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==Overview==
==Overview==
Thrombophilia may be caused by either acquired, inherited, or, more commonly, a combination of both conditions.
Thrombophilia may be caused by either acquired, inherited, or, more commonly, a combination of both conditions.
*Hypercoagulability disorders are either acquired or inherited. However, actual thrombosis occurs due to the interplay of both genetic and environmental factors and follows the multiple hit hypothesis, thus explaining the inter-individual differences observed in patients with inherited mutations. Genetic factors can now be identified in up to 30% of patients with VTE and are mainly attributable to factor V Leiden and prothrombin G2021A mutation. These two thrombophilias implicate a weak thrombotic risk. Other inherited thrombophilias are rare such as antithrombin III, protein C and protein S deficiency (around 1% in the general population) but pose a higher risk for thrombosis. Acquired factors also influence the coagulation cascade and include surgery, pregnancy, hormonal replacement therapy, contraception, malignancy, inflammation, infection, and heparin-induced thrombocytopenia.


==Causes==
==Causes==
===Inherited===
*Hypercoagulability disorders are either acquired or inherited. However, actual thrombosis occurs due to the interplay of both genetic and environmental factors and follows the multiple hit hypothesis, thus explaining the inter-individual differences observed in patients with inherited mutations. Genetic factors can now be identified in up to 30% of patients with VTE and are mainly attributable to factor V Leiden and prothrombin G2021A mutation. These two thrombophilias implicate a weak thrombotic risk. Other inherited thrombophilias are rare such as antithrombin III, protein C and protein S deficiency (around 1% in the general population) but pose a higher risk for thrombosis. Acquired factors also influence the coagulation cascade and include surgery, pregnancy, hormonal replacement therapy, contraception, malignancy, inflammation, infection, and heparin-induced thrombocytopenia.
Common inherited causes of thrombophilia include:
*The cause of thrombosis is multifactorial. As noted, thrombosis occurs when there is an imbalance in endogenous anticoagulation and hemostasis through a complex pathophysiologic mechanism. Historically, three common factors predispose to thrombosis: 1) damage to the endothelial lining of the vessel wall; 2) a hypercoagulable state, and 3) arterial or venous blood stasis. These three factors are known by the eponym "Virchow's triad." Rudolf Virchow proposed Virchow's triad in 1856, and he described how the presence of these three factors increases thrombosis. Endothelial wall damage is caused by different factors, which can include direct disruption of the vessel via catheter placement, trauma, or surgery.  Hypercoagulability is a general hematologic concept that merely means an increased risk of thrombosis (i.e., thrombogenic) via enhanced levels of prothrombotic components in the bloodstream. This hypercoagulability is due to a variety of alterations in the coagulation and hemostatic system, which can result from inflammatory factors, variations in the viscosity of blood and blood components, increased cytokines, and prothrombotic proteins in circulation, or deficiencies of natural or endogenous anticoagulant factors.
* [[Factor V Leiden]]: Factor V is a procoagulant which upon activation promotes the formation of thrombin. In 1994, Bertina and colleagues identified a single nucleotide polymorphism (guanine to adenine substitution in nucleotide 1691), which rendered factor V resistant to proteolytic inactivation by activated protein C (APC).<ref name="pmid8164741">{{cite journal| author=Bertina RM, Koeleman BP, Koster T, Rosendaal FR, Dirven RJ, de Ronde H et al.| title=Mutation in blood coagulation factor V associated with resistance to activated protein C. | journal=Nature | year= 1994 | volume= 369 | issue= 6475 | pages= 64-7 | pmid=8164741 | doi=10.1038/369064a0 | pmc= | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=8164741  }} </ref>
