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The platelet-stimulating agent romiplostim was compared with standard interventions for chronic immune thrombocytopenic purpura. Patients given romiplostim had higher platelet counts, less treatment failure, fewer bleeding episodes, and better quality of life. Immune thrombocytopenia is an autoimmune disease characterized by low platelet counts due to both increased platelet destruction and suboptimal platelet production. 1 After initial treatment with glucocorticoids or intravenous immune globulin or anti-D immune globulin, most adult patients require second-line medical therapy (e.g., azathioprine or rituximab) or surgical therapy (i.e., splenectomy). 2 However, most first- and second-line medical treatments are short-acting, have severe side effects, or are potentially toxic. 2 – 4 These problems can adversely affect the health and quality of life of patients. Splenectomy is used to remove the major site of platelet destruction and increase the platelet count. 5 In approximately two . . .

Delayed platelet engraftment (DPE) is a prevalent complication following umbilical cord blood transplantation (UCBT), accompanied by increased transplant-related mortality. This study aims to evaluate the efficacy, safety, and tolerability of romiplostim and recombinant human thrombopoietin (rhTPO) in enhancing platelet engraftment after UCBT. A total of 19 patients scheduled to receive UCBT were randomly assigned to the romiplostim group (250 µg once weekly from day 5 to platelet engraftment after UCBT, n  = 7) or rhTPO group (300 U/kg once daily from days 5 to 18 after UCBT, n  = 12). The median time of PLT engraftment was no statistical difference between rhTPO and romiplostim group: 29.5 days (range: 13–43 days) compared to 31 days (range: 23–40 days; P  =.269). The median dose of romiplostim was 4 (range: 2–5 doses). Furthermore, the consumption of PLT was equivalent between the Ro group and the rhTPO group: 10 units (range: 7–26 units) and 10 units (range: 3–24 units; P  =.694). All patients survived for one year and remained relapse-free. Romiplostim group had a lower incidence of acute graft versus host disease (aGvHD). No severe adverse effects were observed in any of the patients. This study demonstrated that romiplostim and rhTPO are both effective in promoting platelet engraftment after UCBT. Romiplostim was more practical and tolerable due to its cost and labor-saving benefits.

A safety analysis of pooled data from clinical studies of romiplostim, a thrombopoietin (TPO) receptor agonist, in which patients with immune thrombocytopaenia (ITP) received romiplostim, placebo, or medical standard of care (SOC) Rodeghiero et al. (Eur J Haematol 91:423–436, 2013 ), has been updated. Included are data from 14 trials spanning 2002–2011; placebo- and SOC-arm data are pooled. Most patients ( n  = 1059) were female (61 %) and Caucasian (85 %); 38 % had undergone splenectomy; 23 were children. Mean (SD) baseline platelet count was 20.6 (16.5) × 10 9 /L. Mean (SD) weekly dose of romiplostim was 4.2 (2.8) µg/kg; total exposure was 1520 patient-years. Overall, 921 patients received romiplostim only, 65 received placebo/SOC only, and 73 received placebo/SOC followed by romiplostim. Rates of haemorrhage (romiplostim, 205/100 patient-years; placebo/SOC, 263/100), thrombosis (both, 5.5/100 patient-years), haematological malignancy/myelodysplastic syndrome (romiplostim, 0.5/100 patient-years; placebo/SOC, 2.7/100), and non-haematological tumours (romiplostim, 2.2/100 patient-years; placebo/SOC, 3.6/100) were comparable among groups. Bone marrow reticulin was reported in 17 patients and collagen in one patient receiving romiplostim; one patient receiving placebo/SOC had reticulin reported. Three patients developed neutralizing antibodies to romiplostim, but not to endogenous TPO. This integrated analysis of the safety profile of romiplostim in patients with ITP is consistent with previously reported studies; no new safety concerns emerged.

