ライフサイエンスコーパス: paw

1 to their skeletal insertions in the autopod (paw).

2 ce displaying symptoms of arthritis in other paws).

3 of 3-5 for arthritic paws and 0 for control paws).

4 th traumatic injury to the cornea from a dog paw.

5 DRL/DCL was made to partially deafferent one paw.

6 nt movements, including movement of limb and paw.

7 s of malondialdehyde (MDA) in the oedematous paw.

8 ed paw 4- to 5-fold more than in the control paw.

9 injection of complete Freund adjuvant in the paw.

10 muL, 10%) in the plantar surface of the hind paw.

11 t-evoked nociceptive stimulation to the hind paw.

12 n the injured (but not in the contralateral) paw.

13 cal hypersensitivity in the ipsilateral hind paw.

14 even preceding, withdrawal of the stimulated paw.

15 nnervating the ipsilateral and contralateral paw.

16 tration into different organs, including the paws.

17 llowing noxious heat stimulation of the hind paws.

18 rsed to a tendency to drag the dorsum of the paws.

19 etabolites between the control and arthritic paws.

20 to the proximal joints of the front and hind paws.

21 lack of pigment on the belly, tail tip, and paws.

22 d adjustments of the torso and un-stimulated paws.

23 ieval of proxies by TracMouse for individual paws.

24 contralateral or ipsilateral to an inflamed paw [1 h, 1 d, or 5-6 d after intraplantar injection of

25 (4) rats treated with formalin into the hind paw 30 min after subcutaneous morphine injection (morphi

26 (2) rats treated with FORMALIN into the hind paw 30 min after subcutaneous normal saline injection, (

27 -10 accumulated specifically in the inflamed paw 4- to 5-fold more than in the control paw.

28 4 residue of the Spt5 nonapeptide repeat T(1)PAW(4)NSGSK.

29 n lentivirus was directly delivered to mouse paws a synthetic promoter demonstrated excellent activat

30 , and histopathology induced by intraplantar paw administration of a C3aR agonist.

31 velop hyperalgesia and allodynia in the hind paw after L5 spinal nerve ligation.

32 Having established facial and hind-paw allodynia as a useful animal surrogate of headache-a

33 Facial and hind-paw allodynia associated with dural stimulation is a use

34 IM elicited robust facial and hind-paw allodynia, which peaked within 3 hours.

35 edal edema, increased arthritis score of the paw and ankle, increase in radiological and histological

36 nitoring purposes, clinicians rely mostly on Paw and flow waveforms.

37 ration in both males and females, while both paw and intrathecal PGE(2) hypersensitivity was more per

38 ant produced a significant reduction in hind paw and orofacial mechanical withdrawal thresholds as a

39 t develop mechanical hypersensitivity of the paw and showed greater levels of physical activity.

40 ons by sorting DRG neurons back-labeled from paw and thigh muscle.

41 Surprisingly, the central arbors of plantar paw and trunk innervating nociceptors have distinct morp

42 nspection (clinical index of 3 for arthritic paws and 0 for control paws) and histologic examination

43 ation (histologic score of 3-5 for arthritic paws and 0 for control paws).

44 ning withdrawal thresholds in the joints and paws and by measuring their physical activity levels.

45 Serum and local TNF in CIA paws and C. rodentium colons were significantly increase

46 by measurement of ankle swelling in the hind paws and histologic examination.

47 rved with an increase in IL-17 levels in the paws and in Th17 lymphocytes in the draining lymph nodes

48 Articular cartilage was harvested from the paws and knees of 5- and 6-month-old wild-type (WT) mice

49 wed findings of inflammation in the affected paws and no signs of arthritis in the control paws at bo

50 al ablation of interdigital webbing on mouse paws and normal lymphocyte homeostasis require the coope

51 17 production from CD4+ T cells in arthritic paws and splenic NK cell cytotoxic effector functions in

52 The difference between airway pressure (Paw) and Pes is a valid estimate of transpulmonary press

53 s neurons with RFs on the distal limb (wrist/paw) and slow-conducting PTNs typically showed peak firi

54 ex of 3 for arthritic paws and 0 for control paws) and histologic examination (histologic score of 3-

55 ot ganglion neurons innervating the inflamed paw, and augmented TRP channel-mediated calcium response

56 a-endorphin levels increased in the inflamed paw, and this increase and the antihyperalgesic effects

57 ity and structural differences between mouse paw/ankle GAGs and elbows/knee GAGs correlated with the

58 ferences in the forward motion of individual paws are fully accounted for by changes in walking speed

59 SC560 increased withdrawal latencies in both paws at 1 and 5hours after carrageenan administration.

60 old increase (P<0.001) in signal in inflamed paws at 8 hours following injection of anti-E-selectin a

61 aws and no signs of arthritis in the control paws at both visible inspection (clinical index of 3 for

62 to graded mechanical stimulation of the hind paws (brush, pressure, and pinch).

