Blood Cell & Clotting Abnormalities PDF

Summary

This document provides an overview of blood cell and clotting abnormalities. It covers topics like different types of anemias (pernicious and iron deficiency), leukemias, lymphomas, thrombocytopenia, and blood clotting mechanisms. The document also discusses the role of platelets in hemostasis and the causes and symptoms of various blood disorders.

Full Transcript

BLOOD CELL & CLOTTING
ABNORMALITIES

Dorean Behney Hurley MSN, RN, CCRN
 COMPONENTS OF BLOOD
Leukocytes (WBCs)
Thrombocytes (Platelets)
Erythrocytes (RBCs)
Plasma

 All cells derive from a single pool of
pluripotent (multipotent) stem cells
of bone marrow
 Lymphoid stem cells
 Myeloid stem cells
BONE MARROW GIVES RISE TO ALL BLOOD
CELLS
INTRODUCTION
A&P REVIEW -
ERYTHROCYTES
MATURE RBCS

 Biconcave disk
 Hemoglobin
 Carries oxygen to body tissues
 Color
 Vitamin and minerals needed for HGB synthesis
 Iron - 67% of iron is in the form of HGB
 Iron is recycled
 Folate– needed for DNA & RNA synthesis for RBC production
 Vitamin B12 – needed for DNA synthesis, nuclear maturation,
normal cell division & prevents myelin breakdown
 A&P REVIEW: ERYTHROPOIESIS
 Proerythroblasts
 Produced by pluripotent stem cells in bone marrow
 Precursor cells of RBCs
 1 wk stem cell to reticulocyte
 Enters blood as reticulocyte
 Matures into erythrocyte in 24-48 hrs.
 RBC production = destruction
LABORATORY TESTS
 RBC – total #
 HGB
 14-16.5 g/dL - men
 12-15 g/dL - women
 HCT
 40-50% - men
 37-47% - women
 Reticulocytes – index of the rate of RBC production
 1-1.5%
 MCV
 Microcytic
 Macrocytic
 MCH
 MCHC
 Hypochromic Do not
 Normochromic memorize #
Labwork helpful in diagnosis of anemia
MANIFESTATIONS OF ANEMIA
 ANEMIA OF ACUTE BLOOD LOSS
 Volume loss causes a decrease in venous return
 Low BP, decreased CO & decreased central pressure
 Diverts blood to vital organs kidney RAS conserve salt & H2O
 sympathetic nerve activation blood vessels constrict
 5 days for progeny of hematopoietic stem cells to differentiate
fully
 RBC count returns to normal 3-4 weeks (need adequate iron stores)
 PERNICIOUS ANEMIA
VITAMIN B 12 (COBALAMIN)-DEFICIENCY

 Megaloblastic anemia
 Causes:
 Gastric/Stomach disorders
 Terminal ileum disorders
 Strict vegetarian diet
 Symptoms – usual anemia symptoms
 Changes on mucosal cells
 Neurologic deficits
 Diagnosis and treatment
 CBC – elevated MCV, normal MCHC & reticulocyte count
 Low B 12 levels
 Parietal cell & intrinsic factor antibodies
 FOLIC ACID ANEMIA

 Megaloblastic anemia
 Causes
 Dietary deficiency
 Malabsorption
 Drug interactions
 Pregnancy
 Symptoms
 Diagnosis
 MCV & normal MCHC
 Serum folate levels
IRON DEFICIENCY
ANEMIA

 Microcytic-hypochromic anemia
 Causes
 Dietary deficiency
 Increased iron demands
 Loss of iron from bleeding
 Symptoms
 Lab
 lowiron & ferritin levels
 Low HGB & HCT
 MCV & MCHC
ANEMIA OF CHRONIC DISEASE
SEEN IN CHRONIC SYSTEMIC
DISEASES

 Results from decreased life span & erythropoiesis
T cell activation & production of cytokines
 Altered iron metabolism
 Renal failure patients
 Labs
 Normocytic (MCV) & normochromic (MCHC)
 Low reticulocyte count
 Low transferrin (destruction from cytokines)
 Mild symptoms
APLASTIC ANEMIA
DISORDER OF PLURIPOTENTIAL BONE MARROW STEM
CELLS

 Pancytopenia
 Causes
 High does of XRT
 Chemicals & toxins that
suppress hematopoiesis
 Infections
 Idiopathic 2/3rd of cases
 Signs
 Treatment
 Initially
require transfusions
 Bone marrow or stem cell tx
 Immunosuppressive therapy
 HEMOLYTIC ANEMIA
 Premature destruction of RBC
 Causes
 Hereditary
 Aquired – mechanical trauma, transfusion reaction, infections
 S&S
 Easyfatigability, dyspnea, increase rate & depth
 Jaundice
 Lab
 Normocytic (MCV) & normochromic (MCHC)
 Increased reticulocyte count
 Coombs test (for dx of immunohemolytic)
SICKLE CELL ANEMIA
INHERITED DISORDER OF AN ABNORMAL
HGB(HEMOGLOBIN S)

