Font Size: a A A
Keyword [Morphine]
Result: 1 - 19 | Page: 1 of 1
1. Structure-Activity Relationships Of Nociceptin And Its Analogs And The Interaction Of ORL1, NK1 And Opioid Receptor System In Pain Modulation
2. Manganese-Enhanced Magnetic Resonance Imaging And Its Applications In Brain Activities And Neuronal Tract Tracing In Rats
3. The Study Of Postgenomics: Proteomic Analysis Of Morphine Dependence Development Of Technology For DNA Methylome Analysis
4. The Correlation Between Orientation Selectivity And Inhibition In Primary Visual Cortex Of Cat
5. Effects On Synaptic Plasticity Of Hippocampus And Visual Pathway In Rats Prenatally Exposed To Morphine
6. Involvement Of Spinal Microglia-expressed P2X7 Receptor In Tolerance To Morphine Analgesia In Rats
7. Involvement Of Spinal Glia In Tolerance To Morphine Analgesia: A Study On P2X7 Receptor
8. Of Morphine Withdrawal Nucleus Accumbens Medium Spinous Process Of Neuronal Glutamate Synapses Incoming
9. The Preparation And Establishment Of Beta Arrestins Transgenic Mice And The Preliminary Research Of Their Functions
10. The Different Effects Of Two Forms Of Recombinant CART Peptides On The Conditioned Place Preference Induced By Morphine In Mice
11. Effects Of Morphine On Levels Of Nitric Oxide, Glutamate And Glutamine And Expression Of The Related Metabolic Key Enzymes In Rat C6 Glioma Cell
12. Effect Of Morphine Addiction And Withdrawal In Parents Prior To Mating On The Anxiety-like Behavior And Spatial Learning-memory In Adult Offspring Rats
13. GABA Improve Response Modulation Of Primary Visual Cortex In Chronic Morphine Exposed Cats
14. Studies On The Structure And Function Of Tow Spider Toxins
15. Effects Of MrgC Receptors On Morphine-induced Activation Of Glial Cells In The Spinal Cord And Their Mechanism
16. Endoplasmic Reticulum Stress Contributes To The Development Of Morphine Tolerance And Hyperalgesia
17. GABAergic Neurons Of Ventral Tegmental Area Target Dorsal Raphe Nucleus And Participate In Morphine Dependence
18. Construction Of A Turbulent Shear Stress System For Human Bladder Based On A Bacterial Biofilm Reactor
19. Research On The Mechanism Of Action Of Cono Polypeptide Eb1.6 And Con-T[M8Q]
  <<First  <Prev  Next>  Last>>  Jump to