*'''Hypercoagulable states''' can be acquired or inherited. Inherited forms are rare, but include examples such as antithrombin III deficiency, protein C and S deficiencies, factor V Leiden (activated protein C resistance), or prothrombin gene mutations (among many others). Acquired hypercoagulability is far more common and can result from medications (e.g., oral contraceptives, estrogen or other hormonal replacement), recent inflammatory conditions such as pregnancy, surgery, trauma, or infection, and chronic inflammatory conditions (e.g., morbid obesity, rheumatologic disease, ulcerative colitis, heavy smoking). Two specific types of acquired hypercoagulable states that can lead to both venous and arterial thrombus include the acquired antiphospholipid syndrome and heparin-induced thrombocytopenia & thrombosis (HITT);. However, beyond the scope of this review, clinicians must be aware of these conditions as potential contributors to acute thrombosis. Malignancy (occult or diagnosed) is also a well-known risk factor for hypercoagulability, as tumor cells can express a variety of procoagulant proteins, including increased expression tissue factor.  Some malignancies, especially solid tumors, are known to significantly increase the risk of thrombosis (e.g., pancreatic cancer). The third aspect of Virchow's triad includes arterial or venous stasis of the blood, which could be due to immobility, pregnancy, or impaired blood flow resulting from previous thrombosis (e.g., residual blood clot, remodeling or fibrosis of blood vessels, or atherosclerosis). Long trips with limited mobility can also become a relative risk factor for thrombosis, especially if concurrent additional risk factors are present (as above).  
* [http://emedicine.medscape.com/article/209742-overview Prothrombin G20210A]: [[Prothrombin]], or factor II, is a precursor to throbmin. A single nucleotide polymorphism (guanine to adenonine substitution in in nucleotide 20210) was first identied by Poort and colleages in 1996. The mutation was associated with elevated prothrombin, thought to be due to increased translation efficiency, and an increased risk of thrombosis.<ref name="pmid8916933">{{cite journal| author=Poort SR, Rosendaal FR, Reitsma PH, Bertina RM| title=A common genetic variation in the 3'-untranslated region of the prothrombin gene is associated with elevated plasma prothrombin levels and an increase in venous thrombosis. | journal=Blood | year= 1996 | volume= 88 | issue= 10 | pages= 3698-703 | pmid=8916933 | doi= | pmc= | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=8916933 }} </ref> 
*Typically, venous thrombosis is initiated by endothelial damage, while arterial thrombosis starts with atherosclerosis.
* Coinheritance of multiple thrombophilias is not infrequent, and does increase the thrombotic risk in affected patients.  
*'''Venous thromboembolism:''' When considering venous thromboembolism (VTE), an appreciation of the anatomy of the deep veins of the extremities and the pulmonary system is helpful. For example, the deep veins of the lower extremity include the femoral, iliac, and popliteal veins. Thrombosis can also occur in the veins of the upper extremity like in the subclavian, axillary, brachial veins. Other thrombosis sites include superior vena cava thrombosis, jugular vein thrombosis, cerebral venous sinus thrombosis, cavernous sinus thrombosis, retinal vein occlusion. The latter sites are less common, and with the identification of an isolated thrombus in one of these sites, one must consider the potential for other explanatory diagnoses or predisposing conditions (e.g., Budd-Chiari syndrome with hepatic thrombus or cirrhosis and associated splenic vein thrombus). Many myeloproliferative disorders or clonal disorders with acquired bone marrow failure have correlations with rare sites of venous or arterial thrombosis (e.g., paroxysmal nocturnal hemoglobinuria (PNH) may have cerebral venous or abdominal thrombosis as presenting feature). Thrombosis of superficial veins is also possible, especially with provoking factors such as intravenous catheterization or localized cellulitis; treatment of superficial vein thrombosis does not typically require any anticoagulation.  
*'''Arterial thrombosis:''' It can present as an acute stroke, myocardial infarction, or acute on the chronic peripheral arterial disease. Other less common sites can include renal arteries, mesenteric arteries, and retinal arteriesIn addition to acute management (not reviewed here), secondary prevention focuses on reducing cardiovascular risk factors such as obesity, high cholesterol, diabetes, high blood pressure, and encouraging lifestyle modification such as smoking cessation. The increased incidence of obesity, hypertension, and hypercholesterolemia all contribute to the risk of acquiring an arterial thrombosis. Other risk factors include underlying connective tissue or rheumatologic conditions (e.g., SLE, vasculitis), as well as the aforementioned rare HITT, antiphospholipid syndrome, myeloproliferative disorders, and PNH (all of these can predispose to both venous and arterial thrombosis).


