1. circ_UTRN inhibits ferroptosis of ARJ21 cells to attenuate acute pancreatitis progression by regulating the miR-760-3p/FOXO1/GPX4 axis
    Lanlan Wei et al, 2024, 3 Biotech CrossRef
  2. circ_WASF2 regulates ferroptosis by miR-634/ GPX4 signaling in pancreatic cancer
    Tao Liu et al, 2024, Discov Onc CrossRef
  3. Non-Coding RNA: A Key Regulator in the Glutathione-GPX4 Pathway of Ferroptosis
    Md Sadique Hussain et al, 2024, Non-coding RNA Research CrossRef
  4. Competing endogenous RNA networks and ferroptosis in cancer: novel therapeutic targets
    Fatemeh Nejadi Orang et al, 2024, Cell Death Dis CrossRef
  5. Osteosarcoma in a ceRNET perspective
    Nicola Mosca et al, 2024, J Biomed Sci CrossRef
  6. Research progress on the role of lncRNA, circular RNA, and microRNA networks in regulating ferroptosis in osteosarcoma
    Chunlu Yan et al, 2024, Biomedicine & Pharmacotherapy CrossRef
  7. Ferroptosis defense mechanisms: The future and hope for treating osteosarcoma
    Yulong Ma et al, 2024, Cell Biochemistry & Function CrossRef
  8. Research status and potential applications of circRNAs affecting colorectal cancer by regulating ferroptosis
    Xiyuan Liang et al, 2024, Life Sciences CrossRef
  9. Circular RNAs in programmed cell death: Regulation mechanisms and potential clinical applications in cancer: A review
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  10. The Potential Role of Non-coding RNAs in Regulating Ferroptosis in Cancer: Mechanisms and Application Prospects
    Ming-Yuan Cao et al, 2024, ACAMC CrossRef
  11. Decoding ferroptosis: transforming orthopedic disease management
    Guanlin Huo et al, 2024, Front. Pharmacol. CrossRef