Congenital thrombotic thrombocytopenic purpura (cTTP) is an ultra-rare thrombomicroangiopathy caused by an inherited deficiency of a disintegrin and metalloproteinase with a thrombospondin type 1 motif, member 13 (ADAMTS13). There are limited data on genotype-phenotype correlation; there is no consensus on treatment. We reviewed the largest cohort of cTTP cases, diagnosed in the United Kingdom, over the past 15 years. Seventy-three cases of cTTP were diagnosed, confirmed by genetic analysis. Ninety-three percent were alive at the time of review. Thirty-six percent had homozygous mutations; 64% had compound heterozygous mutations. Two presentation peaks were seen: childhood (median diagnosis age, 3.5 years) and adulthood, typically related to pregnancy (median diagnosis age, 31 years). Genetic mutations differed by age of onset with prespacer mutations more likely to be associated with childhood onset (P = .0011). Sixty-nine percent of adult presentations were associated with pregnancy. Fresh-frozen plasma (FFP) and intermediate purity factor VIII concentrate were used as treatment. Eighty-eight percent of patients with normal blood counts, but with headaches, lethargy, or abdominal pain, reported symptom resolution with prophylactic therapy. The most common currently used regimen of 3-weekly FFP proved insufficient for 70% of patients and weekly or fortnightly infusions were required. Stroke incidence was significantly reduced in patients receiving prophylactic therapy (2% vs 17%; P = .04). Long-term, there is a risk of end-organ damage, seen in 75% of patients with late diagnosis of cTTP. In conclusion, prespacer mutations are associated with earlier development of cTTP symptoms. Prophylactic ADAMTS13 replacement decreases the risk of end-organ damage such as ischemic stroke and resolved previously unrecognized symptoms in patients with nonovert disease.
The cornerstone of life-saving therapy in immune mediated thrombotic thrombocytopenic purpura (iTTP) has been plasma exchange (PEX) combined with immunomodulatory strategies. Caplacizumab, a novel anti-von Willebrand factor nanobody, trialled in two multicentre, randomised-placebo-controlled trials leading to EU and FDA approval, has been available in the UK through a patient-access scheme. Data was collected retrospectively from 2018-2020 for 85 patients receiving caplacizumab, including 4 children, from 22 UK hospitals. Patient characteristics and outcomes in the real-world clinical setting were compared with caplacizumab trial endpoints and historical outcomes in the pre-caplacizumab era. 84/85 patients received steroid and rituximab alongside PEX; 26% required intubation. Median time to platelet count normalisation (3 days), duration of PEX (7 days) and hospital stay (12 days) was comparable with RCT data. Median duration of PEX and time from PEX initiation to platelet count normalisation was favourable compared with historical outcomes (p<0.05). TTP recurrence occurred in 5/85 patients; all with persistent ADAMTS13 activity <5iu/dL. Of 31 adverse events in 26 patients, 17/31 (55%) were bleeding episodes and 5/31 (16%) were thrombotic events (two unrelated to caplacizumab); mortality was 6% (5/85), with no deaths attributed to caplacizumab. In 4/5 deaths caplacizumab was introduced >48 hours after PEX initiation (3-21 days). This real-world evidence represents the first and largest series of TTP patients receiving caplacizumab outside clinical trials, including paediatric patients. Representative of true clinical practice, the findings provide valuable information for clinicians treating TTP globally.
