Chronic myeloproliferative neoplasms (MPNs) are a group of acquired malignant tumors characterized by clonal proliferation of hematopoietic stem cells, among which polycythemia vera, essential thrombocythemia, and primary myelofibrosis are known as the classical Philadelphia chromosome-negative MPN. Hypertension is the most common complication in patients with MPN and has a significant effect on the clinical presentation, disease progression, treatment, and prognosis of patients with MPN. However, it may not have received sufficient attention from hematologists in clinical practice. This article reviews the epidemiology and clinical issues of patients with MPN and comorbid hypertension to assist clinicians in providing individualized treatment for these patients.

The patient, a 28-year-old male, had experienced splenomegaly for four years with lymphadenopathy for more than two months and presented to the First Affiliated Hospital of the Naval Medical University on October 16th, 2024. On July 31, 2024, he noticed right upper quadrant pain, and an enhanced abdominal CT performed in an external facility revealed splenomegaly with a rounded nodular lesion at the splenic hilum, suggestive of an accessory spleen; in addition to retroperitoneal lymphadenopathy, while tumor marker levels were unremarkable. A complete blood count on August 22nd, 2024, demonstrated leukopenia (2.22×10 9/L), hemoglobin level of 144 g/L, and thrombocytopenia (60×10 9/L). To further elucidate the diagnosis, the patient visit our hematology clinic on August 26th, 2024. His physical examination was normal in general condition, except for a firm palpable spleen 10 cm below the left costal margin, and ultrasonography revealed right thyroid nodule and hepatosplenomegaly. Because of hepatosplenomegaly and retroperitoneal lymphadenopathy, a PET-CT scan was performed. The scan confirmed marked hepatosplenomegaly, multiple enlarged lymph nodes in the retroperitoneal and mesenteric regions with increased metabolic activity, and evidence of elevated bone metabolic activity in the proximal limbs and axial skeleton. Given the possibility of a hematologic lymphoproliferative disorder, a bone marrow biopsy was recommended. On September 12th, 2024, the patient underwent a bone marrow biopsy for evaluations of cell morphology, initial lymphoma immunophenotyping, cytogenetic analysis, and lymphoma-related FISH testing. Flow cytometry, cytogenetic analysis, and FISH results on September 14th, 2024, were unremarkable, manual microscopy of bone marrow morphological evaluation revealed a small population of poorly differentiated lymphocytes; additionally, AI-assisted automated cell scan identified a subset of abnormal cells suspected to be ′Gaucher cells′. Bone marrow pathology indicated a histiocytic neoplasm accompanied by stage 2 myelofibrosis (MF), with tumor cells comprising approximately 70% of the nucleated cells in the marrow, suggesting immunohistochemistry for confirmation. On October 16th, immunohistochemical analysis confirmed the presence of a histiocytic proliferative disorder suspecting Gaucher disease. After admission, the patient initiated enzyme replacement therapy, receiving an initial intravenous dose of 60 U/kg in a weekly basis. On October 31st, 2024, based on enzyme activity assays, genetic testing, and other results, adult Gaucher disease was finally diagnosed. The patient was scheduled for follow-up with stable vital signs, and reduced size of the spleen compared with previous assessments.

