Management Of Immune Thrombocytopenia Research Articles

Assessment and Management of Immune Thrombocytopenia (ITP) in the Emergency Department: Current Perspectives.

Immune thrombocytopenia (ITP) is characterized by a platelet count less than 100 × 10^9/L without anemia or leukopenia. Patients with ITP may be asymptomatic, or they may have mild bleeding like petechiae, purpura, or epistaxis. In rare cases, they may present to the emergency department (ED) with life-threatening bleeding as a result of their thrombocytopenia. The emergency physician should thus be prepared to diagnose ITP and treat the bleeding that can result from it. The diagnosis of ITP requires excluding secondary causes of thrombocytopenia, and in the ED, the bare minimum workup for ITP includes a complete blood count and a peripheral blood smear. The peripheral blood smear should show a small number of large platelets with normal morphology, and there should not be an increased number of schistocytes. Many patients with ITP require no emergent treatment. However, if a patient with suspected ITP presents to the ED with critical hemorrhage, the emergency physician should initiate treatment with a platelet transfusion, corticosteroids, and intravenous immune globulin (IVIG) as soon as possible. For less severe bleeding, platelet transfusions are not recommended, and the treatment consists of corticosteroids by themselves or in conjunction with IVIG.

General Anesthesia for Cesarean Section in a Pregnant Woman with Immune Thrombocytopenic Purpura (ITP): A Case Report and Review of the Literature

Background: Management of immune thrombocytopenia (ITP) during pre- gnancy can be challenging, particularly by identifying a threshold for safe administration of neuraxial/general anesthesia and minimizing postpartum hemorrhage. There is controversy over the safety of cesarean section (CS) in ITP patients. In this case report, we discuss general anesthesia management in a patient with ITP with severe thrombocytopenia. Case Presentation: A 28-year-old female with relapsed/refractory ITP and severe thrombocytopenia underwent general anesthesia and emergent cesarean section with successful outcomes and minimal bleeding. Platelet counts before CS were 5000 × 109 L, the patient received 1 unit of platelets before the procedure and 1 unit of platelet and tranexamic acid 500 mg was injected slowly during the procedure. No evidence of bleeding and no complications were observed in the patient or newborn. Conclusions: In an emergent circumstance, general anesthesia and cesarean section procedure were performed safely in a patient with severe thrombocytopenia, no hemorrhagic complications were seen for this patient or neonate. Objective of This Manuscript: To share our experience of a safe emergent CS procedure and general anesthesia in a patient with severe thrombocytopenia. Our experience may guide the management of ITP patients in emergent delivery circumstances.

A Review on Secondary Immune Thrombocytopenia in Malaysia.

Immune thrombocytopenia (ITP) is an acquired autoimmune disease that occurs in adults and children. In Malaysia, the clinical practice guideline (CPG) for the management of ITP was issued in 2006, which focused almost exclusively on primary ITP (pITP), and only a few secondary ITP (sITP) forms were addressed. All published (twenty-three) sITP articles among children and adults in Malaysia, identified on the academic databases were retrieved. The articles were published between 1981 and 2019, at a rate of 0.62 publications per year. The publications were considered low and mainly focused on rare presentation and followed-up of secondary diseases. This review revealed that sITP in Malaysia is commonly associated with autoimmune diseases (Evan’s syndrome, SLE and WAS), malignancy (Kaposi’s sarcoma and breast cancer) and infection (dengue haemorrhagic fever, Helicobacter pylori and hepatitis C virus). The relationship between ITP and autoimmune diseases, malignancy and infections raise the question concerning the mechanism involved in these associations. Further studies should be conducted to bridge the current knowledge gap, and the further information is required to update the existing CPG of management of ITP in Malaysia.

Immune thrombocytopenia in the elderly: immunosenescent and clinical diversity.

Immune thrombocytopenia in the elderly: immunosenescent and clinical diversity.

Cost-effectiveness of eltrombopag vs intravenous immunoglobulin for the perioperative management of immune thrombocytopenia

AbstractEltrombopag has been shown to be noninferior to intravenous immunoglobulin (IVIG) for improving perioperative platelet counts in patients with immune thrombocytopenia (ITP) in a randomized trial; thus, cost is an important factor for treatment and policy decisions. We used patient-level data from the trial to conduct a cost-effectiveness analysis comparing perioperative eltrombopag 50 mg daily starting dose, with IVIG 1 or 2 g/kg (according to local practice) from a Canadian public health care payer's perspective over the observation period, from preoperative day 21 to postoperative day 28. Resource utilization data were obtained from the trial data (eltrombopag, n = 38; IVIG, n = 36), and unit costs were collected from the Ontario Schedule of Benefits, Ontario Drug Formulary, and secondary sources. All costs were adjusted to 2020 Canadian dollars. We calculated the incremental cost per patient for all patients randomized. Uncertainty was addressed using nonparametric bootstrapping. The use of perioperative eltrombopag for patients with ITP resulted in a cost-saving of $413 Canadian per patient. Compared with IVIG, the probability of eltrombopag being cost effective was 70% even with no willingness to pay. In a sensitivity analysis based on IVIG dose, we found that with the higher dose of IVIG (2 g/kg), eltrombopag saved $2,714 per patient, whereas with the lower dose of IVIG (1 g/kg), eltrombopag had a higher mean cost of $562 per patient. In summary, based on data from the randomized trial that demonstrated noninferiority, the use of eltrombopag for the management of ITP in the perioperative setting was less costly than IVIG.

