Whether paroxysmal nocturnal hemoglobinuria (PNH) clone in aplastic anemia (AA) is a prognostic factor to immunosuppressive therapy is a subject of debate. We evaluated hematological responses to immunosuppressive therapy (IST) in severe AA (SAA) patients with or without the presence of a PNH clone. In 97 SAA patients who received first-line IST between January and December 2011, 24 (24.7 %) had a PNH clone prior to treatment, with a median clone size of 7.82 % (range 1.19-45.46 %). The response rates to IST for patients with or without a PNH clone were 66.7 and 50.7 % (P < 0.172), 79.2 and 57.5 % (P < 0.057), and 79.2 and 67.1 % (P < 0.264) at 3, 6, and 12 months, respectively. Combined rate of complete and good partial responses differed between patients with or without a PNH clone: insignificantly at 3 months (41.7 vs. 21.9 %, P < 0.058), but significantly at 6 (66.7 vs. 31.5 %, P < 0.002) and 12 (75.0 vs. 46.6 %, P < 0.015) months. Multivariate analysis revealed that a pretreatment neutrophil count of >0.2 × 10(9)/L is indicative of a better response, while the presence of a PNH clone is predictive to a higher combined rate of complete and good partial responses. This study demonstrated that the presence of a PNH clone could predict a better hematological response instead of a higher response rate in patients with SAA.
Objective
To assess the outcomes of children with acquired aplastic anemia (AA) treated in China with first‐line porcine anti‐lymphocyte immunoglobulin (p‐ALG)/rabbit anti‐thymocyte immunoglobulin (r‐ATG) combined with cyclosporine A (CSA).
Methods
We performed a single‐center, non‐randomized, retrospective cohort study to assess the outcomes of 189 children with AA treated in China with first‐line p‐ALG/r‐ATG combined with CSA between 2014 and 2018.
Results
No significant differences were observed in the overall response rates at 3, 6, 12, or 24 months (3 months: 61.9% vs 67.4%, P = .5; 6 months: 70.9% vs 73.9%, P = .69; 12 months: 77.3% vs 73.3%, P = .58; 24 months: 81.6% vs 78.6%, P = .59) after either p‐ALG‐ or r‐ATG‐based immunosuppressive therapy. No significant differences were observed in overall survival or failure‐free survival between the p‐ALG group and the r‐ATG group.
Conclusion
Our results reveal that the therapeutic efficacy and safety of p‐ALG combined with CSA did not differ significantly from those of r‐ATG combined with CSA as first‐line therapy for pediatric patients with AA. Moreover, p‐ALG has the advantage of significantly lower cost compared with r‐ATG.
Objective: Eltrombopag monotherapy or eltrombopag combined with immunosuppressant has achieved robust hematologic responses in severe aplastic anemia (SAA). In patients with refractory SAA, for whom hematopoietic stem cell transplantation is unavailable, we attempted to combine eltrombopag with oral immunosuppressant and androgen, to further improve hematologic response. Methods: We collected and analyzed data retrospectively from twelve refractory SAA cases who had received combination therapy of eltrombopag, oral immunosuppressant and androgen. All these patients had received intensive immunosuppressive treatment (IST) for more than 6 months and were evaluated as nonresponders. Results: A total of 12 SAA patients were treated with a combination of eltrombopag, an oral immunosuppressant (cyclosporine, N = 9; tacrolimus, N = 3) and androgen. The median maximum dose of eltrombopag was 75 mg/day (range, 75-150). After a median follow-up of 8.5 months (7-23), the overall response rate (ORR) was 42% (5/12, including trilineage, N = 4; hemoglobin + platelet, N = 1). Two of 5 responders reached normal blood counts. Optimal hematological response rates were reached at 6 months. The median increase in neutrophil, hemoglobin and platelet count were 1.64 × 10 9 /L (0.71-2.66), 53 g/L (25-66.5) and 25 × 10 9 /L (14-230), respectively. In general, the combination therapy was well tolerated; however, two patients suffered from non-lethal upper extremity venous thrombosis when they were platelet transfusion-dependent. Conclusion: Eltrombopag, oral immunosuppressant and androgen combination therapy in patients with IST-refractory SAA is feasible and could restore multi-lineage hematopoiesis. Thrombosis risk of eltrombopag still needs to be monitored.
Background: Antihuman T lymphocyte porcine immunoglobulin (p-ATG) has been the most common ATG preparation in immunosuppressive therapy (IST) in Chinese patients with severe aplastic anemia (SAA) since 2009. Objectives: This study aimed to evaluate the early hematologic response and long-term outcomes of a large cohort of patients with SAA who received p-ATG plus cyclosporine (CsA) as first-line therapy from 2010 to 2019. Design: This is a single-center retrospective study of medical records. Methods: We analyzed the data of 1023 consecutive patients with acquired aplastic anemia (AA) who underwent p-ATG combined with CsA as a first-line IST treatment from 2010 to 2019 at our department. Results: The median age of the patients was 24 (4–75) years, and the median follow-up time was 57.2 months (3 days–137.5 months). There was an early mortality rate of 2.8% with a median death time of 0.9 months (3 days–2.9 months). The overall response rates were 40.6% and 56.1% at 3 and 6 months, respectively. The 5-year cumulative incidences of relapse and clonal evolution were 9.0% [95% confidence interval (CI) = 4.2–16.0%] and 4.5% (95% CI = 1.4–10.6%), respectively. The 5-year overall survival (OS) and event-free survival rates were 83.7% (95% CI = 81.1–86.0%) and 50.4% (95% CI = 47.1–53.5%), respectively. Conclusion: p-ATG combined with CsA for the treatment of AA is effective and safe, and p-ATG can be used as an alternative ATG preparation for the standard IST regimen in areas in which h-ATG is not available.
The red blood cell (RBC) lifespan is an important physiological indicator of clear significance in clinical research, used for the differential diagnosis of various diseases such as anemia, compensatory phase hemolysis, and polycythemia. The 15 N-glycine labeling technique is the gold standard method for determining RBC lifespans. How-
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