Medicine:Catastrophic antiphospholipid syndrome

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Catastrophic antiphospholipid syndrome
Other namesCatastrophic APS

Catastrophic antiphospholipid syndrome (CAPS), also known as Asherson's syndrome, is a rare autoimmune disease in which widespread, intravascular clotting causes multi-organ failure.[1] The syndrome is caused by antiphospholipid antibodies that target a group of proteins in the body that are associated with phospholipids. These antibodies activate endothelial cells, platelets, and immune cells, ultimately causing a large inflammatory immune response and widespread clotting.[1] CAPS was first described by Ronald Asherson in 1992. The syndrome exhibits thrombotic microangiopathy, multiple organ thromboses, and in some cases tissue necrosis and is considered an extreme or catastrophic variant of the antiphospholipid syndrome.

CAPS has a mortality rate of about 50%. With the establishment of a CAPS-Registry more has been learned about this syndrome, but its cause remains unknown. Infection, trauma, medication, and/or surgery can be identified in about half the cases as a "trigger". It is thought that cytokines are activated leading to a cytokine storm with the potentially fatal consequences of organ failure. A low platelet count is a common finding.[citation needed]

Presentation

Clinically, the syndrome affects at least three organs and may affect many organ systems. The syndrome usually occurs with small vessel thromboses affecting organ systems such as the gastrointestinal tract and manifestations of the acute respiratory distress syndrome (ARDS), a type of systemic inflammatory response syndrome (SIRS).[2] Peripheral thrombosis may be encountered affecting veins and arteries. Intra-abdominal thrombosis may lead to pain. The body contains β2-GPI, a glycoprotein in the blood, which is considered a natural anticoagulant due to its inhibitory effects on certain aspects of platelet synthesis and function. Because the formation of anti-β2-GPI antibodies can occur after exposure to bacteria, the body favors a hypercoagulable state, which has been noted to activate toll-like receptor 4 resulting in what is known as a cytokine storm or a thrombotic storm.[3] A thrombotic storm may also occur due to the following precipitating events: alterations in coagulation and fibrinolysis, which induce high mortality rates, and infections amongst pediatric patients where IgM and IgG anti-β2-GPI antibodies induce an endothelial signal, leading to a procoagulant state.[4] It is also hypothesized that thrombotic storms occur due to prothrombotic genetic risk factors, which trigger a sped-up form of thrombosis after its first occurrence, rather than being caused solely by environmental factors.[5] Cardiovascular, nervous, kidney, and lung system complications are common. More specifically with the heart, Asherson's syndrome can lead to complications such as mitral valve regurgitation (MVR) in which the mitral valve does not shut properly allowing backflow of blood into the heart as well as angina (chest pain) and myocardial infarction (heart attack).[6] Furthermore, complications in the kidneys may occur, including low urine production and high blood pressure, while complications with the lungs can result in rapid breathing (hyperventilation) and low oxygen levels (hypoxemia).[7] The affected individual may exhibit skin purpura and necrosis. Cerebral manifestations may lead to encephalopathy and seizures. Myocardial infarctions may occur. Strokes may occur due to the arterial clotting involvement. Death may result from multiple organ failure.

Furthermore, the syndrome has been shown to manifest multi-organ failures and miscarriages in the context of pregnancies. 54% of pregnant mothers with the disease experienced fetal loss, and around 50% of pregnant mothers died from complications associated with the syndrome.[8]

Diagnosis

Two specific types of blood tests are used to aid in the diagnosis of Asherson's Syndrome. A coagulation blood test is used to measure and determine the blood's ability to clot and how fast it takes to clot, indicating the presence of lupus anticoagulant in the blood. An Enzyme-Linked ImmunoSorbent Assay (ELISA) test is done to detect anticardiolipin antibodies' presence in the blood.[9] Individuals with CAPS often exhibit a positive test to antilipid antibodies, typically IgG. Patients with high aPL(positive antiphospholipid antibodies) must have microthrombosis in multiple organs to definitively be diagnosed with CAPS— a high antilipid antibody count is not sufficient enough for diagnosis.[10] To be diagnosed with CAPS, a patient must have three or more new organ thromboses developing within less than a week, and a biopsy must be later performed testing for microthrombosis in order to accurately diagnose the patient with ‘definite CAPS’. If the patient has two or less new organ thromboses within a week but a biopsy still indicates the presence of microthrombosis, the patient is not considered to have CAPS.[11] Positive test are often repeated due to the fact that antilipid antibodies can be present in the body for short stints due to infection or drug use. Along with that, individuals may or may not have a history of lupus or another connective tissue disease. Association with another disease such as lupus is called a secondary APS unless it includes the defining criteria for CAPS.

