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These cells generally represent just 1% to 3% of all cells in a tumor, but they are the only cells with the ability to regenerate malignant cells and fuel the growth of the cancer. Embryonic stem cells are primitive cells that form inside an early embryo.These cells also can be generated in a laboratory dish during a process called in-vitro fertilization.
Hematopoietic stem cells develop into all the different types of cells in the human blood and immune systems.
Cancer stem cells are a type of adult or progenitor cell found in most types of cancer.
Other cancers, such as head and neck cancers, are often resistant to current therapies, making less-invasive treatments more difficult.
In addition, current chemotherapies cause severe side effects because they target all rapidly dividing cells.
Four to five days after a human egg is fertilized by sperm, the dividing mass of cells is called a blastocyst.
Scientists can remove the inner cell mass from the blastocyst and grow stem cells in a culture dish in the laboratory.We also encourage studies using disease models, drug screening, and bioinformatics related to stem cell biology and tissue regeneration.Indexed in: Pub Med, Pub Med Central, Scopus, Web of Science, Google Scholar, DOAJ, Cross Ref, Chemical Abstracts Service (CAS), Ulrich's Periodicals Directory, Science Citation Index Expanded, CLOCKSS, Open AIRE PMCID: all published articles receive a PMCID Stem Cell Research welcomes submissions of the following article types: Brief Research Report, Correction, Data Report, Editorial, General Commentary, Hypothesis and Theory, Methods, Mini Review, Opinion, Original Research, Perspective, Review and Technology and Code.Treatments that target only cancer stem cells would cause fewer side effects for patients.Cancer stem cells were first identified in leukemia.The Specialty Stem Cell Research covers all aspects of stem cell research ranging from molecular biology and cell biology to tissue regeneration and stem cells to translational research.In addition, the Specialty will consider papers involving the fundamental aspects of stem cell research that are not covered by other areas of the field: cloning, pluripotency, reprogramming, proteomics, genetics, epigenetics, genomics, non-coding RNAs, and cancer stem cells.Our aim is to foster research that integrates all levels of stem cell biology, including the developmental biology, tissue growth and regeneration, diseases, aging and cancer.We welcome original papers on a broad range of subjects relating to stem cells, developmental biology, tissue regeneration, and translational research.Think of cancer as a weed: the stem cells are the root while the remaining majority of the cells are the part of the weed above ground.If you remove only the leaves but not the root, the weed will grow back.