Predicting Chronic Immune Thrombocytopenia in Pediatric Patients at Disease Presentation: Leveraging Clinical and Laboratory Characteristics Via Machine Learning Models

Introduction: Pediatric immune thrombocytopenia (ITP) is the most common acquired bleeding disorder of childhood with 3-4,000 new cases annually. While most children experience self-resolving disease, 25% go on to have chronic ITP (cITP) with thrombocytopenia persisting beyond one year. Given the likelihood of spontaneous resolution and potential side effects of initial treatments, standard management for patients without severe or life-threatening bleeding is often observation. However, if it were possible to predict development of chronic disease, earlier initiation of long-term therapies could minimize bleeding risk, reduce fatigue, ease activity restrictions, and mitigate the poorer health-related quality of life that characterizes cITP.Though associations between variables and cITP have been reported, none are strong enough alone to dictate clinical decisions regarding ITP management. Machine learning (ML) is a set of statistical tools that can be utilized to make predictions or cluster data from large datasets. ML models are well suited to complex patterns within clinical datasets. ML can incorporate greater numbers of variables than could be used with traditional statistical models and can assess the impact of variables contingent upon the state of multiple other variables. In this study, we used a large clinical dataset to test a series of ML models on their ability to predict cITP development.Methods: Our group identified 696 pediatric ITP patients cared for at Texas Children's Hematology Center (TXCH) from 2012 to 2020. Of these, 332 had confirmed acute ITP (self-resolved disease in <1 year), and 253 were diagnosed with cITP. Demographic information, presenting clinical features, and laboratory data drawn within 1 month of diagnosis were tabulated for this cohort. Variables included age, gender, race, ethnicity, presence of primary ITP (defined as ITP that is not caused by another underlying disorder), presenting platelet count, absolute leukocyte count, absolute lymphocyte count, absolute eosinophil count, immature platelet fraction (IPF), mean platelet volume (MPV), direct antiglobulin test (DAT), anti-nuclear antibody (ANA) titer, and immunoglobulin levels.We tested the capabilities of several ML methods in predicting cITP using these presenting clinical and laboratory parameters. We performed a 10-fold cross validation to compare average performance metrics of a 100 tree random forest method against logistic ridge regression, support vector machine (SVM), naïve bayes, and AdaBoost methods. We tested feature importance of clinical variables with relation to cITP using the Gini index. Cross-validated ML method performance was compared using the area under the curve (AUC) receiver operator curve (ROC), as well as F1 statistic, classification accuracy (CA), precision or positive predictive value, and recall or sensitivity. Analyses was performed using Orange v2.7 (https://orangedatamining.com).Results: The top five most informative clinical features by Gini index were primary ITP, MPV, IPF, absolute lymphocyte count, and ANA titer. Comparing our five ML methods after 10-fold cross validation, the 100 tree random forest model was the top performing method on average (AUC = 0.795, CA = 0.737, F1=0.734, Precision = 0.738, Recall = 0.737). With an AUC of approximately 0.8, there is an 80% chance the model will accurately distinguish cITP from aITP. A close second performing method was the naïve bayes (AUC 0.792, CA = 0.698, F1 = 0.671, Precision = 0.737, Recall = 0.698). We present the average cross validated AUC ROC curves and the full ML method test statistics in Figure 1.Conclusions: Clinical and laboratory features present at the time of initial ITP diagnosis can be utilized to predict the development of cITP in pediatric patients using ML models. Ensemble decision tree methods are promising candidates for further ML method refinement, as AUC ROC of predicting cITP with a 100 tree RF model is > 0.7. Our group is expanding this model through incorporation of genotyping data from both acute and cITP patients. Ultimately, these ML models, in the form of an online tool, could be applied to predict cITP, allowing providers to initiate upfront interventions for those ITP patients who are unlikely to experience spontaneous disease resolution. [Display omitted] DisclosuresKirk: Biomarin: Honoraria. Powers: American Regent: Research Funding. Despotovic: Agios: Consultancy; Apellis: Consultancy; UpToDate: Patents & Royalties: Royalties; Novartis: Consultancy, Research Funding.

Further Characterization of Thromboembolic Events and Association with Platelet Count Occurring during the Avatrombopag Immune Thrombocytopenia (ITP) Clinical Development Program

Background: ITP management often requires subsequent therapy beyond current first line treatments (corticosteroids or intravenous immunoglobulin). The use of thrombopoietin receptor agonists (TPO-RAs) as second-line treatment, in lieu of splenectomy or rituximab, has become more common and is supported by recent American Society of Hematology (ASH) guidelines (Neunert, 2019).The TPO-RAs eltrombopag (ELT) and romiplostim (ROMI) have been utilized in patients with ITP for over a decade, whereas avatrombopag (AVA) was more recently approved in June 2019.Thromboembolic events (TEEs) are not uncommon in ITP, with studies showing that up to 8% of patients experience an arterial or venous event (Sarpatwari, 2010; Vianelli, 2013). As agents that potentiate endogenous platelet production, TPO-RAs as a class may increase the risk of thromboembolism, with such events occurring in a variety of TPO-RA ITP studies. However, it is not well-understood what increased risk, over and above the inherent risk associated with ITP, TPO-RAs pose in regard to thromboembolic events (Catala-Lopez, 2015).We previously reported on the general characterization of thromboembolic events occurring during the avatrombopag ITP clinical development program (ASH 2020). Currently, we evaluate platelet counts both prior to and following the specific TEE event and report on any dosage change of avatrombopag in proximity to the TEE event.Aims: To further characterize TEEs occurring across the AVA ITP clinical development program and expand the understanding of any possible role of change in platelet count (PC) as a predictor of TEEs with AVA.Methods: 4 studies were conducted evaluating AVA in patients with ITP (two Phase 2 and two Phase 3 trials). In total, 128 patients received AVA treatment, with an average duration of exposure of ≥180 days. Occurrence of TEEs was an adverse event of special interest that was monitored closely in these studies. At the time of each TEE, the following information was collected: platelet count, AVA dose, study day of event and other medical history and lifestyle factors potentially increasing the risk for thromboembolism. PCs were also collected at each study visit as well as unplanned visits per protocol. Patients with history of arterial or venous thrombosis and more than 2 significant risk factors were excluded from the Phase 3 studies.Results: As previously reported, a total of 11 TEEs occurred in 9/128 (7%) of AVA treated patients, with one patient experiencing 3 events. No clustering of events was noted, with cerebrovascular accident being the only specific event occurring in more than one patient (occurring in 2/11 patients).In the current analysis, variability was observed in the platelet count at the time of TEE, ranging from 19,000 - 571,000/µL. Two patients experienced events at a platelet count >400,000/µL, whereas five events occurred at a PC <50,000/µL. The mean value of three PCs prior to the event in each individual patient were low (PC<130,00/µL) in 7/11 (64%), normal (PC between 130,000/µL-450,000/µL) in 4/11 (36%), and high (PC>450,000/ µL ) in 0/11 (0%) of patients. The mean value of three PCs following the event in each individual patient were low in 6/11 (55%), normal in 4/11 (36%), and high in 1/11 (9%) of patients. The change in mean PC status from prior to the event to following the event was no change in 7/11 (64%), low to normal in 2/11 (18%), low to high in 0/11 (0%), normal to low in 1/11 (9%), and normal to high in 1/11 (9%) of patients.There were no changes in AVA dose within three weeks of any TEE event.The onset of thromboembolic events ranged from study day 8 to 335, with no clear pattern materializing regarding duration of drug exposure and the onset of the TEE. Thromboembolic events were noted at daily doses of AVA ranging from 10 - 40 mg. No deaths were noted in the ITP development program.Conclusions: The TEEs noted with AVA treatment typically occurred at PCs below the upper bound of normal (450,000/µL), without relationship to drug dose and at varying number of days on study drug. No clear patterns regarding the occurrence of thromboembolic events with AVA treatment or platelet count could be determined. Clinicians should carefully monitor PC and assess the risk for thromboembolism in each individual patient treated with a TPO-RA. [Display omitted] DisclosuresPiatek: Dova: Consultancy, Speakers Bureau; Apellis: Research Funding; Alexion: Consultancy, Research Funding; Rigel: Consultancy, Research Funding. Jamieson: Sobi, Inc.: Current Employment. Kolodny: Sobi, Inc.: Current Employment.

