1. Therapeutic Potential of Curcumin for the Treatment of Brain Tumors
   Neil V. Klinger et al, 2016, Oxidative Medicine and Cellular Longevity CrossRef
2. BHX Inhibits the Wnt Signaling Pathway by Suppressing β-catenin Transcription in the Nucleus
   Fengxia Ding et al, 2016, Sci Rep CrossRef
3. Unraveling the Anticancer Effect of Curcumin and Resveratrol.
   Aline Renata Pavan et al, 2016, Nutrients CrossRef
4. MiR-492 contributes to cell proliferation and cell cycle of human breast cancer cells by suppressing SOX7 expression
   Fei Shen et al, 2015, Tumor Biol. CrossRef
5. Molecular signaling mechanisms behind polyphenol-induced bone anabolism.
   Elisa Torre, 2017, Phytochem Rev CrossRef
6. Theracurmin® efficiently inhibits the growth of human prostate and bladder cancer cells via induction of apoptotic cell death and cell cycle arrest
   MINYONG KANG et al, 2016 CrossRef
7. Curcumin inhibits bladder cancer progression via regulation of β-catenin expression
   Jing Shi et al, 2017, Tumour Biol. CrossRef
8. Targeting oncogenic transcription factors by polyphenols: A novel approach for cancer therapy
   Chitra Rajagopal et al, 2018, Pharmacological Research CrossRef
9. Curcumin alleviates glucocorticoid-induced osteoporosis through the regulation of the Wnt signaling pathway
   ZHIGUANG CHEN et al, 2016 CrossRef
10. The Multifaceted Role of Curcumin in Cancer Prevention and Treatment
    Muthu Shanmugam et al, 2015, Molecules CrossRef
11. Curcumin on the “flying carpets” to modulate different signal transduction cascades in cancers: Next-generation approach to bridge translational gaps
    Hulya Celik et al, 2018, J. Cell. Biochem. CrossRef
12. Opposite Interplay Between the Canonical WNT/β-Catenin Pathway and PPAR Gamma: A Potential Therapeutic Target in Gliomas
    Alexandre Vallée et al, 2018, Neurosci. Bull. CrossRef
13. Curcumin decreases Warburg effect in cancer cells by down-regulating pyruvate kinase M2 via mTOR-HIF1α inhibition.
    Farid Ahmad Siddiqui et al, 2018, Sci Rep CrossRef
14. Anticancer effect of curcumin on breast cancer and stem cells
    Hui-Tien Liu et al, 2018, Food Science and Human Wellness CrossRef
15. Curcumin and Quercetin Synergistically Inhibit Cancer Cell Proliferation in Multiple Cancer Cells and Modulate Wnt/β-catenin Signaling and Apoptotic Pathways in A375 Cells
    Nishtha S Srivastava et al, 2018, Phytomedicine CrossRef
16. Cellular and molecular mechanisms of curcumin in prevention and treatment of disease
    Sita Sharan Patel et al, 2019, Critical Reviews in Food Science and Nutrition CrossRef
