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This Special Issue celebrates the 25th anniversary of the discovery of the first microRNA. The size of the microRNome and complexity of animal body plans and organ systems suggests a role for microRNAs in cell fate determination and differentiation. More than 2000 sequences have been proposed to represent unique microRNA genes in humans, with an increasing number of mechanistic roles identified in developmental, physiological, and pathological processes. Thus, dysregulation of a few key microRNAs can have a profound global effect on the gene expression and molecular programs of a cell. This great potential for clinical intervention has captured the interest and imagination of researchers in many fields. However, very few fields have been as prolific as the field of cancer research. This Special Issue provides but a glimpse of the large body of literature of microRNA biology in cancer research, containing 4 original research studies and 4 review articles that focus on specific hematologic or solid tumors in disease. Collectively, these articles highlight state-of-the-art approaches and methodologies for microRNA detection in tissue, blood, and other body fluids in a range of biomarkers applications, from early cancer detection to prognosis and treatment response. The articles also address some of the challenges regarding clinical implementation.
leukemia --- n/a --- cell lines --- hepatitis B virus --- long non coding RNA --- normalization of miRNA expression in RT-qPCR --- children --- colorectal --- review --- bevacizumab --- tumor budding cells --- oral cancer --- liquid biopsy --- hepatocellular carcinoma --- small t-antigen --- colorectal cancer --- protein-miRNA complex --- biomarkers --- biomarker --- interleukin-1? --- tissue analysis --- miRNAs --- T-cell acute lymphoblastic leukemia (T-ALL) --- leukoplakia --- inflammation --- exosomes --- circulating free DNA --- hepatitis C virus --- miRNA --- miR-21 --- extracellular microRNA --- endogenous controls --- lymphoma --- confocal slide scanning microscopy --- early diagnosis --- reference genes --- large T-antigen --- microRNA --- miRNA (microRNA) --- cancer --- TNF-? --- plasma --- MicroRNAs.
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The book gives an overview on the progress that has been made in the treatment of acute lymphoblastic leukemia (ALL), of acute and chronic myeloid leukemia (AML, CML) and of juvenile myelomonocytic leukemia (JMML). Leukemia is the most common malignant disease in children, and 80% of patients are diagnosed with ALL and 15–20% with AML, whereas CML and JMML are rather rare. Although ALL was considered an incurable disease until the early 1960s, with the availability of cytotoxic drugs and the start of clinical multicenter studies, ALL has become an almost curable disease with a survival rate exceeding 90 % in high-income countries. These impressive results have mainly been achieved by a deeper understanding of the genomic landscape of the disease and the introduction of risk stratifications based on genetic features and response to chemotherapy as determined by the presence or absence of minimal residual disease (MRD). Immunotherapies including bispecific T-cell Engagers (BiTEs), Chimeric Antigen Receptor (CAR) T cells, monoclonal antibodies and improvements in the outcome of allogeneic stem cell transplantation (HSCT) have shown impressive results in chemorefractory or relapsed patients, and it is anticipated that the cure rate can be further increased. For countries with less resources, therapies have to be adapted to increase survival as well. This book also updates on the progress made in the treatment of AML. As in ALL, risk classification based on genetic factors and response to chemotherapy is most important for therapy guidance. The book also provides updates and guidance for the treatment of CML and JMML.
