Guidelines on the diagnosis and management of thrombotic thrombocytopenic purpura and other thrombotic microangiopathies

The guideline group was selected to be representative of UK-based medical experts. MEDLINE and EMBASE were searched systematically for publications in English, using the keywords: thrombotic thrombocytopenia purpura (TTP), ADAMTS13, plasma exchange (PEX) and relevant key words related to the subsections of this guideline. The writing group produced the draft guideline, which was subsequently revised by consensus by members of the Haemostasis and Thrombosis Task Force of the BCSH. The guideline was then reviewed by a sounding board of British haematologists, the BCSH and the British Society for Haematology Committee and comments incorporated where appropriate. The ‘GRADE’ system was used to quote levels and grades of evidence, details of which can be found at http://www.bcshguidelines.com. The objective of this guideline is to provide healthcare professionals with clear, up-to-date, and practical guidance on the management of TTP and related thrombotic microangiopathies, defined by thrombocytopenia, microangiopathic haemolytic anaemia (MAHA) and small vessel thrombosis. Thrombotic thrombocytopenic purpura (TTP) is rare, with a reported incidence of six cases per million per year in the UK (Scully et al, 2008). It is an important diagnosis to make because the untreated mortality is 90%, which can be reduced with the prompt delivery of plasma exchange (PEX). Early death still occurs: approximately half of the deaths in the regional UK registry occurred within 24 h of presentation, primarily in women (Scully et al, 2008). In the last 15 years there has been a marked increase in the understanding of the pathogenesis of TTP. It is now recognized that congenital and acute acquired TTP are due to a deficiency of von Willebrand factor (VWF) cleaving protein, also known as ADAMTS1, (a disintegrin and metalloproteinase with a thrombospondin type 1 motif, member 13 – von Willebrand factor cleaving protein) (Fujikawa et al, 2001; Levy et al, 2001). In the absence of ADAMTS13, ultra large multimers of VWF (ULVWF) released from endothelium are not cleaved appropriately, and cause spontaneous platelet aggregates in conditions of high shear, such as in the microvasculature of the brain, heart and kidneys. Congenital TTP is due to an inherited deficiency of ADAMTS13, but acquired immune TTP is due to the reduction of ADAMTS13 by autoantibodies directed against ADAMTS13 (Furlan et al, 1998a; Tsai up to 35% of patients do not have neurological signs at presentation and renal abnormalities and fever are not prominent features. The revised diagnostic criteria state that TTP must be considered in the presence of thrombocytopenia and MAHA alone (Galbusera et al, 2006). This can result in an increased referral of other TMAs (Table 1). TTP remains a diagnosis based on clinical history, examination of the patient and the blood film. ADAMTS 13 assays help to confirm the diagnosis and monitor the course of the disease and possible need for additional treatments. Presenting symptoms and signs are summarized in Table 2 and reflect widespread multi organ thromboses. Neurological impairment has multiple presentations including headache, altered personality, reduced cognition, transient ischaemic attacks, fits and fluctuating levels of consciousness including coma; the latter is a poor prognostic sign. Acute renal failure requiring haemodialysis is rare in TTP and more indicative of HUS (Coppo et al, 2006; Scully et al, 2008). Additional ischaemic complications may be seen, such as abdominal pain due to intestinal ischaemia. Consumption of platelets in platelet-rich thrombi results in thrombocytopenia. The median platelet count is typically 10–30 × 109/l at presentation (Dervenoulas et al, 2000; Vesely et al, 2003; Coppo et al, 2006; Tuncer et al, 2007; Scully et al, 2008). Mechanical fragmentation of erythrocytes during flow through partially occluded, high shear small vessels causes a MAHA. Median haemoglobin levels on admission are typically 80–100 g/l, with schistocytes in the film, low haptoglobin levels and raised reticulocyte counts due to haemolysis. The direct Coombs test is negative. The combination of haemolysis and tissue ischaemia produces elevated lactate dehydrogenase (LDH) values. The clotting screen (prothrombin time, activated partial thromboplastin time and fibrinogen) is usually normal. A virology screen pre-treatment is necessary to exclude human immunodeficency virus (HIV) and other viral-associated TTP, and as a baseline prior to plasma exposure. Troponin T levels are raised in 50% of acute idiopathic TTP cases (Hughes et al, 2009), highlighting that cardiac involvement is common. Raised troponin levels are a sinister finding, for coronary artery occlusion is a common mode