Objective To evaluate the recognition capability of AI-enabled Cellsee CS-BM1 automatic cell morphology analyzer for pe-ripheral blood smears and its roles in assisting manual classification,and explore the application value of AI system in the diagnosis network of tiered primary medical units.Methods The blood samples which triggered the re-examination rules were collected from six primary medical units,including the Laboratory Department of Shanghai Jiahui International Hospital,and so on,from March to No-vember 2023.The smears of peripheral blood were prepared and AI analyzer was used for pre-classification to evaluate its recognition performance in identifying the samples with abnormal WBC and RBC.The sensitivity,specificity,and accuracy of WBC classification by six junior and intermediate technicians,both with and without AI assistance,were analyzed.Additionally,the roles of the AI system in tiered diagnosis of primary medical units were also evaluated.Results The sensitivity,specificity,and accuracy of AI system in recognizing malignant primitive cells were 92.86％,95.16％,and 95.10％,respectively.The sensitivities of AI system in recognizing immature granulocytes,reactive lymphocytes,and nucleated RBCs were all greater than 90％.The sensitivity of AI system in identif-ying abnormal morphology of RBCs reached 99.59％,along with rapid quantitative analysis for various anomalous types of RBCs.In AI-assisted mode,the sensitivity of recognition for all cell types was improved to varying degrees by junior and intermediate technicians,and the sensitivity for recognizing malignant primitive cells,reactive lymphocytes,and immature granulocytes increased to 58.24％,53.39％,and 62.37％for junior technicians,and to 92.06％,83.24％,and 83.12％for intermediate technicians,respectively.The improvements for junior technicians were particularly significant,with increases of 12.46％,10.61％,and 3.71％for each cell type,respectively.Both groups achieved higher specificity and accuracy.Through AI pre-classification and manual review,a variety of pe-ripheral blood cell-related diseases were accurately diagnosed in the tiered healthcare practice of primary medical units,including 339 cases(11.13％)of red blood cell diseases,5 cases(0.16％)of platelet diseases,2 343 cases(76.90％)of infection-related disea-ses,and 28 cases(0.92％)of malignant hematological diseases.In addition,332 cases(10.90％)which lacked an obvious related cause or required further examinations were identified as well.Conclusion AI pre-classification has demonstrated strong cell recogni-tion capabilities and may assist technicians in improving the sensitivity,specificity,and accuracy of blood cell classification.AI could en-hance the disease-screening capabilities in the tiered diagnosis network of primary medical units,presenting a broad application prospect.

Objective To evaluate the recognition capability of AI-enabled Cellsee CS-BM1 automatic cell morphology analyzer for pe-ripheral blood smears and its roles in assisting manual classification,and explore the application value of AI system in the diagnosis network of tiered primary medical units.Methods The blood samples which triggered the re-examination rules were collected from six primary medical units,including the Laboratory Department of Shanghai Jiahui International Hospital,and so on,from March to No-vember 2023.The smears of peripheral blood were prepared and AI analyzer was used for pre-classification to evaluate its recognition performance in identifying the samples with abnormal WBC and RBC.The sensitivity,specificity,and accuracy of WBC classification by six junior and intermediate technicians,both with and without AI assistance,were analyzed.Additionally,the roles of the AI system in tiered diagnosis of primary medical units were also evaluated.Results The sensitivity,specificity,and accuracy of AI system in recognizing malignant primitive cells were 92.86％,95.16％,and 95.10％,respectively.The sensitivities of AI system in recognizing immature granulocytes,reactive lymphocytes,and nucleated RBCs were all greater than 90％.The sensitivity of AI system in identif-ying abnormal morphology of RBCs reached 99.59％,along with rapid quantitative analysis for various anomalous types of RBCs.In AI-assisted mode,the sensitivity of recognition for all cell types was improved to varying degrees by junior and intermediate technicians,and the sensitivity for recognizing malignant primitive cells,reactive lymphocytes,and immature granulocytes increased to 58.24％,53.39％,and 62.37％for junior technicians,and to 92.06％,83.24％,and 83.12％for intermediate technicians,respectively.The improvements for junior technicians were particularly significant,with increases of 12.46％,10.61％,and 3.71％for each cell type,respectively.Both groups achieved higher specificity and accuracy.Through AI pre-classification and manual review,a variety of pe-ripheral blood cell-related diseases were accurately diagnosed in the tiered healthcare practice of primary medical units,including 339 cases(11.13％)of red blood cell diseases,5 cases(0.16％)of platelet diseases,2 343 cases(76.90％)of infection-related disea-ses,and 28 cases(0.92％)of malignant hematological diseases.In addition,332 cases(10.90％)which lacked an obvious related cause or required further examinations were identified as well.Conclusion AI pre-classification has demonstrated strong cell recogni-tion capabilities and may assist technicians in improving the sensitivity,specificity,and accuracy of blood cell classification.AI could en-hance the disease-screening capabilities in the tiered diagnosis network of primary medical units,presenting a broad application prospect.

Chronic myeloproliferative neoplasms (MPNs) are a group of acquired malignant tumors characterized by clonal proliferation of hematopoietic stem cells, among which polycythemia vera, essential thrombocythemia, and primary myelofibrosis are known as the classical Philadelphia chromosome-negative MPN. Hypertension is the most common complication in patients with MPN and has a significant effect on the clinical presentation, disease progression, treatment, and prognosis of patients with MPN. However, it may not have received sufficient attention from hematologists in clinical practice. This article reviews the epidemiology and clinical issues of patients with MPN and comorbid hypertension to assist clinicians in providing individualized treatment for these patients.

