ライフサイエンスコーパス: transection

1 tput and that this effect survives a sciatic transection.

2 8 genes were differentially regulated by ION transection.

3 atients who sustained complete digital nerve transection.

4 up received 90% PVL combined with parenchyma transection.

5 the extended hippocampal system, via fornix transection.

6 ns were labeled retrogradely from beyond the transection.

7 al, or pulmonary ablation instead of hepatic transection.

8 tex in the absence of motor output and after transection.

9 e pancreatic duct was dilated at the site of transection.

10 fted into the site of a complete spinal cord transection.

11 ively similar mixed E/I before and after the transection.

12 and neurogenesis occurred after spinal cord transection.

13 input from the brain after a complete spinal transection.

14 tually abolished by superior laryngeal nerve transection.

15 associated with significant bleeding on tail transection.

16 edal was removed and after a complete spinal transection.

17 ling in bone-derived cells after spinal cord transection.

18 tinct time points after complete spinal cord transection.

19 d muscles for at least 12 months after nerve transection.

20 -mesh (46) reinforcement of their pancreatic transection.

21 flammation and regeneration after caudal fin transection.

22 ), or pharmacological preconditioning before transection.

23 a 2-yr old with a high cervical spinal-cord transection.

24 sions and spasticity worsened after complete transection.

25 male Lewis rats (n=8 per group) by meniscal transection.

26 ed mating behavior of rats with pelvic nerve transection.

27 gait patterns following complete spinal cord transection.

28 f injured nerves and help prevent accidental transection.

29 synovial angiogenesis 35 days after meniscal transection.

30 starts and peaks within 2 weeks after nerve transection.

31 ral plasticity resulting from forelimb nerve transection.

32 ermined by P5, is revealed after spinal cord transection.

33 te hind limb paralysis due to T8 spinal cord transection.

34 pinal cord after a concomitant dorsal column transection.

35 8 genes were differentially regulated by ION transection.

36 sily recorded, disappearing after NMB and SC transection.

37 all compared to those observed after TN full transection.

38 acids 4 days after bilateral olfactory nerve transection.

39 after nerve crush and by difference to nerve transection.

40 aErbB2) selectively in SCs after DR crush or transection.

41 n factor (BNDF), was decreased following ION transection.

42 strate for motor system plasticity following transection.

43 tex tolerance to microradiosurgical parallel transections.

44 5%), penetrating ulcers (54, 14%), traumatic transections (25, 6%), and other pathologies (23, 6%).

45 At 7 months after transection, 70% of OEG-treated rats showed motor-evoked

46 After complete nerve transection, a major challenge for regenerating peripher

47 ver, tSNA was decreased after pre-collicular transection, a response similar to that seen in EH rats.

48 ed using a rabbit anterior cruciate ligament transection (ACLT) model.

49 cal loading in an anterior cruciate ligament transection (ACLT) mouse model of osteoarthritis.

50 Unilateral ACL transection (ACLT) of the right hind limb was performed

51 remove SnCs after anterior cruciate ligament transection (ACLT).

52 me [OP] time, blood loss, method of pancreas transection, additional operative procedures), and histo

53 In contrast, hypogastric nerve transection alone did not affect paced mating and had no

54 S doubled relative to PVL, whereas mice with transection alone disclosed minimal signs of regeneratio

55 partition and portal vein ligation (PVL plus transection=ALPPS) or the addition of the prolyl-hydroxy

56 choice for symptomatic DCHR is pull-through transection and colo-anal anastomosis.

57 ct adult rats and the same rats after spinal transection and compare these with adult rats spinal tra

58 beled lamprey spinal axons after spinal cord transection and detected mRNA in axon tips by in situ hy

59 Mice underwent hindlimb Achilles' tendon transection and dorsal burn injury (burn/tenotomy) to in

60 e Transection and Sutures (SU), and Stepwise Transection and Glue (STG).

