1. Carbenoxolone Ameliorates Allergic Airway Inflammation through NF-κB/NLRP3 Pathway in Mice
    Fanghan He et al, 2022, Biological and Pharmaceutical Bulletin CrossRef
  2. Dihydromyricetin inhibits microglial activation and neuroinflammation by suppressing NLRP3 inflammasome activation in APP/PS1 transgenic mice
    Jie Feng et al, 2018, CNS Neuroscience & Therapeutics CrossRef
  3. Advances on Resource, Biosynthesis, Biotransformation, Function, and Application of Dihydromyricetin
    Haolin Zhang et al, 2024, Handbook of Dietary Flavonoids CrossRef
  4. Effect of NF-κB signal pathway on mucus secretion induced by atmospheric PM2.5 in asthmatic rats
    Ying Liu et al, 2020, Ecotoxicology and Environmental Safety CrossRef
  5. Annotation of genes involved in high level of dihydromyricetin production in vine tea (Ampelopsis grossedentata) by transcriptome analysis
    Xiaohua Li et al, 2020, BMC Plant Biology CrossRef
  6. Dihydromyricetin inhibited ovalbumin-induced mice allergic responses by suppressing the activation of mast cells
    Ya-Fen Zhang et al, 2019, Food & Function CrossRef
  7. Recent Update on the Pharmacological Effects and Mechanisms of Dihydromyricetin
    Jingyao Zhang et al, 2018, Frontiers in Pharmacology CrossRef
  8. Protective effects of metformin on lipopolysaccharide‑induced airway epithelial cell injury via NF‑κB signaling inhibition
    Jiayang Sun et al, 2019, Molecular Medicine Reports CrossRef
  9. A multifaceted review on dihydromyricetin resources, extraction, bioavailability, biotransformation, bioactivities, and food applications with future perspectives to maximize its value
    Haolin Zhang et al, 2021, eFood CrossRef
  10. Dihydromyricetin induces apoptosis in a human choriocarcinoma cell line
    Yanzhen Zuo et al, 2018, Oncology Letters CrossRef
  11. Dihydromyricetin Acts as a Potential Redox Balance Mediator in Cancer Chemoprevention
    Liang Chen et al, 2021, Mediators of Inflammation CrossRef
  12. Influence of Consumption of Two Peruvian Cocoa Populations on Mucosal and Systemic Immune Response in an Allergic Asthma Rat Model
    Marta Périz et al, 2022, Nutrients CrossRef
  13. Dihydromyricetin functions as a tumor suppressor in hepatoblastoma by regulating SOD1/ROS pathway
    Tong Guo et al, 2023, Frontiers in Oncology CrossRef
  14. Phytochemicals as treatment for allergic asthma: Therapeutic effects and mechanisms of action
    Seyed Vahid Jasemi et al, 2024, Phytomedicine CrossRef
  15. Natural Products with Tandem Anti-inflammatory, Immunomodulatory and Anti-SARS-CoV/2 Effects: A Drug Discovery Perspective against SARS-CoV-2
    Luana N.O. Leal da Cunha et al, 2022, Current Medicinal Chemistry CrossRef
  16. Mechanism of Dihydromyricetin on Inflammatory Diseases
    Yang Sun et al, 2022, Frontiers in Pharmacology CrossRef
  17. Dihydromyricetin from ampelopsis grossedentata protects against vascular neointimal formation via induction of TR3
    Baohua Huang et al, 2018, European Journal of Pharmacology CrossRef
  18. The Versatile Effects of Dihydromyricetin in Health
    Hongliang Li et al, 2017, Evidence-Based Complementary and Alternative Medicine CrossRef
  19. A dihydromyricetin-loaded phellinus igniarius polysaccharide/l-arginine modified chitosan-based hydrogel for promoting wound recovery in diabetic mice via JNK and TGF-β/Smad signaling pathway
    Jiali Yang et al, 2024, International Journal of Biological Macromolecules CrossRef
  20. Dihydromyricetin Attenuates TNF-α-Induced Endothelial Dysfunction through miR-21-Mediated DDAH1/ADMA/NO Signal Pathway
    Dafeng Yang et al, 2018, BioMed Research International CrossRef