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Induced Pluripotent Stem Cells01:13

Induced Pluripotent Stem Cells

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Stem cells are undifferentiated cells that divide and produce different types of cells. Ordinarily, cells that have differentiated into a specific cell type are post-mitotic—that is, they no longer divide. However, scientists have found a way to reprogram these mature cells so that they “de-differentiate” and return to an unspecialized, proliferative state. These cells are also pluripotent like embryonic stem cells—able to produce all cell types—and are therefore...
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Induced Pluripotent Stem Cells01:13

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Induced Pluripotent Stem Cells01:06

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Stem cells are undifferentiated cells that divide and produce different cell types. Ordinarily, cells that have differentiated into a specific cell type are terminally differentiated; however, scientists have found a way to reprogram these mature cells so that they dedifferentiate and return to an unspecialized, proliferative state. These cells are pluripotent like embryonic stem cells—able to produce all cell types—and are called induced pluripotent stem cells (iPSCs).
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Stem cell research aims to find ways to use stem cells to regenerate and repair cellular damage. Over time, most adult cells undergo the wear and tear of aging and lose their ability to divide and repair themselves. Stem cells do not display a particular morphology or function. Adult stem cells, which exist as a small subset of cells in most tissues, keep dividing and can differentiate into a number of specialized cells generally formed by that tissue. These cells enable the body to renew and...
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The ability of induced pluripotent stem cells or iPSCs to differentiate into most body cell types has stimulated repair and regenerative medicine research over the past few decades. iPSC-derived blood cells, hepatocytes, beta islet cells, cardiomyocytes, neurons, and other cell types can repair injuries or regenerate damaged tissue in diseases such as diabetes and neurodegenerative disorders.
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EPS and iPS Cells in Disease Research01:21

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Embryonic and induced pluripotent stem cells are excellent models for disease research because of their ability to self-renew and differentiate into most cell types. Somatic cells from a patient are isolated and reprogrammed into induced pluripotent stem cells or iPSCs. These iPSCs are later differentiated into the desired cell type, which mirrors the diseased cell of the patient. In this way, disease models have been created for investigating diseases such as Down syndrome, type I diabetes,...
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Related Experiment Video

Updated: Mar 12, 2026

Author Spotlight: Advancing Tissue Regeneration and Disease Modeling with Dental Pulp Stem Cells
03:45

Author Spotlight: Advancing Tissue Regeneration and Disease Modeling with Dental Pulp Stem Cells

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Induced pluripotent stem cells in dentistry.

Paramel Mohan Sunil1

  • 1Department of Oral Pathology, Sree Anjaneya Institute of Dental Sciences, Kozhikode, Kerala, India; Department of Stem Cells and Regenerative Medicine, Sree Anjaneya Institute of Dental Sciences, Kozhikode, Kerala, India.

Journal of Pharmacy & Bioallied Sciences
|November 11, 2016
PubMed
Summary

Induced pluripotent stem cells (iPSCs) offer patient-specific, non-immunogenic cell sources for regenerative medicine. This review explores iPSC applications in dentistry for regenerating oral tissues and treating oral cancers.

Keywords:
Dentistrypluripotencystem cells

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Area of Science:

  • Regenerative Medicine
  • Stem Cell Biology
  • Dental Research

Background:

  • Induced pluripotent stem cells (iPSCs) are derived from reprogrammed somatic cells, offering a patient-specific and non-immunogenic cell source.
  • This technology holds significant promise for regenerative medicine, disease modeling, and drug discovery.
  • The patient-specific nature of iPSCs eliminates immune rejection, a major hurdle in transplantation therapies.

Approach:

  • This review focuses on the potential applications of iPSC technology within the field of dentistry.
  • It examines the role of iPSCs in the regeneration of oral and maxillofacial tissues.
  • The review also investigates the utility of iPSCs in addressing oral malignancies.

Key Points:

  • iPSCs provide a renewable source of autologous cells for lifelong tissue regeneration.
  • The technology facilitates the development of patient-specific disease models for studying genetic disorders.
  • iPSCs are crucial for advancing personalized medicine approaches in dentistry.

Conclusions:

  • iPSC technology presents a transformative approach for dental tissue regeneration and oral cancer research.
  • Further research into iPSC applications can revolutionize treatments for various oral and maxillofacial conditions.
  • Harnessing iPSCs in dentistry offers unprecedented opportunities for therapeutic innovation and patient care.