Rate of Prolonged Response after Stopping Thrombopoietin-Receptor Agonists Treatment in Primary Immune Thrombocytopenia (ITP): Results from a Nationwide Prospective Multicenter Interventional Study (STOPAGO)

▪Background: Thrombopoietin receptor agonists(TPO-RAs) have been thought to play only a supporting role in ITP management. Several retrospective studies and a recent prospective study have reported unexpected cases of durable remission after TPO-RAs discontinuation in adult ITP in up to 30%. However, newly diagnosed ITP cases for which spontaneous remission may occur have been included in most of these studies. Thus, the main purpose of this study was to determine the proportion of patients with either persistent or chronic phase and no recent exposure to any potentially curative therapy (i.e., splenectomy or rituximab) achieving long-term remission off-treatment at 24 and 52 months after at least 3 months of TPO-RAs exposure with a complete response (CR).Patients/methods: We conducted a nationwide prospective multicenter interventional study (NCT03119974). Inclusion criteria were: 1) Patients aged > 18 years, with persistent or chronic primary ITP, 2) A stable CR defined by a platelet count > 100 x 10 9/L for more than 2 months on TPO-RA therapy, 3) Treatment with TPO-RA for at least 3 months. Main exclusion criteria were: 1) Anticoagulation or anti-platelet treatment, 2) Previous failure of TPO-RA discontinuation, 3) Concomitant treatment with corticosteroids ± intravenous immunoglobulin 4) Rituximab or splenectomy within the 2 months preceding or after TPO-RA initiation. After inclusion, the decrease and wean of either eltrombopag or romiplostim was initiated according to a standardized protocol (respectively tapering of 25 mg every 2 weeks or tapering of 1 ug/kg every week). In any case TPO-RAs had to be stopped at week 10. In case of relapse after TPO-RA discontinuation, the decision to start a new therapy was left at every investigator discretion. The primary endpoint was the proportion of patients achieving an overall response (CR + R) at week 24 (6 months) after TPO-RAs discontinuation. Secondary outcomes were overall response rate over the study period (W52), bleeding events, and to identify predictive factors, for overall prolonged response (W24 and W52).Results: Forty-nine patients (30 females, 61%), with persistent (n=2) or chronic (n=47, 96%) chronic ITP, with a median age of 58.5 years IQR (41 to 73) fulfilling the eligibility criteria were included over 2 year-period in 22 centers from the French reference network for adult' ITP. Forty patients received eltrombopag and 9 romiplostim at the time of inclusion. One patient was excluded since she was diagnosed pregnant one day after inclusion. In intention to treat 27/48 (56.2%; 95% CI, 29.5 to 58.8) patients achieved the primary-endpoint and maintained an overall response at week 24 after TPO-RAS discontinuation with a complete response for 15/27 (55%). During the full follow-up period of 52 weeks after TPO-RAs discontinuation, overall response was observed in 25/48 (52.1%; 95% CI, 37.2 to 66.2) patients (Figure 1). Bleeding events occurred in 13/21 (61.9%) and 15/23 (65.2%) patients relapsing respectively at 24 and 52 months with a median platelet count of 31´10 9/L(26 to 39) and 31 ´10 9/L(23 to 39). No severe bleeding episode (French bleeding score > 8) occurred. Median time of relapse after tapering initiation was 8 weeks. Among 21 patients with a relapse (<30 x 10 9/L) before week 24, 13 patients were re-challenged with the same TPO-RA with a CR achieved with a median time of 2 weeks (2-4). In univariate analysis, age, ITP duration, TPO-RA duration before discontinuation, platelet count at inclusion and TPO-RAs drug class were not predictive of sustained response.Conclusion: These results showed an unexpectedly high rate of sustained off-treatment remission after TPO-RAs discontinuation in chronic ITP among patients who initially achieve a stable CR. When they occur, relapses are mainly observed within the first weeks after discontinuation, very rarely afterwards and with no severe bleeding. While no predictive factor of lasting remission has been yet identified, our study strongly supports a progressive tapering of the dose of TPO-RAs in patients achieving a stable CR on treatment.Figure 1: Relapse at 52 weeks after TPO-RAs discontinuation [Display omitted] DisclosuresMahevas: GSK: Research Funding; Amgen: Honoraria. Viallard: Novartis: Consultancy; Grifols: Consultancy; LFB: Consultancy; Amgen: Consultancy. Moulis: Amgen: Membership on an entity's Board of Directors or advisory committees, Research Funding; Argenx: Membership on an entity's Board of Directors or advisory committees; Grifols: Membership on an entity's Board of Directors or advisory committees, Research Funding; Novartis: Membership on an entity's Board of Directors or advisory committees, Research Funding; Sobi: Membership on an entity's Board of Directors or advisory committees. Terriou: Sanofi: Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding. Michel: Novartis: Consultancy; Amgen: Consultancy; UCB: Honoraria; Argenx: Honoraria; Rigel: Honoraria; Alexion: Honoraria. Godeau: Sobi: Consultancy; Novartis: Consultancy; Amgen: Consultancy; Grifols: Consultancy.

