Pathophysiology of Blood System PDF
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Azerbaijan Medical University
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This document comprehensively details the pathophysiology of various blood system disorders. It explores blood volume changes, the impacts of physicochemical properties, cellular changes, and erythrocytosis. The text also delves into different types of anemia, including post-hemorrhagic, dyserythropoietic, and hemolytic anemias, along with specific conditions and their associated symptoms.
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# Chapter 18: Blood System Pathologies Blood system pathologies can be due to: - Blood volume changes - Physicochemical properties changes - Changes of cells - Changes of hemostasis ## Blood Volume Changes Blood makes up 6-8% of body weight (~5-6L) ~3.5-4L is circulating. Hematocrit in males is 4...
# Chapter 18: Blood System Pathologies Blood system pathologies can be due to: - Blood volume changes - Physicochemical properties changes - Changes of cells - Changes of hemostasis ## Blood Volume Changes Blood makes up 6-8% of body weight (~5-6L) ~3.5-4L is circulating. Hematocrit in males is 44-46%, in females 41-43% ### Hypovolemia - Oligocytemic: Massive hemolysis, Addison-Birmer - Simple: 1 stage blood loss - Polycytemic: Dehydration, shock ### Normovolemia - Oligocytemic: Hemolysis, aplastic, 1-2D after bleeding - Simple: Normal - Polycytemic: RBC infusion ### Hypervolemia - Oligocytemic: ADH↑, Renal failure, Plasma Substitution - Simple: Blood transfusion, exercise - Polycytemic: Hypoxia, Polycythemia vera ## Changes of Physicochemical Properties ### Physicochemical Properties - Specific gravity: 1.05-1.06 - Viscosity: Plasma (1.9-2.6), Blood (3.5-5.4), CO2↑→Viscosity↑ - Osmotic pressure: 7.5-8.1 atm (60% Na), Colloid: 25-30 mmHg - RBC resistance to osmosis: A/V, minimal 0.48-0.44%, maximum 0.32-0.28% - ESR: Women 2-15, men 1-10 - ESR↑: Protein↑, PH↑, ↓cholesterol↑, osmiat, pregnancy, inflammation - ESR↓: Lecithin, bilet, RBCs↑ ## Changes of Cells: RBCs ### Quantitative/Qualitative - **Quantitative**: Cytosis or Penia - **Qualitative:** Regenerative, degenerative, pathological ### Size (MCV) - Normal Size: 6.5 < x < 8 µm - Schistocytes: <2-3 µm - Measured through MCV: 80-98fl ### Shape/Saturation - **Shape**: Anisocytosis, Poikilocytosis, Anisochromia, inclusions - **Saturation**: Cl, MCH, MCHC - Cl: 3Hb/first 3 No of RBC/l - MCH: Hb/RBC, 26-33 pg - MCHC: Hb/HCx100, 30-36% ### Anisocytosis - **Anisocytosis**: Variation in RBC size: - Normal - Macrocyte - Microcyte - Oval macrocyte - RBC according to the color: - Hypochromasia (thalassemia) - Polychromasia (reticulocyte) - Hyperchromasia - **Poikilocytosis**: Variation in shape - Target cell - Teardrop cell - Ovalocyte - Elliptocyte - Acanthocyte - Burr cell - Stomatocyte - Sickle cell - Fragmented RBC - Crenated RBC - Red blood cells inclusions: - Basophilic stippling - Cabot ring - Heinz bodies - Siderocyte - Howell-Jolly body - Hemoglobin C ### Megalocytes - Men: 4-5x10<sup>12</sup>/l, 130-160g/l - Women: 3.7-4.7x10<sup>12</sup>/l, 120-140g/l ## Erythrocytosis ### Absolute Erythrocytosis - **Primary**: Polycythemia vera (vaquez-osler disease) - Normal erythropoietin - **Secondary**: - Sympathetic ↑ - Endocrine↑ - Hypoxia - Tumors - *Erythropoietin↑* ### Relative Erythrocytosis - Plasma loss: Vomiting, diarrhea, burn - Gaisböck Syndrome ## Polycythemia vera - Pathophysiology: JAK2 mutation -> Erythropoiesis↑+WBCs -> Pancytosis - At terminal stage: *Myelofibrosis* -> Pancytopenia - Symptoms: - Limb swelling and red color - BP↑ - Viscosity↑ - Thrombosis - LV hypertrophy - Bleeding - Itch - Splenomegaly - *Myelofibrosis* ## Anemias - Pathogenesis: - Post-hemorrhage - Dyserythropoietic - Hemolytic - *Origin*: Genetic, Acquired - *Regeneration* : Regenerative, hypo-, hyper-, a- - *Color* : Hypochromic, Normochromic, Hyperchromic - *Hematopoiesis* : Normoblastic, Megaloblastic - *Course*: Acute, chronic ## Posthemorrhagic Anemia - Due to trauma, pathology, or permanent (diapedesis) ### Acute - Symptoms: HR↑, Dyspnea, pale skin, BP↓ - Compensation: - Vascular-reflex stage (8-12h): Sympathetic ↑ - Peripheral constriction - Heart↑ - CI normal - Hydremia stage (1-2D): Fluid from plasma - 2-3D proteins from lymph, 4th D from liver - 8-10D normalize - CI normal - Bone marrow stage (4-5D): - Erythropoietin↑ - Aniso + Poikilo - CI↓ ### Chronic - Hyporegenerative, Hb↓ -> Micro, Poikilo, hypochromic ## Dyserythropoietic Anemia - 4 types: - Iron deficiency anemia - B9, B12-deficiency anemia - Hypoplastic anemia - Aplastic anemia ### Iron Metabolism - *DcytB* + Vitamin C, HCl. Pyruvate - If excess Fe: - **Liver: Storage** - *Fe<sub>3</sub><sup>+</sup>* - *Hepcidin* - *Ferroportin* - *Ceruloplasmin* - *Fe<sub>2</sub><sup>+</sup>* - **Spleen: Storage** - *Fe<sub>3</sub><sup>+</sup>* - *Apoferritin* - *Ferritin* - *Fe<sub>2</sub><sup>+</sup>* - *Hemosiderin* - *Transferrin* - *Fe<sub>2</sub><sup>+</sup>* - **Bone marrow: Erythropoiesis** ## Iron-Deficiency Anemia - Auto R - Etiology: - Nutrition - Demand↑ - Malabsorption - Chronic bleeding - Transport: *Atransferrinemia*, acquired hypotransferrinemia - Pathogenesis: - *Fe*↓ -> *Heme*↓ -> *RBCs*↓ + *Cytochromes*↓ -> *Hypoxia* + *ROS*↑ - Symptoms: - Hemato: *Hb*↓, *CI*↓, hyporegen, Micro, neutrophils↑, ferritint, sideroblasts↑, erythroid line↑ - *Blue bone marrow* - Hypoxic: Hemic+Tissue hypoxia - Trophic: *Ros*↑ -> Dry skin, cracks, brittle nails, hair loss, papillae atrophy, atrophic glossitis, angular stomatitis, atrophic gastritis - Sideropenia: Parorexia (pica) - Muscles: Myoglobin↓ -> Weakness, fatigue, myocardial dystrophy, dysphagia ## B9, B12 Deficiency - Etiology: - Nutrition - Demand↑ - Malabsorption: - *Castle factor* - Intestinal diseases - Diphyllobothriasis - Deposition and synthesis issues - Autoimmune: Addison-Biermer - Ig to parietal cells - Ig to block binding - Ig to B12-factor complex - Pathogenesis: DNA synthesis disruption -> Nuclear-cytoplasmic asynchrony -> Megalocytes (one mitotic cycle instead of 3) - Anemia - Hypersegmented giant neutrophils: Pancytopenia - Symptoms: - GI mucosal inflammation and atrophy - Aniso + Poikilo (oval) - *CI*↑ - Inclusions: Jolly, Cabot - *Adосы* -> *Propionic* + *Methylmalonic* acids↑ -> Funicular myelosis - Axresthic anemia (Israel-Wilkinson) ## Hypoplastic and Aplastic Anemia - Such anemias can be acquired: Drugs, chemicals, radiation, infections, autoimmune, endocrine or hereditary - Pathogenesis: - Damaging factors -> DNA damage - Autoimmune: Autoreactive CD8+ -> Kill stem cells - *Telomerase shortening* ### Specific Values - ESR: 30-50 - Fe level: ↑ - *Normal spleen* ## Hereditary Hypoplastic and Aplastic Anemia ### Hypoplastic - Ehrlic anemia ### Aplastic - **Partial** - Diamond-Blackfan - Red