ライフサイエンスコーパス: nerve

1 n onto neurons, including those of the vagus nerve.

2 om the brain to the retina through the optic nerve.

3 showed a moderate involvement of the median nerve.

4 ior colliculus and degeneration in the optic nerve.

5 in neurons or glia in spinal cord, DRG, and nerve.

6 r differentiation pathway, such as Ascl1 for nerve.

7 and inhibits astrocyte activity in the optic nerve.

8 iative stimulation protocol using the facial nerve.

9 ns by electrical stimulation of a peripheral nerve.

10 edominantly affect the spinal cord and optic nerve.

11 e afferent innervation provided by the vagus nerve.

12 oked by electrical stimulation of the facial nerve.

13 lecular microenvironment, which includes the nerves.

14 ically responsive tissue such as muscles and nerves.

15 ed reinnervation of HSK corneas with sensory nerves.

16 resembling response to injury in peripheral nerves.

17 rebrum, cerebellum, heart, liver and sciatic nerves.

18 he inner hair cells that synapse on afferent nerves.

19 cation channels expressed in airway sensory nerves.

20 ients with COVID-19 may help to characterize nerve abnormality, to identify site and severity of nerv

21 ents in ICC-SS, and stimulation of intrinsic nerves activated nitrergic responses in ICC-SS.

22 this study, we focused on muscle sympathetic nerve activity (MSNA) burst size and occurrence separate

23 iates the ventilatory and muscle sympathetic nerve activity (MSNA) responses to hypoxia and contribut

24 sitively related to basal muscle sympathetic nerve activity (MSNA) under conditions where elevated pu

25 m visual analogue scale), muscle sympathetic nerve activity (MSNA; microneurography, 12 paired record

26 vasive recording of ECG and skin sympathetic nerve activity (SKNA), directly records sympathetic nerv

27 on of GAD65(+) TBCs increased chorda tympani nerve activity and activated gustatory neurons in the ro

28 Because the frequency content of nerve activity falls in a higher frequency range than th

29 uch as ATP, which in turn modulates afferent nerve activity in response to bladder filling during the

30 uced renal afferent and efferent sympathetic nerve activity in the kidney and globally.

31 ctivity (SKNA), directly records sympathetic nerve activity over a long period of time.

32 ammetric (SWV) detection of the fentanyl and nerve agent targets, respectively.

33 This study measured nerve agent-related neuropathology and determined whethe

34 Diabetes triggers peripheral nerve alterations at a structural and functional level,

35 SNHL.SIGNIFICANCE STATEMENT Loss of auditory-nerve (AN) cochlear innervation is a common problem in h

36 CCM with automated corneal nerve analysis identifies nerve fibre damage and may act

37 membrane (ILM) was peeled between the optic nerve and fovea and stuffed into the optic disc pit.

38 Nerve and islet-infiltrating CD4(+) T cells also differe

39 ypes of neuroimmune circuits, with the vagus nerve and sympathetic innervation of numerous organs now

40 They were activated by auditory nerve and T-stellate cells, and made local inhibitory sy

41 sacrifice the facial and/or spinal accessory nerves and because of a likely margin-positive (R1 or R2

42 proteins), arresting electrical activity in nerves and muscles and paralyzing would-be predators.

43 the therapeutic implications of manipulating nerves and neural signalling for the prevention and trea

44 bilities, analogous approaches to peripheral nerves and peripheral myelin have fallen behind evolving

45 fect of DVF during L-TME on pelvic autonomic nerves and postoperative urogenital function remains con

46 invasive procedures to impale electrodes in nerves and thus has advantages over microneurography.

47 eformations or movements of the eye or optic nerve, and if such changes could be linked to SANS.

48 , and functional recovery of injured sciatic nerves, and increased the ability of regenerating axons

49 ment (NCRNA) disease, characterized by optic nerve aplasia and total blindness.

50 apsaicin receptor, TRPV1, outside of sensory nerves are unclear.

51 udies highlight the importance of peripheral nerves as a new therapeutic target for metabolic disorde

52 Damage to vagus nerves as well as evidence of esophagus dilation occurre

53 isolated hearts, retinal tissues and sciatic nerves, as well as bioelectronic cardiac sensing.

54 ound action potential recorded in the spinal nerves, as well as the paw withdrawal threshold.

