1.Dental tissues as adult stem cell source.
Journal of the Korean Association of Oral and Maxillofacial Surgeons 2013;39(2):41-42
No abstract available.
Adult
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Adult Stem Cells
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Humans
2.Delivering Factors for Reprogramming a Somatic Cell to Pluripotency.
International Journal of Stem Cells 2012;5(1):6-11
An adult cell originates from stem cell. The stem cell is usually categorized into three species including an embryonic stem cell (ESc), an adult stem cell, and an induced stem cell (iPSc). iPSc features pluripotency, which is meant to be differentiated into any types of cells. Accordingly, it is much attractive to anyone who pursuit a regenerative medicine, owing to the potential almighty. They are simply produced by reprogramming a somatic cell via a transfer of transcription factors. The efficiency and productivity of iPS are considerably subject to delivering methods of exogenous genes into a variety of targeted mammalians. Conventional and well-run gene delivery techniques have been reviewed here. This details the methods and principles of delivery factors and provides an overview of the research, with an emphasis on their potential for use as clinical therapeutic platforms.
Adult
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Adult Stem Cells
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Efficiency
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Embryonic Stem Cells
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Humans
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Regenerative Medicine
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Stem Cells
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Transcription Factors
3.The hope and hype of stem cell therapy.
Journal of the Korean Medical Association 2013;56(10):848-851
Stem cell therapy has been taken as a highly promising area of future medicine due to its potential for providing new therapeutic modalities for debilitating, incurable diseases. In addition, stem cell therapy holds promise for its great industrial value due to the rapid growth of the market size. Recently, various types of stem cells such as induced pluripotent stem cells are being developed based on the conceptual revolution with regard to cell fate decisions. However, so far, most stem cell therapies have been performed using tissue-specific adult stem cells. Nevertheless, except for a few cases of stem cells such as hematopoietic stem cells that can regenerate hematopoietic tissue, a large proportion of stem cells, especially mesenchymal stromal cells, primarily work through paracrine functioning. The short life span of the injected stem cells and their paracrine mode of action pose a limitation to the maximum therapeutic efficacy that can be achieved from the current stem cell therapy model, warranting further research and development to enhance their efficacy. Despite the fact that stem cell therapies largely remain in the research stage, the public has expectations of rapid results and even fanaticism, leading to unauthorized stem cell practices and medical tourism. Moreover, the temptation to expedite the industrialization of stem cell therapeutics by simplifying the authorization process could increase the risk of endangering the rights of patients. Thus, stem cell therapy can become a 'hope' when society can overcome the stem cell 'hype'.
Adult Stem Cells
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Hematopoietic Stem Cells
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Human Rights
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Humans
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Induced Pluripotent Stem Cells
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Medical Tourism
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Mesenchymal Stromal Cells
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Stem Cells
4.Progresses in studies on adult stem cells.
Zhuo-Yan ZHOU ; Mo YANG ; Tai Fai FOK
Chinese Journal of Pediatrics 2005;43(1):20-23
Adult
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Adult Stem Cells
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Humans
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Research
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trends
5.Current Concepts of Stem Cell Therapy.
Korean Journal of Obstetrics and Gynecology 2005;48(1):14-20
Stem cells are defined by their capacity for self-renewal and multilineage differentiation, making them uniquely situated to treat a broad spectrum of human diseases. The transplantation of tissue-specific stem cells, such as stem cells isolated from epithelial and neural tissues, can treat mouse disease models and human patients in which epithelial and neural cells are damaged. An alternative to tissue-specific stem cell therapy takes advantage of embryonic stem cells, which are capable of differentiating into any tissue type. Furthermore, nuclear transfer, the transfer of a post-mitotic somatic cell nucleus into an enucleated oocyte, creates a limitless source of autologous cells that, when combined with gene therapy, can serve as a powerful therapeutic tool.
Adult Stem Cells
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Animals
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Cell Nucleus
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Embryonic Stem Cells
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Genetic Therapy
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Humans
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Mice
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Oocytes
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Stem Cells*
6.Adult Stem Cells of Orofacial Origin: Current Knowledge and Limitation and Future Trend in Regenerative Medicine.
Mehdi EBRAHIMI ; Michael BOTELHO
Tissue Engineering and Regenerative Medicine 2017;14(6):719-733
Stem cell research is one of the most rapidly expanding field of medicine which provides significant opportunities for therapeutic and regenerative applications. Different types of stem cells have been isolated investigating their accessibility, control of the differentiation pathway and additional immunomodulatory properties. Bulk of the literature focus has been on the study and potential applications of adult stem cells (ASC) because of their low immunogenicity and reduced ethical considerations. This review paper summarizes the basic available literature on different types of ASC with special focus on stem cells from dental and orofacial origin. ASC have been isolated from different sources, however, isolation of ASC from orofacial tissues has provided a novel promising alternative. These cells offer a great potential in the future of therapeutic and regenerative medicine because of their remarkable availability at low cost while allowing minimally invasive isolation procedures. Furthermore, their immunomodulatory and anti-inflammatory potential is of particular interest. However, there are conflicting reports in the literature regarding their particular biology and full clinical potentials. Sound knowledge and higher control over proliferation and differentiation mechanisms are prerequisites for clinical applications of these cells. Therefore, further standardized basic and translational studies are required to increase the reproducibility and reduce the controversies of studies, which in turn facilitate comparison of related literature and enhance further development in the field.