cell aplasia - **Total** - Fanconi anemia - Estren-Dameshek ## Hemolytic Anemia - Normo *CI*, regen, erythroblastic - **Types**: - Acquired - Hereditary - **Extravascular/Intravascular**: - Jaundice - Hepatosplenomegaly - Hyperbilirubinemia - Hyper everything ### Acquired/Hereditary - **Acquired**: - Trauma - Immune - Drugs - Toxins - Infections - Membranopathies - **Hereditary**: - Membranopathies - Enzymopathies - Hemoglobinopathies ## Membranopathies - Most important - Can be due to: - Membrane proteins: Spherocytosis, elliptocytosis, ovalocytosis, stomatocytosis - Membrane lipids: Acanthocytosis, LCAT deficit anemia ### Hereditary Spherocytosis (HS, Minkowski-chauffard Syndrome) - *Auto D* - Spectrin+Ankyrin mutation -> Violation of membrane - Loss of parts -> Spheroid shape - Macrophages kill RBCs in spleen every 6-12D ## Enzymopathies - The most important one is 6-6-P DH deficiency: - Favism: X-Rec, triggered by oxidative stress or drugs - *G-6-P DH deficit* -> *NADPH*↓ -> *glutathione*↓ -> *Ros*↑ -> Oxidized *Hb* -> Heinz bodies - *Very damaged cells* -> Intravascular hemolysis, less damaged cells -> Bite cells, extravascular ## Hemoglobinopathies - **Quantitative/Qualitative**: - Quantitative: Sickle cell anemia - Qualitative: Thalassemia ### Sickle Cell Anemia - *Codominance* - Mutation at 6th position of B-globulin: valine instead of glutamate -> *HbS* -> Polymerize - *(HbS is 25x less soluble)* -> Tactoids -> Sickle shape - Symptoms: Extravascular hemolysis + clumping -> Ischemia, pain, angina, cirrhosis, gallstones, osteoporosis ### Thalassemia - *Auto R* - In HbA, there are 2 *α* and 2 *β* chains, each *α* chain is encoded by 2 genes, and each *β* chain is encoded by 1 gene. If *α* genes mutate, *α-Thalassemia* develops, and if *β*, *β-Thalassemia* develops. - In *α-Thalassemia* two types of abnormal Hb develop: - HbH: BBBB, HbBar: rrrr. - They're unstable and accumulate in the center and are under the membrane -> Target cell. - HbH and HbBart have *extreme affinity to O<sub>2</sub>* -> Hypoxia. - Results: Extravascular hemolysis, microcytic and hypochromic anemia. ### α-Thalassemia - **Minimal ("silent")** : One gene, no symptoms, 2% HbH - **Minor ("trait")**: 2 genes, might show mild anemia, 5-6% HbH - **Intermedia ("HbH disease")**: 3 genes, moderate-severe, 40% HbH - **Major**: All 4 genes, fatal, 90% HbBart ### β-Thalassemia - **β<sup>0</sup>** (Cooley's disease): homozygous, no *β*, severe - **β<sup>+</sup>**: - Major: homozygous, some *β*, moderate - Minor: heterozygous, "trait", no symptoms - **Cooley's disease**: - Excess *α* -> Rigidity -> Extravascular hemolysis - Ineffective erythropoiesis - Fe absorption↑ -> Hemochromatosis: Liver and heart damage - Bone marrow expansion -> Skeletal deformities ## Acquired Hemolysis - Trauma: - Mechanical vessels - Microangiopathic: DIC, SLE, HTN, TTP, HUS, cancer, marching - Immune: - Isoimmune: Rh, ABO - Autoimmune: SLE, rheumatoid, etc... - Drugs: - Drugs that act like haptens: Penicillins, sulfa, methyldopa -> Rh - Toxins: Endogenous, exogenous, chemical, biological - Infections: Strep, Plasmodium - Membranopathy: Paroxysmal nocturnal hemoglobinuria (Marchiava-Micheli syndrome): - Sporadic mutation of PIGA -> *Glycosylphosphatidylinositol anchors*! - →CD55, CD59! -> Activation of complement at RBCs. - Nocturnal due to *CO<sub>2</sub>*↑ at sleep ## Changes of Cells: WBCs - **Quantitative/Qualitative**: - Quantitative: Leukocytosis, leukopenia - Qualitative: Degenerative, regenerative ### Leukocytosis - **Normal:** 4-9x10<sup>9</sup>/l - **Physiological**: Emotion, myogenic, static, alimentary, pregnant, newborns - **Pathological**: - Neutrophilia: >70%, bacteria, purulents, MI, bloodloss, insects, emotion+alimentary - Eosinophilia: >4%, allergies, helminths, endocrine, drugs, collagenoses, hemoblastoses - Basophilia: >1%, type I - Lymphocytosis: >45%, myogenic, veg diet, infections, endocrine, asthma, CLL - Monocytosis:>9%, chronic infections, tumors, inflammatory diseases, splenectomy - **Reactive Leukocytosis**: Happen due to effects of pathogens: Macrophages release *CSF* -> Proliferation↑, IL-1, LPS, TNF-a -> Passage into blood↑ - **Leukemoid reactions**: Leukemia-like (≥30x10<sup>9</sup>/l): - Myeloid (neutrophilic or eosinophilic) - Lymphoid (at mononucleosis) ## Leukopenia - **Acquired**: Physical, chemical, biological - **Hereditary**: Chediak-Higashi syndrome, Kostmann syndrome, lazy leukocyte syndrome ### Pathogenesis - Passage: Damage to stem cells, maturation issues - Staying: Destruction, passage-tissue, elimination↑: Smokers - Redistribution: Transfusion, anaphylaxis - **Agranulocytosis**: Due to agranulopoiesis, immune, ulcerative necrotic tonsillitis - **Lymphocytopenia**: Many diseases - **Monocytopenia**: Severe sepsis ## Qualitative Changes - Degenerative forms: In neutrophils and monocytes - **Vacuolization**: At sepsis, abscess, radiation - **Ridder forms**: Binuclear lymphocytes - **Shadows of Botkin-Gumprecht**: Lymphocytes with destroyed nuclei, at CLL (smudge cells) - **Knyazkov-Döhle bodies**: Oval blue inclusions, at scarlet, measles, sepsis, pneumonia, and burn - **Auer rods**: Dark red sticks - **Hypersegmented neutrophils**: At addison-Biermer - **Immature** -> **Left shift** -> **Nuclear (neutrophilic) index**-> **Right shift** -> **Mature** - **Regenerative**: Poiesis↑: Sepsis-purulent - **Hyperregenerative**: Hyperplasia: Sepsis-purulent - **Degenerative**: Poiesis↓: Severe infections, intoxication - **Regen-Degen**: Formation↑ but impaired maturation ## Hemoblastosis - Hemoblastosis are malignant tumors that originate from hematopoietic cells; it includes leukemias and lymphomas. ## Leukemias - Are tumors that develop in the bone marrow, either acute (from classes I-IV of hematopoietic cells) or chronic (from class V). Classes I-III are undifferentiated. - **Acute leukemias**: Aleukemic or leukopenic, hiatus leucemicus - **Acute undifferentiated leukemia**: Very rare, fatal - **Acute myeloblastic leukemia**: From myeloblasts, in adults - **Acute lymphoblastic leukemia**: From lymphoblasts, in children - **Acute plasmablastic leukemia**: From B cells, Paraproteins ## Chronic Leukemia - Subleukemic or leukemic, no hiatus leucemicus - **Chronic myelocytic leukemia**: *Hyperregenerative*, >50x10<sup>9</sup>/l, in 85-95% there is *Ph'* marker due to Philadelphia chromosome (22nd) - **Idiopathic myelofibrosis**: Myeloid lines hyperplasia + Myelofibrosis, < 50x10<sup>9</sup>/l - **Chronic lymphocytic leukemia**: Mainly from B cells, shows shadows of Botkin - **Erythremia** ## Paraproteinemic Leukemias - Myeloma - Tumor cells produce *IL-1*, *TNF-α*, *β* -> Hyper *Ca*<sub>2</sub><sup>+</sup>. - In 20%, Igs are only *light chains:* Bence-Jones are produced -> Protein in urine+amyloidosis - Waldenström macroglobulinemia - Macromolecular *IgM* (cryoglobulins) are