ライフサイエンスコーパス: toe

1 ed as follows: 0, no evidence of deficit; 1, toes flat under body when walking but with ataxia; 2, kn

2 Between 2008 and 2018, toe amputation rates increased by 3.24 (2.89-3.59) amput

3 achial index decrease for LV-PAD and a -0.27 toe brachial index decrease for SV-PAD progression.

4 ypically characterized by 3/4 finger and 4/5 toe syndactyly with associated duplicated digits; hands

5 in the forefoot (n = 15), hindfoot (n = 7), toes (n = 3), midfoot (n = 4), or in multiple locations

6 n humans, the flexor hallucis longus (FHL, a toe flexor) and the anal sphincter, as a model that we s

7 The combination of dactylitis of a toe, heel pain, and oligoarthritis appears to be strongl

8 amic criteria (ankle pressure <70 mm Hg or a toe pressure <50 mm Hg, or both, or a transcutaneous oxy

9 ielded similar results: the model adopted a "toe-walking" gait with excessive hip and knee flexion du

10 Most notably, abnormal toe proprioception was significantly associated with eve

11 tra digits that are consistent with abnormal toe and nail phenotypes in individuals with Van der Woud

12 nce of ankle-brachial pressure index (ABPI), toe-brachial pressure index (TBPI), transcutaneous press

13 traspecific variation in the use of adhesive toe pads and suggest that the subdigital adhesive toe pa

14 ads and suggest that the subdigital adhesive toe pad may increase sprint speed in this species.

15 ine' sheds, or natural molts of the adhesive toe pad and non-adhesive regions of the skin.

16 ys indicated that terminations from adjacent toes formed adjacent and largely segregated patches.

17 s injection of the protease sensor, affected toes and paws of arthritic mice showed significantly hig

18 Ankle-brachial index (ABI) and toe-brachial index can be used to identify PAD patients

19 In vitro TnaC-peptidyl-tRNA accumulation and toe-printing assays confirmed that in the presence of l-

20 for safety, changes in TcPo(2) and ankle and toe pressure, amputation, and wound healing.

21 hose assessed for the PsA-44 plus ankles and toe PIP joints).

22 Foot drop and toe walking are frequent concerns in children with cereb

23 (toe PAT), ear and finger PPG feet, ear and toe PPG feet, and finger and toe PPG feet.

24 ode) of cellulitis and abscess of finger and toe (681.XX) and other cellulitis and abscess (682.XX).

25 ted regions of interest (ROIs) in finger and toe motor/somatosensory regions and used an instrumental

26 ve motor tasks: switching between finger and toe movements, writing, finger tapping, pronation/supina

27 G feet, ear and toe PPG feet, and finger and toe PPG feet.

28 cycle and was applied between foot-flat and toe-off during the stance phase, and changes in center o

29 pulse oximetry, laser Doppler flowmetry, and toe temperature were measured to evaluate diaspirin cros

30 vements from each limb (e.g., hand grasp and toe curl) were represented similarly.

31 ucosa, axilla, antecubital fossa, groin, and toe webs with separate rayon swabs and the forehead, upp

32 en paw contact in the perturbed hindlimb and toe off in the unperturbed hindlimb.

33 howed a significant ankle brachial index and toe brachial index deterioration.

34 n or myelinated axons in the sural nerve and toe after vincristine.

35 Distal occlusive pressure and toe oxygen saturation (Sao2) were measured for 5 minutes

36 pically suggests an orthopaedic problem, and toe extension may be thought to be the Babinski sign of

37 cing, banging and hitting self, rocking, and toe walking (P < .05).

38 ution of similar lipids in both the skin and toe shed but with different dynamics at a molecular leve

39 three foot sites--plantar heel, toenail and toe web--showed high fungal diversity.

40 finger pulse arrival time (PAT)], R-wave and toe PPG foot (toe PAT), ear and finger PPG feet, ear and

41 MR signal was seen in the knees, ankles, and toes of arthritic mice.

42 ic pain initially restricted to the feet and toes but extending more proximally to involve the legs a

43 he pulp of distal phalanx of the fingers and toes that halve in area after Water Induced Skin Wrinkli

44 sed by episodic vasospasm of the fingers and toes typically precipitated by exposure to cold.

45 uals have syndactyly (webbing of fingers and toes).