Primary immune thrombocytopenia in very elderly patients: particularities in presentation and management: results from the prospective CARMEN-France Registry.

Data about the presentation and the management of primary immune thrombocytopenia (ITP) in very elderly patients (VEPs; aged ≥80 years) are lacking. The aim of the present study was to describe ITP in this subgroup. The data source was the prospective CARMEN-France registry. Patients included between 2013 and 2018 were selected. ITP presentation and management in VEPs was compared to elderly patients (EPs; aged 65-79 years). We assessed factors associated with bleeding at ITP onset in VEPs. Of 541 patients, 184 were included: 87 in the VEP group and 97 in the EP group. The mean age was 85·7 years in the VEP group. Comorbidities were more frequent in the VEP group (67·4% vs. 47·9%). The median platelet count at ITP onset was similar but severe bleeding tended to be more frequent in VEPs (10·3% vs. 4·1%, P = 0·1) as well as mortality. Exposure to ITP drugs, response to first-line treatment, need of second-line treatment, evolution towards persistency, occurrence of bleeding, infection and thrombosis did not differ between groups. In VEPs, factors associated to bleeding were female sex [odds ratio (OR) 4·75, 95% confidence interval (CI) 1·31-17·32] and platelet count of <20 × 109 /l (OR 10·05, 95% CI 4·83-67·39). Exposure to anticoagulants was strongly associated with severe bleeding (OR 7·61, 95% CI 1·77-32·83).

An Observational Study of Fostamatinib As Second Line Therapy in Adult Patients with Immune Thrombocytopenia (ITP) in Real-World Clinical Practice

Background: In immune thrombocytopenia (ITP), autoantibody-bound platelets are targeted for phagocytosis by Fcγ-receptors on macrophages in a spleen tyrosine kinase (SYK)-dependent signaling pathway. Fostamatinib is a potent oral SYK inhibitor that demonstrated efficacy for the treatment of ITP in two phase 3 randomized, placebo-controlled, double-blind studies and long-term durable responses in the phase 3 open-label extension study. In these studies, 146 patients with ITP were treated with fostamatinib, and 54% had a platelet response (platelet count ≥50,000/µL), which was maintained over a median of 86% of treatment days. These studies led to approval of fostamatinib in the US, Europe, and Canada as a therapy for chronic ITP in adult patients who have had an insufficient response to a prior treatment. Further, a post-hoc analysis showed that, in those who received fostamatinib as second-line therapy (following steroids ± immunoglobulins), 78% achieved a platelet response, which was maintained over a median of 83% of treatment days. 1 Adverse events (AEs) were reported in 72% of second-line patients and 86% of all patients, and common AEs were similar between second-line patients and the total patient population. 1, 2 Bleeding events were reported in 24% of second-line patients vs. 41% of all patients. The results of the post hoc analysis underscored the necessity for further evaluation of fostamatinib as a second-line therapy for ITP.We are conducting a multi-center, prospective, observational, two cohort study of fostamatinib as second-line therapy for the management of ITP in adult patients who have an insufficient response to prior steroids ± immunoglobulins.Aim: This study will evaluate clinical outcomes and safety of fostamatinib as second-line therapy for ITP in adult patients in real-world clinical practice. Patients will also be assessed for quality of life and utilization of health care resources during the study.Methods: The study (FORTE; NCT04904276; O-FOSTA-901) is being conducted at 10 sites across the US and will enroll 45 patients with ITP into 2 cohorts (see Figure). The study is registered at https://clinicaltrials.gov/ct2/show/NCT04904276. The study aims to enroll adult patients with a confirmed diagnosis of ITP and an inadequate response to prior steroids ± immunoglobulins. Patients who have received any prior ITP treatment other than steroids or immunoglobulins will be excluded. Patients who will initiate fostamatinib as second-line therapy at study entry will be enrolled into Cohort 1; patients currently receiving fostamatinib as second-line therapy with the intent to continue treatment will be enrolled in Cohort 2 (historical platelet counts will be retrospectively collected). Patients will be treated by their clinician at the clinician's discretion (not pre-specified by a study protocol).Primary outcome measures will include platelet count over time, duration of platelet count elevation, use of ITP rescue medication, changes in dosing, use of concomitant ITP medications, incidence of serious and ITP-related AEs, and quality of life. Quality of life assessments will utilize the SF-36v2 and ITP-PAQ. All data will be collected at regularly scheduled clinic visits according to the clinician's normal practice for 12 months or until fostamatinib is discontinued.Summary: This ongoing observational study of adult patients with ITP will enable further characterization of the risk/benefit profile of fostamatinib as a second-line treatment for ITP and will provide insight on how clinicians manage ITP in a real-world setting without the constraints of a clinical trial protocol.

