Font Size: a A A
Keyword [ABCG5]
Result: 1 - 20 | Page: 1 of 2
1. The Role Of ABCG5 And ABCG8 In Liver Cholesterol Transport And The Formation Of Cholesterol Gall Stone
2. Effects Of Quercetin On Cholesterol Synthesis And Transport In Human L-02 Hepatocyte
3. Effects Of Allicin On Cholesterol Exllusion And Expression Of ABCG5 And ABCG8 In Intestinal Epithelial Cell
4. Effects Of Allicin On Cholesterol Exllusion And Expression Of Abcg5 And Abcg8 In Intestinal Epithelial Cell
5. Study On The Clinical Features And Gene Diagnosis Of Phytosterolemia Causing To Macrothrombocytopenia And Stomatocytosis
6. Study On The Haemostatic Mechanism Of Hemocoagulase Atrix And On Two Patients With Phytosterolemia
7. Effects Of Probucol On Cholesterol-related Transporters And Inflammatory Cytokines In Hyperlipidemia Rabbits
8. The Effects Of Soluble Epoxide Hydrolase Inhibitors On Adipocyte Mediated Reverse Cholesterol Transport
9. Effects Of Estrogen On Secretion Of Bile Acids And Expression Of ABCG5and ABCG8in Human Hepatocyte Cells
10. Simvastatin Promotes The Expression Of Genes Associated With Reverse Cholesterol Transport In ApoE-knockout Mice Fed High-fat Diet
11. Clinical And Laboratory Studies On Three Rare Bleeding Disorders
12. The Role Of ABCG5/G8 Deficiency In High Fat Diet-induced Hepatic Steatosis In SD Rats
13. The Role Of ABCG5/ABCG8 In Sitosterolemia Induced By Phytosterol In SD Rats
14. Mutation Analysis Of Two Children With Xanthomatosis And Review Of The Literatures
15. A Case Of Phytosterolemia Family, Genetic Research And Literature Review
16. To Explore The Molecular Biological Basis Of The Damp-heat Syndrome Of Cholesterol Stone From The Expression Differences Of NPC1L1 And ABCG5/G8
17. Retrospective Analysis Of Gallstones And Study Of The Association Between Tibetan And Han Patients With Gallstones And ABCG5/8 Gene Polymorphism In Qinghai
18. Prevention And Treatment Effect And Its Mechanism Of Yinchenhao Decoction On Cholesterol Gallstones In Mice
19. Based On LRH-1 Related Signal Pathways, We Explored The Effect And Mechanism Of Piperine On Inhibiting The Formation Of Cholesterol Stones In Mice
20. The Mechanism Of Activating PPAR? To Inhibit The Occurrence And Development Of Cholesterol Stones And Non-alcoholic Fatty Liver
  <<First  <Prev  Next>  Last>>  Jump to