Bleeding complications in immune thrombocytopenia

Abstract Bleeding manifestations in patients with immune thrombocytopenia (ITP) range from mild skin bruises to life-threatening intracranial hemorrhage (ICH). Severe bleeding is distinctly uncommon when the platelet count is >30 × 109/L and usually only occurs when the platelet count falls <10 × 109/L. Based on estimates from clinical studies, ITP registries and administrative databases, the frequency of ICH in patients with ITP is ∼0.5% in children and 1.5% in adults. Estimates of severe (non-ICH) bleeding are difficult to obtain because of the lack of standardized case definitions; the lack of a universally accepted, ITP-specific bleeding assessment tool; and the omission of reporting bleeding outcomes in many clinical studies. In practice, the presence of bleeding should dictate whether or not treatment is needed because many patients, especially children, can be safely managed with observation alone. Guiding principles for the management of ITP, based on the bleeding risk are: (1) Decide when treatment is needed and when it can safely be withheld; (2) for patients with chronic ITP, use the least toxic treatment at the lowest dose; (3) emergency treatment of severe thrombocytopenia-associated bleeding requires combination therapy; and (4) early aggressive therapy may result in durable platelet count responses.

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Can Immature Platelet Fraction (IPF) be Used to Assess Bleeding Risk in Pediatric Immune Thrombocytopenia (ITP) and to Differentiate ITP from Bone Marrow Failure/Aplastic Anemia? A Retrospective Analysis

Blood ◽

10.1182/blood.v126.23.3474.3474 ◽

2015 ◽

Vol 126 (23) ◽

pp. 3474-3474 ◽

Cited By ~ 1

Author(s):

Karen Lee Bride ◽

Derick Lim ◽

Michele Paessler ◽

Michele P Lambert

Keyword(s):

Bone Marrow ◽

Platelet Count ◽

Immune Thrombocytopenia ◽

Bone Marrow Failure ◽

Bleeding Risk ◽

Medical Laboratory ◽

Bleeding Complications ◽

Severe Thrombocytopenia ◽

Immature Platelet Fraction ◽

Time Of Presentation

Abstract Immune Thrombocytopenia (ITP) usually presents with isolated, severe thrombocytopenia with very low platelet count (generally less than <30 x 109/L) in the absence of other hematologic abnormalities. However, ITP is a diagnosis of exclusion without any definite diagnostic test that can confirm the diagnosis at the time of presentation and clinicians occasionally worry at the time of presentation about other bone marrow processes that may present with thrombocytopenia, which would require considerably different therapy. In light of current guidelines suggesting that observation is likely to be safe in pediatric patients with low platelet counts without significant bleeding, identifying patients at risk for severe hemorrhage is even more important to help guide therapy. In addition, appropriately differentiating ITP from other diagnoses may also prevent inappropriate administration of ineffective therapies. The immature platelet fraction (IPF) is a measure of platelet turnover measuring RNA containing, large platelets by fluorescently labeling the platelets and utilizing flow cytometric gates programmed into the Sysmex XN-3000 hematology analyzer. We examined the medical laboratory records of 134 patients who had an IPF performed over the past 4 months for correlation between IPF and bleeding manifestations. In ITP patients who presented with significant bleeding symptoms (defined as epistaxis which was more than brief, oral bleeding more than palatal petechiae or GI or intracranial hemorrhage), the IPF was significantly lower than in those who presented with no bleeding or cutaneous bleeding only (bruising and petechiae): IPF=4.3%±1.6 SEM in bleeding patients versus 21.8%±1.8 SEM in not bleeding patients; p<0.0001. In two patients with life threatening hemorrhage and ITP (GI bleeding with drop in hemoglobin requiring both PRBC transfusion and treatment to raise the platelet count; ICH resulting in mortality), the IPF was low at the time of initial hemorrhage, but increased after ITP therapy (GI Bleed: plt 1K, IPF 5.3% increased to 20.3% after IVIG; ICH plt 6K, IPF 1.8% increased to 12.8% after IVIG and prednisone). We also examined first platelet count and IPF in 127 patients with ITP and 21 patients with BMF/AA who presented to our institution since October 2013. In this cohort of patients, the IPF in patients with ITP was significantly higher than in the BMF/AA patients and an IPF of >5.3 was associated with a negative predictive value of 80% for BMF/AA (IPF 16.6%±1.2 SEM in ITP vs. 2.9%±1.4 SEM in BMF/AA). In summary, we demonstrate that the IPF is a useful and simple adjunct in diagnosis of ITP which can help differentiate the patients most likely to have ITP from those who may need further diagnostic evaluation and require treatment to prevent bleeding complications. Further studies will focus on the ability of the IPF to prospectively predict the bleeding risk of patients and categorize patients. Disclosures Lambert: GSK: Consultancy; NovoNordisk: Honoraria; Hardin Kundla McKeon & Poletto: Consultancy.

