Myeloid sarcoma, also known as chloroma or granulocytic sarcoma, is a rare disease characterized by the proliferation of immature myeloid cells in extramedullary lesions. Chloroma is more commonly observed in patients with acute myeloid leukemias, other myeloproliferative neoplasms, or myelodysplastic syndrome. However, it can also manifest itself as solitary tumor. Sarcoma can develop in different organs and tissues, but most frequently it appears in lymph nodes, soft tissues, and bones. Myeloid sarcoma with primary gynecological lesion is very rarely mentioned. In literature cases of cervical lesions are described. The present article summarizes the literature data concerning different aspects of myeloid sarcoma diagnosis and treatment. The issue under discussion is the role of chemotherapy, radiotherapy, surgery, and bone marrow transplantation in the treatment of this malignant tumor. It appears that whatever the primary tumor localization, the best treatment options are chemotherapy and allogeneic bone marrow transplantation (allo-BMT). A promising trend is the use of novel targeted drugs improving outcomes of treatment. The article provides a case report of a female patient with cervical myeloid sarcoma and concomitant bone marrow involvement, as well as the description of clinical course, diagnosis, and treatment. The patient received chemotherapy with subsequent allo-BMT. The pre-transplant therapy enabled allo-BMT with the deepest response possible. The patient achieved PET-and MRD-negative complete remission of cervical myeloid sarcoma and bone marrow.
Aim. To assess the efficacy, safety, and tolerance of gemtuzumab ozogamicin (GO) combined with FLAG/FLAG-Ida chemotherapy or azacitidine in patients with relapsed/refractory acute myeloblastic leukemia (AML) in clinical practice. Materials & Methods. The study included 32 patients (16 men and 16 women). The median age was 44 years (range 23-83 years). Among them there were 15 (46.8 %) patients with refractory and 17 (53.2 %) patients with relapsed AML. GO combined with FLAG/FLAG-Ida was administered to 15 (46.8 %) patients, whereas 17 (53.2 %) patients were treated with GO and azacitidine combination. Therapy safety was assessed according to CTCAE v. 5.0. Results. Overall response rate including complete remission (CR), CR MRD-, CR with incomplete hematologic recovery, and morphologic leukemia-free status was 59.4 % (19/32). Refractoriness was observed in 31.25 % (10/32) of patients. Early mortality was 9.4 % (3/32). Overall response was 64.7 % (11/17) in the azacitidine and 53.3 % (8/15) in the FLAG/FLAG-Ida groups. In 4 (80 %) out of 5 patients with prior to FLAG treatment refractoriness, the response was achieved after GO + azacitidine therapy. In 58.9 % (10/17) of patients who received GO + azacitidine therapy, allogeneic hematopoietic stem cell transplantation (allo-HSCT) could be performed. The incidence of GO infusion complications in the tested groups did not significantly differ (p = 0.72) and was 46.7 % (7/15) (40 % with grade 1/2 and 6.7 % with grade 3) in the GO + FLAG/FLAG-Ida group and 35.3 % (6/17) (29.4 % with grade 1/2 and 5.9 % with grade 4) in the GO + azacitidine group. In the GO + FLAG/FLAG-Ida group 5 (33.3 %) patients experienced serious adverse events (SAE) of sepsis. In the GO + azacitidine group SAEs were reported in 6 (35.3 %) patients: 4 (66.6 %) with sepsis, 1 (16.7 %) with acute cardiovascular failure, and 1 (16.7 %) with acute respiratory failure. The median (range) duration was 23 (10-39) days for neutropenia grade 4, 24 (11-38) days for neutropenia grade 3, 21 (11-41) days for thrombocytopenia grade 4, 26 (16-45) days for thrombocytopenia grade 3, and 25 (22-45) days for thrombocytopenia grade 1/2. Thrombocytopenia duration was longer in patients with GO + FLAG/FLAG-Ida therapy, however, no significant differences were identified. No cases of veno-occlusive liver disease were reported. Median overall survival (OS) for both groups (n = 32) was 31.4 months, median disease-free survival (n = 21) was 13.3 months. In the group of patients with effective treatment, the median OS was not reached. In non-responders, it was 18 months (р = 0.0442). Conclusion. GO combined with FLAG/FLAG-Ida chemotherapy or azacitidine proved effective in relapsed/refractory AML patients. Remission did not appear to be associated with ELN risk, gender, age, CD33 expression, number of prior therapy lines, or number of relapses. GO + azacitidine combination showed efficacy, safety, and good tolerance in patients with prior high-dose chemotherapy refractoriness as well as low ECOG performance status. That allowed for the subsequent allo-HSCT administration to these patients. There was no significant difference between the groups of patients in the incidence of hematologic, non-hematologic toxicity, and time to hematologic recovery. Thrombocytopenia duration was longer in patients with GO + FLAG/FLAG-Ida therapy which is consistent with literature data. GO-based effective treatment in relapsed/refractory AML considerably improves OS: during 36 months of follow-up the median was not reached.