Rare causes of thrombophilia include:
'''Table 1: System wise causative factors of thrombophilia'''
* [[Antithrombin|Antithrombin III]] deficiency
* [[Protein C deficiency]]
* [[Protein S deficiency]]
* [[Familial_dysfibrinogenemia|Dysfibrinogenemia]]
* [[Hyperhomocysteinemia]]
* [[Activated protein C resistance]] in the abscence of factor V leiden
**[https://www.snpedia.com/index.php/Rs1800595 HR2 haplotype]
**Additional mutations in the cleavage site of factor V by APC
* Increased levels of [[Factor_VIII|factor VIII]], [[Factor_IX|factor IX]], [[Factor_XI|factor XI]], or [[fibrinogen]]


*'''Genetic thrombophilia:'''
{| class="wikitable"
**Established genetic factors: Factor V Leiden, Prothrombin G20210A, Protein C deficiency, Protein S deficiency, Antithrombin deficiency
|-
**Rare genetic factors: Dysfibrinogenemias, Hyperhomocysteinemia
! '''Systemic organ''' !! '''Medical conditions'''
**Indeterminate factors: Elevated Factor VIII, Elevated Factor IX, Elevated Factor XI, Plasminogen deficiency, Tissue plasminogen activator, Elevated lipoprotein a, Factor VII, Factor XII, Platelet glycoprotein, Plasminogen activator inhibitor, Heparin cofactor II, Thrombomodulin, Histidine-rich glycoprotein
|-
 
| '''Cardiovascular''' || • [[Cerebral vein thrombosis]] • [[Acute myocardial infarction]] • [[Deep vein thrombophlebitis]] • [[Portal vein thrombosis]] • [[Pelvic thrombophlebitis]]
*'''Acquired thrombophilia:'''
**Age >65 years, Inflammatory states, BMI >30 kg/m2, Malignancy, Immobilization—flight >6 hours, Extended varicosis, Trauma, Post thrombotic syndrome, Surgery, Myeloproliferative neoplasm, Pregnancy–puerperium, Essential thrombocythemia, Medication: Synthetic estrogens Chemotherapy, Polycythemia vera, Nephrotic syndrome, PNH, Antiphospholipid antibodies, Depression, Lupus anticoagulant, Smoking, Severe infection
 