 Inherited recessive trait
 Sickle cell trait (one HbS gene)
 Sickle cell disease (two HbS genes)
 HbS polymerizes when
deoxygenated semi solid gel
 Results in:
 Chronic hemolytic anemia
 Blood vessel occlusion
 Tissue ischemia
 Pain
SICKLE CELL ANEMIA
 Factors associated with sickling & occlusion

 Complications
 Vaso-occlusive pain
 Acute chest syndrome
 Prone to infections
POLYCYTHEMIA VERA
Primary
 Cause
 Labwork
 Elevated– RBC, H&H, WBC & Platelets
 Decreased – iron levels
 Complications & symptoms
 Splenomegaly
 Hypertension
 Viscosity – venous stasis
 Dusky redness to lips, fingernails & mucous membranes
 Thromboembolism, hemorrhage from rapidly produced defective platelets

Secondary
 Causes
AGE RELATED ISSUES REGARDING
RBCS

Elderly
 Anemia common in elderly

 Increases morbidity & mortality if untreated

 Usually asymptomatic in iron deficiency &

chronic disease
 Stress bleeding RBCs not replaced as quickly
# progenitor cells decrease with age
 Decrease in growth factors stimulating new cells
 Erythropoietin issues
LEUKOCYTE ORIGINATION
 Granulocytes Precursor
 Neutrophils cells
 Basophils
 Eosinophils
 Agranulocytes
 Lymphocytes
 B lymphocytes
 T lymphocytes
 Natural killer cells
 Monocytes

WBC count 4.5 – 10.5 cell/uL
 Leukopenia
 Leukocytosis
 NEUTROPENIA
 Low neutrophil count - levels less than 1000/ul
 Increases risk of infection

 Causes

 Clinical manifestations
 Ulcersof mouth and skin lesions
 Recurrent infections
 Fever
 Treatment
 Prevent infection – neutropenic precautions
 Treat infections until bone marrow recovers
 Administration of recombinant human G-CSF
LEUKEMIAS AND LYMPHOMAS

Lymphoid
precursor
Pre-T
Pre-B lymphoblast
lymphoblast

Naïve
B cell

Plasma
cell
 LEUKEMI
Leukemia
AS

 Lymphocytic – ALL, CLL
 Involve immature lymphocytes & their lymphoid progenitors
 Myelogenous – AML, CML
 Involve myeloid stem cells of bone marrow
 ACUTE LEUKEMIAS Blast cells

– AFFECT IMMATURE BLOOD FORMING CELLS

 ALL - B or T lymphoblasts
 Chromosomal changes
 Affect normal blood cell development
 Affects mostly children

 AML – myeloid precursor cells of BM
 Acquired genetic alteration
 Inhibits terminal myeloid differentiation
 Increased blast cells formation

 Affects mostly older adults
AML & ALL - SYMPTOMS PRESENT SIMILARLY
ABRUPT ONSET OF FATIGUE, LOW GRADE FEVER, NIGHT SWEATS, & WEIGHT
LOSS

 Bone marrow suppression
 Rapid proliferation & hypermetabolism of leukemic cells

 Leukemic infiltration
 Bone pain
 Lymphadenopathy, splenomegaly, hepatomegaly (more common in ALL)
 CNS symptoms (more common in ALL)
 Infection
 Leukostasis – blast count > 100,000

Diagnosis & Treatment
CHRONIC LYMPHOCYTIC LEUKEMIA
CA INVOLVING PROLIFERATION OF MORE FULLY DIFFERENTIATED
LYMPHOID CELLS

 CLL - Clonal malignancy of B lymphocytes
 Failure of B cells to mature into plasma cells
 Cause unknown
 Usually asymptomatic

 Diagnostics
 Elevated WBC count
 75-98% are lymphocytes
 Specific testing for CD 5+, CD 19+, CD 20+, CD 23+
 CHRONIC MYELOGENOUS LEUKEMIA
PROLIFERATION OF MORE FULLY DIFFERENTIATED MYELOID
CELLS

 CML- affects pluripotent hematopoietic progenitor cell
 Excessive proliferation of marrow granulocytes, erythroid
precursors & megakaryocytes
 Philadelphia chromosome
 Clinical course – 3 phases
 Chronic phase
 Short accelerated phase
 Terminal blast phase
 # myeloid precursors
 in accelerated symptoms
 Poor prognosis – 3-6 months