Research & information: general --- Chemistry --- acute lymphoblastic leukemia --- pediatric --- advances --- diagnosis --- treatment --- immunotherapy --- bispecific T-cell engager (BiTE) --- BCP-ALL --- leukemia --- TRAIL --- antibody --- Fc-engineering --- xenograft --- CD19 --- juvenile myelomonocytic leukemia --- RAS signaling --- hematopoietic stem cell transplantation --- 5-azacitidine --- myelodysplastic/myeloproliferative disorders --- targeted therapy --- ADC --- antibody–drug conjugate --- pediatric leukemia --- ALL --- AML --- allogeneic stem cell transplantation --- acute myeloid leukemia --- minimal residual disease --- conditioning regimen --- alternative donors --- B-ALL --- DUX4 --- IKZF1 --- PAX5 --- Ph-like --- ZNF384 --- NUTM1 --- T-ALL --- NOTCH1 --- BCL11B --- transcriptome --- genome --- chronic myeloid leukemia --- CML --- tyrosine kinase inhibitor --- immunizations --- COVID-19 --- childhood acute lymphoblastic leukemia --- low-risk ALL --- risk-stratified treatment --- treatment related toxicity --- L-asparaginase --- acute pancreatitis --- polymorphism --- SNV --- ABCC4 --- CFTR --- other extramedullary relapse --- lymphoblastic leukemia --- children --- prognosis --- evolution of CAR T cells --- FDA-approved CAR products --- TcR versus CAR --- limitations and complications of CAR T cell therapy --- future directions of CAR T cell therapy --- n/a --- antibody-drug conjugate
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The book gives an overview on the progress that has been made in the treatment of acute lymphoblastic leukemia (ALL), of acute and chronic myeloid leukemia (AML, CML) and of juvenile myelomonocytic leukemia (JMML). Leukemia is the most common malignant disease in children, and 80% of patients are diagnosed with ALL and 15–20% with AML, whereas CML and JMML are rather rare. Although ALL was considered an incurable disease until the early 1960s, with the availability of cytotoxic drugs and the start of clinical multicenter studies, ALL has become an almost curable disease with a survival rate exceeding 90 % in high-income countries. These impressive results have mainly been achieved by a deeper understanding of the genomic landscape of the disease and the introduction of risk stratifications based on genetic features and response to chemotherapy as determined by the presence or absence of minimal residual disease (MRD). Immunotherapies including bispecific T-cell Engagers (BiTEs), Chimeric Antigen Receptor (CAR) T cells, monoclonal antibodies and improvements in the outcome of allogeneic stem cell transplantation (HSCT) have shown impressive results in chemorefractory or relapsed patients, and it is anticipated that the cure rate can be further increased. For countries with less resources, therapies have to be adapted to increase survival as well. This book also updates on the progress made in the treatment of AML. As in ALL, risk classification based on genetic factors and response to chemotherapy is most important for therapy guidance. The book also provides updates and guidance for the treatment of CML and JMML.
acute lymphoblastic leukemia --- pediatric --- advances --- diagnosis --- treatment --- immunotherapy --- bispecific T-cell engager (BiTE) --- BCP-ALL --- leukemia --- TRAIL --- antibody --- Fc-engineering --- xenograft --- CD19 --- juvenile myelomonocytic leukemia --- RAS signaling --- hematopoietic stem cell transplantation --- 5-azacitidine --- myelodysplastic/myeloproliferative disorders --- targeted therapy --- ADC --- antibody–drug conjugate --- pediatric leukemia --- ALL --- AML --- allogeneic stem cell transplantation --- acute myeloid leukemia --- minimal residual disease --- conditioning regimen --- alternative donors --- B-ALL --- DUX4 --- IKZF1 --- PAX5 --- Ph-like --- ZNF384 --- NUTM1 --- T-ALL --- NOTCH1 --- BCL11B --- transcriptome --- genome --- chronic myeloid leukemia --- CML --- tyrosine kinase inhibitor --- immunizations --- COVID-19 --- childhood acute lymphoblastic leukemia --- low-risk ALL --- risk-stratified treatment --- treatment related toxicity --- L-asparaginase --- acute pancreatitis --- polymorphism --- SNV --- ABCC4 --- CFTR --- other extramedullary relapse --- lymphoblastic leukemia --- children --- prognosis --- evolution of CAR T cells --- FDA-approved CAR products --- TcR versus CAR --- limitations and complications of CAR T cell therapy --- future directions of CAR T cell therapy --- n/a --- antibody-drug conjugate
Choose an application
The book gives an overview on the progress that has been made in the treatment of acute lymphoblastic leukemia (ALL), of acute and chronic myeloid leukemia (AML, CML) and of juvenile myelomonocytic leukemia (JMML). Leukemia is the most common malignant disease in children, and 80% of patients are diagnosed with ALL and 15–20% with AML, whereas CML and JMML are rather rare. Although ALL was considered an incurable disease until the early 1960s, with the availability of cytotoxic drugs and the start of clinical multicenter studies, ALL has become an almost curable disease with a survival rate exceeding 90 % in high-income countries. These impressive results have mainly been achieved by a deeper understanding of the genomic landscape of the disease and the introduction of risk stratifications based on genetic features and response to chemotherapy as determined by the presence or absence of minimal residual disease (MRD). Immunotherapies including bispecific T-cell Engagers (BiTEs), Chimeric Antigen Receptor (CAR) T cells, monoclonal antibodies and improvements in the outcome of allogeneic stem cell transplantation (HSCT) have shown impressive results in chemorefractory or relapsed patients, and it is anticipated that the cure rate can be further increased. For countries with less resources, therapies have to be adapted to increase survival as well. This book also updates on the progress made in the treatment of AML. As in ALL, risk classification based on genetic factors and response to chemotherapy is most important for therapy guidance. The book also provides updates and guidance for the treatment of CML and JMML.
