X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (16536) 16536
Publication (1298) 1298
Book Review (208) 208
Book Chapter (76) 76
Dissertation (24) 24
Conference Proceeding (22) 22
Book / eBook (7) 7
Reference (6) 6
Magazine Article (2) 2
Newsletter (2) 2
Data Set (1) 1
Technical Report (1) 1
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
animals (11882) 11882
substance-p (7943) 7943
male (7794) 7794
rats (6302) 6302
substance p (5094) 5094
neurosciences (5003) 5003
humans (4158) 4158
female (3550) 3550
substance p - pharmacology (3231) 3231
index medicus (3166) 3166
pharmacology & pharmacy (2803) 2803
substance p - metabolism (2719) 2719
gene-related peptide (2239) 2239
rats, sprague-dawley (2235) 2235
mice (1911) 1911
immunohistochemistry (1833) 1833
rat (1779) 1779
in vitro techniques (1656) 1656
neuropeptides (1653) 1653
neurons (1567) 1567
dose-response relationship, drug (1466) 1466
rats, wistar (1445) 1445
release (1442) 1442
capsaicin (1429) 1429
inflammation (1409) 1409
physiology (1393) 1393
capsaicin - pharmacology (1343) 1343
pain (1264) 1264
biochemistry & molecular biology (1249) 1249
guinea pigs (1238) 1238
adult (1140) 1140
rats, inbred strains (1071) 1071
calcitonin gene-related peptide (992) 992
spinal-cord (956) 956
middle aged (945) 945
electric stimulation (939) 939
tachykinins (939) 939
endocrinology & metabolism (910) 910
expression (898) 898
sensory neurons (898) 898
substance p - physiology (894) 894
calcitonin gene-related peptide - metabolism (855) 855
immunology (852) 852
receptors (852) 852
substance p - analogs & derivatives (797) 797
clinical neurology (794) 794
spinal cord (787) 787
substance p - analysis (784) 784
time factors (784) 784
cells, cultured (775) 775
receptor (764) 764
cell biology (763) 763
neurons - metabolism (761) 761
disease models, animal (760) 760
peptides (722) 722
neurogenic inflammation (710) 710
spinal cord - metabolism (710) 710
receptors, neurokinin-1 - metabolism (680) 680
guinea-pig (678) 678
peptide fragments - pharmacology (676) 676
analysis (662) 662
muscle contraction - drug effects (659) 659
neurokinin-1 receptor antagonists (630) 630
brain (622) 622
activation (615) 615
neurons - drug effects (602) 602
physiological aspects (600) 600
cells (589) 589
histamine (587) 587
aged (582) 582
research (579) 579
spinal cord - drug effects (576) 576
radioimmunoassay (573) 573
article (554) 554
nitric-oxide (540) 540
substance p - antagonists & inhibitors (535) 535
neuropeptides - metabolism (522) 522
central-nervous-system (521) 521
vasoactive intestinal polypeptide (521) 521
primary sensory neurons (520) 520
nervous system (518) 518
messenger-rna (513) 513
pain - physiopathology (511) 511
stimulation (511) 511
in-vitro (506) 506
rodents (505) 505
cgrp (503) 503
nitric oxide (502) 502
neurons - physiology (499) 499
rabbits (497) 497
nerve growth-factor (492) 492
skin (484) 484
dorsal horn (481) 481
muscle, smooth - drug effects (474) 474
mast-cells (467) 467
respiratory system (459) 459
neurokinin a (458) 458
nociception (454) 454
immunoreactivity (453) 453
cats (451) 451
more...
Library Location Library Location
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (16413) 16413
Japanese (60) 60
German (42) 42
Chinese (33) 33
French (26) 26
Korean (9) 9
Russian (7) 7
Spanish (6) 6
Polish (4) 4
Hungarian (3) 3
Italian (3) 3
Portuguese (2) 2
Swedish (2) 2
Romanian (1) 1
Slovak (1) 1
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Journal of Neuroscience, ISSN 0270-6474, 05/2011, Volume 31, Issue 20, pp. 7563 - 7567
Journal Article
Journal of Headache and Pain, ISSN 1129-2369, 2016, Volume 17, Issue 1, p. 69
Journal Article
Journal Article
Brain, Behavior, and Immunity, ISSN 0889-1591, 2016, Volume 57, pp. 227 - 242
Highlights • Analgesia can be mediated by δ-, μ- and κ-opioid receptors (OPR) in immune cells. • Leukocyte OPR-induced analgesia involves Ca2+ -regulated... 
Psychiatry | Allergy and Immunology | IP3 receptors | Pain | Calcium | PLC | Opioids | G-protein | Immune cells | Neuropathic pain | receptors | SUBSTANCE-P RELEASE | INFLAMED TISSUE | DORSAL-ROOT GANGLIA | IMMUNOLOGY | NERVE INJURY | NEUROSCIENCES | BETA-ENDORPHIN | PRE-PROENKEPHALIN | INFLAMMATORY PAIN | MORPHINE ANALGESIA
Journal Article
Journal Article
Pain, ISSN 0304-3959, 2001, Volume 93, Issue 2, pp. 191 - 196
The effect of gabapentin on the release of the spinal sensory neurotransmitter glutamate has been investigated in an in vitro model using a perfused thin slice... 
Trigeminal nucleus | Gabapentin | Glutamate | Substance P | NEURONTIN | NEURALGIA | ACID | S-(+)-3-ISOBUTYLGABA | GLUTAMATE RELEASE | BLOCK | NEUROSCIENCES | CLINICAL NEUROLOGY | RANDOMIZED CONTROLLED TRIAL | PAIN | gabapentin | ANESTHESIOLOGY | HYPERALGESIA | substance P | trigeminal nucleus | glutamate | MODULATION
Journal Article