Font Size: a A A
Keyword [voltage-gated sodium channel]
Result: 1 - 20 | Page: 1 of 4
1. Investigation Of Ion Channels In Peripheral Nerve & Lymphocytes And Effect Of Tripterygium Polyglucoside In Experimental Allergic Neuritis Rats
2. The Modulating Effects Of Specific Modulators For Voltage-gated Sodium Channel On Rat Nociception And Epilepsy
3. Effects Of An Artificial Somatic-Autonomic Reflex Arc Procedure On Voltage-gated Sodium Channels In Bladder Major Pelvic Ganglion Neurons
4. The Role Of Nav1.8 On The Maintenance Of Hyperalgesia In A Rat Model Of Bone Cancer Pain
5. The Expression Study Of Voltage-gated Sodium Channel In The Hippocampus Of Spontaneously Epileptic Rat
6. Voltage Gated Sodium Channel Nav1.5 Functionally Expressed In Human Ovarian Caner
7. The Underlying Mechanisms Of Hypersensitivity Of DRG Neurons Of Rats After Noxious Colorectal Distention And The Role Of Lactobacillus Reuteri
8. Pharmacological Mechanism Of Long-chain Peptide Class Of Scorpion Neurotoxin
9. The Pathogenesis Of Epilepsy Of SCN1A Mutation
10. Research On Sodium Channel β4Subunit In Parkinson's Disease
11. Change Of Voltage-gated Sodium Channel α Subunit MRNA In Brain Of Spontaneously Epileptic Rat
12. The Research Of Ion Channel In Nitroglycerin Induced Migraine Model
13. Study Of The Dorsal Root Ganglion Ion Channel Expression Of The Sciatic Nerves In Rabbit After Electrical Injury
14. Association Of SCN1B Single Nucleotide Polymorphism With Epilepsy
15. Effects Of The Power Frequency Magnetic Fields With Different Intensities Exposure On Voltage-gated Channel Of Neurons
16. The Researches On Peripheral Neurological Effects Of Pesticide Use Among Farmers And Prediabetic Peripheral Neuropathy
17. The Study On Cellular And Molecular Mechanisms Of Nav1.8-Mediated Pain Nociceptive Signal Transmission Induced By BmK I
18. Plastic Change Of Axon Initial Segment Of Hippocampal CA3Neurons In Rat After Status Epilepticus Induced By Lithium And Pilocarpine
19. Expression Of Voltage Gated Sodium Channel Nav1.8in Human Dental Pulp
20. Neonatal Maternal Deprivation Sensitizes Sodium Channels By Cystathionine β-synthetase Activation In Colon Specific Sensory Neurons In Adult Rats
  <<First  <Prev  Next>  Last>>  Jump to