produced, rarely Bence-Jones too. - Shows myelopenia, thrombosis. - Heavy chain disease - Only *α heavy chains* of Igs are produced -> Immunosuppression ## Lymphoma - Are tumors that develop in lymphoid tissue, either *Hodgkin's lymphoma* (Reed-Sternberg cells: *B cells*) or non-Hodgkin's lymphomas. ## Hemostasis Pathologies - *Normal bleeding time* is 2-9 min - *Normal Platelets count* is 150-350x10<sup>9</sup>/l - *Prothrombin time (PT)*, assess extrinsic and common pathways - *Partial thromboplastin time (PTT)*, assess intrinsic and common pathways ### Etiology of Hemorrhages - Damage to the vascular wall - Thrombocytes changes - Coagulopathies ## Damage to Vascular Wall - 4 parameters are normal ### Rendu-osler Syndrome (Hemorrhagic Telangiectasia) - *Auto D*: Vascular CT insufficiency -> Thinning of vessels -> Bleeding (oral+nasal) - Oster-Weber Rendu Syndrome: Hereditary hemorrhagic telangiectasia (HHT), also known as Osler-Weber-Rendu disease. Autosomal dominant disorder. Characterized by multiple mucocutaneous telangiectasias. - Clinical picture: - Most common cause of pulmonary arteriovenous malformations. - Telangiectasia: lips, gingiva, tongue, palate, and palpebral conjunctiva. - Recurrent epistaxis (nighttime). - Vascular malformation (lung, liver, GI, and brain) ### Henoch-Schönlein Purpura (IgA Vasculitis) - Vasculitis triggered by infections or toxins -> Ig-Ag complexes containing IgA at vessels -> Purpura, arthritis, and abdominal pain. - Most common systemic vasculitis of childhood. - Self-limited, improves after a few weeks of supportive care. ## Ehler-Danlos Syndrome - Group of 13 diseases caused by hereditary collagen deficit. ## Scurvy - Lack of *Vitamin C* -> *Collagen*↓ -> Weak vessels -> Bleeding ## Changes in Platelets - Can be *thrombocytopenia* or *thrombocytopathies* ### Thrombocytopenia - *Bleeding time*↑, *platelets* ↓ - Due to: - Impaired formation - Destruction: Hypersplenism, ITP, drugs, etc... - Consumption: TTP, HUS, DIC - Redistribution ### Thrombocytopathies - *Bleeding time*↑, *platelets*= - Impaired adhesion: - Von-Willebrand disease: *Auto D*, VWF insufficiency - Bernard-Soulier disease: *Auto R*, GpIb insufficiency - Impaired aggregation: - Glanzmann's thrombasthenia: *Auto R*, GpIb/III deficit - Impaired degranulation ## Coagulopathies - *Bleeding*↑, *platelets*=, *PT* or/and *PTT*↑ - **Hereditary**: - Hemophilias: - A: *Factor VIII*, X-R - B (Christmas disease): *Factor* IX, X-R - C (Rosenthel disease): *Factor* XI, *Auto R* - Afibrinogenemia - **Acquired**: *Vitamin K*!, DIC ## DIC - *Platelets*!, *fibrinogen*!, *PT* and *PTT*↑ - Release of tissue factor (from placenta, AML, sepsis, and adenomas) or severe endothelial damage (SLE, burns, infections) -> Thrombosis in small vessels -> Ischemia + Microangiopathic hemolytic anemia - Depletion of platelets, then activation of *fibrinolysis* -> Bleeding - Pathogenesis of DIC: - Activation of intravascular coagulation - Platelet consumption - Coagulation factors consumption - Fibrinolysis - Endothelial damage - Microvascular thrombosis - Multi-organ ischemia or failure: - Multi-organ dysfunction (MODS) is a serious condition that can occur when multiple organs in the body fail. The kidneys, liver, and brain are most commonly affected. - MODS often develops over time. It is typically the result of infection, sepsis, severe trauma, or major surgery. The mortality rate for MODS is high.