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Prevalence, patterns, and factors associated with bleeding tendencies in dengue

The Journal of Infection in Developing Countries ◽

10.3855/jidc.5031 ◽

2015 ◽

Vol 9 (01) ◽

pp. 105-110 ◽

Cited By ~ 5

Author(s):

Emmanuel Bhaskar ◽

Gopalan Sowmya ◽

Swathy Moorthy ◽

Varun Sundar

Keyword(s):

Platelet Count ◽

Bleeding Risk ◽

International Normalized Ratio ◽

Drug Intake ◽

Bleeding Complications ◽

Study Cohort ◽

Severe Thrombocytopenia ◽

Factors Associated ◽

Platelet Counts ◽

Anti Platelet Drug

Introduction: The pattern of bleeding tendencies in dengue and its corellation with platelet count and other factors requires clarification. Methodology: A retrospective study on bleeding tendencies in adults with dengue and platelet counts of less than 100,000 per mm3 was conducted. Factors associated with bleeding were analyzed. The study cohort were grouped as dengue with severe thrombocytopenia when platelet count was < 50,000/mm3 and as dengue with moderate thrombocytopenia if platelet count was 50,000–100,000/mm3 Results: A total of 638 patients formed the study cohort. A 24.1% prevalence of bleeding tendencies was observed. Prior anti-platelet drug intake, platelet count of < 70,000/mm3, international normalized ratio > 2.0, and partial thromboplastin time > 60 seconds were associated with bleeding. Esophagogastroduodenoscopy was found to identify structural gastroduodenal lesions when dengue was complicated by hematemesis or melena. Conclusions: The results of this study suggest that bleeding complications in dengue can occur at platelet counts of up to 70,000/mm3, and that prior anti-platelet drug intake increases bleeding risk. Evaluation of hematemesis or melena in dengue with esophagogastroduodenoscopy is beneficial.

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Current management of cancer-associated venous thromboembolism in patients with thrombocytopenia: a retrospective cohort study

Internal and Emergency Medicine ◽

10.1007/s11739-021-02771-3 ◽

2021 ◽

Author(s):

Alessandro Squizzato ◽

Silvia Galliazzo ◽

Elena Rancan ◽

Marina Di Pilla ◽

Giorgia Micucci ◽

...

Keyword(s):

