Answer 52

• Cord blood in newborns
• Newborn screening - Genetic testing to identify carriers and children who have the disease
• Sickle turbidity test - Quick screening in children over 6 months of age
• Hemoglobin electrophoresis

Question 53

sickle cell crisis pic

Answer 53

Question 54

Most important tx for sickle cell**

Answer 54

• Remember HOP – hydration, oxygenation, and pain relief

Question 55

Hemoglobin with sickle cell:

Answer 55

baseline is usually 7 to 10 mg/dL; will be significantly lower with splenic sequestration, acute chest syndrome, or aplastic crisis

Question 56

Reticulocyte count with sickle cell:

Answer 56

greatly elevated

Question 57

Peripheral blood smear with sickle cell:

Answer 57

presence of sickle-shaped cells and target cells

Question 58

Platelet count with sickle cell:

Answer 58

increased

Question 59

Erythrocyte sedimentation rate with sickle cell:

Answer 59

elevated because cells clumped causes inflammation

Question 60

liver function tests with sickle cell

Answer 60

Abnormal liver function tests with elevated bilirubin

Question 61

Therapeutic Management of sickle cell

Answer 61

• Prevent sickling
• Treat emergencies of crisis

Question 62

Medical Management of sickle cell

Answer 62

• Rest to minimize energy expenditure and to improve O2 use (O2 to prevent additional cell sickling)
• Hydration
• Electrolyte replacement- hypoxia = met. Acidosis
• Pain management- No Demerol, now using Dilaudid, Ketamine and Narcan – typically use morphine but now giving those drugs (Demoerol increases risk of seizures in sickle cell kids)
• Blood transfusion- tx anemia and reduce viscosity of sickled blood
• Antibiotics- for infection

Question 63

Thalassemia (Cooley Anemia)

Answer 63

• Inherited blood disorders of hemoglobin synthesis
• Classified by the hemoglobin chain affected and by the amount of effect
• Autosomal recessive disorder with varying expressivity
  
  • Both parents must be carriers to have offspring with the disease
  • Occurred in those who live around Mediterranean sea
  • Occurs all over as a result of migration

Question 64

Thalassemia is what type of disorder**

Answer 64

Autosomal recessive

Question 65

Thalassemia occurs where**

Answer 65

Occurred in those who live around Mediterranean sea

Question 66

b-Thalassemia four types

Answer 66

• Thalassemia minor: Asymptomatic silent carrier
• Thalassemia trait: Mild microcytic anemia
• Thalassemia intermediate: Moderate to severe anemia plus splenomegaly
• Thalassemia major (Cooley anemia): Severe anemia requiring transfusions for survival

Question 67

Pathophysiology of Thalassemia

Answer 67

• Anemia results from defective synthesis of hemoglobin, structurally impaired RBCs, and a shortened life of RBCs
• Chronic hypoxia - Headache, irritability, precordial and bone pain, exercise intolerance, anorexia, epistaxis
• Detected in infancy or toddlerhood - Pallor, failure to thrive (FTT), hepatosplenomegaly,

Question 68

Medical Management of Thalassemia **

Answer 68

• Blood transfusion to maintain normal hemoglobin levels (DIC if don’t)
• Side effect is hemosiderosis (excessive supply of iron) - Treat with iron-chelating drugs such as deferoxamine (Desferal) - Binds excess iron for excretion by the kidney

Question 69

Prognosis for Thalassemia

Answer 69

• Delayed growth
• Delayed or absent secondary sex characteristics
• Expect to live well into adulthood with proper clinical management
• Bone marrow transplant is a potential cure

Question 70

Hemophilia

Answer 70

• A group of hereditary bleeding disorders that result from deficiencies of specific clotting factors
• Typically, an X-linked recessive pattern (so mothers are carriers and give to their sons)

Question 71

Hemophilia A**

Answer 71

• Classic hemophilia (deficiency of factor VIII)
  
  • Factor VIII – essential for activation of factor X – required for the conversion of prothrombin into thrombin
• Accounts for 80% of cases of hemophilia

Question 72

Hemophilia B

Answer 72

Christmas disease (deficiency of factor IX)

Question 73

von Willebrand disease (vWD)

Answer 73

• Deficiency, abnormality, or absence of vWF and factor VIII
• Affects both males and females

Question 74

Manifestations of Hemophilia

Answer 74

• Bleeding tendencies range from mild to severe
• Symptoms may not occur until 6 months of age
• Hemarthrosis
• Epistasis
• Bleeding in the gastrointestinal tract
• Bleeding after procedures

Question 75

If bleeding with hemophilia A then inject

Answer 75

factor 8

Question 76

Hemarthrosis

Answer 76

• Bleeding into joint spaces of the knee, ankle, or elbow leads to impaired mobility and, eventually, bony changes and disability
• Symptoms include warmth, pain, bruising, and decreased movement
• These kiddos must be careful when playing sports, hitting the knees can cause a joint bleed and immense pain, must be careful brushing teeth. Need soft bristle brush or water pick

Question 77

Bleeding after procedures for hemophilia A

Answer 77

• Minor trauma, tooth extraction, minor surgeries
• Large subcutaneous and intramuscular hemorrhages may occur
• Bleeding into the neck, chest, or mouth may compromise the airway
• Bleeding in the spinal cord may cause paralysis

Question 78

Medical Management of Hemophilia

Answer 78

• Replacement of missing clotting factors
• Desmopressin (DDAVP)
• Transfusions - Prompt intervention to reduce complications
• Medications
• Exercise and physical therapy

Question 79

Desmopressin (DDAVP)

Answer 79

• IV
• Increases factor VIII activity by two to four times
• Used for mild hemophilia

Question 80

Interventions for Hemophilia

Answer 80

• Close supervision and safe environment - Let them play but watch
• Dental procedures in a controlled situation – done at hospital
• Shave only with an electric razor
• For superficial bleeding, apply pressure for at least 15 minutes and ice to promote vasoconstriction
• If significant bleeding occurs, transfusion for factor replacement
• Families are taught RICE- rest ice compression elevation

Question 81

hemophilia pic

Answer 81

Question 82

Idiopathic Thrombocytopenic Purpura (ITP)

Answer 82

An acquired hemorrhagic disorder characterized by:

• Thrombocytopenia (excessive destruction of platelets)
• Purpura blood collection under skin (are purplish)
• discoloration caused by petechiae beneath the skin, with no other signs of bleeding (pinpoint hemorrhages, do not blanche)
• NORMAL bone marrow

Question 83

Two forms of Idiopathic Thrombocytopenic Purpura (ITP)

Answer 83

• Acute, self-limiting (usually following a viral illness)
• Chronic (lasting longer than 12 months)

Question 84

Platelet count for Idiopathic Thrombocytopenic Purpura (ITP)

Answer 84

less than 20,200/mm

Question 85

Management of acute Idiopathic Thrombocytopenic Purpura (ITP) **

Answer 85

prednisone, IVIG, anti-D antibody

Question 86

Diagnositic of Idiopathic Thrombocytopenic Purpura (ITP)

Answer 86

• Platelet count is less than 20,200/mm
• Rule out other diseases and conditions

Question 87

Management of Idiopathic Thrombocytopenic Purpura (ITP)

Answer 87

• Supportive- because self limiting
• Acute-prednisone, IVIG, anti-D antibody
• Chronic- splenectomy