Objective:To explore the effects of tyrosine kinase inhibitors (TKI) on SARS-CoV-2 infection, the related symptoms, and recovery in patients with chronic myeloid leukemia (CML) during the SARS-CoV-2 epidemic.Methods:A retrospective case series study was conducted. The information including general data and SARS-CoV-2 infection of 319 CML patients treated in the First Affiliated Hospital of Soochow University from January 2021 to December 2021 and 547 co-residents during the SARS-CoV-2 epidemic was collected by telephone follow-up from December 2022 to January 2023. The differences in clinical characteristics, infection rate, symptom severity, and recovery time of the SARS-CoV-2 between CML patients and their co-residents, between patients whether getting vaccine for SARS-CoV-2, between patients whether receiving TKI and among CML patients receiving different types of TKI were compared. The multivariate logistic regression analysis was used to analyze the factors influencing the infection rate, symptom severity, and recovery time of SARS-CoV-2.Results:The median age [ M ( Q1, Q3)] of CML patients was 46 years (36 years, 57 years) and all 319 CML patients included 188 (59.0%) males and 131 (41.0%) females; the median age of co-residents of CML patients was 41 years (22 years, 55 years), and all 547 co-residents included 266 (48.6%) males and 281 (51.4%) females. There were statistically significant differences in age, gender, vaccination against SARS-CoV-2 or not, infection rate [83.7% (267/319) vs. 90.5% (495/547)], distribution of symptomatic patients at different severity levels (mild, moderate, severe, and fatal), and recovery time [7 d (5 d, 14 d) vs. 6 d (2 d, 8 d)] between CML patients and co-residents (all P < 0.05). There were statistically significant differences in age, gender, SARS-CoV-2 infection rate, distribution of symptomatic patients at different severity levels and recovery time between CML patients (143 cases) and their co-residents (517 cases) who received the SARS-CoV-2 vaccine (all P < 0.05); there were no statistically significant differences in age, gender, infection rate, distribution of symptomatic patients at different severity levels and recovery time between vaccinated and unvaccinated CML patients with SARS-CoV-2 vaccine (all P > 0.05). There were 297 (93.1%) CML patients who took TKI and 22 patients who did not take TKI. There were no statistically significant differences in age and gender distribution between patients taking TKI and those not taking TKI (all P > 0.05). The infection rate of SARS-CoV-2 in patients taking TKI was lower than that of patients not taking TKI [82.5% (245/297) vs. 100.0% (22/22)], and the difference was statistically significant ( P = 0.032); however, there were no significant differences in distribution of symptomatic patients at different severity levels and recovery time between patients taking TKI and those not taking TKI (all P > 0.05). The results of multivariate logistic regression analysis showed that TKI therapy was an independent protective factor for SARS-CoV-2 infection in CML patients (taking TKI vs. not taking TKI: OR = 1.970, 95% CI: 1.093-3.554, P = 0.024), and was an independent risk factor for severe symptoms of SARS-CoV-2 infection (assigning mild, moderate, severe and fatal levels the value of 0, 1, 2, 3; OR = 0.042, 95% CI: 0.004-0.421, P = 0.007) and recovery time exceeding 7 d (> 7 d vs. ≤ 7 d, OR = 0.649, 95% CI: 0.426-0.988, P = 0.044). The third TKI therapy was given in 1 patient, and there were no statistically significant differences in SARS-CoV-2 infection rate, the symptoms at different severity levels and recovery time > 7 d between CML patients receiving first generation TKI (63 cases) and those receiving second generation TKI (77 cases) who were vaccinated against SARS-CoV-2 (all P > 0.05). Conclusions:TKI can reduce the infection rate of SARS-CoV-2 in CML patients, but will aggravate the severity of symptoms and prolong the recovery time. TKI types may have no impact on whether infected with SARS-CoV-2, the severity level of symptoms after infection and recovery time.