46 g lethal arrhythmias, webbing of fingers and toes, congenital heart disease, immune deficiency, inter

47 erized by terminal deficiency of fingers and toes, which is caused by heterozygous truncating mutatio

48 ed by terminal deficiency of the fingers and toes.

49 loration of the tips of multiple fingers and toes.

50 ques of the cheeks, nose, ears, fingers, and toes that progressed to gangrenous necrosis.

51 of hands and feet with broad fingertips and toes, and uni- or bilateral renal agenesis in three indi

52 dages to produce the fingers of the hand and toes of the foot.

53 10 degrees LWIs, toes inward ('Toe in'), and toes outward ('Toe out wide').

54 ion was induced at the heel, the heel-MG and toes-ST reflexes were enhanced, whereas the toes-TA refl

55 the sensitisation fields for the heel-MG and toes-TA reflexes were very similar to those in non-spina

56 ctions we observe between the La protein and toes, birds, and mammals as hosts.

57 Interestingly, flexion of tail and toes could also be evoked.

58 occurs over two impulses, "heel-strike" and "toe-strike," representative of the initial impact of the

59 st U1 snRNP contains a core in the "ball-and-toes" region architecturally similar to the human U1 snR

60 ents of the lead leg and varus/valgus angle, toe-out angle, stance width, weight transfer, and should

61 nd prosthetic-side leg contributions to H at toe-off when using the active prosthesis were more simil

62 during mid-stance and transverse-plane H at toe-off.

63 heated with a pair of commercially available toe warmers, while using a simple Styrofoam insulator.

64 r and sensory reinnervation (weight bearing, toe spread) developed at >60 days in 14/21 rats.

65 ct in the perturbed hindlimb occurred before toe off in the unperturbed hindlimb.

66 relation by a substantial extent was between toe PAT via the PPG foot and systolic BP [- 0.63 +/- 0.0

67 tion, cracks/fissures, or maceration between toes (36.3%); 30.9% had some tenderness to palpation of

68 in (adjusted OR 1.96; 95% CI 1.65-2.32), big toe pain (adjusted OR 3.28; 95% CI 2.48-4.33), self-repo

69 The questionnaire also asked about big toe pain, joint replacement, and history of osteoarthrit

70 such as nodal osteoarthritis, knee pain, big toe pain, and self-reported osteoarthritis.

71 index, nodal osteoarthritis, knee pain, big toe pain, joint replacement, self-reported osteoarthriti

72 Maximal isometric force generated by the big toe declined to 78.3 +/- 6.3 % of its control level by 6

73 (60-180 s) maximal dorsiflexions of the big toe in seven human subjects.

74 the typical form of BDB, the thumbs and big toes are spared, sometimes with broadening or partial du

75 mild craniosynostosis, broad thumbs and big toes, fixed extension of several digits, and only minima

76 niofacial anomalies and broad thumbs and big toes.

77 although onychomadesis was seen on both big toes at follow-up 5 weeks later.

78 aining samples (e.g., tail or tissue biopsy, toe dock, or blood sampling) from weanling mice to scree

79 The blue toe syndrome is characterized by tissue ischemia seconda

80 e, gut ischemia, livedo reticularis and blue-toe syndrome.

81 Recovery of sensory function was assessed by toe pinch, footpad prick, and the toe-spreading reflex.

82 of 48S ribosomal preinitiation complexes by toe-printing.

83 ng, without involving stalling detectable by toe-printing.

84 depressed both ST and TA reflexes evoked by toe stimulation.

85 P beta'-subunit that we call the beta'-clamp-toe (beta'CT).

86 atients and no controls (P = 0.01), and claw toes were present in 12 patients and four controls (P =

87 aracterized by forelimb hyperflexure, clawed toes of all limbs, and a kinked tail.

88 Acrocyanosis or cold toes were reported in 19 (47.5%) cases.

89 eration displays with the ability to compete toe-to-toe with disruptive technologies like organic lig

90 ong patients diagnosed and managed as "covid toes" during the pandemic, we find a percentage of prior

91 nical presentation can range from a cyanotic toe to a diffuse multiorgan systemic disease that can mi

92 We observed a Nun-dependent toe print upstream to the TEC.

93 antly higher fluorescence intensity than did toes and paws of healthy mice.