Standardizing the Diagnostic and Therapeutic Approach to Newly Diagnosed Children with ITP: An ITP Consortium of North America (ICON) Quality Improvement Initiative

BACKGROUNDPediatric immune thrombocytopenia (ITP) is an acquired disorder of platelet destruction that is associated with an increased risk of bleeding. Despite published guidelines for the management of ITP, the available evidence is of low grade, leading to practice variation in different settings. The use of validated bleeding scores to guide clinical decision making is inconsistent. In addition, many children are initially treated with medications despite the recommendation for observation in newly diagnosed children with ITP and no or mild bleeding symptoms. This approach leads to over-utilization of healthcare resources including hospitalizations, medication administration, and medical encounters for management-related side effects. In 2020, a quality improvement (QI) project of the Pediatric ITP Consortium of North America (ICON) was initiated to improve consistency in clinical practice at ICON sites using national ITP guidelines.DESIGN/METHODSWithin the ICON QI subcommittee, a standardized clinical care pathway (Figure 1) for newly diagnosed childhood ITP was developed based on the American Society of Hematology (ASH) 2019 guidelines. The goal was to unify approach to management, decrease practice variation, identify and learn from deviations in decision making, and decrease resource utilization by increasing observation rates in low-risk pediatric ITP patients. Site investigators shared the care pathway to update institutional providers on national guidelines. For Aim 1 of this project, sites completed a multi-center, retrospective analysis documenting the pre-QI pathway management of children, ages 1-16 years, diagnosed with ITP from January to December 2019. Statistical analysis was performed using R version 4.0.2. For Aim 2, after local dissemination and education of the clinical care pathway, clinicians at all participating sites will review the pathway at the time of managing newly diagnosed children and then complete a short survey documenting a bleeding score and management decisions.RESULTSCurrent data from the retrospective review is summarized in Figure 1. 98 patients across four ICON institutions are included in this analysis. The median age at diagnosis was 6 years (IQR 2.7, 9.2) with 61% being male. 43 (44%) patients had their first hematology encounter in the inpatient setting, 40 (41%) in the outpatient clinic, and 14 (14%) in the emergency room. Buchanan and Adix bleeding scores were obtained from only one patient (1%) at diagnosis. Treatment strategies varied including observation in 47 (48%) patients, IVIG in 40 (41%), corticosteroids in 9 (9%), and anti-D globulin in 3 (3%). 53 (54%) patients were admitted at the time of diagnosis. The prospective QI pathway is being utilized by six ICON institutions and 20 patients have been followed on the pathway since November 2020. An additional seven sites are in various phases of study activation.DISCUSSIONEvidence-based ITP guidelines and an expert consensus report have been recently published. For children with newly diagnosed ITP and a platelet count <20 x 10 9/L who have no or mild bleeding, ASH guidelines suggest against admission to the hospital and suggest observation rather than treatment with corticosteroids. Retrospective analysis of the management at four ICON centers demonstrates the variation in approach to treatment. However, although guidelines suggest initial management based on objective assessment of bleeding symptoms, only one patient (1%) had a documented bleeding score at presentation, suggesting a lack of a standard approach to management and practice variation. These data support the need for this quality initiative, which involves clinicians reviewing the pathway while managing patients and answering a survey at the time of clinical visits to report on bleeding symptoms and management. This initiative will be expanded to include a total of 13 institutions across the United States. Data will be analyzed every 1-2 years and changes will be made to the pathway with the goal of improving care. Further quality initiatives may help to standardize the management approach of pediatric ITP patients and optimize health outcomes in this patient population. [Display omitted] DisclosuresBadawy: Bluebird Bio Inc: Consultancy; Sanofi Genzyme: Consultancy; Vertex Pharmaceuticals Inc: Consultancy. Grace: Novartis: Research Funding; Dova: Membership on an entity's Board of Directors or advisory committees, Research Funding; Agios: Research Funding; Principia: Membership on an entity's Board of Directors or advisory committees. Nakano: Novartis: Consultancy.

Refractory Coronary Stent Thrombosis in a Patient with Chronic Immune Thrombocytopenia on Eltrombopag.

Immune thrombocytopenia (ITP) is a rare autoimmune disorder, caused by immunologic destruction and insufficient compensatory production of platelets. The management and treatment of ITP depends on estimated risks including platelet count, symptomatic severity, and duration of disease.1 One of the more recent second-line therapies for enhancing platelet production in patients with ITP is the use of thrombopoietin receptor agonist (TPO-RA), such as eltrombopag.1 However, some randomized controlled trials have reported severe adverse effects of arterial and venous thromboembolic events from using TPO-RA, but the pathophysiology and risk factors have not been well elucidated.2 Regarding thromboembolic events, a clinical dilemma arises when a patient with acute coronary syndrome (ACS) presents with ITP from TPO-RA treatment because a balance must be maintained between bleeding events and thromboembolism. Here, we report a case of recurrent fatal coronary thrombosis in a middle-aged woman with chronic ITP on eltrombopag.

COVID-19 vaccination associated severe immune thrombocytopenia

BackgroundCoronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 has emerged as a deadliest global pandemic after its identification in December 2019 in Wuhan, China resulting in more than three million deaths worldwide. Recently FDA issued emergency authorization for three vaccines for prevention of COVID-19. Here in, we report three cases of severe immune thrombocytopenia (ITP) following COVID-19 vaccination and their clinical course.Case presentationsCase #1: 53 year old male with past medical history of Crohn’s disease was admitted for myalgias and diffuse petechial rash 8 days after receiving second dose of Pfizer-BioNTech COVID-19 vaccine. A complete blood test showed a platelet count of 2 × 109/L. Patient did not have a prior history of thrombocytopenia and other causes of thrombocytopenia were ruled out by history and pertinent lab data. He received two doses of intravenous immunoglobulin and oral dexamethasone for 4 days resulting in normalization of platelet counts.Case #2: 67 year male with past medical history of chronic ITP in remission was admitted for melena 2 days after receiving his first dose of Pfizer-BioNTech COVID-19 vaccine. A complete blood test showed a platelet count of 2 × 109/L. Physical exam showed generalized petechiae. There was no history of recent flares of ITP and patient had normal platelet counts following his splenectomy 4 years ago. He received two doses of IVIG and oral dexamethasone for 4 days with gradual improvement in platelet counts.Case #3: 59 year old female with past medical history of chronic ITP secondary to SLE was admitted for bloody diarrhea 2 days after receiving her first dose of Johnson and Johnson COVID-19 vaccine. Physical exam was unremarkable. A complete blood test showed platelet count of 64 × 109/L which dropped to 27 × 109/L during hospital course. She received oral dexamethasone for 4 days with improvement in platelet counts.ConclusionCOVID-19 vaccination induced ITP has been recently acknowledged. However, given very few cases and limited data, currently there are no guidelines for management of ITP caused by COVID-19 vaccine as well as vaccination of people with predisposing conditions.