63 isplayed higher accumulation in the inflamed paw but also had higher accumulation in the control paw,

64 nses in nociceptors innervating the inflamed paw, but not in those innervating healthy tissue.

65 spread K8 expression in glabrous skin of the paws, but in the whisker pads and body skin ectopic K8+

66 n asymmetry in adhesive dot removal from the paws, but not in forelimb use in a cylinder or amphetami

67 d analgesia to mechanical stimulation of the paw by an opioid-dependent mechanism.

68 enuation of PGE2-induced hyperalgesia in the paw by the knockdown of NMDAR subunits NR1, NR2B, NR2D,

69 lactate was measured in inflamed and control paws by using (13)C MR spectroscopy.

70 s were evaluated by visual inspection of the paws, by histochemical analysis of tissue sections, and

71 DFT-PAW calculations accurately reproduce changes in electro

72 In this study, DFT-PAW calculations are calibrated against all-electron, re

73 TLQP-21-stimulated macrophages into rat hind paw caused mechanical hypersensitivity.

74 l killer (NK) and CD4+ T cells, in arthritic paw cell isolates.

75 a heightened signal transmission for plantar paw circuits, as revealed by both spinal cord slice reco

76 Paw circumference, thermal pain behavior, and histology

77 robust increase in serotonin content in the paws combined with less inflammation.

78 d induced stable hyperalgesia of the incised paw compared with IgG from healthy controls.

79 was also significantly increased in inflamed paws compared with control paws (P < .03).

80 ymph nodes, liver, kidneys, spleen, and hind paw containing the injection site were removed and weigh

81 at compounds led to reduction in swelling of paws, cytokine levels, and anticollagen IgG1/IgG2a level

82 ies within nuclei in typical molecules, when PAW datasets constructed with finite nuclei are used.

83 also had higher accumulation in the control paw, demonstrating a reduced signal-to-background ratio.

84 : (i) principal identification of anatomical paw details frame-by-frame by an experimentally blinded

85 rDAO inactivation produced paw drag during locomotion and a deficit in grasping the

86 as the foot trajectory as well as diminished paw drag often observed after hemisection.SIGNIFICANCE S

87 gional inflammatory response develops in the paw-draining lymph nodes by an IL-17-dependent mechanism

88 ures the ratio of change in Pes to change in Paw during inspiratory efforts against a closed airway.

89 ctivity by reducing neutrophil infiltration, paw edema and proinflammatory cytokine expression.

90 owed a concentration dependent inhibition on paw edema development after carrageenan treatment in mic

91 rescence imaging in vivo in a mouse model of paw edema generated by local injection of TNFalpha as we

92 ing enzyme inhibitors potentiated TCT-evoked paw edema in BALB/c, C57BL/6, and C5-deficient A/J mice

93 utaneous DX-2930 reduced carrageenan-induced paw edema in rats.

94 line) and using the carrageenan-induced hind paw edema model on rats.

95 9 xenografted tumor mouse model and a murine paw edema model, good bioavailability, and no significan

96 lammation in vivo in the carrageenan-induced paw edema mouse model.

97 Animals with either CIA or TNFalpha-induced paw edema were injected with anti-E-selectin or control

98 healthy volunteers followed by assessment of paw edema, hyperalgesia, inflammation, and central glial

99 Hind paw edema, inflammatory cell infiltration, and osteoclas

100 thacin partially blocked and did not reverse paw edema, suggesting that gait alterations must be prim

101 nistration of KLK14 results in C3-associated paw edema.

102 ow symmetric divisions can work to stabilize paw epidermis lineage, which experiences high level of m

103 expresses firefly luciferase (luc2p) in the paw epidermis--the region of murine epidermis that most

104 lifetime of individual cells in the ear and paw epidermis.