==Causes of Thrombophilia by Organ System==
 
{|style="width:75%; height:100px" border="1"
|style="height:100px"; style="width:25%" border="1" bgcolor="LightSteelBlue" | '''Cardiovascular'''
|style="height:100px"; style="width:75%" border="1" bgcolor="Beige" | • [[Cerebral vein thrombosis]] • [[Acute myocardial infarction]] • [[Deep vein thrombophlebitis]] • [[Portal vein thrombosis]] • [[Pelvic thrombophlebitis]]
|-
|-
|-bgcolor="LightSteelBlue"
|-bgcolor="LightSteelBlue"
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|-
|-
|}
|}
*The cause of thrombosis is multifactorial. As noted, thrombosis occurs when there is an imbalance in endogenous anticoagulation and hemostasis through a complex pathophysiologic mechanism. Historically, three common factors predispose to thrombosis: 1) damage to the endothelial lining of the vessel wall; 2) a hypercoagulable state, and 3) arterial or venous blood stasis. These three factors are known by the eponym "Virchow's triad." Rudolf Virchow proposed Virchow's triad in 1856, and he described how the presence of these three factors increases thrombosis. Endothelial wall damage is caused by different factors, which can include direct disruption of the vessel via catheter placement, trauma, or surgery.  Hypercoagulability is a general hematologic concept that merely means an increased risk of thrombosis (i.e., thrombogenic) via enhanced levels of prothrombotic components in the bloodstream. This hypercoagulability is due to a variety of alterations in the coagulation and hemostatic system, which can result from inflammatory factors, variations in the viscosity of blood and blood components, increased cytokines, and prothrombotic proteins in circulation, or deficiencies of natural or endogenous anticoagulant factors.
*'''Hypercoagulable states''' can be acquired or inherited. Inherited forms are rare, but include examples such as antithrombin III deficiency, protein C and S deficiencies, factor V Leiden (activated protein C resistance), or prothrombin gene mutations (among many others). Acquired hypercoagulability is far more common and can result from medications (e.g., oral contraceptives, estrogen or other hormonal replacement), recent inflammatory conditions such as pregnancy, surgery, trauma, or infection, and chronic inflammatory conditions (e.g., morbid obesity, rheumatologic disease, ulcerative colitis, heavy smoking). Two specific types of acquired hypercoagulable states that can lead to both venous and arterial thrombus include the acquired antiphospholipid syndrome and heparin-induced thrombocytopenia & thrombosis (HITT);. However, beyond the scope of this review, clinicians must be aware of these conditions as potential contributors to acute thrombosis. Malignancy (occult or diagnosed) is also a well-known risk factor for hypercoagulability, as tumor cells can express a variety of procoagulant proteins, including increased expression tissue factor.  Some malignancies, especially solid tumors, are known to significantly increase the risk of thrombosis (e.g., pancreatic cancer). The third aspect of Virchow's triad includes arterial or venous stasis of the blood, which could be due to immobility, pregnancy, or impaired blood flow resulting from previous thrombosis (e.g., residual blood clot, remodeling or fibrosis of blood vessels, or atherosclerosis). Long trips with limited mobility can also become a relative risk factor for thrombosis, especially if concurrent additional risk factors are present (as above).
*Typically, venous thrombosis is initiated by endothelial damage, while arterial thrombosis starts with atherosclerosis.
*'''Venous thromboembolism:''' When considering venous thromboembolism (VTE), an appreciation of the anatomy of the deep veins of the extremities and the pulmonary system is helpful. For example, the deep veins of the lower extremity include the femoral, iliac, and popliteal veins. Thrombosis can also occur in the veins of the upper extremity like in the subclavian, axillary, brachial veins. Other thrombosis sites include superior vena cava thrombosis, jugular vein thrombosis, cerebral venous sinus thrombosis, cavernous sinus thrombosis, retinal vein occlusion. The latter sites are less common, and with the identification of an isolated thrombus in one of these sites, one must consider the potential for other explanatory diagnoses or predisposing conditions (e.g., Budd-Chiari syndrome with hepatic thrombus or cirrhosis and associated splenic vein thrombus). Many myeloproliferative disorders or clonal disorders with acquired bone marrow failure have correlations with rare sites of venous or arterial thrombosis (e.g., paroxysmal nocturnal hemoglobinuria (PNH) may have cerebral venous or abdominal thrombosis as presenting feature). Thrombosis of superficial veins is also possible, especially with provoking factors such as intravenous catheterization or localized cellulitis; treatment of superficial vein thrombosis does not typically require any anticoagulation.
*'''Arterial thrombosis:''' It can present as an acute stroke, myocardial infarction, or acute on the chronic peripheral arterial disease. Other less common sites can include renal arteries, mesenteric arteries, and retinal arteries.  In addition to acute management (not reviewed here), secondary prevention focuses on reducing cardiovascular risk factors such as obesity, high cholesterol, diabetes, high blood pressure, and encouraging lifestyle modification such as smoking cessation. The increased incidence of obesity, hypertension, and hypercholesterolemia all contribute to the risk of acquiring an arterial thrombosis. Other risk factors include underlying connective tissue or rheumatologic conditions (e.g., SLE, vasculitis), as well as the aforementioned rare HITT, antiphospholipid syndrome, myeloproliferative disorders, and PNH (all of these can predispose to both venous and arterial thrombosis).


==References==
==References==

Revision as of 18:54, 22 February 2021

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Asiri Ediriwickrema, M.D., M.H.S. [2]

Overview

Thrombophilia may be caused by either acquired, inherited, or, more commonly, a combination of both conditions.