This multicenter, randomized trial assessed the efficacy and safety of a recombinant human thrombopoietin (rhTPO) in patients with persistent primary immune thrombocytopenia (ITP) who had failed glucocorticosteroid treatment. A total of 140 eligible patients were randomized to receive rhTPO + danazol (rhTPO group, 73 patients) or danazol (control group, 67 patients) alone. During the first phase, the increase in the mean maximal platelet counts (101.2 × 10 9 /L) and the area under curve (749.6) in the rhTPO group were significantly higher compared to control (33.3 × 10 9 /L and 316.2; P  = 0.0060 and 0.0000, respectively). The major response rate (MRR) and total response rate (TRR) in the rhTPO group were 38.4 and 60.3 %, respectively, significantly higher than in control (MRR 7.9 %, P  = 0.0003; TRR 36.5 %, P  = 0.0104). In the control group, 45 patients with platelet counts <20 × 10 9 /L were given rhTPO during the second phase and achieved MRR 31.1 % and TRR 66.7 %. The mean platelet counts in the rhTPO group were still approximately 50 × 10 9 /L on day 28 of the study. The overall incidence of rhTPO-related adverse events was 13.6 %. All the adverse events were generally mild. This study demonstrated that rhTPO was well tolerated, and it markedly increased platelet counts in chronic ITP patients. Stimulation of platelet production by rhTPO may provide a new therapeutic option for patients with ITP.

Thrombopoietin receptor agonists increase platelet counts and reduce bleeding risk in patients with immune thrombocytopenia (ITP). Studies have reported that these agents may represent a risk factor for thromboembolic events, especially in the elderly, who are at increased risk for such complications relative to younger patients. In this retrospective analysis, efficacy and safety data for romiplostim in patients with ITP aged ≥65 years versus those aged <65 years are described. Data from 3 studies ( N  = 159; 24.5% ≥65 years of age) were analyzed for efficacy. Data from 13 studies ( N  = 1037; 28.4% ≥65 years of age) were analyzed for adverse events (AEs). Relative risk (RR) ratios with 95% CIs were calculated for duration-adjusted incidences of AEs for romiplostim versus placebo/standard of care (SOC) in patients ≥65 and <65 years. Slightly higher platelet response rates were seen among romiplostim-treated patients ≥65 versus <65 years. In the safety analyses, 65 (6.3%) received placebo/SOC, 69 (6.7%) received placebo/SOC and then romiplostim, and 903 (87.1%) received romiplostim only. Duration-adjusted AE rates were similar for romiplostim versus placebo/SOC in older and younger patients. The risks for grade ≥3 bleeding (RR 1.92; 95% CI, 0.47–7.95) and thromboembolic events (RR 3.85; 95% CI, 0.53–27.96) were numerically but not significantly higher for romiplostim versus placebo/SOC in patients ≥65 years. Romiplostim is effective and, with the exception of nonsignificant trends showing increased risks of grade ≥3 bleeding and thromboembolic events (a trend observed in other studies), generally well tolerated in older patients with ITP.

The efficacy and safety of romiplostim, a thrombopoietin-mimetic peptibody, were evaluated in a double-blind, placebo-controlled, randomized trial of Japanese patients with chronic immune thrombocytopenia (ITP). Thirty-four ITP patients received romiplostim ( n  = 22) or placebo ( n  = 12) for 12 weeks, with a starting romiplostim dose of 3 μg/kg weekly. The primary end point was the number of weeks with platelet response, defined as a platelet count ≥50 × 10 9 /L (not including the 4 weeks after rescue medication administration). Patients received a median of 4 (range 1–19) prior ITP therapies including splenectomy in 44%. On study, 68% also received concomitant ITP therapy. Weekly responses occurred for a median of 11 weeks with romiplostim as compared to 0 weeks with placebo ( p  < 0.0001). Most romiplostim-treated patients (95%) achieved platelet responses; two showed extended responses after the treatment period. The use of rescue medication was required in 9% of romiplostim-treated patients as compared with 17% of placebo-treated patients. Both treatment groups had similar incidences of adverse events (91% romiplostim, 92% placebo). Adverse events that occurred more frequently (>10%) in romiplostim-treated patients included nasopharyngitis, headache, peripheral edema, back pain, and extremity pain. In conclusion, romiplostim significantly increased and maintained platelet counts and was well tolerated in Japanese patients with ITP.

