Morphology, Morphometry, and Immunohistochemical Profile of Megakaryocytes and Bone Marrow Microenvironment in Disease Progression and Therapy Resistance in Chronic Myeloid Leukemia.

Background Tyrosine kinase inhibitors have revolutionized the treatment of chronic myeloid leukemia (CML) since the beginning of the century. However, resistance to therapy and the progression of disease tend to occur in certain patients. The bone marrow microenvironment may play a role in the disease outcome. Megakaryocytes have multiple roles in the regulation and maintenance of the hematopoietic stem cell microenvironment. In the current study, we evaluated the association of megakaryocyte morphology, morphometry, and microenvironment with disease progression and therapy resistance in CML. Methodology Megakaryocyte morphology and morphometry were analyzed and compared between the different phases (chronic and advanced) at diagnosis in 150 cases of BCR-ABL-positive CML. All CML-CP patients (n = 119) were followed up on tyrosine kinase inhibitor therapy for a minimum of 15 months and classified based on their treatment outcome as a response, resistance to therapy, or progression of disease based on standard criteria. Immunohistochemistry on a bone marrow trephine biopsy was done for vascular endothelial growth factor (VEGF), FOXP3, CD150, CD48, CD44, osteopontin, CXCL12, N-cadherin, PDL-1, and IL-7, and their expression on megakaryocytes and their association with treatment outcome was evaluated. Results The morphology and morphometry of megakaryocytes showed a heterogeneous population in CML. Morphology and morphometric parameters, when compared between the chronic and advanced phases of disease at diagnosis, did not show any statistical difference. Megakaryocytes were variably positive for VEGF, FOXP3, CD150, CD48, osteopontin, N-cadherin, CXCL12, CD44, PDL-1, and IL-7. However, only CD44-positive megakaryocytes were statistically associated with the treatment outcome. The patients with a higher expression of CD44 megakaryocytes progressed to the advanced phase of the disease during therapy compared to those who responded. Conclusion Megakaryocyte morphology and morphometry were heterogeneous in CML; however, they did not show any significant difference with either the phase of the disease or with treatment outcomes. Among the various immunohistochemical markers of the microenvironment, only CD44-positivity on megakaryocytes was associated with poor treatment outcomes.

Flow Cytometric Assessment of CD26-Positive Leukemic Stem Cells: A Rapid and Valuable Tool in the Diagnosis and Follow-Up of Chronic Myeloid Leukemia.

Context Chronic myeloid leukemia (CML) is a clonal myeloproliferative neoplasm. Recent studies have suggested that CD26-positive leukemic stem cells (LSCs) circulating in peripheral blood are specific for CML. Objective This study was undertaken to determine the proportion of CD26-positive LSCs at diagnosis and its change during tyrosine kinase inhibitor therapy. Design This prospective study was conducted on 43 cases of CML at diagnosis. For flow cytometry, peripheral blood cells were stained with CD45, CD34, CD38, CD3, and CD26. A sequential gating strategy with CD45/SSC (side scatter), CD34/SSC, and CD34/CD38 was applied to identify CD45+/34+/38- populations, from which CD26-positive stem cells were identified and compared with controls. Data analysis was done with Kaluza software. Results All patients diagnosed with CML were detected with CD26-positive LSCs. The median percentage of CD26-positive CML LSCs was 0.02 with a range of 0.001 to 1.77. None of the control samples showed CD26 positivity. The percentage and absolute count of CD26-positive CML LSCs were reduced after six months of tyrosine kinase therapy in patients with complete hematological remission. Conclusion Flow cytometric analysis of circulating CD26-positive CML LSCs is a non-invasive, rapid, and useful tool in the diagnosis and follow-up of CML.

Urine microscopy and neutrophil-lymphocyte ratio are early predictors of acute kidney injury in patients with urinary tract infection.

OBJECTIVE: Urinary tract infection (UTI) is a common cause of morbidity and hospitalisation in the population worldwide. Upper UTI is indolent and causes subclinical acute kidney injury (AKI) resulting in preventable cause of scarring of renal parenchyma. We explored urinary and serum levels of kidney injury molecule-1 (KIM-1), haematological parameters and quantitative urine microscopy parameters to predict kidney injury. METHODS: Neutrophil-lymphocyte ratio (NLR) is obtained by dividing absolute neutrophil count with absolute lymphocyte count. Quantitative urine sediment microscopy was performed and correlated with clinical, biochemical and haematological findings to predict AKI in patients with UTI. Quantitative ELISA was performed for serum and urine levels of KIM-1. Seventy two adult patients with UTI were enrolled, 45 of whom had AKI while 27 were in the non-AKI group. RESULTS: NLR (p=0.005) and renal tubular epithelial cell-granular cast score in quantitative urine microscopy (p=0.008) are strong predictors of AKI in patients with UTI while rest of quantitative urine microscopy parameters and serum and urinary levels of KIM-1 molecule were not found to be useful in prediction of AKI. CONCLUSION: NLR in haemogram is a novel and useful biomarker for predicting AKI in patients with UTI.