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Keyword [bee venom]
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1. The Underlying Mechanism Of Experimental Mirror-Image Hyperalgesia
2. Studies On The Anti-Cancer Activity And The Oral Colon Delivery System Of Bee Venom
3. Spinal Cord 5-Hydroxytryptamine1A Receptor Is Involved In Descending Facilitating Nociception
4. A Study On Spinal Actions Of Intravenous Anesthetics
5. Melittin-induced Inflammatory Pain And Hyperalgesia
6. Separation And Purification Of Bee Venom Peptidergic Components And Their Biological Functions
7. The Underlying Neural Mechanisms Of Peripheral Snake Venom And Bee Venom Induced Hyperalgeisa
8. Development Of Melittin-based Gene Therapy Method To Treat Ra
9. Persistent Nociception-induced Synaptic Plasticity In The Primary Somatosensory Cortex In Rats And Its Mechanisms
10. The Roles Of P2x Receptors And NK Receptors In Bee Venom Induced Pathological Pain
11. The Roles Of Spinal Protein Kinases In Bee Venom-induced Pathological Pain
12. Effects Of Neonatally Persistent Inflammatory Nociception On Pain Sensitivity And Expression Of Spinal NGF, TrkA, BDNF, TrkB,IL-IP-1β, And COX2 In Mature Rats
13. Establishment And Application Of Evidence-based Experimental Medicinal Methods On Screening Anti-nociceptive And Anti-inflammatory Traditional Chinese Medical Herbs
14. Distribution Of 5-HT1 Receptor Subtypes In The Spinal Cord And Dorsal Root Ganglion In The Rat And Changes Of Them Induced By Bee Venom Injection
15. Non-NMDA Excitatory Amino Acid Receptor Promotes Activation Of Astrocytes In The Spinal Dorsal Horn During Nociceptive Inputs In Rats
16. Experimental Study Of Bee Venom On The Immune Indexes Of Adjuvant-induced Arthritis Rats
17. Dissecting The Peripheral Mechanisms Underlying Bee Venom-induced Nociception And Inflammation In Conscious Rats: The Roles Of Protein Kinase A And C
18. The Neural Mechanisms Underlying The Effects Of Acute Restraint Stress On Bee Venom-induced Nociception And Inflammation
19. NMDA Receptor Participates Mediation Of Activation Of Spinal Astrocytes During Bee Venom-induced Inflammatory Pain And Hyperalgesia
20. Dissecting The Mechanisms Underlying Bee Venom-induced Pain And Inflammation In Rats: The Roles Of Peripheral MAPK Signal Transduction Pathways
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