61 rtheless, when spinal dorsal ascending tract transection and H-reflex conditioning were combined, the

62 portal vein embolization, if used, types of transection and hepatectomy.

63 -null mice exhibit greatly delayed AxD after transection and in models of neurological disease, sugge

64 Here, we use laser nerve transection and in vivo, time-lapse imaging in zebrafish

65 abolished by recurrent laryngeal nerve (RLN) transection and mimicked by electrical stimulation of th

66 Adult female rats received a low thoracic transection and passive cycling exercise for 1 or 4weeks

67 and (3) left-sided RFCA resulted in isthmus transection and prevention of VT induction.

68 in a more severe injury model, sciatic nerve transection and reanastamosis.

69 tion was again impaired 2 months after nerve transection and reanastamosis.

70 generation of mature axons across a complete transection and reorganization of spinal circuitry, both

71 Early transection and stimulation studies suggested the existe

72 T), Simple Transection & Glue (TG), Stepwise Transection and Sutures (SU), and Stepwise Transection a

73 thin the first 2 minutes, whereas the spleen transection and tail-cut models resulted in a steady los

74 n regeneration across a complete spinal cord transection and that this regeneration altered motor res

75 either 80% massive small bowel resection or transection and were harvested after 48 hours.

76 vical or complete upper thoracic spinal cord transections and examined whether combinatorial treatmen

77 Sciatic nerve transections and repairs were performed in three groups

78 was not found in animals with both callosal transections and unilateral lesions.

79 Ipsilaterally, both deafferentation (IoN transection) and deprivation (whisker trimming) reduced

80 ignificantly near the lesion at 2 weeks post transection, and decreased thereafter.

81 ve identification, reducing accidental nerve transection, and facilitating repair of damaged nerves.

82 ed extensive oligodendrocyte loss and axonal transection, and increased infiltration by inflammatory

83 his work shows that while the effects of MLF transection are permanent, the ATD section produces tran

84 this can be accomplished after complete cord transection are quite limited.

85 ost potent SARM1 dominant-negative and nerve transection as a model of severe AxD.

86 ells are lost following optic nerve crush or transection at 3 weeks, and all Brn3a-, SMI-32-, and mel

87 Rats (n = 48) received spinal cord transection at 5 days of age, and 4 weeks later half wer

88 s (RCs) is disrupted by thoracic spinal cord transection at postnatal day 5 (P5TX).

89 hepatectomy, which incorporates parenchymal transection at stage 1 enabling resection of extensive l

90 Sprague Dawley rats received a spinal cord transection at T12 and were assigned to SCI-7d, SCI-14d,

91 e-Dawley rats underwent complete spinal cord transection at T8.

92 transections, failed to reduce tSNA, whereas transection at the medulla-spinal cord junction massivel

93 We performed a facial nerve transection axotomy in both mSOD1 subgroups prior to dis

94 return of motor function after sciatic nerve transection, because of the delay in motor axons reachin

95 avior to include bilateral hypogastric nerve transection, bilateral pelvic nerve transection, or tran

96 icacy in protecting HemA mice from tail vein transection bleeding induced 24-48 hours after dosing.

97 lly important is that, after complete spinal transection, both neonatal and mature adult spinal cords

98 d another undergoing lumbar spinal cord (SC) transection, both serving as controls.

99 ensions was not significantly reduced by RLN transection but they were virtually abolished by superio

100 ospinal neurons by 5 weeks after spinal cord transection, but was reexpressed at 10 weeks selectively

101 lia respond rapidly and dynamically to nerve transections by extending processes into injury sites an

102 le, rats that have undergone a thoracic (T2) transection can learn to maintain a hind leg in a flexed

103 BAT during cold exposure, following a brain transection caudal to the hypothalamus, and during the b

104 del of OA was generated by cruciate ligament transection (CLT) and evaluated by histopathology and im

105 ptic nerve invasion, invasion of optic nerve transection, combined nonmassive choroidal and prelamina

106 y nerve regeneration following digital nerve transection compared to surgery alone.