Platelet Count ◽

Venous Thromboembolism ◽

Cancer Patients ◽

Cerebral Metastasis ◽

Bleeding Complications ◽

Severe Thrombocytopenia ◽

Regression Analyses ◽

Multivariate Logistic Regression ◽

Current Management

AbstractOptimal management of venous thromboembolism (VTE) in cancer patients with thrombocytopenia is uncertain. We described current management and clinical outcomes of these patients. We retrospectively included a cohort of cancer patients with acute VTE and concomitant mild (platelet count 100,000–150,000/mm3), moderate (50,000–99,000/mm3), or severe thrombocytopenia (< 50,000/mm3). Univariate and multivariate logistic regression analyses explored the association between different therapeutic strategies and thrombocytopenia. The incidence of VTE and bleeding complications was collected at a 3-month follow-up. A total of 194 patients of whom 122 (62.89%) had mild, 51 (26.29%) moderate, and 22 (11.34%) severe thrombocytopenia were involved. At VTE diagnosis, a full therapeutic dose of LMWH was administered in 79.3, 62.8 and 4.6% of patients, respectively. Moderate (OR 0.30; 95% CI 0.12–0.75), severe thrombocytopenia (OR 0.01; 95% CI 0.00–0.08), and the presence of cerebral metastasis (OR 0.06; 95% CI 0.01–0.30) were independently associated with the prescription of subtherapeutic LMWH doses. Symptomatic VTE (OR 4.46; 95% CI 1.85–10.80) and pulmonary embolism (OR 2.76; 95% CI 1.09–6.94) were associated with the prescription of full therapeutic LMWH doses. Three-month incidence of VTE was 3.9% (95% CI 1.3–10.1), 8.5% (95% CI 2.8–21.3), 0% (95% CI 0.0–20.0) in patients with mild, moderate, and severe thrombocytopenia, respectively. The corresponding values for major bleeding and mortality were 1.9% (95% CI 0.3–7.4), 6.4% (95% CI 1.7–18.6), 0% (95% CI 0.0–20.0) and 9.6% (95% CI 5.0–17.4), 48.2% (95% CI 16.1–42.9), 20% (95% CI 6.6–44.3). In the absence of sound evidence, anticoagulation strategy of VTE in cancer patients with thrombocytopenia was tailored on an individual basis, taking into account not only the platelet count but also VTE presentation and the presence of cerebral metastasis.

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Regulation of thrombopoiesis: effects of the degree of thrombocytopenia on megakaryocyte ploidy and platelet volume

Blood ◽

10.1182/blood.v70.1.177.177 ◽

1987 ◽

Vol 70 (1) ◽

pp. 177-185 ◽

Cited By ~ 89

Author(s):

L Corash ◽

HY Chen ◽

J Levin ◽

G Baker ◽

H Lu ◽

...

Keyword(s):

Bone Marrow ◽

Platelet Count ◽

Immune Thrombocytopenia ◽

Temporal Relationship ◽

Recovery Phase ◽

Severe Thrombocytopenia ◽

Detectable Change ◽

Platelet Volume ◽

Murine Bone Marrow ◽

Ploidy Class

Abstract We have established a murine model and techniques with which to serially study thrombocytopoiesis after induction of experimental immune thrombocytopenia of variable severity and duration. Bone marrow megakaryocyte ploidy distribution was determined by using unfractionated bone marrow, a polyclonal megakaryocyte-specific probe, and two-color, fluorescence-activated flow cytometry. With these techniques, the modal megakaryocyte ploidy class in normal murine bone marrow was 16N. Serial studies of bone marrow megakaryocyte ploidy after the induction of acute, severe thrombocytopenia (platelet count, less than 0.05 X 10(6) microL) demonstrated no detectable change in the ploidy distribution at 12, 24, and 36 hours after the onset of thrombocytopenia. At 48 hours, the modal ploidy class shifted from 16N to 32N, and the 64N class increased significantly (P less than .001). The ploidy distribution returned to normal 120 hours after the onset of thrombocytopenia. A lesser degree of thrombocytopenia (platelet count reduction to 0.100 to 0.200 X 10(6)/microL) delayed the modal ploidy class shift from 16N to 32N until 72 hours after the onset of thrombocytopenia. Chronic, severe thrombocytopenia (platelet count, less than 0.05 X 10(6)/microL for seven days) resulted in a modal ploidy class shift from 16N to 32N during the thrombocytopenic phase and an enhanced increase in the 64N megakaryocyte class during the recovery phase. Mean platelet volume (MPV) was simultaneously measured on isolated total platelet populations after induction of thrombocytopenia. MPV was significantly increased (P less than .001) as early as eight hours after the onset of acute, severe thrombocytopenia, 40 hours before a shift in the ploidy distribution. Mild thrombocytopenia (platelet count reduction to 0.400 X 10(6)/microL) was not associated with a ploidy shift but did result in a significantly increased MPV (P less than .001). These studies demonstrate that the temporal relationship and magnitude of the effects of thrombocytopenia upon megakaryocyte ploidy distribution are dependent upon the degree and the duration of the thrombocytopenic stimulus and that the effects of experimental thrombocytopenia on platelet volume and megakaryocyte ploidy are dissociated.