17. Curcumin and Inflammatory Brain Diseases
    Adeeb Shehzad et al, 2019 CrossRef
18. Curcumin: a therapeutic strategy in cancers by inhibiting the canonical WNT/β-catenin pathway
    Alexandre Vallée et al, 2019, J Exp Clin Cancer Res CrossRef
19. Curcumin a potent cancer preventive agent: Mechanisms of cancer cell killing.
    Muobarak Tuorkey et al, 2014, Interv Med Appl Sci CrossRef
20. Natural compounds for pediatric cancer treatment
    Veronica Ferrucci et al, 2016, Naunyn-Schmiedeberg's Arch Pharmacol CrossRef
21. Curcumin Inhibits Gastric Carcinoma Cell Growth and Induces Apoptosis by Suppressing the Wnt/β-Catenin Signaling Pathway
    Ruzhen Zheng et al, 2017, Med Sci Monit CrossRef
22. Regulation of carcinogenesis and modulation through Wnt/β-catenin signaling by curcumin in an ovarian cancer cell line
    Hsing-Yu Yen et al, 2019, Sci Rep CrossRef
23. Nature-derived compounds modulating Wnt/β-catenin pathway: a preventive and therapeutic opportunity in neoplastic diseases
    G. Sferrazza et al, 2020, Acta Pharmaceutica Sinica B CrossRef
24. Small Molecule Wnt Pathway Modulators from Natural Sources: History, State of the Art and Perspectives
    Artem Blagodatski et al, 2020, Cells CrossRef
25. Re-purposing of curcumin as an anti-metastatic agent for the treatment of epithelial ovarian cancer: in vitro model using cancer stem cell enriched ovarian cancer spheroids
    Misi He et al, 2016, Oncotarget CrossRef
26. Curcumin suppresses cell growth and invasion and induces apoptosis by down-regulation of Skp2 pathway in glioma cells
    Lixia Wang et al, 2015, Oncotarget CrossRef
27. Downregulation of glucose-regulated protein 78 enhances the cytotoxic effects of curcumin on human nasopharyngeal carcinoma cells
    Xiaoming Yu et al, 2018, Int J Mol Med CrossRef
28. Comparison between curcumin and all‑trans retinoic acid in the osteogenic differentiation of mouse bone marrow mesenchymal stem cells
    Mahmoud Ahmed et al, 2019, Exp Ther Med CrossRef
29. New tricks of old drugs: Repurposing non-chemo drugs and dietary phytochemicals as adjuvants in anti-tumor therapies
    Mei Zhang et al, 2020, Journal of Controlled Release CrossRef
30. Focus on Multi-targeted Role of Curcumin: a Boon in Therapeutic Paradigm
    Madhuri Grover et al, 2021, Environ Sci Pollut Res CrossRef
31. Curcumin Therapeutic Modulation of the Wnt Signaling Pathway
    Milad Ashrafizadeh et al, 2020, CPB CrossRef
32. The multifaceted NF-kB: are there still prospects of its inhibition for clinical intervention in pediatric central nervous system tumors?
    Mariana Medeiros et al, 2021, Cell. Mol. Life Sci. CrossRef
33. The Anti-Cancer Effect of Four Curcumin Analogues on Human Glioma Cells
    Siou-Min Luo et al, 2021, OTT CrossRef
34. Curcumin and Radiotherapy Exert Synergistic Anti-Glioma Effect In Vitro.
    Vasiliki Zoi et al, 2021, Biomedicines CrossRef
35. Subgroup-Specific Diagnostic, Prognostic, and Predictive Markers Influencing Pediatric Medulloblastoma Treatment
    Sutapa Ray et al, 2021, Diagnostics CrossRef
36. Nanoparticle-Mediated Delivery of Flavonoids for Cancer Therapy: Prevention and Treatment
    Garima Sharma et al, 2021 CrossRef
37. Polymeric nanomicelles of curcumin: Potential applications in cancer
    Leila Farhoudi et al, 2022, International Journal of Pharmaceutics CrossRef
38. STAT3 in medulloblastoma: a key transcriptional regulator and potential therapeutic target
    Anwar Zaiter et al, 2022, Mol Biol Rep CrossRef
39. Curcumin analogue BDDD-721 exhibits more potent anticancer effects than curcumin on medulloblastoma by targeting Shh/Gli1 signaling pathway
    Weiyi Gong et al, 2022, Aging CrossRef
40. The Role of Flavonoids and other Selected (Poly) Phenols in Cancer Prevention and Therapy: A Focus on Epigenetics
    Melissa D’Ascenzio, 2022 CrossRef
41. Biosynthesis of Curcumin and Molecular Targets and the Biological Mechanism of Curcumin
    Y. Baspinar et al, 2020 CrossRef
42. An overview of cellular, molecular, and biological aspect(s) of curcumin in cancer
    Atefeh Amiri et al, 2024 CrossRef
43. Biopolymer-based formulations for curcumin delivery toward cancer management
    Hend A. Gad et al, 2024 CrossRef
44. Telomerase: a nexus between cancer nanotherapy and circadian rhythm
    Pramit Kumar Ghosh et al, 2024, Biomater. Sci. CrossRef
45. Protective Effects of Curcumin Against Medulloblastoma: A Review
    Mohammad Elahi et al, 2024, Natural Product Communications CrossRef
46. Curcuminoids as Cell Signaling Pathway Modulators: A Potential Strategy for Cancer Prevention
    Aneeza Noor et al, 2024, CMC CrossRef
47. Curcumin and 2-DG synergistically target the glio-oncogenesis trigger IL-6 and down-regulate the stemness in glioblastoma model in-vitro
    Kavita Peter et al, 2024, ADV TRADIT MED (ADTM) CrossRef
48. Therapeutic Potential of Natural Compounds to Modulate WNT/β-Catenin Signaling in Cancer: Current State of Art and Challenges
    Anna Gajos-Michniewicz et al, 2024, IJMS CrossRef