107 ords +1d, +3d, and +7d after complete spinal transection, compared to age-matched controls.

108 At 9 weeks after meniscus transection, composite nanoparticles were injected and j

109 Results revealed that RLN transection created ipsilateral VF paralysis that did no

110 ransection (CTX), SHAM surgery, and combined transection (CTX + GLX).

111 Chorda tympani nerve transection (CTX) has been useful to study the relations

112 lateral GL transection (GLX), chorda tympani transection (CTX), SHAM surgery, and combined transectio

113 for the first time how in response to nerve transection distal Schwann cells change morphology as ax

114 ry and regeneration, including dorsal column transection, dorsal root rhizotomy and peripheral axotom

115 Chorda tympani nerve transection eliminated all labeled innervation to taste

116 Bilateral pudendal nerve transection eliminated PFCN stimulation-induced anal twi

117 n the spinal cord and the periphery (sciatic transection), eliminates the capacity to learn, which im

118 rtan, followed by pre-collicular and pontine transections, failed to reduce tSNA, whereas transection

119 After spinal transection, five/six cats performed backward locomotion

120 Adult rats underwent complete tibial nerve transection followed by microsurgical reattachment and 1

121 Following spinal transection, functional activity can be regained, to a d

122 split-belt locomotion six weeks after spinal transection, functions that were not trained or tested i

123 generation to direct growth cones across the transection gap and onto their original axonal trajector

124 transection: Simple Transection (ST), Simple Transection & Glue (TG), Stepwise Transection and Suture

125 vided into four surgery groups: bilateral GL transection (GLX), chorda tympani transection (CTX), SHA

126 vocal and respiratory dysfunction in the RLN transection group, but not the sham injury group.

127 ks after injury, produced by pyramidal tract transection, half of the rats received forelimb motor co

128 After nerve transection, Ia afferent synapses and stretch reflexes a

129 tion impaired tissue regeneration after tail transection, implicating Mmp9 in acute wound repair.

130 ly after a complete low-thoracic spinal cord transection in adult rats.

131 n regeneration across a complete spinal cord transection in adult rats.

132 standing and locomotion recover after spinal transection in cats without task-specific training.

133 After spinal cord transection in lampreys, axons of the large, identified

134 ophthalmoscopy demonstrated that optic nerve transection in Long-Evans rats increased superoxide leve

135 l activity following cutaneous sensory nerve transection in melanoma orthotopic models significantly

136 recovery following extracranial facial nerve transection in mice.

137 dney injury by performing bilateral ureteral transection in mice.

138 iation task, echoing the effects of uncinate transection in monkeys.

139 of spatial learning impairments after fornix transection in nonhuman primates, critically highlightin

140 ow occlusion reduces blood loss during liver transection in selected patients but is potentially harm

141 mill speeds before and after complete spinal transection in six adult cats (three males and three fem

142 f neonatal cats and implanted at the site of transection in the medial longitudinal fascicle of adult

143 representation persists after sensory nerve transection, indicating an efferent source.

144 eminate to the brain following sciatic nerve transection, indicating that wild-type reovirus can spre

145 Sciatic nerve transection induced upregulation of OPN and CLU and expr

146 g peptides in mice with thoracic spinal cord transection injuries induce significant axon growth of d

147 Following a transection injury to the axon, neurons from a number of

148 xinA4/NgR1 triple mutants through a complete transection injury.

149 Peripheral nerve transection is associated with permanent functional defi

150 ication of a short period of ischemia before transection (ischemic preconditioning), or pharmacologic

151 sive transfer mouse model by L5 spinal nerve transection (L5SNT; modified Chung's model) and systemic

152 After spinal cord transection, lampreys recover functionally and axons reg

153 promoter, that after a complete spinal cord transection, large numbers of V2 interneurons are genera

154 anization and wound healing compared to tail transection (LeBert et al., 2018).