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How I Manage cyclic thrombocytopenia

Blood ◽

10.1182/blood.2020008218 ◽

2020 ◽

Author(s):

Paul A Kyrle ◽

Sabine Eichinger

Keyword(s):

Platelet Count ◽

Immune Thrombocytopenia ◽

Hematological Malignancies ◽

Severe Bleeding ◽

Typical Pattern ◽

Periodic Fluctuation ◽

Thrombopoietin Receptor ◽

Primary Immune Thrombocytopenia ◽

Platelet Count Monitoring ◽

Mucocutaneous Bleeding

Cyclic thrombocytopenia (CTP) is a rare disease, which is characterized by periodic fluctuation of the platelet count. The pathogenesis of CTP is unknown and most likely heterogeneous. Patients with CTP are almost always misdiagnosed as having primary immune thrombocytopenia (ITP). The interval between ITP and CTP diagnosis can be many years. CTP patients often receive ITP-specific therapies including corticosteroids, thrombopoietin receptor agonists, rituximab and splenectomy which are followed by a transient increase in platelet count that is wrongly attributed to treatment effect with inevitable "relapse". CTP can be diagnosed by frequent platelet count monitoring which reveals a typical pattern of periodic platelet cycling. An early diagnosis of CTP will prevent these patients from being exposed to possibly harmful therapies. The bleeding phenotype is usually mild and consists of mucocutaneous bleeding at the time when the platelet count is at its nadir. Severe bleeding from other sites can occur but is rare. Some patients respond to cyclosporine A or to danazol, but most patients do not respond to any therapy. CTP can be associated with hematological malignancies or disorders of the thyroid gland. Nevertheless, spontaneous remissions can occur, even after many years.

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A Case of Acquired Amegakaryocytic Thrombocytopenia with Anti-c-mpl Autoantibody: Comparison with Idiopathic Thrombocytopenic Purpura

Acta Haematologica ◽

10.1159/000499523 ◽

2019 ◽

Vol 142 (4) ◽

pp. 239-243

Author(s):

Bora Son ◽

Hee sue Park ◽

Hye Sook Han ◽

Hee Kyung Kim ◽

Seung Woo Baek ◽

...

Keyword(s):

Bone Marrow ◽

Platelet Count ◽

Rare Disease ◽

Idiopathic Thrombocytopenic Purpura ◽

Immunosuppressive Treatment ◽

Severe Bleeding ◽

Severe Thrombocytopenia ◽

Thrombocytopenic Purpura ◽

Acquired Amegakaryocytic Thrombocytopenia

Acquired amegakaryocytic thrombocytopenia (AAMT) is a rare disease that causes severe bleeding. The pathogenesis and treatment of AAMT have not yet been defined. We report the case of a 60-year-old woman diagnosed with AAMT, who presented with severe thrombocytopenia, gastrointestinal bleeding, and significantly reduced bone marrow megakaryocytes. The patient was treated with methylprednisolone, cyclosporin, and intravenous immunoglobulin. After 2 weeks of treatment, her platelet count started to increase, and her bone marrow megakaryocyte count had normalized 3 months after diagnosis. At the time of diagnosis, the patient was seropositive for anti-c-mpl antibody but was seen to be seronegative once the platelet count recovered. In contrast, anti-c-mpl antibodies were not detected in the serum of 3 patients with idiopathic thrombocytopenic purpura. This case study suggests that anti-c-mpl antibody plays an important role in the development of AAMT, and that intensive immunosuppressive treatment is required for autoantibody clearance and recovery of megakaryocyte count.