The patient, a 28-year-old male, had experienced splenomegaly for four years with lymphadenopathy for more than two months and presented to the First Affiliated Hospital of the Naval Medical University on October 16th, 2024. On July 31, 2024, he noticed right upper quadrant pain, and an enhanced abdominal CT performed in an external facility revealed splenomegaly with a rounded nodular lesion at the splenic hilum, suggestive of an accessory spleen; in addition to retroperitoneal lymphadenopathy, while tumor marker levels were unremarkable. A complete blood count on August 22nd, 2024, demonstrated leukopenia (2.22×10 9/L), hemoglobin level of 144 g/L, and thrombocytopenia (60×10 9/L). To further elucidate the diagnosis, the patient visit our hematology clinic on August 26th, 2024. His physical examination was normal in general condition, except for a firm palpable spleen 10 cm below the left costal margin, and ultrasonography revealed right thyroid nodule and hepatosplenomegaly. Because of hepatosplenomegaly and retroperitoneal lymphadenopathy, a PET-CT scan was performed. The scan confirmed marked hepatosplenomegaly, multiple enlarged lymph nodes in the retroperitoneal and mesenteric regions with increased metabolic activity, and evidence of elevated bone metabolic activity in the proximal limbs and axial skeleton. Given the possibility of a hematologic lymphoproliferative disorder, a bone marrow biopsy was recommended. On September 12th, 2024, the patient underwent a bone marrow biopsy for evaluations of cell morphology, initial lymphoma immunophenotyping, cytogenetic analysis, and lymphoma-related FISH testing. Flow cytometry, cytogenetic analysis, and FISH results on September 14th, 2024, were unremarkable, manual microscopy of bone marrow morphological evaluation revealed a small population of poorly differentiated lymphocytes; additionally, AI-assisted automated cell scan identified a subset of abnormal cells suspected to be ′Gaucher cells′. Bone marrow pathology indicated a histiocytic neoplasm accompanied by stage 2 myelofibrosis (MF), with tumor cells comprising approximately 70% of the nucleated cells in the marrow, suggesting immunohistochemistry for confirmation. On October 16th, immunohistochemical analysis confirmed the presence of a histiocytic proliferative disorder suspecting Gaucher disease. After admission, the patient initiated enzyme replacement therapy, receiving an initial intravenous dose of 60 U/kg in a weekly basis. On October 31st, 2024, based on enzyme activity assays, genetic testing, and other results, adult Gaucher disease was finally diagnosed. The patient was scheduled for follow-up with stable vital signs, and reduced size of the spleen compared with previous assessments.

Objectives:To investigate the clinical and genetic features of young Chinese patients with myeloproliferative neoplasms (MPN) .Methods:In this cross-sectional study, anonymous questionnaires were distributed to patients with MPN patients nationwide. The respondents were divided into 3 groups based on their age at diagnosis: young (≤40 years) , middle-aged (41-60 years) , and elderly (>60 years) . We compared the clinical and genetic characteristics of three groups of MPN patients.Results:1727 assessable questionnaires were collected. There were 453 (26.2%) young respondents with MPNs, including 274 with essential thrombocythemia (ET) , 80 with polycythemia vera (PV) , and 99 with myelofibrosis. Among the young group, 178 (39.3%) were male, and the median age was 31 (18-40) years. In comparison to middle-aged and elderly respondents, young respondents with MPN were more likely to present with a higher proportion of unmarried status (all P<0.001) , a higher education level (all P<0.001) , less comorbidity (ies) , fewer medications (all P<0.001) , and low-risk stratification (all P<0.001) . Younger respondents experienced headache (ET, P<0.001; PV, P=0.007; MF, P=0.001) at diagnosis, had splenomegaly at diagnosis (PV, P<0.001) , and survey (ET, P=0.052; PV, P=0.063) . Younger respondents had fewer thrombotic events at diagnosis (ET, P<0.001; PV, P=0.011) and during the survey (ET, P<0.001; PV, P=0.003) . JAK2 mutations were found in fewer young people (ET, P<0.001; PV, P<0.001; MF, P=0.013) ; however, CALR mutations were found in more young people (ET, P<0.001; MF, P=0.015) . Furthermore, mutations in non-driver genes (ET, P=0.042; PV, P=0.043; MF, P=0.004) and high-molecular risk mutations (ET, P=0.024; PV, P=0.023; MF, P=0.001) were found in fewer young respondents. Conclusion:Compared with middle-aged and elderly patients, young patients with MPN had unique clinical and genetic characteristics.

