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Single-cell Technology in Stem Cell Research.

Ali GolchinForough ShamsFaezeh MoradiAmin Ebrahimi SadrabadiShima ParvizShahriar AlipourParviz RanjbarvanYaser HemmatiMaryam RahnamaYousef RasmiShiva Gholizadeh-Ghaleh Aziz
Published in: Current stem cell research & therapy (2024)
Single-cell technology (SCT), which enables the examination of the fundamental units comprising biological organs, tissues, and cells, has emerged as a powerful tool, particularly in the field of biology, with a profound impact on stem cell research. This innovative technology opens new pathways for acquiring cell-specific data and gaining insights into the molecular pathways governing organ function and biology. SCT is not only frequently used to explore rare and diverse cell types, including stem cells, but it also unveils the intricacies of cellular diversity and dynamics. This perspective, crucial for advancing stem cell research, facilitates non-invasive analyses of molecular dynamics and cellular functions over time. Despite numerous investigations into potential stem cell therapies for genetic disorders, degenerative conditions, and severe injuries, the number of approved stem cell-based treatments remains limited. This limitation is attributed to the various heterogeneities present among stem cell sources, hindering their widespread clinical utilization. Furthermore, stem cell research is intimately connected with cutting-edge technologies, such as microfluidic organoids, CRISPR technology, and cell/tissue engineering. Each strategy developed to overcome the constraints of stem cell research has the potential to significantly impact advanced stem cell therapies. Drawing from the advantages and progress achieved through SCT-based approaches, this study aims to provide an overview of the advancements and concepts associated with the utilization of SCT in stem cell research and its related fields.
Keyphrases
  • stem cells
  • single cell
  • cell therapy
  • molecular dynamics
  • gene expression
  • high throughput
  • crispr cas
  • tissue engineering
  • climate change
  • human health
  • risk assessment
  • genome wide
  • genome editing