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Successful Management of Refractory Severe Thrombocytopenia Associated with Antiphospholipid Syndrome Using rituximab

Blood ◽

10.1182/blood.v112.11.4570.4570 ◽

2008 ◽

Vol 112 (11) ◽

pp. 4570-4570

Author(s):

Soad Al Jaouni

Keyword(s):

B Cell ◽

Antiphospholipid Syndrome ◽

Pulse Therapy ◽

Bleeding Complications ◽

High Dose ◽

Severe Bleeding ◽

Severe Thrombocytopenia ◽

Promising Alternative ◽

Systemic Treatments

Abstract Background: Rituximab, a monoclonal antibody against the pan B-cell antigen CD20, that induces a rapid in vivo depletions of normal B lymphocytes. Although this agent was originally developed for use in patients with B-cell-NHL, its use has been successfully extended to many autoimmune disorders. Thrombocytopenia associated with antiphospholipid syndrome can be mild to severe. Severe cases can be associated with significant morbidity and mortality if refractory to the usual therapy for autoimmune thrombocytopenia. Aim: To report an effective regimen in treating a case of severe bleeding thrombocytopenia associated with antiphospholipid syndrome. Patient and Methods: A 49 year old female was diagnosed with thrombocytopenia associated with antiphospholipid syndrome and antibodies to double-stranded DNA, controlled over the last 15 years. Unfortunately, over the last two years the patient has had frequent admissions for uncontrolled nose bleed, soft palate petechiae and generalized bruising. Many treatments have been tried for this case of difficult refractory bleeding with platelets in the range 2.0–6.0 K/uL. These include systemic treatments such as corticosteroids, high pulse therapy of methylprednisolone, Imuran, i.v. immunoglobulin infusion and anti Rh-D intravenous therapy. We report an adult female patient with severe refractory bleeding thrombocytopenia associated with antiphospholipid syndrome and successful treatment with Rituximab. Her platelets count have been maintained above 200.0K/uL over a 14 months period. Unfortunately, this patient has had side effects of steroid therapy. In conclusion: Rituximab may be effective treatment on patients with refractory, severe thrombocytopenia associated with antiphospholipid syndrome and significant bleeding complications. Rituximab is a promising alternative option for the eradication of the autoantibodies and restoration of normal hemostasis while avoiding the use of high-dose steroid in refractory bleeding thrombocytopenia.

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Administration of Anti-Platelet Antibodies Prevents the Anti-Platelet Immune Response and Bleeding Complications of Neonatal Immune Thrombocytopenia in a Murine Model.

Blood ◽

10.1182/blood.v114.22.223.223 ◽

2009 ◽

Vol 114 (22) ◽

pp. 223-223

Author(s):

Heidi Tiller ◽

Pingguo Chen ◽

Bjorn Skogen ◽

Mette Kjaer Killie ◽

Anne Husebekk ◽

...

Keyword(s):