Key Points• High anti-ADAMTS13 antibody and low ADAMTS13 antigen levels adversely affect outcome in immunemediated TTP with greater mortality seen.• A raised troponin at presentation confers a sixfold increase and reduced GCS a nine-fold increase in mortality in acute TTP.Immune-mediated thrombotic thrombocytopenic purpura (TTP) is a life-threatening disorder caused by antibodies against ADAMTS13. From the United Kingdom TTP registry, we undertook a prospective study investigating the impact of the presenting anti-ADAMTS13 IgG antibody and ADAMTS13 antigen on mortality. A total of 312 episodes involving 292 patients over 87 months were included; 68% were female, median age 46 (range, 11-88 years), and median presenting ADAMTS13 of <5% (range, <5%-18%). The mortality rate was 10.3% (n 5 32); 68% of patients had a raised troponin at presentation conferring a sixfold increase in mortality compared with those with normal troponin levels (12.1% vs 2.0%, P 5 .04). Twenty-four percent had a reduced Glasgow Coma Score (GCS) at presentation with a ninefold increase in mortality (20% vs 2.2% for normal GCS at presentation, P < .0001). Mortality increased with higher anti-ADAMTS13 antibody levels and lower ADAMTS13 antigen levels. Those with antibody levels in the upper quartile (antibody >77%) had a mortality of 16.9% compared with 5.0% for the lowest quartile (antibody <20%) (P 5 .004). Those with an antigen level in the lowest quartile (antigen <1.5%) had a mortality of 18% compared with 3.8% for the highest quartile (antigen >11%) (P 5 .005). The synergistic effect of anti-ADAMTS13 IgG antibody in the upper quartile and ADAMTS13 antigen in the lowest quartile had the highest mortality of 27.3%. We conclude that both anti-ADAMTS13 IgG antibody and ADAMTS13 antigen levels correlate with outcome in TTP with increased cardiac and neurological involvement and increased mortality. (Blood. 2017;130(4):466-471)
Acquired thrombotic thrombocytopenic purpura (TTP) is a rare, life-threatening condition caused by autoantibody-mediated inhibition of ADAMTS13 (a disintegrin and metalloproteinase with thrombospondin type-1 motif, 13). Therapeutic plasma exchange (TPE) improves survival, but disease may be refractory despite therapy. Management and treatment response of refractory TTP is variable, with rituximab and other immunosuppression often being used. Case reports have suggested a benefit of the proteasome inhibitor, bortezomib, possibly due to elimination of the autoreactive plasma cells producing anti-ADAMTS13 antibodies. We evaluated the effect of bortezomib in a series of primary refractory TTP patients unresponsive to intensive therapy. Bortezomib-treated patients were identified from consecutive cases managed at two UK referral centres. Demographic and clinical data were extracted from hospital records. ADAMTS13 activity was measured using a fluorescence resonance energy transfer VWF73 assay, and anti-ADAMTS13 IgG using enzyme-linked immunosorbent asssay. We identified six bortezomib-treated patients out of 51 consecutive cases of acute, acquired TTP. All patients received TPE, methylprednisolone and rituximab. Five of the six achieved complete remission with bortezomib, and one died of cardiac arrest due to underlying disease. No treatment-related adverse events were observed. Mean follow-up time after hospital discharge was 17 months (range: 3-33). Bortezomib appears effective in the treatment of a subgroup of cases with severe, refractory TTP. Prospective trials are required to further investigate this effect.
Chronic graft vs. host disease (GVHD) remains a major cause of morbidity and mortality after allogeneic stem cell transplantation (SCT). Chronic GVHD (cGVHD) has many similarities to de novo autoimmune disorders. While the presence and association of autoantibodies is well reported in these disorders, their role and clinical use remains a less studied area after SCT. We report the presence of autoantibodies in SCT recipients and a possible association with presence of cGVHD. During routine follow-up visits peripheral blood samples were tested for: rheumatoid factor (RF), antinuclear antibody (ANA), double stranded DNA (dsDNA), antimitochondrial antibody, antismooth muscle antibody (Anti Sm), antiendomysial, antireticulin antibodies, antithyroid peroxidase antibodies and an extractable nuclear antigen screen, in 13 SCT recipients. Six of 13 (46%) patients had one or more autoantibodies. All the patients with antibodies had cGVHD where as none of the patients without cGVHD had any autoantibodies (P = 0.025). Three (23%) patients had only one autoantibody and three (23%) of them had more than one autoantibody. ANA was positive in three (23.3%) patients, double stranded DNA in four (30.7%) patients, RF in one (7.6%) and Anti Sm muscle in two (15.3%) patients. In the present study, autoantibodies were detected predominantly in patients with presence of cGVHD. They also appeared to be more frequent in an unmanipulated graft and so less in patients with a T-cell depleted allograft. In two of 13 patients only there appeared to be an association between the antibody titre and flare up in skin symptoms. In conclusion, this small series raises interesting questions about the presence and role of autoantibodies after SCT and their association with cGVHD.
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