1. GDNF facilitates the differentiation of ADSCs to Schwann cells and enhances nerve regeneration through GDNF/MTA1/Hes1 axis
    Weixia Cai et al, 2024, Archives of Biochemistry and Biophysics CrossRef
  2. Guiding Mesenchymal Stem Cells into Myelinating Schwann Cell-Like Phenotypes by Using Electrospun Core–Sheath Nanoyarns
    Shaohua Wu et al, 2019, ACS Biomaterials Science & Engineering CrossRef
  3. Advances in Controlling Differentiation of Adult Stem Cells for Peripheral Nerve Regeneration
    Metin Uz et al, 2018, Advanced Healthcare Materials CrossRef
  4. In Vitro Transdifferentiation Potential of Equine Mesenchymal Stem Cells into Schwann-Like Cells
    Lucas Vinícius de Oliveira Ferreira et al, 2023, Stem Cells and Development CrossRef
  5. The effect of preconditioning hypoxia in schwann-like-cells-derived adipose mesenchymal stem cells and rat sciatic nerve-derived stem cells: experimental research
    Tito Sumarwoto et al, 2023, Annals of Medicine & Surgery CrossRef
  6. Hypoxic pre-conditioned adipose-derived stem/progenitor cells embedded in fibrin conduits promote peripheral nerve regeneration in a sciatic nerve graft model
    JuliusM Mayer et al, 2023, Neural Regeneration Research CrossRef
  7. Electric Conductivity on Aligned Nanofibers Facilitates the Transdifferentiation of Mesenchymal Stem Cells into Schwann Cells and Regeneration of Injured Peripheral Nerve
    Xiaofang Hu et al, 2020, Advanced Healthcare Materials CrossRef
  8. Advanced Therapy and Clinical Trials to Treat Patients with Optic Nerve Diseases
    Girish K. Srivastava et al, 2022, Neurotoxicity Research CrossRef
  9. The Notch signalling pathway and miRNA regulation play important roles in the differentiation of Schwann cells from adipose-derived stem cells
    Liang Yang et al, 2022, Laboratory Investigation CrossRef
  10. Development and In Vitro Differentiation of Schwann Cells
    Sarah Janice Hörner et al, 2022, Cells CrossRef
  11. Adipose tissue stem cells in peripheral nerve regeneration—In vitro and in vivo
    Sophie Charlotte Rhode et al, 2021, Journal of Neuroscience Research CrossRef
  12. Novel approaches using mesenchymal stem cells for curing peripheral nerve injuries
    Forouzan Yousefi et al, 2019, Life Sciences CrossRef
  13. Adipose stem cells for peripheral nerve engineering
    Benjamin K. Schilling et al, 2022, Scientific Principles of Adipose Stem Cells CrossRef
  14. The Combination of Adipose-derived Schwann-like Cells and Acellular Nerve Allografts Promotes Sciatic Nerve Regeneration and Repair through the JAK2/STAT3 Signaling Pathway in Rats
    Xiu-mei Fu et al, 2019, Neuroscience CrossRef
  15. Differentiation of adipose-derived stem cells into Schwann cell-like cells through intermittent induction: potential advantage of cellular transient memory function
    Xun Sun et al, 2018, Stem Cell Research & Therapy CrossRef
  16. The Cellular and Molecular Patterns Involved in the Neural Differentiation of Adipose-Derived Stem Cells
    Aida Selaru et al, 2020, Cell Biology and Translational Medicine, Volume 10 CrossRef
  17. Therapeutic effects of nerve leachate‑treated adipose‑derived mesenchymal stem cells on rat sciatic nerve injury
    Yumei Liu et al, 2019, Experimental and Therapeutic Medicine CrossRef
  18. Molecular Mechanisms of Transdifferentiation of Adipose-Derived Stem Cells into Neural Cells: Current Status and Perspectives
    Liang Luo et al, 2018, Stem Cells International CrossRef
  19. Levator ani muscle innervation: Anatomical study in human fetus
    Krystel Nyangoh Timoh et al, 2017, Neurourology and Urodynamics CrossRef
  20. Isolation, culture and identification of human adipose-derived stem cells
    Jian-Mei Wang et al, 2017, Experimental and Therapeutic Medicine CrossRef
  21. Effect of exosomes from adipose‐derived stem cells on the apoptosis of Schwann cells in peripheral nerve injury
    Cai‐Yue Liu et al, 2020, CNS Neuroscience & Therapeutics CrossRef
  22. Human bone marrow‐derived MSCs spontaneously express specific Schwann cell markers
    Khairunnisa Ramli et al, 2019, Cell Biology International CrossRef
  23. Schwann cells genetically modified to express S100A4 increases GAP43 expression in spiral ganglion neurons in vitro
    Li Lei et al, 2017, Bioengineered CrossRef
  24. Evaluation of combined effects of brief electrical stimulation and Schwann‐like cells on sciatic nerve injury model
    Mahmut Alp Kilic et al, 2023, Bioelectromagnetics CrossRef
  25. IcarisideII facilitates the differentiation of ADSCs to SCs via let-7i/STAT3 axis to preserve erectile function
    Pingyu Ge et al, 2019, Biological Research CrossRef