Flow Cytometry ◽

Immune Response ◽

Platelet Count ◽

Murine Model ◽

Immune Thrombocytopenia ◽

Human Platelet ◽

Bleeding Complications ◽

Platelet Antibodies ◽

Β3 Integrin ◽

Equity Ownership

Abstract Abstract 223 Background: The human platelet antigen (HPA) 1a is a potent immunogen located on the β3 integrin. Ten % of pregnant HPA1a negative women produce antibodies against the HPA1a antigen if the foetus is HPA1a positive. Fetal/neonatal immune thrombocytopenia (FNIT) can occur if the mother develops alloantibodies against fetal platelets, with intracranial haemorrhage as the most severe complication. The current opinion has been that immunization against the HPA1a antigen takes place during the first HPA1 non-compatible pregnancy. However, results from a large and recent screening study in Norway found that the majority (75%) of women were immunized around time of delivery, and not so often during pregnancy. This indicates that FNIT could be more similar to haemolytic disease of the newborn (HDN) than previously thought. To prevent HDN, antibody mediated immune suppression (AMIS) is induced by administration of anti-D antibodies in connection with RhD-negative pregnancies. The same principle could be used to prevent FNIT by administration of anti-HPA1a antibodies in HPA1a-negative pregnancies. We have previously established a murine model of FNIT using β3 integrin-deficient (β3−/−) mice. The first aim of the current project was to test whether administration of human anti-HPA1a IgG could suppress the anti-human platelet immune response in β3−/− mice after transfusion of human HPA1a positive platelets. For the second part of the project, we used a pure murine model to test whether administration of murine anti-β3 antibodies transfused after delivery could induce AMIS and prevent bleeding complications of FNIT in the subsequent pregnancies. Methods: Human/murine model: Human IgG from 5 donors with high levels of anti-HPA1a antibodies was purified by Protein G affinity chromatography. Purified IgG from one male donor without detectable anti-platelet specific antibodies was used as control IgG. Human platelets were isolated from an HPA1a positive donor. β3−/− mice were immunized by one tail vein transfusion with 2 × 106 human HPA1a positive platelets, with or without subsequent transfusion of 900ug human IgG (100% saturation). After 7 days, the mice were bled and sera collected. The anti-human platelet immune response was analyzed via flow cytometry, using FITC-conjugated goat anti-mouse IgG as detection antibody. Six mice were injected with anti-HPA1a containing IgG. Control IgG (n=6) or no IgG (n=4) were used as negative controls. Pure murine model: High-titer anti-β3 sera were produced by 4 weekly transfusions of 108 wild type (WT) platelets to β3−/− mice. Naïve β3−/− female mice were bred with naïve β3−/− male mice. Within 24 hours of delivery, the mother was transfused with 108 WT platelets with or without immediate transfusion of anti-β3 sera. The transfusions were repeated one week after delivery and the same females were bred again with WT male BALB/c mice. The anti-β3 immune response was analyzed via flow cytometry, using FITC-conjugated goat anti-mouse IgG. The FNIT phenotype was monitored and all live pups were bled from the carotid vein to determine platelet count. Results: Administration of purified anti-HPA1a IgG significantly suppressed the anti-human platelet immune response in β3−/− mice after transfusion of HPA1a positive platelets as compared with control IgG (p < 0.05). In the pure murine model of FNIT, the anti-β3 immune response was markedly suppressed during the subsequent pregnancy in the mice treated with anti-β3 sera. Two out of three mice receiving anti-β3 sera treatment delivered live pups with moderate thrombocytopenia without signs of haemorrhage (mean platelet count 217 ×106/mL). The third mouse receiving anti-β3 sera delivered dead pups. In contrast, all female mice (n = 3) without anti-β3 sera treatment miscarried. Conclusions: We have demonstrated in vivo that AMIS can be induced by administration of anti-platelet antibodies using a murine model of FNIT. Preliminary data indicates that bleeding complications of FNIT can be prevented with this prophylactic approach. Disclosures: Skogen: Prophylix Pharma a/s: Employment, Equity Ownership. Killie:Prophylix Pharma a/s: Equity Ownership. Husebekk:Prophylix Pharma a/s: Equity Ownership. Kjeldsen-Kragh:Prophylix Pharma a/s: Equity Ownership.

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Association of Interleukin-18 Gene Polymorphism with Severity of Chronic Immune Thrombocytopenia (ITP).

Blood ◽

10.1182/blood.v116.21.3693.3693 ◽

2010 ◽

Vol 116 (21) ◽

pp. 3693-3693

Author(s):

Takayuki Saitoh ◽

Norihiko Moriyama ◽

Tomonori Takani ◽

Takeki Mitsui ◽

Takumi Hoshino ◽

...

Keyword(s):