Research & information: general --- Chemistry --- acute lymphoblastic leukemia --- pediatric --- advances --- diagnosis --- treatment --- immunotherapy --- bispecific T-cell engager (BiTE) --- BCP-ALL --- leukemia --- TRAIL --- antibody --- Fc-engineering --- xenograft --- CD19 --- juvenile myelomonocytic leukemia --- RAS signaling --- hematopoietic stem cell transplantation --- 5-azacitidine --- myelodysplastic/myeloproliferative disorders --- targeted therapy --- ADC --- antibody-drug conjugate --- pediatric leukemia --- ALL --- AML --- allogeneic stem cell transplantation --- acute myeloid leukemia --- minimal residual disease --- conditioning regimen --- alternative donors --- B-ALL --- DUX4 --- IKZF1 --- PAX5 --- Ph-like --- ZNF384 --- NUTM1 --- T-ALL --- NOTCH1 --- BCL11B --- transcriptome --- genome --- chronic myeloid leukemia --- CML --- tyrosine kinase inhibitor --- immunizations --- COVID-19 --- childhood acute lymphoblastic leukemia --- low-risk ALL --- risk-stratified treatment --- treatment related toxicity --- L-asparaginase --- acute pancreatitis --- polymorphism --- SNV --- ABCC4 --- CFTR --- other extramedullary relapse --- lymphoblastic leukemia --- children --- prognosis --- evolution of CAR T cells --- FDA-approved CAR products --- TcR versus CAR --- limitations and complications of CAR T cell therapy --- future directions of CAR T cell therapy --- acute lymphoblastic leukemia --- pediatric --- advances --- diagnosis --- treatment --- immunotherapy --- bispecific T-cell engager (BiTE) --- BCP-ALL --- leukemia --- TRAIL --- antibody --- Fc-engineering --- xenograft --- CD19 --- juvenile myelomonocytic leukemia --- RAS signaling --- hematopoietic stem cell transplantation --- 5-azacitidine --- myelodysplastic/myeloproliferative disorders --- targeted therapy --- ADC --- antibody-drug conjugate --- pediatric leukemia --- ALL --- AML --- allogeneic stem cell transplantation --- acute myeloid leukemia --- minimal residual disease --- conditioning regimen --- alternative donors --- B-ALL --- DUX4 --- IKZF1 --- PAX5 --- Ph-like --- ZNF384 --- NUTM1 --- T-ALL --- NOTCH1 --- BCL11B --- transcriptome --- genome --- chronic myeloid leukemia --- CML --- tyrosine kinase inhibitor --- immunizations --- COVID-19 --- childhood acute lymphoblastic leukemia --- low-risk ALL --- risk-stratified treatment --- treatment related toxicity --- L-asparaginase --- acute pancreatitis --- polymorphism --- SNV --- ABCC4 --- CFTR --- other extramedullary relapse --- lymphoblastic leukemia --- children --- prognosis --- evolution of CAR T cells --- FDA-approved CAR products --- TcR versus CAR --- limitations and complications of CAR T cell therapy --- future directions of CAR T cell therapy
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