 Diagnostics
 Elevated WBC
 BCR-ABL gene product
LYMPHOMAS
 Malignancies of the peripheral lymphoid tissues
 Solid tumors containing neoplastic lymphoid cells
HODGKIN LYMPHOMA
CANCER OF LYMPHOID TISSUE – SOLID TUMORS

 Cause unknown - ? Mutation of B cell germinal or post-
germinal center of lymph node
 Reed-Sternberg cells found
 Large, atypical mononuclear tumor cells
 Interspersed among normal lymph tissue and lymph organs
 Starts in a single node or chain of nodes
HODGKIN LYMPHOMA

 Symptoms
 Painless enlargement of a lymph node or group of nodes
 1/3 will report systemic symptoms
 Advanced disease leads to immunologic defect in cell
mediated response at risk for infections
 Diagnosis – Lymph node biopsy
 Staging determined by # of nodes involved
 NON – HODGKIN LYMPHOMAS
-LACK RS CELLS, AFFECT MULTIPLE NODES & SPREADS
UNPREDICTABLY

 B cell neoplasms – 85% of NHL
 Burkittlymphoma – associated with EBV
 Mantle cell lymphoma – Immunoglobulin gene arrangements
 MALT lymphomas of stomach associated with chronic H pylori
 T cell neoplasms
 Human T-cell lymphotropic virus of southwest Japan
MULTIPLE MYELOMA
 Pathogenesis:
B lymphocytes turn into
malignant plasma cells
 Osteolytic bone lesions
 Cause unknown
 Manifestations

 Diagnosis
 Bone marrow aspirate
 Lytic bone lesions
 Lab work
 M protein spike serum
 Bence Jones proteins in urine
PLATELETS
AKA THROMBOCYTES

 Platelet count 150,000-400,000 uL
 Remain in bloodstream, but can be stored in spleen
 Thrombopoietin
 Structural components
 Granules become mediators when injury to vessel occurs
 Alpha granules
 Dense granules
 Glycoprotein IIb/IIIa
 Phospholipids

 Platelets responsible for first step of hemostasis
 THROMBOCYTOPENIA
 Platelet count < 100,000,
 Risk for bleeding
 Spontaneous bleeding occurs when < 10,000-15,000/uL
 Causes – anything that decreases platelets
 Bone marrow issues
 Infections
 Excessive platelet destruction – from antiplatelet antibodies
 Massive blood transfusion protocol – dilutes platelets
 Drug induced
 Treatment
THROMBOCYTOSIS
 Asymptomatic until platelet count over 1,000,000 u/L
 Increased risk for clot formation from platelet adhesion

Conditions Associated with Increased Platelet Function

Increased Platelet numbers Endothelial injury

Reactive disorders Atherosclerosis
-splenectomy Elevated lipids & cholesterol
-cancer Smoking
-chronic inflammatory disorders
Myeloproliferative disorders
-polycythemia vera
BLOOD CLOTTING MECHANISM
HEMOSTASIS

 Vessel spasm
< 1 minute
 Thromboxane (TXA2) & neural reflexes

 Formation of platelet plug (primary)
 Platelet adhesion
 vWf binds to platelet receptors & collagen fibers
 Activated platelets release granules
 Calcium
 ADP & TXA2

 Create primary hemostatic platelet plug
HEMOSTASIS  Blood coagulation-(secondary hemostatic plug)
 Pathways activation Factor X
 Convert prothrombin thrombin
 Conversion fibrinogen fibrin
 Clot Retraction
 Actin & myosin in platelets
 Clot Dissolution/fibrinolysis
 Beginssoon after clot is formed
 Plasminogen
 Trapped in clot
 Activated by tPa - tissue plasminogen activator

 Converts to plasmin digests fibrin
 IMPAIRED HEMOSTASIS
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Vitamin K deficiency Liver Disease
styles styles
 Fat soluble vitamin 
Leads to diminished
 Prothrombin production of clotting
 Factors VII, IX, X factors
 Protein C & S  Factor VII, IX
 Plasminogen & α -
 Causes 2

 Bulimia antiplasmin
 Parental nutrition w/

Clotting regulators
antibiotics  Antithrombin, fibrinogen
 Protein C, Protein S
 Treatment
 Vitamin K injections

Diminished thrombopoietin
 Fresh Frozen Plasma (FFP)
TRIAD OF VIRCHOW
RISK FOR DEVELOPING SPONTANEOUS THROMBI

 Injury to vessel endothelium
 Plaques, turbulent flow, toxins
 Abnormalities of blood flow
 Turbulence
 Stasis
 Hypercoagulability of blood
 Primary
 Secondary