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Haematological aspects of systemic disease

Explore the impact of systemic diseases on blood health, including inflammation, malignancy, renal, liver, endocrine issues, pregnancy, infections, and amyloidosis. Learn about various diseases, pathogenesis, treatments, and management strategies affecting different blood parameters.

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Haematological aspects of systemic disease

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  1. Haematological aspects of systemic disease

  2. Overview • Inflammation – malignancy • Renal, liver, endocrine,pregnancy • Infection, amyloid

  3. Inflammation - Malignancy

  4. Anaemia of chronic disease (ACD) • Normochromic or mildly hypochromic anaemia • Moderate anaemia (hb>9.0g/dl) • Reduced serum iron and tibc • Normal or raised serum ferritin with adequate bm iron stores and reduced sideroblasts

  5. Pathogenesis of ACD • Pathogenesis of ACD • Hepcidin • Increased levels of cytokines • Treatment • Therapy of chronic disease • Recombinant EPO

  6. Malignancy - anaemia • ACD affects almost all patients • AIHA esp. in lymphoma • MHA with disseminated • Blood loss in GI and gynaecological malignanciesmucin secreting adenocarcinoma • Leucoerythroblastic anaemia indicates marrow infiltration • Red cell aplasia is associated with thymoma, lymphoma and CLL • Other causes • Chemotherapy or radiotherapy • Folate deficiency

  7. Malignancy • Polycythaemia • Tumour cells may produce EPO or EPO-like polypeptides • White cell changes • Neutrophilia (infection or bleeding) • Neutropaenia (chemotherapy) • Platelets • Thrombocytopaenia • Thrombocytosis • Coagulation changes • Haemorrhage or thrombosis (activation of both coagulation and fibrinolysis) • Chronic DIC - thrombosis and migratory thrombophlebitis • Circulating anticoagulants and specific coagulation factor inhibitors

  8. Connective tissue disorders • Anaemia • ACD common. Fe def. may coexist • AIHA occurs in SLE, R.A, and mixed CTD • Red cell aplasia occurs in SLE • White cells • Inflammation – neutrophilia • Felty’s sx. (neutropaenia with splenomegaly in R.A • Antibody and immune mediated neutrophil destruction and decreased neutrophil production • Eosinophilia – SLE, R.A, polyarteritis nodosa • Platelets • Thrombocytopaenia • Thrombocytosis in CTD

  9. CTD – cont. • Coagulation changes • Associated with renal disease, drug therapy, DIC and specific coagulation factor inhibitors • The Lupus anticoagulant occurs in approximately 10% of patients with SLE.

  10. Renal, Liver, Endocrine - Pregnancy

  11. Renal disease • Anaemia • Acute or chronic renal failure – normochromic normocytic anaemia • Reduce EPO levels • Echinocytes • Iron deficiency and haemolysis (HUS & TTP) • EPO corrects anaemia to 12g/dL • Poor response to EPO – • fe or folate def. , haemolysis, infection, occult malignancy, aluminium toxicity, hyperparathyroidism and inadequate dialysis • Hypertension and thrombosis of an AV fistula may occur • Polycythaemia • May occur with renal tumours or cysts

  12. Renal disease • Haemostatic abnormalities • Coagulation factors II, XI or XIII may be reduced • Platelet function is impaired (predisposed to bleeding) • Low levels of Protein C, AT or plasminogen may lead to thrombosis

  13. Endocrine disease • Anaemia • Hyper and hypothyroidism cause a mild anaemia (MCV raised in hypothyroidism and lowered in thyrotoxicosis) • Deficiencies of iron, as a result of menorrhagia or achlorhydria • B12 deficiency (increased incidence of pernicious anaemia in hypothyroidism, hypoadrenalism and hypoparathyroidism) kay complicate the anaemia • Anti-thyroid drugs (carbimazole and propylthiouracil) can cause aplastic anaemia and agranulocytosis