55 LHON) is a degenerative disease of the optic nerve associated with one of three mitochondrial DNA (mt

56 w-level, transcutaneous stimulation of vagus nerve at the tragus (LLTS) reduces cardiac inflammation

57 valence of intellectual disability and optic nerve atrophy/hypoplasia.

58 Remarkably, normal optic nerve axons also show temperature dependent effects, wit

59 been shown to promote degeneration of optic nerve axons and apoptosis of retinal ganglion cells (RGC

60 l (CI) [- 7.89, - 2.12], p = 0.001), corneal nerve branch density (mean difference: - 10.71 no/mm(2),

61 major structural changes at proximal sciatic nerve branches or distal toe nerve fascicles at the vinc

62 ction block in motor, sensory, and autonomic nerves, but causes transient activation of action potent

63 The surrounding or invasion of nerves by cancer cells (perineural invasion) was detecte

64 , supporting the hypothesis that invasion of nerves by cancer cells has a driving role in pancreatic

65 motor signal and a single spike in the motor nerve can be associated with ~50% inhibition of glutamat

66 rum of autoimmune diseases of the peripheral nerves, causing weakness and sensory symptoms.

67 icose-like structures surrounding individual nerve cell bodies innervating the spleen.

68 hancing myelin regeneration, hence restoring nerve conduction and metabolic support to the axon.

69 tibialis anterior muscle was confirmed with nerve conduction studies and immunohistochemical analysi

70 used for association between MRI parameters, nerve conduction, strength, and body mass index (BMI).Re

71 ) and innervated by a prominent infraorbital nerve, containing about 80,000 axons.

72 e show that, among these pathways, the vagus nerve conveys stomach-distension signals to PB(Pdyn) neu

73 oracic and abdominal neuromeres, the ventral nerve cord (VNC), to provide an anatomical description o

74 lasts reactivate from quiescence and ventral nerve cord glia expand their membranes.

75 and PI3-kinase activation, brain and ventral nerve cord neuroblasts reactivate from quiescence and ve

76 ommissural neurons in the developing ventral nerve cord produces defasciculated axon bundles that do

77 otor neurons (MNs) in the C. elegans ventral nerve cord to select and maintain their unique terminal

78 e from DBL-1-expressing cells in the ventral nerve cord.

79 posterior peripheral nerves from the dorsal nerve cord.

80 n throughout the CNS, including in the optic nerve, corpus callosum, and the spinal cord.

81 ype C57BL/6 mice, we showed that sympathetic nerves create a bone marrow environment that supports re

82 bnormality, to identify site and severity of nerve damage, and to potentially elucidate mechanisms of

83 of neurological injury, including stroke and nerve damage.

84 vivo and found that sub-basal and epithelial nerve densities in the cornea were reduced in dry eye di

85 ce both corneal epithelial wound healing and nerve density in diabetic mice.

86 Five days post-surgery, sympathetic nerve density was reduced in the anterior left ventricul

87 Nerve-derived human Schwann cell (SC) cultures are irrep

88 arinic receptors, which are activated by the nerve-derived neurotransmitter acetylcholine, we show th

89 ative Postn+ population required for cardiac nerve development and cardiomyocyte maturation soon afte

90 CNR), apparent signal-to-noise ratio (aSNR), nerve diameter and fracture dislocation were evaluated b

91 anisms also target oropharyngeal and cranial nerve differentiation.

92 pseudorabies virus (PRV), may cause cranial nerve disorder and unbearable pain.

93 10 (33.3% vs 24.1%, P = 0.57) and transient nerve dysfunction (13.3% vs 10.3%, P = 1.00) were not si

94 neuropathies are rare eye diseases of optic nerve dysfunction that present in various genetic forms.

95 retinal fluid, epiretinal membrane, or optic nerve edema.

96 Nerve endings arising from two classes of colorectal-pro

97 ed and stained to visualize single axons and nerve endings immunoreactive to calcitonin gene-related

98 No patients showed optic nerve enhancement on magnetic resonance imaging.

99 sident macrophages and emphasize the role of nerve environment for shaping PNS macrophage identity.

100 he sub-epidermal collagen fibril layer; most nerves exit abruptly, but a few run obliquely within the

101 roximal sciatic nerve branches or distal toe nerve fascicles at the vincristine dose used in this stu

102 and chemical sterilization of the tooth with nerve fiber ablation (i.e., endodontic therapy), general

103 ent groups showed a decreased intraepidermal nerve fiber density compared with controls.