OBJECTIVE: To explore the clinical and laboratory characteristics of hematological tumors with different types of abnormalities in platelet derived growth factor β (PDGFRβ) gene. METHODS: A retrospective analysis was carried out on 141 patients with abnormal long arm of chromosome 5 (5q) and comprehensive medical history data from Changhai Hospital Affiliated to Naval Medical University from 2009 to 2020, and their clinical data were collected. R-banding technique was used for chromosomal karyotyping analysis for the patient's bone marrow, and fluorescence in situ hybridization (FISH) was used to detect the PDGFRβ gene. The results of detection were divided into the amplification group, deletion group, and translocation group based on FISH signals. The three sets of data column crosstabs were statistically analyzed, and if the sample size was n >= 40 and the expected frequency T for each cell was >= 5, a Pearson test was used to compare the three groups of data. If N < 40 and any of the expected frequency T for each cell was < 5, a Fisher's exact test is used. Should there be a difference in the comparison results between the three sets of data, a Bonferroni method was further used to compare the data. RESULTS: In total 98 patients were detected to have PDGFRβ gene abnormalities with the PDGFRβ probe, which yielded a detection rate of 69.50% (98/141). Among these, 38 cases (38.78%) had PDGFRβ gene amplifications, 57 cases (58.16%) had deletions, and 3 (3.06%) had translocations. Among the 98 cases, 93 were found to have complex karyotypes, including 37 cases from the amplification group (97.37%, 37/38), 55 cases from the deletion group (96.49%, 55/57), and 1 case from the translocation group (33.33%, 1/3). Analysis of three sets of clinical data showed no significant gender preponderance in the groups (P > 0.05). The PDGFRβ deletion group was mainly associated with myeloid tumors, such as acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS) (P < 0.001). The PDGFRβ amplification group was more common in lymphoid tumors, such as multiple myeloma (MM) (P < 0.001). The PDGFRβ translocation group was also more common in myelodysplastic/myeloproliferative tumors (MDS/MPN). CONCLUSION Tumors with PDGFRβ gene rearrangement may exhibit excessive proliferation of myeloproliferative tumors (MPN) and pathological hematopoietic changes in the MDS, and have typical clinical and hematological characteristics. As a relatively rare type of hematological tumor, in addition to previously described myeloid tumors such as MPN or MDS/MPN, it may also cover lymphoid/plasma cell tumors such as multiple myeloma and non-Hodgkin's lymphoma.
Humans ; Clinical Relevance ; Hematologic Neoplasms/genetics* ; In Situ Hybridization, Fluorescence ; Multiple Myeloma ; Myelodysplastic Syndromes ; Retrospective Studies ; Translocation, Genetic

Philadelphia chromosome-negative myeloproliferative neoplasms (MPN) is a group of chronic hematological tumors caused by clonal proliferation of hematopoietic stem cells, and hydroxyurea is the traditional first-line chemotherapy drug for it. In recent years, pegylated interferon has shown great advantages in the clinical treatment of MPN, and it has become the first-line preferred therapeutic regimen for special populations, especially for young patients and pregnant women.

Chimeric Antigen Receptor-modified(CAR)-T cells have become a new star living cell "drug" in the field of tumor immunotherapy, and five drugs have been available to the public since 2017. The favourable, rapid and efficient interaction of CAR-T therapy from bench to bedside has solved many new scientific problems, which remarkably expands the application field of multi-parameter flow cytometry (MFC). MFC participates the whole process of CAR-T preparation, functional evaluation, quality control, in vivo continuation evaluation, clinical efficacy and toxicity monitoring. New clinical problems caused by high-precision targeted therapy of CAR-T cells pose new challenges in using MFC for accurate tumor immunophenotyping, minimal residual disease monitoring, as well as the demands of comprehensively evaluation of the systematic immune function in different disease stages. In the era of targeted therapy, timely communication between laboratories and clinics is particularly important for obtaining accurate MFC results, which assists clinical individualized diagnosis and treatment.