105 Paw flexing duration was decreased in both sexes during

106 rupt withdrawal signs (ie, platform jumping, paw flutters, head shakes, diarrhea, and total body weig

107 To demonstrate the efficacy of PAWS for detecting spinally versus centrally mediated be

108 Relative to hind paws, forepaws performed ~4 times more steps, they were

109 put needed for a complex, goal-directed fore-paw function and re-establishes synaptic transmission to

110 At pressure <6 GPa, the PAW-GGA can be described by a Birch-Murnaghan equation o

111 the brachial artery (BAO) induces increased paw-guarding behaviors, mechanical hypersensitivity, and

112 omotion was unsteady and high lifting of the paws had reversed to a tendency to drag the dorsum of th

113 ing the projector augmented wave method (DFT-PAW), has advantages in greater speed and compatibility

114 d hyperkeratosis on the volar surface of the paws (i.e., palmoplantar keratoderma), increased keratin

115 assigned to five groups; each had both hind paws immersed in water at different temperatures (no hea

116 nd time-to-remove the adhesive tape from the paw in a severity-dependent manner, indicating that our

117 induced unilateral inflammation of the hind paw in mice, and directly compared expression and functi

118 onse genes in vitro and in prediseased mouse paws in vivo.

119 to mechanical or thermal stimulation of hind paws, in comparison to Taxol(R) administration at the sa

120 Rats that experience hind-paw incision injury at 3 days of age, display an increas

121 d wild-type and MKP-3 knock-out (KO) mice, a paw incision model of acute postoperative pain, and beha

122 Hind paw incision was used in separate groups of animals to m

123 ults showed that (1) the mean BP of the left paw increased significantly following formalin injection

124 e injection of carrageenin into the rat hind paw induced a decrease in the mechanical nociceptive thr

125 locked fractalkine (i.gl.)- and carrageenin (paw)-induced hypernociception.

126 t anti-DCC, antibodies significantly reduced paw inflammation (clinical score: 9.8 +/- 0.8, 10.4 +/-

127 croMT(-/-) mice (B-cell deficient) developed paw inflammation at a similar rate and severity as WT mi

128 and thermal-pain hypersensitivity after hind-paw inflammation compared with wild-type littermates.

129 model of low back pain) and by a peripheral paw inflammation model.

130 and display significant inhibition in mouse paw inflammation models when delivered by lentivirus or

131 o in RAW264.7 cells and in vivo in mice with paw inflammation that is induced by lipopolysaccharide (

132 Paw inflammation was maximal 2 wk after injection.

133 us in rats when given orally to suppress rat paw inflammation, macrophage and mast cell activation, a

134 g with CXCR4 function in three mouse models: paw inflammation, Matrigel plug angiogenesis, and uveal

135 n antinociceptive effect in rats with a hind paw inflammation, without exhibiting characteristic CB1

136 t ganglion cytokine levels without affecting paw inflammation.

137 After a short-lasting paw inflammatory response in all groups, CRPS IgG-inject

138 sed behavioral responses and paw swelling to paw injection of complete Freund's adjuvant, a model of

139 of CD68/ED-1+, CD3+, and RANKL+ cells in the paws; interleukin-6 (transcript and protein) levels were

140 Pes helps determine what fraction of Paw is applied to overcome lung and chest wall elastance

141 stration reduced joint leukocytes as well as paw joint eicosanoids, clinical scores, and edema.

142 regulated endogenous RvD3 levels in inflamed paw joints and its potent actions in reducing murine art

143 decreased proinflammatory cytokines in their paw joints, there were significant functional and histol

144 ntrol and healing of the degeneration of the paws' joints, concomitantly with the systemic activation

145 Here, we capture paw kinematics during pain behavior in mice with high-sp

146 ed albino mice by 80% from capsaicin-induced paw licking and recovered it by 60% from carrageenan-ind

147 Swiss Albino mice through capsaicin induced paw lickings and dextran induced inflammation showed tha

148 Interestingly, a Cd(S-Au-S)3 "paw-like" surface motif is observed for the first time i

149 ributed, potential evolutionary intermediate PawS-Like1 (PawL1), which is matured into storage albumi

150 ly postsurgical edema and significantly less paw lymphedema compared with vehicle-treated animals at

151 d a greater preference for using their right paw; males were significantly more inclined to adopt the

152 versible, dose-dependent attenuation of hind paw mechanical allodynia for up to 1h after administrati

153 ard deviation, 0.52 +/- 0.16) versus control paws (median lactate-to-pyruvate ratio, 0.27; mean lacta

154 e in the amount of (13)C-lactate in inflamed paws (median lactate-to-pyruvate ratio, 0.50; mean lacta

155 ation of a D1 antagonist seems to facilitate paw-mediated increases in evoked firing.