155 and beyond an extensive thoracic spinal cord transection lesion in adult rats.

156 nitors (RN-NSCs) into a complete spinal cord transection lesion site in adult female rats.

157 t patients with >40% acini in the pancreatic transection line are most prone to PPDC.

158 tage of acini was calculated from pancreatic transection line frozen samples by a pathologist.

159 Mesh reinforcement of pancreatic transection line significantly reduces the incidence of

160 Fluorescence at the transection margin correlated with final pathologic asse

161 ans, we developed a novel pre-clinical nerve transection method that allows reliable evaluation of ne

162 KO mice showed dramatic bleeding in the tail transection model and defective hemostasis in the FeCl3-

163 We used a complete spinal cord transection model and olfactory ensheathing cell (OEC) o

164 number of neurons changed in a sciatic nerve transection model of neuropathic pain or in the Complete

165 bution were evaluated in the medial meniscus transection model of OA (5-, 10-, and 15-month old male

166 ssociated with pain behavior in the meniscal transection model of OA.

167 The spleen transection model resulted in the greatest blood loss (P

168 In a near-total thoracic transection model, ephrinB3(-/-) mice show greater spast

169 Using the glossopharyngeal nerve transection model, we show that systemic delivery of R-s

170 bridge injured nerves in a rat sciatic nerve transection model.

171 The liver laceration and spleen transection models resulted in the greatest degree of he

172 liver laceration (3.0 x 1.5 cm), and spleen transection models.

173 After acute spinal transection MRRFs become wide, but their manifestation i

174 ice, divided into two groups: Unilateral RLN Transection (n = 11) and Sham Injury (n = 10).

175 asion (n = 71, 49%), invasion of optic nerve transection (n = 3, 2%), combined choroidal and optic ne

176 By 2 weeks post transection, neurons expressing PTPsigma also showed cas

177 ted that during the first h after caudal fin transection, neutrophils migrate from the hematopoietic

178 Neither spinal dorsal ascending tract transection nor H-reflex conditioning alone impaired loc

179 labeling could not be attributable solely to transection of afferents that enter HVC rostrally.

180 ach resulted in complete procedural success (transection of anatomic isthmus and noninducibility) and

181 tion, bilateral pelvic nerve transection, or transection of both the hypogastric and pelvic nerves.

182 Here, we establish that complete transection of corticospinal pathways in the pyramids im

183 ve deafferentation from cats with unilateral transection of either the MLF or the ATD.

184 Uninjured neurons were unaffected by transection of major nerve branches, segregating into ma

185 r is limited to non-severe injuries in which transection of nerves necessitates surgical intervention

186 ced by direct deafferentation resulting from transection of NM axons.

187 Breakpoint mapping revealed transection of SIPA1L3 at 19q13.1 and reduced SIPA1L3 ex

188 was defined as noninducibility of any VT and transection of the anatomic isthmus and was achieved in

189 Motoneuron death after transection of the axons (axotomy) in neonates is believ

190 chronotropic vagal tone also remained after transection of the brainstem through the caudal pons.

191 After transection of the caudal pons, part of the remaining to

192 We show that after transection of the CBD, mimicking the situation after li

193 After transection of the CBD, these 4 measurements were repeat

194 e nucleus of the solitary tract (nTS), after transection of the CT.

195 e episodic memory impairment in monkeys with transection of the fornix is exacerbated by prior deplet

196 After recovery and initial transection of the graft bridge, there was an unusual, o

197 The transection of the inferior alveolar nerve (IANx) produc

198 Transection of the L4 dorsal root or intrathecal infusio

199 and evoked pain hypersensitivity after acute transection of the L5 spinal nerve (SNT) in awake rats.

200 This entrainment persists following transection of the major axonal pathways between hippoca

201 wenty-three patients with complete traumatic transection of the median or ulnar nerve in the forearm

202 d to DP without (DP) or with stenting before transection of the neck of the gland (DP + stent).