Цель. Оценить эффективность режима FLAG/FLAG-Ida, выявить факторы, влияющие на достижение ремиссии, продолжительность безрецидивной (БРВ) и общей выживаемости (ОВ) у пациентов с рецидивами и рефрактерным течением острого миелобластного лейкоза (ОМЛ). Материалы и методы. В исследование включено 54 пациента (28 мужчин, 26 женщин), медиана возраста составила 37 лет (диапазон 18-70 лет). У 27 (50 %) из 54 пациентов имело место рефрактерное течение ОМЛ, у 27 (50 %)-рецидивы. В качестве индукционной терапии использовались режимы FLAG и FLAG-Ida. Трансплантация костного мозга выполнена 37 (68,5 %) пациентам. Молекулярно-генетическое и цитогенетическое исследования проводились до терапии и на 28-й день после ее начала. Уровень экспрессии гена WT1 оценивался на 14-16-й день лечения. Результаты. Полные ремиссии (ПР) достигнуты у 42 (77,8 %) из 54 пациентов. Рефрактерность к терапии наблюдалась у 9 (16,7 %) из 54 пациентов, летальность составила 5,5 % (3/54). Частота достижения ремиссии была выше при рецидивах ОМЛ в сравнении с рефрактерным течением ОМЛ-85,2 (23/27) и 70,4 % (19/27) соответственно. Пациенты с числом бластных клеток в костном мозге (КМ) ≥ 10 % на 14-16-й день терапии имели статистически значимо более низкий уровень достижения ПР (60 %) в сравнении с группой < 10 % бластных клеток в КМ (89,6 %; p = 0,024) и меньшую БРВ (медиана 7,6 vs 17,6 мес. соответственно; p = 0,03). Медиана БРВ у пациентов со снижением экспрессии гена WT1 < 1 log на 14-16-й день составила 5 vs 18 мес. у больных без этого снижения (p = 0,01). Показатели БРВ различались в группах пациентов с числом бластных клеток в КМ < 10 % на 14-16-й день терапии в зависимости от уровня редукции экспрессии гена WT1 (p = 0,04). Пациенты с МОБ
Aim. To identify mutations in IDH1/IDH2, DNMT3A, and ASXL1 genes responsible for genome epigenetic regulation and their co-occurrence with FLT3, NPM1, and RUNX1 mutations in newly diagnosed adult acute myeloid leukemias (AML). Materials & Methods. The study included 56 patients with newly diagnosed AML treated at the VA Almazov National Medical Research Center. Among them there were 34 men and и 22 women aged 18-76 years (median 46 years). Mutation status of IDH1, IDH2, DNMT3A, and ASXL1 genes of epigenetic regulation was assessed by Sanger sequencing method. Molecular genetic analysis of FLT3, NPM1, and RUNX1-RUNX1T1 genes was performed using commercial kits. Results. Mutations in epigenetic regulation genes were detected in 14 (25 %) out of 56 patients. Mutation prevalence was not associated with risk groups (p = 0.072). IDH1/2 mutations were identified in 15.6 % of patients and were significantly oftener observed concurrent with NPM1 mutations (62.5 %; p = 0.01) compared to patients with wild-type IDH1/2. In most patients IDH1/2 mutations were associated with normal karyotype (p = 0.002). The DNMT3A (R882) mutation was identified in 4 (7.1 %) out of 56 patients within the analyzed group. In 6 patients (11.1 %) ASXL1 mutations were detected co-occurring with RUNX1-RUNX1T1 and FLT3-ITD mutations. Conclusion. Mutations in epigenetic regulation genes are often identified in AML patients and can be concurrent with abnormalities in NPM1, FLT3 и RUNX1 genes.
The treatment of refractory acute myeloid leukemia (AML) patients presents considerable challenges. They are often critically ill. The critical conditions of these patients are mainly associated with severe infectious complications resulting in sepsis as well as with the extramedullary lesions with organ dysfunctions. So far, the obtained data demonstrated the successful use of gemtuzumab ozogamicin, the mechanism of which is likely to be based not only on depletion of CD33-positive tumor cells but also on its immunomodulatory eff ect. The present article focuses on the fast-eff ect mechanisms of gemtuzumab ozogamicin and deals with clinical experience of successful use of this drug combined with hypomethylating agents in patients with refractory AML whose condition is critical by the time therapy begins. The use of this drug combination results in fast stabilization of health status, recovery of internal organs, and apyrexia with the decreasing systemic infl ammatory response within the fi rst days of therapy. All this together with signifi cantly lower blast count in blood and in bone marrow can bring critically ill patients to recovery.
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