156 exhibited a more severe phenotype than claw paw mice and had gliogenic defects in sensory, sympathet

157 w steps were classified as exploratory, hind paw movement as locomotive.

158 f cortical sites, a specific pattern of limb-paw movement combination did exist.

159 ned on the wrist and middle digits (limb and paw movement, respectively).

160 29-36 Hz rhythm in the STN was modulated by paw movement.

161 , retraction, elevation) and four classes of paw movements (opening, closure, opening/closure sequenc

162 though less dominant, it mediates voluntary paw movements in rats.

163 Four categories of limb-paw movements resembling behavioral repertoire were iden

164 , MPCs fail to migrate distally, and ventral paw muscles fail to form.

165 e mutated gene in spontaneously arising claw paw mutant mice), but Lgi4 is not known to play any role

166 ory activities of EDP were assessed in mouse paw oedema induced by lambda-carrageenan (Carr).

167 implanted subcutaneously on the dorsal hind paw of C57 mice while the tumor-free contralateral leg s

168 ut local injection of PGE(2)-G into the hind paw of HbAA-BERK mice produced sensitization of nocicept

169 e when injected subcutaneously into the hind paw of mice.

170 mal hyperalgesia when injected into the hind paw of mice.

171 Arthritis was induced in the right hind paw of six rats; the left hind paw served as an internal

172 d to image arthritic lesions in the inflamed paws of 29 mice using (99m)Tc-NbV4m119 Nanobody.

173 ional significant MMR signal in nonarthritic paws of affected mice (i.e., mice displaying symptoms of

174 selectin-targeted signal was observed in the paws of animals immunized with collagen that did not dis

175 ovial cells and extended this finding to the paws of arthritic mice.

176 is was performed using RNA isolated from the paws of male and female Pgia8-congenic mice with collage

177 mplete Freund's adjuvant (CFA) into the hind paws of rats.

178 neage afferents in the epidermis of the hind paws of the reporter mice showed that EGTA and MDL28170

179 strong pinch delivered to the rat posterior paw on spontaneous and current-evoked activity of PFC ne

180 the mechanical stimulus is presented to the paw on the side where the priming inducer was administer

181 omotion of intact cats required to place the paws on the rungs of a moving ladder treadmill (LTM); (2

182 ion of 5 ug of the probe in intact organs (a paw or tail of sacrificed mice) enabled efficient O(2) i

183 challenging the skin of the calf of the hind paw or the cheek of previously sensitized mice with the

184 efficacy of icilin applied topically to the paws or intrathecally was tested in rats after spinal ne

185 eased in inflamed paws compared with control paws (P < .03).

186 Our statistical software platform, PAWS (Pain Assessment at Withdrawal Speeds), uses a univ

187 cells, hemidesmosome proteins arrange in cat paw patterns, more typical of confluent, stationary cell

188 +) Ppara (-/-) mice did not demonstrate hind-paw perfusion recovery after feeding fenofibrate.

189 artially blocked the effects elicited by the paw pinch on cortical excitability, whereas systemic adm

190 ase in current-evoked firing elicited by the paw pinch was inversely correlated with the baseline fir

191 Following the paw pinch, pyramidal cells exhibited a significant decre

192 equiring enhanced muscle activity or skilled paw placement correlated with substantial adjustment in

193 n showed substantial improvements in skilled paw placement while walking over a horizontal ladder.

194 ring skilled movements that require accurate paw placements and trajectories like those seen during p

195 wal Speeds), uses a univariate projection of paw position over time to automatically quantify seven b

196 ments in use of the forelimb, as assessed by paw preference, paw withdrawal to tactile stimuli and th

197 gnificant positive correlation between cats' paw preferences at 6 months and at 1 year.

198 Findings indicate that cats develop paw preferences by 1 year and hint at a relative stabili

199 For the first time, the development of paw preferences in the domestic cat, Felis silvestris ca

200 t difference in the direction or strength of paw preferences of cats tested longitudinally or cross-s

201 e same cats at different ages, the subjects' paw preferences were compared with those of cats tested

202 t effect of age on the distribution of cats' paw preferences.