203 Transection of the nonhuman primate fornix has been show

204 growth and nerve regeneration after complete transection of the Octopus pallial nerves.

205 edial amygdala within a day, whereas partial transection of the optic nerve led to MRI detection of d

206 nerated granule cells to unilateral complete transection of the perforant path in vivo, we tracked th

207 We show that, following complete transection of the rat spinal cord at S2 level, AADC cel

208 o the injury site immediately after complete transection of the rat spinal cord.

209 mary afferent input was either eliminated by transection of the right infraorbital nerve (IoN), or se

210 Using an established model of complete transection of the sciatic nerve for comparison, we obse

211 Transection of the sciatic nerve in the M83 Tg mice sign

212 Transection of the sciatic nerve prior to hind-limb inoc

213 ndlimb bike exercise after complete thoracic transection of the spinal cord in adult rats.

214 However, following complete transection of the spinal cord, small amounts of 5-HT re

215 esynchronized rats that had undergone either transection of the thoracic splanchnic nerve or sham tra

216 to probe the effects of partial infraorbital transection of the trigeminal nerve at the cellular leve

217 At termination, under anaesthesia, transection of the vagi rostral to the stimulation site

218 This effect was abolished by surgical transection of the vagus nerve and was not observed in o

219 Pharmacological blockade and surgical transection of the vagus nerve inhibit vagus nerve-evoke

220 d a rat healing model assayed after surgical transection of their medial collateral ligaments (MCLs).

221 d in primary sensory neurons, but only after transection of their peripheral axon.

222 Spinal transections of post-switch larvae reestablished the imm

223 The effects of infraorbital nerve (ION) transection on gene expression in the adult female rat b

224 The effects of infraorbital nerve (ION) transection on gene expression in the adult male rat bar

225 ental spinal cord hemisection, contusion, or transection on locomotor recovery measured by the Basso,

226 trophil migration was assessed after tailfin transection or copper sulfate treatment.

227 xons that regrew along SC processes past the transection or crush site.

228 rtant goal during surgery because accidental transection or injury leads to significant morbidity, in

229 Controls underwent either transection or PVL alone.

230 oups, including naive control, sciatic nerve transection or repair, immediate transplantation, SCS, a

231 ic nerve transection, bilateral pelvic nerve transection, or transection of both the hypogastric and

232 h as corpus callosotomy and multiple subpial transections, or through neurostimulation techniques, su

233 re motor function after complete spinal cord transection owing to a complex cellular response that in

234 rtrophy between total or partial parenchymal transection (P = 0.45).

235 The transection plane is mainly composed of cysts, with limi

236 injury (SCI) and/or bilateral pudendal nerve transection (PNT).

237 Partial optic nerve transection (pONT) is an established model of optic neur

238 nfocal immunocytochemistry revealed that MLF transection produced also a higher loss of synaptic bout

239 Both MLF and ATD transection produced similar short-term alterations in m

240 In an animal 7 weeks post transection, regenerated axons were labeled retrogradely

241 gical relays across sites of complete spinal transection, resulting in functional recovery.

242 ed restoration of motor function after nerve transection/resuture by enabling motor synapse reinnerva

243 pic glutamate receptors in the DMH, or brain transection rostral to DMH, blocked cold-evoked or NMDA

244 However, because moving the plane of transection rostrally, or damaging or manipulating speci

245 Development of a rat complete spinal cord transection/SC bridge model allowed the demonstration th

246 into spinal gray matter after dorsal column transection SCI.

247 ion recovery 14 to 28 days after spinal cord transection (SCT) in rats.

248 Partial parenchymal transection seems to reduce morbidity without negatively

249 The EC transection shifted balance between inhibitory and excit

250 Moreover, combined CTX + GLX transection shifted the concentration-response function

251 Blood loss after tail transection significantly decreased in Tfpi(+/-);F8(-/-)

252 t-negative can remain intact for >10 d after transection, similar to the protection observed in SARM1

253 ned to four different types of sciatic nerve transection: Simple Transection (ST), Simple Transection

254 monstrate that Schwann cells neighboring the transection site express the lh3 substrate collagen4a5 a

255 een fluorescent protein into the T4 complete transection site of adult rats.