104 munohistochemistry revealed more directional nerve fiber growth in SU and STG groups compared with ST

105 t epithelium degeneration (2.5%), myelinated nerve fiber layer (1.3%), and internal limiting membrane

106 stimated proportion of peripapillary retinal nerve fiber layer (pRNFL) and macular ganglion cell + in

107 d by the OCT rate of thinning of the retinal nerve fiber layer (RNFL) and ganglion cell-inner plexifo

108 ng models were trained to use SD OCT retinal nerve fiber layer (RNFL) thickness maps, RNFL en face im

109 Describe a new method to analyze retinal nerve fiber layer (RNFL) thickness maps.

110 al rim width (MRW) and peripapillary retinal nerve fiber layer (RNFL) thickness.

111 retinal undulations and presence of retinal nerve fiber layer fragments.

112 the appearance of the optic nerve or retinal nerve fiber layer occurring before the imaging session.

113 lay an early and regionally specific role of nerve fiber layer phagocytosis in areas of active diseas

114 The peripapillary nerve fiber layer plexus capillary density (NFLP_CD), ma

115 .039), axial length (P = .033), and retinal nerve fiber layer thickness (P < .001) among the groups.

116 ucoma, visual field mean defect, and retinal nerve fiber layer thickness were not found to correlate

117 zed rates of change in peripapillary retinal nerve fiber layer, ganglion cell plus inner plexiform la

118 Single-unit auditory nerve fiber recordings were obtained from 41 Mongolian g

119 IFICANCE STATEMENT Phase locking of auditory-nerve-fiber responses to the temporal fine structure of

120 es less cortical area is devoted to a penile-nerve-fiber than to a whisker-nerve-fiber.

121 ed to a penile-nerve-fiber than to a whisker-nerve-fiber.

122 tic connections between epithelial cells and nerve fibers and studies using optogenetic activation of

123 se can destroy the synapses between auditory nerve fibers and their hair cell targets without destroy

124 Nerve fibers extended into the gill pore papillae, as fa

125 cer cells favoring growth by and through the nerve fibers is not fully understood.

126 pparent in responses of single-unit auditory nerve fibers of quiet-aged gerbils.

127 Efferent vagus nerve fibers terminating in the celiac-superior mesenter

128 e to a reduced population of active auditory nerve fibers, which will be of importance for the develo

129 automated corneal nerve analysis identifies nerve fibre damage and may act as a biomarker for neurod

130 and vibration perception, but lower corneal nerve fibre density (20.1 +/- 0.87 vs. 24.13 +/- 0.91, P

131 Corneal nerve fibre density (mean difference: - 5.00 no/mm(2), 9

132 examining BMO-MRW and peripapillary retinal nerve fibre layer (pRNFL) readings acquired with Spectra

133 inferior quadrants and total macular retinal nerve fibre layer thickness (mRNFL) and macular ganglion

134 I [- 23.58, - 5.92], p = 0.002), and corneal nerve fibre length (mean difference: - 2.57 mm/mm(2), 95

135 annel TRPA1 is expressed by primary afferent nerve fibres, in which it functions as a low-threshold s

136 posterior branch of the recurrent laryngeal nerve following the progressive opening of the esophagea

137 ort that, beyond goosebumps, muscle-anchored nerves form "synapse-like" connections with hair follicl

138 Here, we show that APMs and sympathetic nerves form a dual-component niche to modulate hair foll

139 the origin of the most posterior peripheral nerves from the dorsal nerve cord.

140 EET) used as protectants against insects and nerve gases.

141 , in these cases the medial dorsal cutaneous nerve got injured during the fascial opening of the exte

142 GF-A from infected corneas repressed sensory nerve growth and promoted sympathetic nerve growth.

143 In this study, we test nerve growth factor (NGF) as an understudied therapeutic

144 aglandin E(2) (PGE(2)), bradykinin (BK), and nerve growth factor (NGF) as well as multiple kinases, i

145 Nerve growth factor (NGF) regulates many aspects of neur

146 asthma control by stimulating expression of nerve growth factor (NGF), a neurotrophin associated wit

147 We find that Vgf nerve growth factor inducible gene up-regulation is a co

148 lates expression of numerous genes including nerve growth factor receptor (NGFR), which becomes trans

149 ted with the well established pain mediator, nerve growth factor, could also modify macrophage gene t

150 e A (TrkA) is the high-affinity receptor for nerve growth factor.