  14. Liver disease • Anaemia • Caused by anaemia of chronic disease, haemodilution (increased plasma volume), pooling of red cells (splenomegaly) and haemorrhage (e.g. oesophageal varices) • MCV raised especially in alcoholics • Target cells, echinocytes and acanthocytes occur • Haemolysis and hypertriglyceridaemia with alcoholic liver disease is rare • Direct toxicity of copper for red cells causes haemolysis in Wilson’s disease • Viral hepatitis may lead to aplastic anaemia • Platelets may be low (hypersplenism or DIC)

  15. Liver disease cont. • Platelets and haemostasis • Defects of platelets, coagulation and fibrinolysis • Reduced synthesis of Vit. K. dependent factors (II,VII,IX,X,pC,pS) • Impaired synthesis of other coagulation proteins (I,V) • Thrombocytopaenia (hypersplenism) and abnormal platelet function (cirrhosis) • Fibrinolysis impaired • Reduced levels of proteins C,S,AT, antiplasmin – DIC • Dysfibrinoginaemia may lead to haemorrhage, or thrombosis • Coagulation changes • Increased PT,APTT, N or increased TT, decreased platelets and dysfibrinogenaemia

  16. Pregnancy • Anaemia • Plasma volume increases up to 50%, RCM increases 20-30% - haemodilution, MCV rises • Fe. def. frequent (RCM, fe. to foetus, blood loss) • Increased folate requirements (catabolism) ,B12 falls below normal • AIHA, HELLP syndrome, DIC • White cells • Mild neutrophil leucocytosis with left shift • Platelets • Gestational Thrombocytopenia • Maternal ITP • Pre-eclampsia • Coagulation changes • Increased risk of thrombosis and DIC

  17. Infection, Amyloid

  18. Infection - viruses • Anaemia • AIHA • Erythema variegata (fifth disease) - B19 Parvovirus • Virus associated bone marrow aplasia (Hep, HIV, CMV) • MAHA with TTP • White cells • Neutropaenia with lymphopaenia or lymphocytosis • Platelets • Thrombocytopenia – either immune (infectious mononucleosis, HIV) , caused by bone marrow aplasia, or increased consumption (e.g. DIC, TTP,HUS, Haemophagocytosis) • Reactive thrombocytosis

  19. Infection – bacterial, fungal and protozoal • Anaemia • ACD is frequent. • Haemolytic anaemia may be immune or non-immune. • DIC and MAHA may occur. HUS may follow infection by E.coli, Shigella and Campylobacter. • Blood loss can occur with H.pylori and ankylostoma infections. • White cells • Neutrophilia is most common. • Platelets • Thrombocytosis is frequently reactive. Thrombocytopenia may also occur, caused by immune destruction, circulating immune complexes, decreased platelet production and DIC • Haemostasis • DIC

  20. Infection – bacterial, fungal and protozoal cont. • Malaria • Anaemia is caused by haemolysis, splenic sequestration, haemodilution and ineffective erythropoeisis. • Malaria antigens attached to red cells may cause immune haemolysis. Acute intravascular haemolysis with haemoglobinuria and renal failure (blackwater fever) occurs rarely in Plasmodium falciparum. ACD may also occur. • Eosinophilia is variable. • Thrombocytopenia may be caused by immune destruction, splenic sequestration and DIC. • Leishmaniasis • Protozoal infection • Hepatosplenomegaly, hypergammaglobulinaemia, normochromic anaemia and a raised ESR occur.

  21. Amyloid • Tissue deposition of a homogenous eosinophilic protein material which is birefringent and stains with Congo red. • 2 types • Amyloid derived from clonal lymphocyte or plasma cell proliferation (AL) (e.g. myeloma, primary amyloidosis) • Reactive amyloidosis (AA) which occurs when serum amyloid A protein is deposited in chronic inflammatory disease (e.g. rheumatoid arthritis, inflammatory bowel disease) or chronic infection (e.g. tb, leprosy, osteomyelitis and bronchiectasis) • Localized amyloid may occur • Amyloid P protein is deposited in both AL and AA types • Amyloid deposition leads organ enlargement and dysfunction. Tissues involved include: kidneys, heart, skin, tongue, endocrine organs, liver, spleen, GI tract, respiratory tract and the autonomic nervous system.

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