256 elongated through a DR crush site, but not a transection site, and grew along the root at >1.5 mm/d w

257 area to the left of the presumed pancreatic transection site.

258 was noted 2 weeks after injury at the tendon transection sites when compared with the contralateral,

259 al neural stem cells (NSCs) into spinal cord transection sites.

260 n beyond both C5 hemisection and T3 complete transection sites.

261 ury conditions at 3 days after sciatic nerve transection (SNT).

262 d monocytes in a mouse model of spinal nerve transection (SNT).

263 neration of injured axons through a complete transection spinal cord injury.

264 ies for the regeneration of peripheral nerve transections, spinal cord injuries and brain traumatic i

265 No adult control rats with neonatal spinal transections spontaneously achieve similar changes.

266 t types of sciatic nerve transection: Simple Transection (ST), Simple Transection & Glue (TG), Stepwi

267 mbines portal vein ligation (PVL) with liver transection (step I), followed by resection of the depor

268 Transection studies by Jouvet first demonstrated that th

269 Classical transection studies suggest that, in addition to the hyp

270 lanted under the corneal flap after lamellar transection surgery to determine the neuronal and inflam

271 pendently associated with CR-POPF: method of transection, suture ligation of the pancreatic duct, sta

272 Seven weeks after complete T3 spinal cord transection (T3-SCI, n = 15) or sham injury (Sham, n = 1

273 ion, whereas sudden interruption, such as in transection tendon injury, destabilizes the structural o

274 After spinal cord transection, TH1(+) immunoreactivity is completely lost

275 modularity to rats that had neonatal spinal transection than to themselves before injury.

276 s selectively in the axon segments distal to transection that are destined to degenerate.

277 phenotype was recapitulated by diencephalic transections that removed the dopaminergic otpb populati

278 After complete spinal transection, the ability of these neurons to convey info

279 vers to normal levels by 8 weeks after nerve transection, the arrangement of regenerated nerves is ab

280 After spinal cord transection, the generation of stepping depends on neuro

281 During regeneration after transection, the spinal cord tissues displayed a signifi

282 ter the well-trained monkeys received fornix transection, they were impaired in learning new visuospa

283 ion of the thoracic splanchnic nerve or sham transection to the remaining adrenal.

284 de (atenolol) combined with spinal cord (C1) transection (to remove sympathetic influences), intraven

285 ptor blockade combined with spinal cord (C1) transection (to remove sympathetic influences), systemic

286 onist Losartan and subsequent pre-collicular transection (to remove the hypothalamus) significantly r

287 resective neurosurgery and multiple subpial transection, transcranial magnetic stimulation, vagal ne

288 As expected, sciatic nerve transection triggered WGA expression in NPY-positive DRG

289 single human VKDP, immediately prior to tail transection (TT), liver laceration (LL), or intravascula

290 Patients with complete digital nerve transection underwent epineurial nerve repair.

291 nchyma, which allows for rapid and bloodless transection using electric scalpel.

292 n (e.g. surgical access such as laparoscopy, transection variants etc.).

293 Total parenchymal transection was identified as an independent risk factor

294 esions of the mammillary bodies, like fornix transection, was exacerbated by prior removal of tempora

295 Moreover, 2 months after ATD transection, we observed an increase in synaptic coverag

296 otor output before and after complete spinal transection, we show that temporally scaled activity occ

297 ered stable hindlimb locomotion after spinal transection were implanted with electrodes to record hin

298 Rats with pelvic nerve transection were less likely to exit the male compartmen

299 y on recordings from blebs formed after axon transection, which may exaggerate the passive propagatio

300 tive procedures [corpus callosotomy, subpial transection]), with prospective annual follow-up for a m