151 ensory nerve growth and promoted sympathetic nerve growth.

152 peripheral nerve regeneration, particularly nerve guidance conduits and drug delivery strategies.

153 Imaging studies of peripheral nerves have increased considerably in the last ten years

154 The coordinates for the optic nerve head (ONH) and optic chiasm (OC) ends of the optic

155 erence tomography (OCT) imaging of the optic nerve head and macula was conducted in patients and heal

156 ilize translaminar pressure across the optic nerve head and may provide a new avenue for glaucoma the

157 ations or progressive visual field and optic nerve head changes despite maximal tolerated medical the

158 and a 6x6-mm OCTA scan centered on the optic nerve head obtained using a Topcon swept-source system (

159 Optic nerve head pallor of 1 or both nerves was present in 62%

160 h eyes were open), and the presence of optic nerve head pallor.

161 We measured RNFL thickness and optic nerve head parameters using the Cirrus HD-OCT 4000.

162 known about the origin of tumor-infiltrating nerves, how they may be recruited to tumors, and how the

163 Optic nerve hypoplasia was recorded in 3 children and in 4 you

164 intriguing physical association among muscle nerves, IL-33(+) mSCs, and Tregs has been reported, and

165 ated by two radiologists and correlated with nerve impairment.

166 des embedded in a soft, circumneural sciatic nerve implant, powered and driven by a miniaturized head

167 nd pattern recognition, similar to the optic nerve in human eye.

168 emales, but remains localized to the sciatic nerve in males (tier 3).

169 cing, revealing a role for the hepatic vagus nerve in transforming sugar sensing by the gut into beha

170 ew, we summarize the functions of peripheral nerves in glucose regulation and metabolism.

171 Imaging of peripheral nerves in patients with COVID-19 may help to characteriz

172 ed the regulation of angiogenesis by sensory nerves in response to inflammation using the cornea, a n

173 We find that in this nondividing oocyte, the nerve-inducing factor Ascl1 can remain bound to a specif

174 Treg cells developed spontaneous peripheral nerve inflammation.

175 nd spinal cord response, not observed at the nerve injection site.

176 icroglia around motoneurons axotomized after nerve injuries has been intensely debated.

177 Neuropathic pain caused by peripheral nerve injuries significantly affects sensory perception

178 were retrogradely-labeled from muscle before nerve injuries.

179 h spared nerve injury, a model of peripheral nerve injury (PNI)-induced neuropathic pain.

180 n the dorsal horn associated with peripheral nerve injury and pain.

181 cular junction (NMJ) reinnervation following nerve injury and repair.

182 ession increased in end target muscles after nerve injury and repair.

183 CK2alpha's appearance in axons after PNS nerve injury correlates with disassembly of axonal G3BP1

184 Fifth lumbar (L5) nerve injury in rats causes neuropathic pain manifested

185 ion of DRG macrophages, but not those at the nerve injury site, to both the initiation and maintenanc

186 sensory neurons regenerate their axon after nerve injury to enable functional recovery.

187 it MNK-eIF4E activity in animals with spared nerve injury, a model of peripheral nerve injury (PNI)-i

188 peralgesia gradually developed after sciatic nerve injury, and by the last day of testing, THC signif

189 receptor 2 (TLR2) signaling is critical for nerve injury-induced activation of spinal cord microglia

190 Spinal cord microglia contribute to nerve injury-induced neuropathic pain.

191 mina II) neurons before and after peripheral nerve injury-induced pain.

192 ical inhibition of GT1b synthesis attenuates nerve injury-induced spinal cord microglia activation an

193 hree well-established rodent models of optic nerve injury.

194 d a unique role for calcineurin in SCs after nerve injury.

195 ey cellular metabolite, NAD+, in response to nerve injury.

196 l myelination, but not to proliferate, after nerve injury.

197 ll myelination and myelin regeneration after nerve injury.

198 rvation and functional muscle recovery after nerve injury.SIGNIFICANCE STATEMENT This work demonstrat

199 cal experts to avoid damaging the mandibular nerve inside the canal.