Management of Adult Patients with Immune Thrombocytopenia (ITP): A Review on Current Guidance and Experience from Clinical Practice.

Immune thrombocytopenia (ITP) is an autoimmune process resulting in increased destruction and inadequate production of platelets that can result in bleeding, fatigue, and reduced health-related quality of life. While treatment is not required for many patients with ITP, the occurrence of bleeding manifestations, severe thrombocytopenia, and requirement for invasive procedures are among the reasons necessitating initiation of therapy. Corticosteroids, intravenous immunoglobulin, and anti-RhD immune globulin are typical first-line and rescue treatments, but these agents typically do not result in a durable remission in adult patients. Most patients requiring treatment therefore require subsequent line therapies, such as thrombopoietin receptor agonists (TPO-RAs), rituximab, fostamatinib, splenectomy, or a number of other immunosuppressive agents. In this focused review, we discuss management of adult ITP in the acute and chronic settings.

Risk Factors for Bleeding, Including Platelet Count Threshold, in Newly Diagnosed ITP Patients

Introduction: Bleeding is a main cause of morbidity and mortality in adult immune thrombocytopenia (ITP). Treatment is indicated in case of bleeding or of low platelet count. However, the threshold of platelet count associated with bleeding and therefore to initiation of treatment is debated. Most of guidelines recommend the threshold of <30 x 109/L. However, some authors recommend other thresholds, as low as 10 x 109/L. Moreover, the risk factors for bleeding are not well known in ITP. The aim of this study is to assess the risk of bleeding by platelet count and to identify these risk factors.Methods: We studied all the patients included between June 2013 and December 2016 in the CARMEN (Cytopénies Auto-immunes : Registre Midi-PyréneEN) registry. This multicenter registry is aimed at the prospective follow-up of all incident ITP adults in the French Midi-Pyrénées region (South-West of France, 3 million inhabitants). Each investigator follows every patient newly diagnosed for ITP in routine visit or hospital stay and detailed information on patients' characteristics and management of ITP are recorded prospectively. We also included all adult patients newly diagnosed for ITP at the French National Referral Center for autoimmune cytopenias (Créteil) from November 2015 to December 2016 where data are prospectively recorded in the same database. ITP was defined by platelet count <100 x 109/L and exclusion of other causes of thrombocytopenia. We described the frequency of any bleeding, of mucosal bleeding and of severe bleeding (defined by macroscopic hematuria, gastrointestinal or central nervous system bleedings) at ITP onset by platelet count and by subgroups of interest: age groups (according to quartiles: ≤45, 45-64, 65-79 and ≥80 years), sex, arterial hypertension, history or current symptoms of gastroduodenal ulcer, Charlson's comorbidity score, exposure to non-steroidal anti-inflammatory drugs (NSAIDs), antiplatelet drugs, anticoagulant drugs and serotonin reuptake inhibitors (SRIs). Lastly, we assessed in the whole cohort the factors associated with any bleeding, mucosal bleeding and severe bleeding using multivariate logistic regression analysis.Results: 302 newly diagnosed ITP adults were prospectively included in the study. Median age was 66 years, 49.7% were females, 46.8% had a Charlson's score ≥1, 3.7% had a history or current symptoms of gastroduodenal ulcer, 16.0% had secondary ITP, 19.5% were exposed to antiplatelet drugs, 7.6% to anticoagulant drugs, 7.6% to NSAIDs and 6.6 to SRIs at the time of diagnosis. Median platelet count was 18 x109/L. At diagnosis, 57.9% experienced any bleeding symptom, 30.1% mucosal bleeding, and 6.6% severe bleeding (including 4 central nervous system bleedings).The rates of bleeding, mucosal bleeding and severe bleeding by platelet count is shown in Figure 1. The rate of any bleeding was >50% if platelet count was <20 x109/L. The rate of mucosal bleeding was >40% if platelet count was <10 x109/L. In contrast, a similar risk of severe bleeding was observed with all platelet count categories. Only slight differences were observed in other subgroups, except an increased frequency of any bleeding in case of exposure to NSAIDs, as well as an increased rate of severe bleeding in elderly and patients exposed to anticoagulant drugs and SRIs.In multivariate analysis, the factors associated with any bleeding at ITP diagnosis were a low platelet count (<10 x109/L vs. >20 x109/L: OR, 46.3, 95% CI: 19.4-110.6; between 10 and 19 x109/L vs. >20 x109/L: OR, 5.1, 95% CI: 2.3-11.2), female sex (OR for males, 0.4, 95%CI: 0.2-0.8) and exposure to NSAIDs (OR, 4.4, 95 %CI: 1.1-18.7). Only a low platelet count was associated with mucosal bleeding (<10 x109/L vs. >20 x109/L: OR, 6.2, 95% CI: 3.4-11.6; between 10 and 19 x109/L vs. >20 x109/L: OR, 2.6, 95% CI: 1.1-6.1). Lastly, only exposure to anticoagulant drugs was associated with severe bleeding (OR, 4.5, 95% CI: 1.4-14.4). Analyses restricted to primary ITPs led to similar results.Conclusion: Platelet counts <20 x109/L and <10 x109/L were thresholds with major increased risk for both any and mucosal bleedings. Platelet count, female sex and exposure to NSAIDs should be considered to assess the risk of any bleeding. In contrast, severe bleeding seemed not linked to platelet count but to individual factors, particularly exposure to anticoagulant. [Display omitted] DisclosuresNo relevant conflicts of interest to declare.