203 ificantly more likely to be ambilateral than paw preferent at 12 weeks and at 6 months but more likel

204 mparable to the MOR agonist oxycodone in the paw pressure test in mice.

205 such compounds was assessed by means of the paw-pressure and incapacitance tests using an in vivo RA

206 an inducer of priming is administered in the paw, priming can be detected in spinal cord (as prolonge

207 ate the "enlarged representation" of plantar paw regions in the CNS.

208 ct (CST) restore function in a directed fore-paw retrieval task and induce regeneration of severed CS

209 he mucosal cells also restored directed fore-paw retrieval.

210 Dissection of the paws revealed an additional significant MMR signal in no

211 Automated paw tracking combined with PAWS reveals a behaviorally divergent mouse strain that

212 Periorbital and hind paw sensory thresholds were measured to detect cutaneous

213 Multiple novel features pertaining to paw sequence, step lengths and exploratory touches were

214 he right hind paw of six rats; the left hind paw served as an internal control.

215 fect in the PGE2-induced hyperalgesia in the paw, showing specific involvement of NMDARs in this modu

216 prevention of PPK-like lesions in Krt16-null paw skin (via topical delivery of the Nrf2 inducer sulfo

217 n noted-higher in thickened epidermis of the paw skin as compared to ear and tail skin.

218 Paw skin blood flow, angiographic score, and capillary d

219 ted, CGRP-positive neurons projecting to the paw skin displayed elevated mechanical currents in respo

220 We found that mouse plantar paw skin is also innervated by a low density of Mrgprd(+

221 ivation induced de novo HFs also in hairless paw skin, divorced from confounding effects of pre-exist

222 sed in all tissues tested, including spleen, paw skin, lumbar dorsal root ganglia, and lumbar spinal

223 al other stratified epithelia, including the paw skin, tongue and esophagus.

224 tes, is markedly downregulated in Krt16-null paw skin, well-ahead of lesion onset, and is paralleled

225 by a decrease in the level of AEA in plantar paw skin.

226 beam unassisted, showing a reduced number of paw slips and misses.

227 phic responses to graded suprathreshold hind-paw stimuli in the 4 weeks following adult incision.

228 glia (DRG) L3-L5 ipsilateral to the affected paw suggests DRG neurons contribute to the increased FAA

229 ce, as determined by 2 independent measures, paw swelling (P < 0.01) and clinical disease score (P <

230 significantly less severe clinically evident paw swelling and deformity, less synovial and periarticu

231 ity in the affected tissues (as indicated by paw swelling and histochemical staining).

232 -17 partially inhibited the significant hind paw swelling and histopathological changes observed in B

233 imbs, which showed robust daily variation in paw swelling and inflammatory cytokine expression.

234 changes were correlated with lower levels of paw swelling and joint damage in the rh-FcgammaRIA-treat

235 of Kava-205Me was able to reduce efficiently paw swelling and joint destruction.

236 observed between serum FSTL1 levels and both paw swelling and the arthritis index.

237 Paw swelling and thickness were assessed and following e

238 Arthritis was assessed by measuring paw swelling and using a qualitative arthritis index.

239 ease severity by histological evaluation and paw swelling compared with GFP gene transfer controls.

240 ntification of a lead compound which reduced paw swelling in a dose- and exposure-dependent fashion i

241 ne 1 resulted in dose-dependent reduction of paw swelling in a mouse model of arthritis.1,2 However,

242 glucose-6-phosphate isomerase (GPI)-induced paw swelling model comparable to that seen with a TNFalp

243 tion, oral administration of META060 reduced paw swelling similar to the effect of aspirin.

244 HFD also increased behavioral responses and paw swelling to paw injection of complete Freund's adjuv

245 llowing therapeutic administration of SSRIs, paw swelling was assessed and clinical scores were deter

246 Paw swelling was scored daily from induction to end poin

247 Paw swelling, bone and cartilage degradation, and levels

248 ignificant reductions in clinical scores and paw swelling.

249 otype associated with growth retardation and paw swelling.

250 geenan (2%) into genital or nongenital (hind paw, tail, cheek) regions.