Platelet Count ◽

Immune Thrombocytopenia ◽

Initial Diagnosis ◽

Severe Thrombocytopenia ◽

Interleukin 18 ◽

Single Nucleotide ◽

Chronic Itp ◽

Significant Difference ◽

Haplotype Frequencies ◽

And Control

Abstract Abstract 3693 Introduction: Immune thrombocytopenia (ITP) is a chronic acquired organ-specific autoimmune disorder characterized by the production of antibodies against antigens on the membranes of platelets. Several cytokine studies have shown Th1 polarization in ITP patients. Interleukin-18 (IL-18) plays an important role in Th1 and Th2 immune response. Recent studies showed that single-nucleotide promoter polymorphisms influence the transcriptions of IL-18 mRNA. IL-18 polymorphism has been implicated in autoimmunity, including Crohn's disease, rheumatoid arthritis, and asthma. We examined the single nucleotide polymorphisms (SNPs) in the promoter regions of the IL-18 genes in patients with ITP, and analyzed the relationship between IL-18 SNPs and clinical features. Patients and Methods: One hundred patients (male/female; 22/78, median age; 54.5) diagnosed as chronic ITP and 151 healthy controls were included. Chronic ITP was defined as thrombocytopenia (platelet count < 100×109/L) persisting greater than 12 months, normal or increased marrow megakaryocytes, and no secondary immune or non-immune abnormality that could account for the thrombocytopenic state. ITP with severe thrombocytopenia was defined as thrombocytopenia (platelet count < 10×109/L) at presentation of ITP. The response criteria of the ITP International Working Group was used. A complete response (CR) is defined as any platelet count of at least 100×109/L, and a response (R) was defined as any platelet count between 30 and 100×109/L and at least doubling of the baseline count. Allparticipants gave written informed consent about the study. Genomic DNA was isolated from peripheral blood using the DNA Kit (QIAGEN, Hilden, Germany). An allele-specific polymerase chain reaction was used to analyze polymorphism in IL-18 –607A/C and -137G/C. Genotype and allele frequencies were compared between the study groups using Χ2-test. The characteristics and laboratory features of the ITP patients with each IL-10 promoter polymorphism were compared using X2-tests and student t-tests. Probability values <0.05 were considered statistically significant. Results: The platelet count was at an initial diagnosis ranged from 1×109/L to 98 ×109/L, with a median of platelet count of 15×109/L. Thirty-five patients (35%) had severe thrombocytopenia. Steroid treatment was given to 68 patients (68%), while splenectomy was used in 11 patients (11%).The frequencies of the genotypes were as follows: AA (34%), AC (57%), and CC (9%) for -607; GG (77%), GC (21%), and CC (2%) for -137 loci. The frequencies of each haplotype were as follows: C-G/C-G haplotype (9%), A-G/C-G haplotype (47%), A-C/C-G haplotype (10%), A-G/A-G haplotype (21%), A-G/A-C haplotype (11%) and A-C/A-C haplotype (2%). No significant differences in the genotype or haplotype frequencies demonstrated between chronic ITP patients and control group. However, patients with -137CC genotypes showed severe thrombocytopenia at initial diagnosis compared to those with -137GG/GC genotypes (5×109/L vs. 22×109/L, p=0.002). Furthermore, patients with A-C/A-C haplotype showed severe thrombocytopenic state (5×109/L vs. 22×109/L, p=0.002) compared to those without A-C/A-C haplotype. No significant difference of treatment response was observed according to IL-18 polymorphism. Conclusion: No significant differences in the genotype or haplotype frequencies demonstrated between chronic ITP patients and control. However, -137CC genotypes or AA/CC haplotype was associated with severity of chronic ITP. Our data suggest that the group with low IL-18 inducibility (i.e. -137CC genotype, A-C/A-C haplotype) may have more severe thrombocytopenia. Disclosures: No relevant conflicts of interest to declare.

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The Cytokine Polymorphisms Affect the Severity of Thrombocytopenia at Diagnosis in Chronic Immune Thrombocytopenia.

Blood ◽

10.1182/blood.v120.21.2194.2194 ◽

2012 ◽

Vol 120 (21) ◽

pp. 2194-2194

Author(s):

Takayuki Saitoh ◽

Chiaki Ushie ◽

Atsushi Iwasaki ◽

Norihiko Moriyama ◽

Tomonori Takani ◽

...

Keyword(s):