Causes

  • Hypercoagulability disorders are either acquired or inherited. However, actual thrombosis occurs due to the interplay of both genetic and environmental factors and follows the multiple hit hypothesis, thus explaining the inter-individual differences observed in patients with inherited mutations. Genetic factors can now be identified in up to 30% of patients with VTE and are mainly attributable to factor V Leiden and prothrombin G2021A mutation. These two thrombophilias implicate a weak thrombotic risk. Other inherited thrombophilias are rare such as antithrombin III, protein C and protein S deficiency (around 1% in the general population) but pose a higher risk for thrombosis. Acquired factors also influence the coagulation cascade and include surgery, pregnancy, hormonal replacement therapy, contraception, malignancy, inflammation, infection, and heparin-induced thrombocytopenia.
  • The cause of thrombosis is multifactorial. As noted, thrombosis occurs when there is an imbalance in endogenous anticoagulation and hemostasis through a complex pathophysiologic mechanism. Historically, three common factors predispose to thrombosis: 1) damage to the endothelial lining of the vessel wall; 2) a hypercoagulable state, and 3) arterial or venous blood stasis. These three factors are known by the eponym "Virchow's triad." Rudolf Virchow proposed Virchow's triad in 1856, and he described how the presence of these three factors increases thrombosis. Endothelial wall damage is caused by different factors, which can include direct disruption of the vessel via catheter placement, trauma, or surgery. Hypercoagulability is a general hematologic concept that merely means an increased risk of thrombosis (i.e., thrombogenic) via enhanced levels of prothrombotic components in the bloodstream. This hypercoagulability is due to a variety of alterations in the coagulation and hemostatic system, which can result from inflammatory factors, variations in the viscosity of blood and blood components, increased cytokines, and prothrombotic proteins in circulation, or deficiencies of natural or endogenous anticoagulant factors.
  • Hypercoagulable states can be acquired or inherited. Inherited forms are rare, but include examples such as antithrombin III deficiency, protein C and S deficiencies, factor V Leiden (activated protein C resistance), or prothrombin gene mutations (among many others). Acquired hypercoagulability is far more common and can result from medications (e.g., oral contraceptives, estrogen or other hormonal replacement), recent inflammatory conditions such as pregnancy, surgery, trauma, or infection, and chronic inflammatory conditions (e.g., morbid obesity, rheumatologic disease, ulcerative colitis, heavy smoking). Two specific types of acquired hypercoagulable states that can lead to both venous and arterial thrombus include the acquired antiphospholipid syndrome and heparin-induced thrombocytopenia & thrombosis (HITT);. However, beyond the scope of this review, clinicians must be aware of these conditions as potential contributors to acute thrombosis. Malignancy (occult or diagnosed) is also a well-known risk factor for hypercoagulability, as tumor cells can express a variety of procoagulant proteins, including increased expression tissue factor. Some malignancies, especially solid tumors, are known to significantly increase the risk of thrombosis (e.g., pancreatic cancer). The third aspect of Virchow's triad includes arterial or venous stasis of the blood, which could be due to immobility, pregnancy, or impaired blood flow resulting from previous thrombosis (e.g., residual blood clot, remodeling or fibrosis of blood vessels, or atherosclerosis). Long trips with limited mobility can also become a relative risk factor for thrombosis, especially if concurrent additional risk factors are present (as above).
  • Typically, venous thrombosis is initiated by endothelial damage, while arterial thrombosis starts with atherosclerosis.
  • Venous thromboembolism: When considering venous thromboembolism (VTE), an appreciation of the anatomy of the deep veins of the extremities and the pulmonary system is helpful. For example, the deep veins of the lower extremity include the femoral, iliac, and popliteal veins. Thrombosis can also occur in the veins of the upper extremity like in the subclavian, axillary, brachial veins. Other thrombosis sites include superior vena cava thrombosis, jugular vein thrombosis, cerebral venous sinus thrombosis, cavernous sinus thrombosis, retinal vein occlusion. The latter sites are less common, and with the identification of an isolated thrombus in one of these sites, one must consider the potential for other explanatory diagnoses or predisposing conditions (e.g., Budd-Chiari syndrome with hepatic thrombus or cirrhosis and associated splenic vein thrombus). Many myeloproliferative disorders or clonal disorders with acquired bone marrow failure have correlations with rare sites of venous or arterial thrombosis (e.g., paroxysmal nocturnal hemoglobinuria (PNH) may have cerebral venous or abdominal thrombosis as presenting feature). Thrombosis of superficial veins is also possible, especially with provoking factors such as intravenous catheterization or localized cellulitis; treatment of superficial vein thrombosis does not typically require any anticoagulation.
  • Arterial thrombosis: It can present as an acute stroke, myocardial infarction, or acute on the chronic peripheral arterial disease. Other less common sites can include renal arteries, mesenteric arteries, and retinal arteries. In addition to acute management (not reviewed here), secondary prevention focuses on reducing cardiovascular risk factors such as obesity, high cholesterol, diabetes, high blood pressure, and encouraging lifestyle modification such as smoking cessation. The increased incidence of obesity, hypertension, and hypercholesterolemia all contribute to the risk of acquiring an arterial thrombosis. Other risk factors include underlying connective tissue or rheumatologic conditions (e.g., SLE, vasculitis), as well as the aforementioned rare HITT, antiphospholipid syndrome, myeloproliferative disorders, and PNH (all of these can predispose to both venous and arterial thrombosis).