of early death. The incidence of symptomatic heart failure is increased in patients who have been given a recent platelet transfusion (Gami et al, 2005) (Table 3). Blood must be taken prior to treatment to assess baseline ADAMTS13 activity. Severely reduced ADAMTS13 activity (5%) has been reported in a wide variety of non-TTP conditions such as uraemia, inflammatory states, post-operatively and during pregnancy (Loof et al, 2001; Mannucci et al, 2001; Moore et al, 2001). The specificity of severe ADAMTS13 deficiency (5%, who have an increased mortality (Malak et al, 2008). Pregnancy can be the initiating event for approximately 5–25% of TTP cases (Ridolfi Vesely et al, 2004; Scully et al, 2008), which are late onset adult congenital TTP or acute idiopathic TTP. Differentiating TTP from the more common pregnancy-related TMAs, such as pre-eclampsia, syndrome elevated low and HUS is difficult, if TTP presents (Table Thrombosis in the in untreated TTP and results in death and is a continued risk of relapse during with levels of ADAMTS13 have a risk of relapse et al, 2003; Scully et al, to be for of TTP cases et al, 2003; Scully et al, 2008). can cause an disorder, typically in TTP is recognized in with with an incidence of per patients but has been described with and there is there is a et al, 2009). et al, Vesely et al, 2003; et al, 2004; Scully et al, 2008), et al, and used to hepatitis C et al, 2007; et al, 2007; et al, have been associated with TTP. are of acquired TTP associated with such as the and therapy (Scully et al, 2008). such as and can cause HUS but not TTP. 1 associated with of TTP include and which should be to relapse in patients with a of TTP 2 with TTP should be microangiopathy is a MAHA and thrombocytopenia that It may reflect associated with infections, such as A and disease has important from TTP, absence of ADAMTS13 rare neurological a poor to PEX and of of et al, Thrombotic microangiopathy in with a variety of et al, 2008). A using compared to and et al, 2006). such as and to be more prior to the use of plasma (Scully et al, 1 PEX should be with using plasma in and (1B). 2 The of exchange can be reduced to when the clinical and laboratory test results are 3 in and or of PEX should be considered in cases 4 PEX should for a of 2 platelet count has been × and then or of ADAMTS13 are not treatment of plasma or the use of a factor ADAMTS13, such as et al, which has a small and can be given in the or of has been used with reported although there is of ADAMTS13 in such to ADAMTS 13 have not been detected following the use of that ADAMTS13 has a of only (Furlan et al, et al, 2004), the clinical of of plasma or are such that are only to a platelet and haemoglobin the of treatment on the therapy to the platelet count and at of and other The who have a platelet count most of the time, only 1 plasma or should be used to congenital TTP 2 for congenital TTP should be to the phenotype (1A). Diagnosis of TTP is if In any with a and as to the diagnosis that and can present in the PEX should be considered. TTP in the PEX may of pregnancy with delivery of a et al, et al, et al, Scully et al, is the treatment of for although delivery not of TTP. Pre-treatment ADAMTS13 assays congenital and acquired TTP from other In and syndrome ADAMTS13 activity is reduced but antibodies to ADAMTS13 are not found. with an with in and is with artery should be used to assess if there is and to assess blood alone may be in with congenital TTP. However, at delivery PEX may be to levels of ADAMTS13. The of plasma during pregnancy is In acquired TTP, is to relapse in A reduction in ADAMTS13 activity at the of pregnancy may therapy to during has been used in pregnancy in autoimmune and et al, 2011). 1 a be by a non-TTP pregnancy-related then the diagnosis of TTP must be considered and PEX should be 2 with congenital TTP should a and ADAMTS13 pregnancy and the (1A). 3 with an with a in is in with TTP (1A). 4 In with acquired TTP, ADAMTS13 activity should be pregnancy to help the need for therapy and (1B). 5 is for and women of should be of pregnancy and In those with severe ADAMTS13 there is in ADAMTS13 activity, as the CD4 count and HIV treatment with HAART and further therapy is for with or which do not cause a significant increase in complications et al, 2011). HAART should be given PEX to for time for 1 a patient with TTP is found to have HIV then should be and an HIV should be in management (1A). 2 TTP should be considered in an HIV-positive with a MAHA and thrombocytopenia (1A). 3 PEX in with HAART or should be as soon as the diagnosis of TTP is made (1B). 3 HAART should be given PEX therapy to time for (1A). 4 HAART should be continued to further relapse (1B). 5 In TTP, be considered is difficult, as stopping or to such as may has been with in a review was associated with an increased mortality et al, is of use of et al, et al, exchange has et al, The treatment of the is the of 1 PEX is not in the management of and (1A). 