Developmental Alterations of Hematological Function PDF
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University of Northern British Columbia
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Summary
This document provides an overview of developmental alterations in hematological function. It covers key topics such as iron deficiency anemia, hemolytic anemia, sickle cell disease, and hemophilia. The content is suitable for students in a nursing program.
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# Developmental Alterations of Hematological Function ## Nursing 302 ### Iron Deficiency Anemia (Acquired Disorders of Erythrocytes) - Most common blood disorder of infancy and childhood - Infants & young children who drink excessive amounts of cow's milk may develop IDA because of chronic intes...
# Developmental Alterations of Hematological Function ## Nursing 302 ### Iron Deficiency Anemia (Acquired Disorders of Erythrocytes) - Most common blood disorder of infancy and childhood - Infants & young children who drink excessive amounts of cow's milk may develop IDA because of chronic intestinal blood loss - Protein that causes inflammation in GI tract, damage to the mucosa, and leads to microhemorraging ### Can result from - Dietary lack of iron - Problems with iron absorption - Blood loss - Increased requirement for iron ### Clinical Manifestations: - Irritability, decreased activity tolerance, pica (MILD) - Pallor, tachycardia, murmurs (SEVERE) - Developmental delays; changes in the child's attention span, alertness and learning ability ### Treatment? *** ### Acquired Congenital Hemolytic Anemia (Acquired Disorders of Erythrocytes) - Hemolytic disease of fetus and newborn (HDFN) - Alloimmune disease (fighting against an invader) - The first incompatible fetus causes the mothers immune system to produce antibodies that will affect the fetuses of subsequent incompatible pregnancies - ABO incompatibility or Rh incompatibility ### Manifestations: - Anemia - Hyperbilirubinemia... jaundice! - Kernicterus (brain damage from high levels of bilirubin) ### Prevention is KEY! Immunoprophylaxis using Rh immune globulin (RhoGAM) to prevent Rh-negative woman from producing antibodies. *** ### Sickle Cell Disease (Inherited Disorder of Erythrocytes) - Hereditary condition where there is a replacement of normal Hgb with abnormal Hgb S ### Sickle Cell Trait (Heterozygous, Ss) - Most common form of sickle cell disease - Child is a CARRIER of sickle cell anemia & rarely has symptoms ### Sickle Cell Anemia (Homozygous, ss) - Child is subjective to sickle cell crises - Chronic hemolytic anemia ### Pathophysiology - During episodes of sickling, RBCs become abnormally crescent shaped - Sickling depends on degree of oxygenation, pH and dehydration - Sickled cells can resume a normal shape when rehydrated and re-oxygenated - May occlude small blood vessels - RBCs become weak and are hemolyzed and removed ### Types of Sickle Cell Crises 1. Vaso-occlusive Thrombotic Crisis* 2. Splenic Sequestration/Sequestration Crisis 3. Aplastic Crisis *** ### Sickle Cell Crises ### Vaso-occlusive Thrombotic Crisis - Precipitated by dehydration, exposure to cold, acidosis, or localized hypoxemia - Caused by stasis of blood with clumping of cells in microcirculation → ischemia → infarction - Thrombosis and infarction of local tissue may occur if the crisis is not reversed - Cerebral occlusion can result in a stroke! - Symptoms: fever, pain, tissue engorgement & redness *** <h3>Splenic Sequestration/Sequestration Crisis</h3> - Life threatening: death can occur within hours - Caused by pooling of blood in the spleen - Signs include profound anemia, hypovolemia, and shock - CM of hypovolemia (low BP, high HR!) - Complications of Splenomegaly... include? (hint: life-threatening) *** ### Aplastic Crisis - Diminished production and increased destruction of RBCs - Triggered by viral infection or depletion of folic acid - Virus causes a temporary shutdown of RBC production in the bone marrow but hemolysis continues → leads to a sudden drop in hemoglobin level - Signs: profound anemia, pallor, and fatigue *** ### Hemophilias (Inherited Coagulation and Platelet Disorders) ### Coagulation Review After injury, \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ are activated by many products of tissue destruction and inflammation, including collagen, thrombin, and \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_-activating factor. A blood clot is a meshwork of protein (fibrin) strands that stabilizes the platelet plug and traps other cells, such as erythrocytes, phagocytes, and microorganisms. In hemophilia, there is a problem with the intrinsic & extrinsic pathway and/or the fibrinolytic system - It is a hereditary bleeding disorder or spontaneous mutation of the factor gene - Treatment is determined on what factor is deficient by replacement therapy; not a cure but symptoms can be controlled. - Hemophilia A and Hemophilia B are most common. *** ### Hemophilia Clinical Manifestations - Prolonged bleeding - Excessive bruising - Subcutaneous and intramuscular hemorrhages - Oral bleeding from dental work - Hemarthrosis (bleeding into a joint space) - Signs of swelling, warmth, redness, pain and loss of movement of limbs - Bleeding in the neck, mouth, or thorax - Anemia - Hemorrhage from any trauma (cuts, injections, circumcision) - Hematomas in the spinal cord → paralysis *** ### Hemophilia A & B ### PATHO X-linked recessive trait - Males are mostly affected - Females may be carriers & may exhibit manifestations - Female carrier (4 possible outcomes with each pregnancy): - A girl who is not a carrier - A girl who is a carrier - A boy without hemophilia - A boy with hemophilia ### X-linked recessive | Unaffected | Carrier | Affected | |---|---|---| | Father | Mother | Father | | XY | XX | XY | | Unaffected son | Carrier daughter | Affected daughter | Unaffected son | Carrier daughter | Son | | XY | XX | XX | XY | XX | XY| | Unaffected | Carrier | Affected | | Son | Daughter | Son | | XY | XX | XY | | Unaffected | Carrier | Affected | | Son | Daughter | Son | | XY | XX | XY | *Note: a few carriers may be mildly affected due to skewed X-inactivation.* *** ### Hemophilia A & B ### Hemophilia A - Known as “classic hemophilia” - Deficiency of factor VIII (antihemophilic factor) - AHF is produced in the liver & is necessary for the formation of thromboplastin - Accounts for 80-85% of cases of hemophilia ### Hemophilia B - Also known as "Christmas disease" - Caused by deficiency of factor IX (Christmas factor)