94 at proximal sciatic nerve branches or distal toe nerve fascicles at the vincristine dose used in this

95 round the time of foot-ground contact during toe walking.

96 sters had early-onset parkinsonism (dystonic toe curling, action tremor, masked face, bradykinesia, s

97 eas the involvement of smaller joints (i.e., toes/temporomandibular joint) was more common in adults.

98 g the TA tendon operates within the elastic 'toe' region.

99 atives to cetaceans, is a large African even-toed ungulate (Artiodactyla) that grazes and has a semia

100 was obtained in rodents (Rodentia) and even-toed ungulates (Artiodactyla).

101 In even-toed ungulates (artiodactyls, including cattle), limbs a

102 es a highly contagious viral disease of even-toed ungulates and is one of the most important economic

103 Haemosporida parasites of even-toed ungulates are diverse and globally distributed, but

104 rgic structures within the brain of the even-toed hoofed Goettingen miniature domestic pig (Sus scrof

105 rboa (Dipus sagitta) and horse and the 'even-toed' camel, extensive cell death sculpts the tissue aro

106 It was known that whales are related to even-toed ungulates (artiodactyls), but until now no artiodac

107 In mice the dominant Hemimelic extra toes (Hx) and Hammertoe (Hm) mutations map to a homologo

108 In Gli3 mutant extra toes-Jackson (Xt(J)Xt(J)) embryos, ORN axons defascicula

109 By analyzing Gli3 extra-toe mutants (Gli3(Xt/Xt)), we found that Gli3 loss-of-fu

110 Mutant mice with no functional Gli3 (extra-toes, Gli3(Xt/Xt) mutants) display a massive reduction i

111 The mouse Hemimelic extra-toes (Hx) mutation maps to a homologous chromosome segme

112 (p.Leu568_Leu586del) was identified in extra-toes spotting-like (Xsl), an allele of Xs(J).

113 alyzed telencephalic patterning in the extra-toes (J) (Xt(J)) mouse mutant, which carries a deletion

114 The extra-toes spotting (Xs) mouse phenotype manifests anterior po

115 d wing metacarpal, modification to the fifth toe that supports the rear wing membrane, and gradual re

116 plaques, and pathognomonic burrows on finger/toe web spaces, volar wrists, ankles, axillae, buttocks,

117 nt fracture (except fracture of the fingers, toes, and ribs) in hormone therapy users compared with n

118 Candidates for the five-toed tracemakers are pantodonts such as Titanoides, Bary

119 ase in Push-Off work when using the Flexible toe joint prosthesis versus the Locked toe joint prosthe

120 , biceps femoris, soleus and intrinsic foot (toe flexor) muscles.

121 rrival time (PAT)], R-wave and toe PPG foot (toe PAT), ear and finger PPG feet, ear and toe PPG feet,

122 ess of perch diameter and texture, but foot, toe, and claw kinematics become surface-specific upon to

123 e galagos, with a ventrolateral location for toe 1.

124 in non-spinal decerebrates whereas that for toes-ST was more like the pattern observed in spinalised

125 The front toes had a 5- to 6-fold increase in uptake compared with

126 rms a complex with homologues of human fused toes (FTS) and its interactor FTS- and Hook-interacting

127 resulted in the identification of the fused toes homolog-Hook-FHIP (FHF) complex as a novel AP-4 acc

128 emity bypass procedure because of gangrenous toes.

129 ar motion and dynamic self-cleaning of gecko toe pads are mimicked via this mechanism.

130 Self-peeling of gecko toes is mimicked by integration of film-terminated fibri

131 dhesive structures known as 'setae' on gecko toes.

132 ed by the (macroscopic) actions of the gecko toes.

133 t tended to surround those from the glabrous toes.

134 aplasia of the nails of the thumb and great toe.

135 cus ramidus in possessing an opposable great toe.

136 linic complaining of pain in the right great toe.

137 g capsuloligamentous structures of the great toe and lesser toes, as well as pedal infection, with a

138 In the feet, the great toe is shorter due to a short first metatarsal and a sma

139 ificant syndactyly or deviation of the great toe.

140 hemicylindrical nose, broad thumbs and great toes, and other minor skeletal anomalies but lacked symp

141 symmetry, ptosis, hypertelorism, broad great toes, and clinodactyly.

