Font Size: a A A
Keyword [nanosystems]
Result: 1 - 20 | Page: 1 of 2
1. Studies On Multifunctional Nanosystems Based On Pluronic P123-Poly(β-amino Ester)
2. Anticancer Activitives Of Cancer-targeted Selecompounds Nanosystems And Metal Complexes Sensitize Chemotherapeutic Drugs
3. Synthesis Of Mesoporous Silica-based Active Oxygen Delivery Nanosystems For Radiosensitization Therapy
4. Redox Responsive Prodrug-Nanosystems Self-Assembled By Paclitaxel-Oleic Acid Conjugate For Cancer Chemotherapy
5. Construction Of Light-controlled Rare Earth Upconversion Nanosystems And Their Application In Biomedicine
6. The Preparation And Characterization Of Folic Acid Modification GC-FUA Drug Delivery Nanosystem
7. Design Of UCNPs-based Theraonostic Nanosystems And Their Targeted Applications In Pancreatic Cancer Therapy
8. Responsive Dendrimer Vector For The Treatment Of Digestive System Tumors
9. Porphyrin-based Nanosystems For Improving Photodynamic Therapy By Combining Sonodynamic/Chemotherapy
10. Based On FRET Effect Of Nanosystems Toward Two-photon Fluorescence Imaging And Photodynamic Therapy
11. Designing dendrimer-based nanosystems for multimodal imaging and theranostic applications
12. Hyaluronic Acid Based Self-Assembled Multifunctional Nanosystems to Overcome Drug Resistance in Lung Cancer
13. Tumor responsive targeted multifunctional nanosystems for cancer imaging, chemo- and siRNA therapy
14. Nanosystems Enhanced Tumor Vascular Permeability To Amplify The Efficacy Of Tumor Therapy
15. Novel Functionalized Magnetic Nanosystems For Tumor Imaging And Combination Therapy
16. Preparation And Antitumor Mechanism Of Nanosystems With Mesoporous Silica As Carrier
17. Functionalized Ordered Mesoporous Carbon Nanosystems For NIR Responsive Chemo-photothermal Therapy Of Cancer Cell
18. Nanosystems To Selectively Activate CRISPR/Cas9 System For Cancer Immunotherapy
19. Construction Of Multifunctional Nanosystems Loaded With Biguanides For Amplifying The Photodynamic Immunotherapy Efficacy Of Bladder Cancer
20. Nanosystems Based On Tumor Acidic Microenvironment And Bioorthogonal Reactions For Tumor Imaging And Therapy
  <<First  <Prev  Next>  Last>>  Jump to