Management of Newly Diagnosed Paediatric ITP in UK

▪Introduction. Immune Thrombocytopenia (ITP) is usually a benign and self limiting condition in children, although sometimes bleeding can be severe and treatment may be required. New international recommendations and ASH guidelines were published in 2011 however a recent North American review demonstrated that most most children continue to receive therapy. In contrast previous UK analysis in 2011 has demostrated successful avoidance of therapy for most children.Objective. The aim of this study was to assess the proportion of children in UK with newly diagnosed ITP, their bleeding sseverity and the treatment given. These outcome were compared to previous UK findings. A more ddetailed analysis was undertaken on children with moderate bleeding whom are the population were the need for intervention can be most unclear.Methods. Data was extracted from the UK ITP Childhood registry of all patients diagnosed with ITP from January 2010 to May 2017. Bleeding severity was assessed according to the Bolton-Maggs and Moon severity scale.Results. Data from 1003 patients was analysed. 46.2% of the children had mild bleeding, 49.7% had moderate bleeding and 4.1% had severe or life-threatening bleeding, with bruising and petechiae being the most common manifestations. 37 childrenhad severe or life threatening bleeding; 15 had epistaxis, 8 had menorrhagia, 5 had oral haemorrhage, 8 had Gastrointestinal bleeding, 3 had ICH and 2 had macroscopic haematuria.Children with mild bleeding had a lower mean number of bleeding sites (1.4) compared to the children with moderate (1.9) and severe (2.6) bleeding. The proportion of children receiving treatment was 8.4% for mild, 22.3% for moderate and 64.9% for severe bleeding. The most common treatment was steroids (42.3%), followed by IVIG (40.5%) or a combination of both (15.3%).These figures have not changed significantly since the database was reviewed between 2007-2009. Children with moderate bleeding who were treated had a median of 3 bleeding sites compared to 2 in those who were not treated.Conclusion. There has been no change in the trend of management of ITP in the UK since previous analysis or following new guidelines. This review suggests that the number of bleeding sites is the best predictor for need of platelet rising therapy. [Display omitted] DisclosuresGrainger:Novartis: Honoraria; GSK: Honoraria; Amgen Inc.: Honoraria.

Sirolimus Is Effective in Refractory Immune Thrombocytopenia: Results of an Open-Label Prospective Multicenter Trial in China

Background: Immune thrombocytopenia (ITP) is an autoimmune disease mainly due to increased destruction of platelets and decreased platelet production. Prednisone 1 mg/kg/d for 2 to 4 weeks has been the standard first-line treatment for many years. Splenectomy, rituximab and cyclosporine were commonly used second-line therapies. About 20-30% ITP patients have no response to both first-line and second-line therapies or cannot maintain the response and are diagnosed with refractory ITP. There is limited evidence for the treatment of refractory ITP. The international guideline for management of ITP suggested combined therapies but about half of the patients still fail to respond. In addition, thrombopoietin-receptor agonists are not available in China. Therefore, we investigated in alternative therapeutic options for the management refractory ITP in China.Sirolimus (rapamycin) is an immunosuppressive compound that targets the mammalian target of rapamycin (mTOR) and has been shown to induce apoptosis of both normal and abnormal lymphocytes. Recently, it has been demonstrated that treatment with sirolimus could induce complete responses (CR) in patients with corticosteroid refractory autoimmune cytopenias, including four refractory ITP patients. Based on those studies, we initiated an open-label prospective multi-institutional clinical trial (ChiCTR-ONC-17012126) using sirolimus for patients with refractory ITP in Southwest China.Methods: Refractory ITP was defined as platelet count <50 X109/L without other complications that may cause thrombocytopenia and patient has failed prednisone therapy and at least one 2nd-line therapy (prednisone + cyclosporine / splenectomy / rituximab). Sirolimus was given at a dose of 2 mg per day orally (maximum initial dose of 4 mg/day) and target a trough level of 4-15 ng/ml in circulation. The anticipated length of treatment with sirolimus was 3 months, and then taped down 0.5mg per two weeks. Patients were followed up every week for 1 year. Platelet count was measured once a week. Complete response is defined as platelet count > 100×109/L and partial response (PR) is defined as platelet count > 100×109/L or increased more than two times. Side effects were evaluated during every visit.Results: Between 01/2016 and 06/2016, 73 patients were included in the trial and 66 patients completed the trial and follow-up. In 66 patients, the median age was 47 (16-68) years; 77.3% were female; 48.5% ITP patients treated with prednisone + cyclosporine, 30.3% treated with prednisone + rituximab, 13.6% treated with prednisone + splenectomy, and 7.65% treated with prednisone + two of the four second-line treatments. Fourty-six of 66 patients responded to the therapy (30 CR and 16 PR) within 3 months of sirolimus therapy. So the response rate and CR rate are 69.7% and 45.5% respectively. In patients with CR, the median duration of platelet recovery to 100×109/L was 4 weeks (Figure 1). Risk factor analysis involving age, sex, previous treatment and platelet count before sirolimus treatment were undertaken to identify whether any factor might have an effect on the outcome of sirolimus treatment. As a result, platelet count prior to treatment was the only factor that affects the efficacy of sirolimus. During sirolimus treatment and reduction, 6 patients developed oral ulcers, 8 patients with hypertriglyceridemia, 6 patients with diarrhea and 2 patients with interstitial pneumonia. All side effects were grade 1-2 according to CTCAE 4.0.Conclusion: In summary, in our current study, more than half of the patients with refractory ITP responded to sirolimus. While the response rate is promising, there is limited evidence of side effects and long-term follow-up. Despite of this, it may worthwhile further investigations for larger scale randomized clinical trials for the evaluation of sirolimus in refractory ITP. [Display omitted] DisclosuresNo relevant conflicts of interest to declare.

High-Throughput Sequencing of IgG B-Cell Receptors Reveals the Frequent Usage of the Rearranged IGHV4-28//IGHJ4 Gene in Primary Immune Thrombocytopenia in Adults