Objective: To explore the correlation between the composition of bone marrow lymphocyte subsets and the clinical attributes observed in de novo AML patients, as well as their influence on prognosis. Methods: A detailed study was carried out on a cohort of 191 de novo acute myeloid leukemia patients who were admitted to our medical center between October 2022 and September 2024. In addition, a group of 24 patients with iron deficiency anemia individuals was carefully chosen as the control cohort. The proportions of lymphocyte subsets within the bone marrow of de novo AML patients were analyzed. Furthermore, an in-depth analysis was performed to investigate the association between the expression levels of these subsets in de novo AML patients and their clinical attributes, as well as their prognostic implications. Results: The proportion of CD19 and CD56 lymphocytes within the bone marrow of de novo AML patients significantly diminished compared to the control cohort (8.5% vs 13.2% P<0.05, and 15.5% vs 18.0%, P<0.05). Conversely, no significant discrepancies were observed in the CD3 , CD3 CD4 , and CD3 CD8 lymphocyte percentages between the AML patients and control group (71.7% vs 72.1%, 32.5% vs 33.7% and 32.8% vs 35.7%, P>0.05). When analyzing the relationships between lymphocyte subsets within the bone marrow of de novo patients and their respective clinical characteristics, patients aged 60 years and above exhibited diminished percentages of CD3 CD8 lymphocytes in the bone marrow compared to their younger counterparts (31.6% vs 34.1%, P<0.05), while the CD56 lymphocyte subsets demonstrated an increased prevalence (17.2% vs 14.4%, P<0.05). Furthermore, patients with leukocytosis (WBC≥100×10 /L) presented lower levels of CD3 and CD3 CD4 lymphocytes in the bone marrow compared with those without it (65.3% vs 72.9% P<0.05, and 28.9% vs 33.2%, P<0.05), respectively. The AML1-ETO fusion gene-positive cohort exhibited a higher prevalence of CD3 CD8 lymphocytes in the bone marrow than in the negative group (38.2% vs 32.3%, P<0.05), whereas the FLT3-ITD mutation-positive group presented a decreased prevalence of CD56 lymphocytes compared with the negative group (12.4% vs 16.8%, P<0.05). In addition, the NPM1 mutation-positive group demonstrated lower levels of CD3 CD8 lymphocytes in the bone marrow than in the negative group (29.1% vs 33.3%, P<0.05). Variables such as tumor protein p53(TP53) mutation positive, the absence of hematopoietic stem cell transplantation, and CD3 CD4 lymphocyte proportions below 25% were identified as independent adverse prognostic indicators for AML patients (P<0.05). Conclusion: The pathogenesis of AML is closely associated with an imbalance in bone marrow lymphocyte subsets. The FLT3-ITD mutation potentially contributes to the dysregulation of CD56 lymphocyte subset expression. The AML1-ETO fusion gene and NPM1 mutation are implicated in the abnormal expression of CD3 CD8 lymphocytes within the bone marrow. Moreover, the percentage of CD3 CD4 lymphocytes in the bone marrow serves as a prognostic factor for de novo AML patients.

Objective: To explore the correlation between the composition of bone marrow lymphocyte subsets and the clinical attributes observed in de novo AML patients, as well as their influence on prognosis. Methods: A detailed study was carried out on a cohort of 191 de novo acute myeloid leukemia patients who were admitted to our medical center between October 2022 and September 2024. In addition, a group of 24 patients with iron deficiency anemia individuals was carefully chosen as the control cohort. The proportions of lymphocyte subsets within the bone marrow of de novo AML patients were analyzed. Furthermore, an in-depth analysis was performed to investigate the association between the expression levels of these subsets in de novo AML patients and their clinical attributes, as well as their prognostic implications. Results: The proportion of CD19 and CD56 lymphocytes within the bone marrow of de novo AML patients significantly diminished compared to the control cohort (8.5% vs 13.2% P<0.05, and 15.5% vs 18.0%, P<0.05). Conversely, no significant discrepancies were observed in the CD3 , CD3 CD4 , and CD3 CD8 lymphocyte percentages between the AML patients and control group (71.7% vs 72.1%, 32.5% vs 33.7% and 32.8% vs 35.7%, P>0.05). When analyzing the relationships between lymphocyte subsets within the bone marrow of de novo patients and their respective clinical characteristics, patients aged 60 years and above exhibited diminished percentages of CD3 CD8 lymphocytes in the bone marrow compared to their younger counterparts (31.6% vs 34.1%, P<0.05), while the CD56 lymphocyte subsets demonstrated an increased prevalence (17.2% vs 14.4%, P<0.05). Furthermore, patients with leukocytosis (WBC≥100×10 /L) presented lower levels of CD3 and CD3 CD4 lymphocytes in the bone marrow compared with those without it (65.3% vs 72.9% P<0.05, and 28.9% vs 33.2%, P<0.05), respectively. The AML1-ETO fusion gene-positive cohort exhibited a higher prevalence of CD3 CD8 lymphocytes in the bone marrow than in the negative group (38.2% vs 32.3%, P<0.05), whereas the FLT3-ITD mutation-positive group presented a decreased prevalence of CD56 lymphocytes compared with the negative group (12.4% vs 16.8%, P<0.05). In addition, the NPM1 mutation-positive group demonstrated lower levels of CD3 CD8 lymphocytes in the bone marrow than in the negative group (29.1% vs 33.3%, P<0.05). Variables such as tumor protein p53(TP53) mutation positive, the absence of hematopoietic stem cell transplantation, and CD3 CD4 lymphocyte proportions below 25% were identified as independent adverse prognostic indicators for AML patients (P<0.05). Conclusion: The pathogenesis of AML is closely associated with an imbalance in bone marrow lymphocyte subsets. The FLT3-ITD mutation potentially contributes to the dysregulation of CD56 lymphocyte subset expression. The AML1-ETO fusion gene and NPM1 mutation are implicated in the abnormal expression of CD3 CD8 lymphocytes within the bone marrow. Moreover, the percentage of CD3 CD4 lymphocytes in the bone marrow serves as a prognostic factor for de novo AML patients.