200 Taking the presence of nerves into account can potentially change the field of

201 orchestrated inflammation resolution in the nerve is required for conditioning-lesion-induced neuror

202 mmalian eye does not require an intact optic nerve, its fine-tuning is disrupted by ONS.

203 VEGF-A can shape the sensory and sympathetic nerve landscape within the cornea, with implications for

204 The spaceflight-induced optic nerve lengthening and anterior movement of the ONH suppo

205 structure, load and spatial distribution of nerve lesions, and pain in patients with DPN.

206 neuropathy (DPN) have found proximal sciatic nerve lesions.

207 tant mice are protected from partial sciatic nerve ligation (PSNL)-induced neuropathic pain, however,

208 perties in the capsaicin and partial sciatic nerve ligation models in mice.

209 rk of sensory neurons and Schwann cells form nerve-like bundles that target Merkel cells in organoid

210 Intratumoral parasympathetic nerves may have a dichotomous role in cancer progression

211 dy was to assess the effectiveness of sacral nerve modulation (SNM) in a large cohort of patients imp

212 Apparent nerve-muscle contrast-to-noise ratio (aNMCNR), apparent

213 formation and maintenance of the peripheral nerve myelin sheath.

214 riment, we demonstrate a functioning complex nerve network in response to electrical stimulation of t

215 On symptomatic nerves, neurovascular contact with morphological changes

216 Importantly, infiltrating nerves not only influence the tumor cells themselves but

217 d that electrically stimulating the residual nerves of amputees elicited somatosensory percepts that

218 Although the conduction velocity of sciatic nerves of mutant mice showed an 80% decrease, the mice d

219 Sciatic nerves of such mice showed thinner myelin of large diame

220 Optic neuropathies are a group of optic nerve (ON) diseases caused by various insults including

221 Optic nerve (ON) invasion is an important high-risk feature, a

222 ers, manifested a retinopathy and thin optic nerves (ON).

223 matous change in the appearance of the optic nerve or retinal nerve fiber layer occurring before the

224 ons without the risk of PV stenosis, artery, nerve, or esophageal damage.

225 In contrast, no lung, vagal nerve, or esophageal injury was observed at PFA sites.

226 ions of IIH such as papilledema and abducens nerve palsy are well recognized, but less common retinal

227 py (CCM) in detecting a reduction in corneal nerve parameters in a large cohort of patients with Park

228 jective method showed a reduction in corneal nerve parameters in diabetic patients with and without D

229 Peripheral nerves pass from the dermis to the epidermis via small f

230 therapy of stimulation of epicardial cardiac nerves passing along the posterior surface of the right

231 The major sensory nerve pathway between the colon and central nervous syst

232 Inotropes directly modulate the cardiac nerve plexus to enhance ventricular contractility.

233 its may develop more central to the auditory nerve, possibly due to a reduced population of active au

234 By analyzing stimulus-evoked compound nerve potentials, we confirmed that such polarity differ

235 of low threshold afferents in the trigeminal nerve produced a clear SAI (P < 0.05) when the interval

236 As peripheral nerves ramify within the dermis, all the nuclei along th

237 reated animals had significantly accelerated nerve regeneration (p < 0.001), increased walking speed,

238 f the molecular and cellular determinants of nerve regeneration and neuropathic pain in humans.

239 To investigate the effects of CES on nerve regeneration, a series of kinetic, kinematic, skil

240 ed sympathetic innervation, promoted sensory nerve regeneration, and alleviated disease.

241 ehensive, in-depth perspective on peripheral nerve regeneration, particularly nerve guidance conduits

242 resting therapeutic target for human sensory nerve regeneration.

243 anglion cells (RGCs) and the resulting optic nerve remains unclear.

244 are segregated in the trigeminal and facial nerves, respectively.

245 tation and absence of myelin from peripheral nerves, resulting from alterations in melanocyte surviva

246 lar procedure, whereby the ablation of renal nerves results in reduced renal afferent and efferent sy

247 uch information as possible, given the optic nerve's limited capacity.