2 In associated further treatment for the should be considered (1A). are used in combination with PEX in the initial treatment of acute immune TTP. have to be associated with an patient and usually have et al, 2010). there is a combination of PEX and is to PEX 1 for – adult or high 1 should be considered (1B). studies have that is and in immune TTP, when patients to to PEX and and in acute idiopathic TTP et al, Scully et al, 2007a). has been used for 4 Patients in anti-ADAMTS13 IgG antibody levels and increased ADAMTS13 activity (Scully et al, 2007a). The risk of relapse to be reduced with use et al, 2007; Scully et al, 2011). PEX should be for at 4 h a Scully et al, 2007a). more may during PEX et al, 2010). is of increased risk with in TTP A recent UK has in using as a therapy at presentation of TTP (Scully et al, 2011). 1 In acute idiopathic TTP with which are associated with a high should be considered on in with PEX and (1B). 2 Patients with or TTP should be (1B). A was used in patient with TTP et al, but further occurred of In a clinical of PEX with either or initial occurred in subsequently on and there was a relapse stopping of of the patients a relapse in the compared with of the patients a with an increase in ADAMTS13 activity and in antibodies to ADAMTS13 et al, In patients with renal is an but may and may be considered as therapy in patients with acute or acquired TTP the and of other used for and such as and use is associated with severe and has been in small of patients et al, et al, 2005), are not as of a clinical The mortality of in acute TTP was reported to be approximately In a of patients for acute and the was et al, et al, may be considered in the of TTP but has The TTP patients to PEX and with and without and et al, was in or and a of early death in the 15 in the group et al, 1 The clinical of in TTP is but they are (1B). 2 may be given during platelet count × cell transfusion and are during active haemolysis. It has been that transfusion in the is using a transfusion of this was not to those with cardiac disease et al, as cardiac is a feature of TTP, a higher haemoglobin may be in those with of cardiac involvement and acute haemolysis. to the risk of precipitating further thrombotic platelet are there is The risk of has been in acute TTP but is likely to be increased due to and acute routine should be given the platelet count has to × 109/l et al, 2003). B should be considered in TTP, a platelet of × 109/l has been but studies of are in the of continued PEX with 1 cell transfusion should be to clinical need if there is cardiac involvement (1A). 2 is during active haemolysis (1A). 3 are in TTP there is (1A). 4 with is platelet count has × (1B). is a of patients who present with TTP who subsequently show a or to PEX ± disease was defined as thrombocytopenia or a of PEX is not a of disease activity. have disease as of clinical symptoms or thrombocytopenia of PEX with the of or and the of further have some et al, et al, et al, 2008). is the of in disease (Scully et al, 2007a). of PEX and of can be considered in TTP (1B). is defined as an of acute TTP more and in of cases et al, & & The that over a of patients relapse et al, Patients with ADAMTS13 activity or an anti-ADAMTS13 antibody in a increase in relapse over 1 year (Peyvandi et al, 2008). In a further if ADAMTS13 was in relapse occurred in but if ADAMTS13 activity was only et al, The use of in an acute and the incidence of relapse (Scully et al, 2011). to patients should be the risk and the symptoms and signs of In patients who have TTP and where a reduction of ADAMTS 13 activity from levels to is therapy has been with of ADAMTS 13 activity (Scully et al, et al, 2009). Patients up with ADAMTS 13 1 PEX therapy are the of in disease (1B). 2 Patients should be symptoms, signs and risk of relapse with and (1A). 3 In patients with a reduction of ADAMTS 13 activity to <5%, therapy with can be considered (1B). uraemic syndrome is characterized by MAHA, thrombocytopenia and acute renal It associated with and cardiac and diagnostic overlap with TTP can It is important to HUS and TTP because the and management are (Table The is to et al, and et al, for further guidance in children and TTP and other TMAs The is to that haematologists, and are of the need to acute TTP as a medical emergency to early The of and in the should to in the the and in is to be and at the time of to the the British Society for Haematology the any for the of . In the British Society for Haematology the for the diagnosis and management of thrombotic et al, 2003). have revised based on available and for syndrome et al, and HUS et al, are now have been UK for review of 1 and for review of Table The Haemostasis has an from