Polymerase Chain Reaction ◽

Platelet Count ◽

Clinical Features ◽

Immune Thrombocytopenia ◽

Steroid Treatment ◽

Severe Thrombocytopenia ◽

Bleeding Tendency ◽

Chain Reaction ◽

Chronic Itp ◽

Polymerase Chain

Abstract Abstract 2194 Introduction: The severity of immune thrombocytopenia (ITP) depends on the degree of the thrombocytopenia and the extent of bleeding. Some investigators have reported the association between the thrombocytopenia and cytokine dysregulation in ITP. We investigated the association between the severity of thrombocytopenia at diagnosis in ITP patients and several cytokine polymorphisms, including IL-10-1082A/G, -819T/C, -592A/C, IL-17F-7488T/C and IL-18-607A/C, −137G/C. Patients and methods: We examined 102 patients (male/female, 24/78; median age, 42) diagnosed with chronic ITP. The definition, response criteria, including complete response (CR)and response (R), loss of CR,and “corticosteroid-dependence” were assessed according to the criteria of the ITP International Working Group. ITP with severe thrombocytopenia (ST group)was defined as thrombocytopenia (platelet count < 10×109/L) at the initial diagnosis of ITP. Genotyping of IL-10 (rs1800870 − 1082 A/G, rs1800871 − 819 T/C, and rs1800872 − 592 A/C) and IL-17F (rs763780, 7488 T/C) polymorphisms were determined by the polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and the genotyping of the IL-18 polymorphism (rs187238 −137G/C and rs1946518−607 A/C) was determined by the allelic specific polymerase chain reaction technique. To confirm the accuracy of the assay, amplification products of several individuals were sequenced using an ABI Prism Genetic Analyzer. Genotype and allele frequencies were compared between the study groups using χ2-test. The characteristics and laboratory features of ITP patients with each polymorphisms were compared using χ2-tests and student t-tests. Odds ratios (OR) and 95% confidence intervals (CIs) were estimated for each study. All patients were provided written information about the study. This study was approved by the Institutional Research Board of Gunma University Hospital. Results: Clinical features of chronic ITP: The platelet count ranged from 1×109/L to 98×109/L with a mean of platelet count of 32×109/L at the initial diagnosis. Fifty seven patients (49%) had bleeding tendency. Steroid treatment was given to 68 patients (66.7%) and eradication of Helicobacter pylori (H. pylori) was performed in 32 patients (31.4%), while splenectomy was performed in only 11 patients (10.8%). Clinical features of ST group vs. non-ST group in chronic ITP: Of these 102 patients, 17 (16.7%) had severe thrombocytopenia (platelet count < 10×109/L) (ST group). ST group were significantly older (ST group: median 59 years vs. non-ST group: 41 years, p<0.01) and had more severe bleeding tendency (ST group: 100% vs. non-ST group: 54%, p<0.0001). Steroid treatment was frequently given to ST group than to non-ST group (ST group: 100% vs. non-ST group: 59.5%, p<0.001). Though the response to corticosteroids treatment was not significantly different between ST group and non-ST group (CR rate, ST group: 50% vs. non-ST group: 51.0%, p=0.94), corticosteroid-dependent patients in ST group was significantly higher than in non-ST group (76.9% vs. 25.3%, p<0.005). Polymorphism study of ST group vs. non-ST group in chronic ITP: The frequencies of genotypes of cytokines in patients with chronic ITP according to the definition of criteria of ST were as follows: AA (93.3% vs. 97.1%) and AG (6.7% vs. 2.9%, p=0.48) for IL-10–1082; TT (46.7% vs. 33.3%), TC (33.3% vs.55 %) and CC (20% vs. 11.7%) for IL-10–819; AA (46.7% vs. 33.3%), AC (33.3% vs.55 %) and CC (12.2% vs. 11.5%) for IL-10–592; TT (100% vs. 81%) and TC (0% vs. 19%) for IL-17F; GG (82.4% vs. 74.4%), GC (17.6% vs. 23.2%) and CC (0% vs. 2.4%) for IL-18–137; AA (35.3% vs. 34.1%), AC (58.8% vs. 53.7%) and CC (5.9% vs 12.2%) for IL-18–607 loci (ST group vs. non-ST group, respectively). No significant difference was observed between ST group and non-ST group according to IL-10–1082A/G, −819T/C, −592A/C, and IL-18–607A/C, −137G/C polymorphism. However, the numbers of IL-17F 7488TT genotype (higher function type) in ST group were significantly higher than in non-ST group (ST group: 100% vs. non-ST group: 81% p<0.05). Conclusion: These findings suggest that severe thrombocytopenia at diagnosis have an impact of bleeding tendency and corticosteroid-dependency of chronic ITP. Furthermore, IL-17F polymorphism may affect the severity of thrombocytopenia of chronic ITP. Disclosures: No relevant conflicts of interest to declare.

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