248 cient between point of care and expert optic nerve sheath diameter after enrollment of 50 subjects wa

249 ective was to evaluate the accuracy of optic nerve sheath diameter as a noninvasive screening test fo

250 Plexiform neurofibromas are benign nerve sheath Schwann cell tumors characterized by bialle

251 synovial sarcoma (SS), malignant peripheral nerve sheath tumor (MPNST), and undifferentiated pleomor

252 al oncogenic driver for malignant peripheral nerve sheath tumors (MPNSTs), which are highly aggressiv

253 bone to chondrosarcoma, malignant peripheral nerve sheath tumour, synovial sarcoma, epithelioid sarco

254 duced signs of nephropathy and reduced optic nerve size, the latter phenotype complemented by WT mRNA

255 neuroimaging, which were favored over median nerve somatosensory evoked potentials for prognosticatio

256 a novel strategy that uses closed-loop vagus nerve stimulation (VNS) paired with tactile rehabilitati

257 , paired associative stimulation using ulnar nerve stimulation and PA TMS pulses over M1, a protocol

258 The anti-inflammatory effects of vagus nerve stimulation are well known.

259 afferent inhibition of face M1, while facial nerve stimulation evoked LAI but not SAI.

260 onstrated a mean inspiratory lag for phrenic nerve stimulation of 23.7 ms (p < 0.001 vs null hypothes

261 of temporary percutaneous electrical phrenic nerve stimulation on user-specified inspiratory breaths

262 In contrast, facial nerve stimulation produced significant LAI (P < 0.05) as

263 nual therapies and transcutaneous electrical nerve stimulation.

264 Purpose To investigate correlations between nerve structure, load and spatial distribution of nerve

265 Recent studies have shown that peripheral nerves (sympathetic, parasympathetic and sensory) intera

266 To address this issue, we studied auditory nerve synapses onto bushy cells in the cochlear nucleus

267 nd propagation through this long presynaptic nerve terminal are unknown.

268 is approach to selective labeling of sensory nerve terminal endings will help to better identify how

269 ons of sensory neurons, and their peripheral nerve terminal endings, interact with bone.

270 ervated NMJs and failed to initiate or guide nerve terminal sprouts at disease-vulnerable NMJs, a phe

271 of these toxins to target and bind to motor nerve terminals is a key factor determining their potenc

272 ired integrity of dopaminergic nigrostriatal nerve terminals is associated with nigrostriatal axonal

273 , pharynx, and larynx as well as the cranial nerves that control these structures.

274 scle, the neuromuscular junction, peripheral nerves, the spinal cord or the brain and discuss the aut

275 displacement of vessels, and superior optic nerve thinning with inferior VF defects, suggest PVL.

276 ualize the neural image carried by the optic nerve to the brain.

277 Peripheral nerve transection is associated with permanent functiona

278 Using the glossopharyngeal nerve transection model, we show that systemic delivery

279 Thus, we recapitulated nerve tumor progression in NF1 and provided preclinical

280 These macrophages are defined by tissue and nerve type, are seeded in part prenatally, and self-main

281 dex test was the highest remote-expert optic nerve ultrasound for the admission.

282 The mast cell-nerve unit classically has represented a fundamental neu

283 The PF lesions did not damage the phrenic nerve, vessels, and the esophagus.

284 Optic nerve head pallor of 1 or both nerves was present in 62%.

285 man scattering (CARS) imaging of the sciatic nerve, we deciphered the spatiotemporal choreography of

286 Using this afferent nerve, we further build a power-free spiking mechanorece

287 ts of endocardial PFA and RFA on the phrenic nerve were also compared (n=10).

288 Fiber counts in the dorsal penile nerve were not different in prepubertal (1,620 +/- 165 f

289 ONH) and optic chiasm (OC) ends of the optic nerve were recorded along with the entire centerline pat

290 symptomatic and 153 asymptomatic trigeminal nerves were analysed.

291 Nerves were detected in 38% of esophageal cancers and we

292 rorrhaphies of the median, ulnar, and radial nerves were epineural and 7 cm proximal to the elbow.

293 electronics caused minimal damage to the rat nerve, which grows 2.4-fold in diameter, and allowed chr

294 he release of noradrenaline from sympathetic nerves, which depletes the stem cells that give hair the

295 xpression and activity in SCs and peripheral nerves, which were further verified in skin biopsies of

296 to the uterus is provided by spinal afferent nerves, whose cell bodies lie predominantly in thoracolu

297 physiological neural signals from autonomic nerves will help develop new treatments for restoring re

298 pecific features are the following: (a) Comb nerves with giant axons.

299 entials showed a progressive decrease in all nerves, with different kinetics.

300 tter understanding myelination of peripheral nerves would benefit patients affected by peripheral neu