251 In paws taken from the collagen-induced arthritis study, th

252 Disease score and paw thickness were measured daily.

253 atory arthritis including arthritis indices, paw thickness, cartilage damage and neutrophil infiltrat

254 Outcome measures included paw thickness, lymphatic drainage, and lymphatic vessel

255 thritis (RA) synovial membrane tissue and in paw tissue from arthritic mice.

256 s, and immunohistochemistry; plasma and hind paw tissue levels of cytokines and chemokines (including

257 and protein) levels were rapidly reduced in paw tissue within 4 hours of the first dose, whereas it

258 centrations of morphine in the brain, blood, paw tissue, and in vitro confirmed the selective release

259 nt decrease in IL-17A expression in skin and paw tissue.

260 The use of the ipsilateral fore-paw to retrieve food pellets was studied in 55 rats with

261 GFR-3 neutralization on lymph transport from paws to draining popliteal LNs.

262 s and popliteal LNs, lymphatic drainage from paws to popliteal LNs, and the number of VEGF-C-expressi

263 challenge requiring them to use one of their paws to retrieve food.

264 Automated paw tracking combined with PAWS reveals a behaviorally d

265 ce with high-speed videography and automated paw tracking with machine and deep learning approaches.

266 but more likely to display a lateral bias in paw use at 1 year.

267 nd hint at a relative stability in preferred paw use over time.

268 ters of inflammation such as ankle swelling, paw volume, cartilage damage, bone resorption, and body

269 topography of spatial locations to which the paw was directed.

270 rol groups; however, licking of the injected paw was markedly increased by the same treatment at othe

271 Hyperalgesia was maximal when the same paw was reincised, and was increased following prior inc

272 NKG2D expression in arthritic paws was demonstrated by immunohistochemistry.

273 , neurons with receptive fields on the wrist/paw were located more ventrally, often discharged sleep-

274 nctions of the lumbrical muscles of the hind-paw were vulnerable in both SMA and ALS, with a loss of

275 and sensory thresholds of the face and hind-paws were characterized.

276 g paths curved to the injected side, and the paws were lifted higher than normal.

277 wing euthanasia 2-4 wk after serum transfer, paws were prepared for micro-computed tomography and his

278 mparison to inflammation, rats with inflamed paws were subjected to (18)F-NaF PET imaging.

279 ro and in vivo in synovial fluid of inflamed paws, whereas expression is relatively low in other tiss

280 nd enrolled in the Peers and Wellness Study (PAWS), which examined the effects of social status on he

281 atotic calluses on Krt16(-/-) front and hind paws, which severely compromise the animals' ability to

282 t glabrous skin blood perfusion in both hind paws, while a simultaneous heart rate (HR) and DRRs were

283 re injected subcutaneously in the right hind paw with (99m)Tc-SPIONs (25-50 MBq, approximately 0.2 mg

284 L5)-DRG induced hyperalgesia in the rat hind paw with a profile similar to that of intraplantar injec

285 the rats before simultaneous imaging of both paws with (13)C MR spectroscopy.

286 am- and sodium-depleted rats were tested for paw withdrawal and lick latencies to brief noxious heat

287 upernatant reduced nociceptive behavior in a paw withdrawal assay, supporting a role for exosomes in

288 elated with recovery of function as shown by paw withdrawal from a noxious heat source.

289 n to evoke nociception, measuring changes in paw withdrawal latencies (PWLs) induced by AGS.

290 To this end, paw withdrawal latencies and serum levels of PGE2 and PG

291 ks, hyperalgesia was evident (as measured by paw withdrawal latencies in the Hargreaves Test), which

292 Hyperalgesia, decreased paw withdrawal latency (PWL) to a noxious thermal stimul

293 Chronic constriction injury (CCI) reduced paw withdrawal latency, which was maximal at 10 days pos

294 uced scratching, laminae II/III INs generate paw withdrawal movements, and laminae III/IV INs modulat

295 the effects of the following SCS patterns on paw withdrawal threshold and resting state EEG theta pow

296 Paw withdrawal threshold and withdrawal latency (to mech

297 ecorded in the spinal nerves, as well as the paw withdrawal threshold.

298 cord, rats displayed markedly decreased hind paw withdrawal thresholds, indicative of below-level neu

299 the forelimb, as assessed by paw preference, paw withdrawal to tactile stimuli and the ability to gra

300 ceptors to produce analgesia in inflamed rat paws without major side effects such as sedation or cons