Adult Stem Cells*
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Adult*
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Biology
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Humans
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Regenerative Medicine*
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Stem Cell Research
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Stem Cells
7.Stem cell therapy in pain medicine
Yong Hee HAN ; Kyung Hoon KIM ; Salahadin ABDI ; Tae Kyun KIM
The Korean Journal of Pain 2019;32(4):245-255
Stem cells are attracting attention as a key element in future medicine, satisfying the desire to live a healthier life with the possibility that they can regenerate tissue damaged or degenerated by disease or aging. Stem cells are defined as undifferentiated cells that have the ability to replicate and differentiate themselves into various tissues cells. Stem cells, commonly encountered in clinical or preclinical stages, are largely classified into embryonic, adult, and induced pluripotent stem cells. Recently, stem cell transplantation has been frequently applied to the treatment of pain as an alternative or promising approach for the treatment of severe osteoarthritis, neuropathic pain, and intractable musculoskeletal pain which do not respond to conventional medicine. The main idea of applying stem cells to neuropathic pain is based on the ability of stem cells to release neurotrophic factors, along with providing a cellular source for replacing the injured neural cells, making them ideal candidates for modulating and possibly reversing intractable neuropathic pain. Even though various differentiation capacities of stem cells are reported, there is not enough knowledge and technique to control the differentiation into desired tissues in vivo. Even though the use of stem cells is still in the very early stages of clinical use and raises complicated ethical problems, the future of stem cells therapies is very bright with the help of accumulating evidence and technology.
Adult
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Adult Stem Cells
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Aging
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Cell Differentiation
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Embryonic Stem Cells
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Humans
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Induced Pluripotent Stem Cells
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Musculoskeletal Pain
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Nerve Growth Factors
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Neuralgia
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Osteoarthritis
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Stem Cell Transplantation
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Stem Cells
9.MHC Antigen Expressions in Human Embryonic Neural Stem Cells and Adult Breast Epithelial Stem Cells.
Eun Mi LEE ; Jae Young KIM ; Donghee KIM ; Bum Rae CHO ; Hyun Sook KOH ; Jae Seok YANG ; Jung Sang LEE ; Curie AHN
The Journal of the Korean Society for Transplantation 2003;17(2):105-112
PURPOSE: Due to their unique capacity to self-renew and for multiple differentiation, stem cells are considered potent candidates for cell replacement therapy in many devastating diseases. However, studies on immune rejection, which is a major problem facing successful stem cell therapy, are rare. Thus, we examined MHC expression of human stem cells and effects of IFN-gamma on the MHC class I expression of the cells in order to determine whether human stem cells might be rejected after transplantation. METHODS: The MHC antigen expressions of human embryonic neural stem cell line (HB1.F3) and human breast epithelial stem cell line (M13SV1) were examined by RT-PCR and FACS. The effects of varying concentrations of IFN-gamma and of varying incubation times with IFN-gamma on the expression of MHC class I antigens in these stem cell lines were also examined by FACS. RESULTS: The results show low expression levels of MHC class I antigens on surfaces of these cells. A dramatic induction of MHC class I expression was observed when the cells were treated with IFN-gamma. Maximal induction of MHC class I antigen expression in HB1.F3 and M13SV1 cells was observed at above the concentrations of 20 ng/mL and 5 ng/mL of IFN-gamma 48 h after treatment, respectively. Elevated MHC class I levels in HB1.F3 and M13SV1 cells were sustained for 48 h and 72 h after withdrawing IFN-gamma, respectively. CONCLUSION: These results suggest that human stem cells express high levels of MHC class I antigens, and thus may be rejected on transplantation unless they are modified. Therefore, in addition to studies on stem cell differentiation, studies on overcoming the immunological barriers to stem cell transplantation are prerequisite for successful clinical application of stem cell therapy.
Adult*
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Breast*
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Histocompatibility Antigens Class I
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Humans*
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Neural Stem Cells*
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Stem Cell Transplantation
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Stem Cells*
10.Adult stem cells and possible mechanisms of its differentiation--editorial.
Zhuo-Yan ZHOU ; Mo YANG ; Yue-Hua JIANG
Journal of Experimental Hematology 2005;13(3):353-357
Adult stem cells are the multi-potential cells, which exist in fetal and adult tissues. It can reproduce itself (undergo self-renewal) or give rise to more specialized (differentiated) cells. Under certain inducing conditions, adult stem cells can acquire the ability to differentiate into different tissue cells. Multipotent adult progenitor cells (MAPC), an alternative name of adult stem cell given by Catherine Verfaillie, existing in bone marrow, can differentiate into cells with characteristics of mesodermal, neuroectodermal, and endodermal lineages in vitro at the single-cell level. MAPC can also contribute to most cell types when injected into the blastocyst. Adult stem cell differentiation implies that different cell lineages are derived from a single initial cell; all differentiated cell types are functional in vitro and in vivo; and engraftment is robust and persistent in the physiological and pathological situations. The possible mechanisms may underlie the differentiation: various tissue-specific stem cells are present in different organs; adult stem cells would be reprogrammed when removed from their usual microenvironment and introduced into a different niche that imparts signals to activate a novel genetic program needed for the new cell fate. And true multi-potential stem cells persist in postnatal life. In the future, multi-potent adult stem cells might then be used for therapies of degenerative or genetic disorders of multiple different organs.
Adult Stem Cells
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cytology
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Cell Differentiation
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Humans
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Multipotent Stem Cells
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cytology
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Stem Cell Transplantation