Background Lenalidomide treatment in myelodysplastic syndrome (MDS) may lead to thrombocytopenia and dose reductions/delays. This study evaluated the safety and tolerability of the thrombopoietin mimetic romiplostim and its effects on the incidence of clinically significant thrombocytopenic events (CSTEs) in lower risk MDS patients receiving lenalidomide. Methods Patients were assigned to weekly placebo (n = 12) or romiplostim 500 μg (n = 14) or 750 μg (n = 13) for four 28-day lenalidomide cycles. Results The treatment groups were generally similar with respect to baseline disease characteristics. Del(5q) abnormalities were noted in 1 (8%) patient in the placebo group, 3 (21%) in the romiplostim 500 μg group, and two (15%) in the 750 μg group. CSTEs were noted in 8 (67%) patients in the placebo group, 4 (29%) in the romiplostim 500 μg group, and 8 (62%) in the romiplostim 750 μg group. Throughout the study, median platelet counts trended lower in placebo-treated than in romiplostim-treated patients. Thrombocytopenia-related adjustments in lenalidomide occurred in 6 (50%) patients in the placebo group, 5 (36%) in the romiplostim 500 μg group, and 2 (15%) in the 750 μg group. Although the percentages of patients who received platelet transfusions were similar across treatment groups, there was a trend toward lower numbers of transfusions in both romiplostim groups during each treatment cycle. There were two serious treatment-related adverse events during the treatment period (cerebrovascular accident, placebo; worsening thrombocytopenia, romiplostim 500 μg). Two patients (romiplostim 500 and 750 μg, respectively) had an increase in bone marrow blasts to >20% during treatment, but had no post-treatment biopsy to confirm or exclude the diagnosis of progression to AML. Conclusions These data suggest that romiplostim administered to MDS patients during lenalidomide treatment may decrease the frequency of dose reductions/delays due to thrombocytopenia. Additional study is needed to confirm the results of this preliminary trial. Trial registration ClinicalTrials.gov NCT00418665

Thrombocytopenia is a complication of chemotherapy that can increase the risk of hemorrhage, 1 necessitate platelet transfusions, and limit the doses of myelotoxic agents. Platelet transfusions can prevent bleeding, but infectious and allergic complications 2 and refractoriness due to alloimmunization reduce their usefulness. 1 For these reasons, a specific stimulator of platelet production could have important clinical applications. Thrombopoietin, the recently isolated and cloned ligand for the cytokine receptor Mpl, 3 – 10 is the key hormone regulating the development of megakaryocytes. 3 – 12 When hematopoietic progenitor cells are incubated with thrombopoietin, they develop into megakaryocytes, which release morphologically and functionally normal platelets. 13 Thus, thrombopoietin supports . . .

Background Sepsis is still a major health problem that causes high mortality in all populations. Organ dysfunction including sepsis-associated thrombocytopenia is prevalent among sepsis patients, resulting in increasing mortality rates. Considering the clinical role of platelets, thrombocytopenia in sepsis has led to a large spend in research activity and clinical trials in this area, yet there is no consensus upon which treatment should be administered. As a result, platelet transfusion is often indicated to resolve low platelet counts, leading to an increasing risk of the multiple risks transfusion brings, such as infectious or immune system complications. Given the role of thrombopoietin in stimulating proliferation and differentiation of megakaryocytes, our previous study investigated the potential benefits of recombinant human thrombopoietin in severe sepsis patients with thrombocytopenia. However, there are several limitations in the study, which may have led to bias in our conclusion. Thus, we are conducting this study in order to evaluate the safety and efficacy of recombinant human thrombopoietin in a large, varied population. Methods/Design The study is designed as a randomized, open-label, placebo-controlled, multi-center study in tertiary academic centers for evaluating the safety and efficacy of recombinant human thrombopoietin over placebo. An established total of 708 patients with sepsis and thrombocytopenia will undergo prospective random assignment to recombinant human thrombopoietin or placebo (a 1:1 ratio). The primary endpoint is 7-day all-cause mortality and 28-day all-cause mortality. Discussion To our knowledge, this is the first study to evaluate the safety and efficacy of recombinant human thrombopoietin among severe sepsis patients with thrombocytopenia in a varied population. With our study, the level of evidence for the treatment of these patients will be significantly raised. Trial registration ClinicalTrials.gov: NCT02094248 . Registration date: 23 March 2014.

Objective: To examine the efficacy and adverse events of recombinant human thrombopoietin (rhTPO) in the treatment of infection-associated thrombocytopenia in senile patients. Methods: The current study is a retrospective analysis of the patients receiving rhTPO for infection-associated thrombocytopenia in our hospital. Results: Forty-nine cases were included in the analysis as rhTPO group. The absolute platelet count after treatment, increase in platelet count, and the overall response rate were considerably higher in the rhTPO group than that in the control group. Improvement in bleeding score was higher in the rhTPO treatment group than that in the control group (2.1 ± 5.4 vs 0.4 ± 1.7). Bleeding event was stopped in 68.2% of the patients after rhTPO treatment and in 35% of the patients in the control group (P = .032). A stratified analysis indicated that the therapeutic efficacy is much better in patients without organ failure. Conclusion: Recombinant human TPO is effective in alleviating infection-associated thrombocytopenia and hemorrhage in senile patients, particularly if given prior to the emergence of organ failure.