Treatment

Treatments may involve the following steps:

  • Prevention includes the use of antibiotics for infection and parenteral anticoagulation for susceptible patients.
  • Specific therapy includes the use of intravenous heparin and corticosteroids,[12] and possibly plasma exchanges, intravenous immunoglobulin.
  • As a disease associated with high morbidity and mortality, CAPS requires an aggressive multidisciplinary treatment strategy. The following treatments have been used in various combinations: anticoagulation, glucocorticoids, plasma exchange, cyclophosphamide, intravenous immunoglobulins, and anti-platelet agents.[1] Anticoagulation is given to stop the thrombophilic state, and it promotes the clot breakdown, while steroids downregulate the cytokine storm that is thought to be responsible for systemic inflammatory response syndrome (SIRS).[13]
  • Additional steps may have to be taken to manage circulatory problems, kidney failure, and respiratory distress.
  • Recent investigational treatment therapies include high doses of Rituxan (Rituximab) and eculizumab, which are both humanized monoclonal antibodies that target B cell malignancies and prevent C5 complement cleavage, respectively.[14]

References

  1. 1.0 1.1 1.2 Nayer, Ali; Ortega, Luis M. (2014). "Catastrophic antiphospholipid syndrome: a clinical review". Journal of Nephropathology 3 (1): 9–17. doi:10.12860/jnp.2014.03. PMID 24644537. 
  2. Asherson, Ronald A. (December 2006). "The catastrophic antiphospholipid (Asherson's) syndrome" (in en). Autoimmunity Reviews 6 (2): 64–67. doi:10.1016/j.autrev.2006.06.005. PMID 17138244. https://linkinghub.elsevier.com/retrieve/pii/S1568997206000899. 
  3. Garcia-Carrasco, M.; Mendoza-Pinto, C.; Macias-Diaz, S.; Vazquez de Lara, F.; Etchegaray-Morales, I.; Galvez-Romero, J.L.; Mendez-Martinez, S.; Cervera, R. (2015-07-22). "The role of infectious diseases in the catastrophic antiphospholipid syndrome". Autoimmunity Reviews 14 (11): 1066–1071. doi:10.1016/j.autrev.2015.07.009. PMID 26209907. https://www.sciencedirect.com/science/article/pii/S1568997215001585. Retrieved 2022-11-13. 
  4. Rodríguez-Pintó, Ignasi; Espinosa, Gerard; Cervera, Ricard (2014-11-07). "The Catastrophic Antiphospholipid Syndrome". Antiphospholipid Antibody Syndrome. Rare Diseases of the Immune System: 249–262. doi:10.1007/978-3-319-11044-8_20. ISBN 978-3-319-11043-1. 
  5. Ortel, Thomas L.; Kitchens, Craig S.; Erkan, Doruk; Brandão, Leonardo R.; Hahn, Susan; James, Andra H.; Kulkarni, Roshni; Manco-Johnson, Marilyn J. et al. (1 December 2012). "Clinical causes and treatment of the thrombotic storm". Expert Review of Hematology 5 (6): 653–659. doi:10.1586/ehm.12.56. PMID 23216595. 
  6. "Asherson's Syndrome" (in en-US). https://rarediseases.org/rare-diseases/ashersons-syndrome/. 
  7. Gracia-Tello, Borja; Isenberg, David (2017-07-01). "Kidney disease in primary anti-phospholipid antibody syndrome" (in en). Rheumatology 56 (7): 1069–1080. doi:10.1093/rheumatology/kew307. ISSN 1462-0324. PMID 27550302. https://academic.oup.com/rheumatology/article/56/7/1069/2631584. 
  8. Gómez‐Puerta, José A; Cervera, Ricard; Espinosa, Gerard; Asherson, Ronald A; García‐Carrasco, Mario; da Costa, Izaias P; Andrade, Danieli C O; Borba, Eduardo F et al. (June 2007). "Catastrophic antiphospholipid syndrome during pregnancy and puerperium: maternal and fetal characteristics of 15 cases". Annals of the Rheumatic Diseases 66 (6): 740–746. doi:10.1136/ard.2006.061671. ISSN 0003-4967. PMID 17223653. 
  9. NORD. "Asherson's Syndrome". NORD. https://rarediseases.org/rare-diseases/ashersons-syndrome/. 
  10. Aguiar, Cassyanne L.; Erkan, Doruk (December 2013). "Catastrophic antiphospholipid syndrome: how to diagnose a rare but highly fatal disease". Therapeutic Advances in Musculoskeletal Disease 5 (6): 305–314. doi:10.1177/1759720X13502919. PMID 24294304. 
  11. Erkan, Doruk; Espinosa, Gerard; Cervera, Ricard (December 2010). "Catastrophic antiphospholipid syndrome: Updated diagnostic algorithms". Autoimmunity Reviews 10 (2): 74–79. doi:10.1016/j.autrev.2010.08.005. PMID 20696282. 
  12. MD Consult Retrieved on 2009-06-02
  13. Rodríguez-Pintó, I.; Espinosa, G.; Cervera, R. (2014). "The Catastrophic Antiphospholipid Syndrome". Antiphospholipid Antibody Syndrome. Rare Diseases of the Immune System: 249–262. doi:10.1007/978-3-319-11044-8_20. ISBN 978-3-319-11043-1. 
  14. Kazzaz, Nayef M.; McCune, W. Joseph; Knight, Jason S. (May 2016). "Treatment of catastrophic antiphospholipid syndrome". Current Opinion in Rheumatology 28 (3): 218–227. doi:10.1097/BOR.0000000000000269. ISSN 1040-8711. PMID 26927441. 

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