Table 1: System wise causative factors of thrombophilia

Systemic organ Medical conditions
Cardiovascular Cerebral vein thrombosisAcute myocardial infarctionDeep vein thrombophlebitisPortal vein thrombosisPelvic thrombophlebitis
Drug Side Effect Asparaginasebevacizumabcombined oral contraceptive pillcertolizumab pegolCcproteronediethylstilboestroldrospirenoneeltrombopagerythropoietinethinylestradiolfosfestrolgranulocyte-macrophage colony stimulating factorheparinhormone replacement therapylenalidomidepeginesatidepolyestradiolraloxifenestrontium ranelatetamoxifentobacco smokingtranexamic acidvorinostat
Endocrine Hyperosmolar non-ketotic diabetic coma
Gastroenterologic • Acute pancreatitisPortal hypertension
Genetic Congenital DysfibrinogenemiaFactor II mutationHereditary thrombophlebitisAntithrombin III deficiencyFactor V Leiden mutationProtein C deficiencyProtein S deficiencyKlippel-Trenaunay syndromeKlinefelter syndromeSickle cell diseaseCarbohydrate-deficient glycoprotein syndrome type 1bFactor XII deficiencyHaemoglobin SC diseaseHyperprothrombinemia 20210G-APlasminogen deficiencyActivated protein C resistanceCD59 antigen deficiencyCystathionine beta-synthase deficiency
Hematologic Polycythemia veraEssential thrombocythemiaMyeloproliferative diseaseHyperviscosity syndrome • Paroxysmal Nocturnal HemoglobinuriaThrombocytosis • Raised homocysteine levels
Iatrogenic • Surgical complication
Infectious Disease Intraperitoneal abscessAcute peritonitisVisceral abscessDiverticulitisIntravenous catheter infection
Musculoskeletal / Ortho • Orthopedic surgeries • Abdominal surgery
Nutritional / Metabolic CystathionuriaHomocystinuriaMethyltetrahydrofolate reductase deficiencyMetabolic SyndromeInsulin resistanceFolic acid deficiencyObesity
Obstetric/Gynecologic PregnancyPuerperium periodOvarian hyperstimulation syndrome
Oncologic MalignancyPeritoneal metastasisAdenocarcinoma of cecumAdenocarcinoma of colon • Occult malignancy • LeukemiaPancreatic cancerGlucagonoma
Renal / Electrolyte Chronic renal failureParoxysmal Nocturnal HemoglobinuriaNephrotic syndrome
Rheum / Immune / Allergy Antiphospholipid SyndromeCirculating anticoagulantHeparin induced thrombocytopeniaInflammatory bowel diseaseCrohn's diseaseBehcet diseaseHughes-Stovin syndromePolyarteritis NodosaSLE
Trauma TraumaAbdominal trauma
Miscellaneous Paraneoplastic syndromeHypereosinophilic syndromeImmobility

References

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