Background. Primary immune thrombocytopenia (ITP) is an acquired form of thrombocytopenia caused by anti-platelet autoantibodies. The underlying mechanism is thought to involve the production of IgG autoantibodies specific for platelet membrane antigens such as glycoprotein (GP) IIb/IIIa and GPIb/IX, although the anti-platelet autoantibody testing is less sensitive. The ASH and the IWG guidelines for the management of ITP do not recommend routine testing of anti-platelet autoantibodies for the diagnosis of ITP, and thus diagnostic biomarkers for ITP remain to be developed. Although the principal pathophysiology of ITP is believed to be an IgG-mediated autoimmune disease, there are few evidence for the B-cell receptor (BCR) repertoires which are associated or related to this disorder.Objectives. In order to identify the characteristics of IgG-BCRs that could be a potential candidate for a biomarker for primary ITP, we have investigated the comprehensive and precise repertoires of IgG-BCRs of peripheral blood B cells by using the next-generation BCR repertoire analysis comprised of high-throughput DNA sequencing and bioinformatics.Materials and Methods. Eleven adult ITP patients and nine volunteer donors without any hematologic disorders were included in this study. Diagnostic criteria for ITP were based on the ASH and the IWG guidelines and secondary ITP was excluded. Written informed consent was obtained before drawing blood samples. Heparinized peripheral blood was taken and mononuclear cells were isolated by density gradient centrifugation. Total RNA extraction and cDNA synthesis were done by standard protocols. Unbiased amplifications of IgG-BCRs were performed by adaptor-ligation PCR and the amplicons were sequenced by next-generation sequencing. Each sequence read was analyzed by the bioinformatics software created by Repertoire Genesis Incorporation (Ibaraki, Japan), and the usage of IGHV, IGHD, IGHJ and IGHC and CDR3 sequences were determined, according to the previously reported (Iwamoto M, et al. ASH 2016, #4542). This study was approved by the institutional review board.Results. Total 2,009,943 in-frame and 315,469 unique reads were obtained from twenty blood samples, and 29,049 to 160, 013 reads (100,497 reads in average) from each sample. Diversity of IgG BCRs was not different between the ITP patients and controls based on inverse Simpson and evenness Pielou's indexes. Comparisons of the IGHV repertoires covering fifty-nine IGHV subfamilies between the patients and controls revealed an increased usage of IGHV4-28 (0.053% vs. 0.005%, p=0.006) and a less usage of the IGHV3-15 (1.28% vs. 3.63%, p=0.04) segment in ITP patients (Fig. 1). The 220 distinct IGHV4-28-carrying sequences were identified in ITP patients and 135 out of these clones used the IGHJ4 gene segment (Fig. 2). These IGHV4-28/IGHJ4-carrying B-cell clones were found in all ITP patients. Only eight B-cell clones bearing IGHV4-28/IGHJ4 were identified in control donors. However, no identical IGHV4-28/IGHJ4-bearing B-cell clones were found across different ITP patients.Discussion and Conclusion. The present study has demonstrated the preferential usage of the rearranged IGHV4-28/IGHJ4 gene by circulating IgG B cells in ITP. Roark et al. have previously reported the usage of IGHV3-30 by the anti-platelet immunoglobulin from two patients with ITP, demonstrated by the Fab/phage display libraries (Blood 2002;100:1388). Discordant results may be explained by the limited numbers of the patients examined or different HLA backgrounds. Although the antigen specificity of BCRs encoded by the IGHV4-28/IGHJ4 gene in the present patient cohort remains to be elucidated, our findings may contribute to the development of genetic testing for the diagnosis of ITP. [Display omitted] DisclosuresKitaura:Repertoire Genesis Incorporation: Employment. Suzuki:Repertoire Genesis Incorporation: Equity Ownership.

Immune Thrombocytopenia: Recent Advances in Pathogenesis and Treatments.

Immune thrombocytopenia (ITP) is a rare autoimmune disease due to both a peripheral destruction of platelets and an inappropriate bone marrow production. Although the primary triggering factors of ITP remain unknown, a loss of immune tolerance—mostly represented by a regulatory T-cell defect—allows T follicular helper cells to stimulate autoreactive splenic B cells that differentiate into antiplatelet antibody-producing plasma cells. Glycoprotein IIb/IIIa is the main target of antiplatelet antibodies leading to platelet phagocytosis by splenic macrophages, through interactions with Fc gamma receptors (FcγRs) and complement receptors. This allows macrophages to activate autoreactive T cells by their antigen-presenting functions. Moreover, the activation of the classical complement pathway participates to platelet opsonization and also to their destruction by complement-dependent cytotoxicity. Platelet destruction is also mediated by a FcγR-independent pathway, involving platelet desialylation that favors their binding to the Ashwell-Morell receptor and their clearance in the liver. Cytotoxic T cells also contribute to ITP pathogenesis by mediating cytotoxicity against megakaryocytes and peripheral platelets. The deficient megakaryopoiesis resulting from both the humoral and the cytotoxic immune responses is sustained by inappropriate levels of thrombopoietin, the major growth factor of megakaryocytes. The better understanding of ITP pathogenesis has provided important therapeutic advances. B cell-targeting therapies and thrombopoietin-receptor agonists (TPO-RAs) have been used for years. New emerging therapeutic strategies that inhibit FcγR signaling, the neonatal Fc receptor or the classical complement pathway, will deeply modify the management of ITP in the near future.

Management of immune thrombocytopenia during COVID-19 pandemic

Introduction. The COVID-19 pandemic has challenged health professionals and patients suffering from haematological diseases with embarrassed diagnosis, treatment, surveillance, social distancing and other constraints.Aim — addressing therapy for immune thrombocytopenia (ITP) during the COVID-19 pandemic in the light of own experience, as well as national and international professional medical community guidelines.Main findings. A standard choice in COVID-19-negative ITP patients are conventional, e.g., glucocorticosteroid (GCS) and intravenous immunoglobulin therapies. An early transfer to thrombopoietin receptor agonists (rTPO) appears optimal as reducing the infection risk in GCS withdrawal and significantly improving the stable remission rate without supportive treatment. Combined ITP–COVID-19 patients should consider a prednisolone treatment of 20 mg/day, provided an absent active bleeding. The dose may increase to 1 mg/kg/day in no response after 3–5 days. ITP patients admitted for COVID-19 should start weight‐based LMWH thromboprophylaxis upon attaining a platelet count of ≥ 30 × 109 /L. Chronic ITP patients should carry on usual treatment with standard SARS-CoV-2 preventive and social distancing measures. We exemplify three contrasting clinical cases of COVID-19-comorbid thrombocytopenia and discuss the ITP differential diagnosis and therapy. Two patients received GCSs and rTPO agonists (romiplostim, eltrombopag), while GCSs alone provided for platelet response in the third case. All patients showed a good clinical and biological response. Issues in SARS-CoV-2 vaccination are discussed.