142 ized by congenital malformation of the great toes and postnatal formation of ectopic bone.

143 and by congenital malformation of the great toes.

144 en attributed to specialized feet with hairy toes that uncurl and peel in milliseconds.

145 ulceration were the dorsal aspect of hammer toes, the metatarsal heads, and the metatarsophalangeal

146 to the subcutaneous tissue of the third hind toe results in behavioral changes interpreted as mechani

147 tic and developed a discharging sinus on his toe.

148 rsiflexor motor neurons and that it improves toe lift and heel strike in children with cerebral palsy

149 , the lack of significant age differences in toe clearance suggests this strategy was mainly aimed at

150 the medial-lateral (ML) axis, a reduction in toe clearance, and an augmented risk of stumbling for th

151 volution of projectile tongues, reduction in toe number, and specialization for defensive tail loss.

152 ching or burning pain (13% v 6%; P = .03) in toes/feet compared with those not treated with chemother

153 developmental anomaly whose features include toe syndactyly, telecanthus, and anogenital and renal ma

154 aused similar adaptations, such as increased toe clearance, across both age groups, though mediolater

155 rfusion, including the ankle-brachial index, toe-brachial index, and other perfusion technologies.

156 end points, including ankle-brachial index, toe-brachial index, pain relief, wound healing, or major

157 ere PAD-scan, ankle-brachial pressure index, toe-brachial pressure index, audible and visual Doppler,

158 orescent signal (inflamed paws 50%, inflamed toes 70%) was observed as compared with untreated arthri

159 cells, walking print length and intermediate toe spread significantly recovered, indicating that the

160 eloped adults and compared it to involuntary toe walking in children with cerebral palsy.

161 sing the millions of keratinous setae on its toe pads.

162 tions were toenail disorders (74.9%), lesser toe deformities (60.0%), corns and calluses (58.2%), bun

163 ntous structures of the great toe and lesser toes, as well as pedal infection, with a focus on diabet

164 Local toe or foot amputations are used more frequently to main

165 xible toe joint prosthesis versus the Locked toe joint prosthesis: 16% less from the prosthesis (p =

166 red hatching success and development in long-toed salamanders under UV-B shields and in regimes that

167 ly from walking on solid ground; the longest toe penetrated to a depth of approximately 5 cm, reachin

168 ormally, with 5 degrees and 10 degrees LWIs, toes inward ('Toe in'), and toes outward ('Toe out wide'

169 ss, mean ankle-brachial index 0.41, and mean toe pressure 26 mm Hg).

170 There was no difference in mean minimum toe clearance in subjects when wearing multifocal compar

171 single-distance vision spectacles on minimum toe clearance and risk of tripping during step negotiati

172 en or endovascular revascularization; minor (toe or partial-foot) amputation; and major (above-ankle)

173 mally observed in legs, the digits were more toe-like in their relative size and shape, and the muscl

174 ender, were found for the prevalence of most toe deformities and flat feet, as well as for corns and

175 uced gait support and stride length, but not toe spread distances.

176 In the 'odd-toed' jerboa (Dipus sagitta) and horse and the 'even-toe

177 gestions-bats are not closely related to odd-toed ungulates but instead have a more ancient origin as

178 iflexion torque, the number and amplitude of toe lifts late in the swing phase during gait and the we

179 The gecko's peculiar behaviour of toe uncurling and peeling led us to discover two aspects

180 ite since 2013, probably as a consequence of toe undercutting of a previously unrecognised active lan

181 ork at the toes such that greater degrees of toe spring curvature resulted in lower work requirements

182 This study investigated the effects of toe springs on foot biomechanics in a controlled experim

183 as been almost no research on the effects of toe springs.

184 tic rats and also normalized the recovery of toe spread after sciatic nerve crush.

185 The sensitivity of toe brachial index and pulse volume recording to predict

186 ding of the pathophysiology and treatment of toe walking.

187 Afferents from the glabrous skin of toes 1-5 terminated in a ventromedial to dorsolateral se

188 ischemic ulcers and TcPo(2) <40 mm Hg and/or toe pressure <50 mm Hg received placebo or HGF-plasmid i

189 ctivity in the ROI being rewarded (finger or toe) and a decrease in activity in the nonrewarded regio

190 by (1) measuring (a) ECG and ear, finger, or toe PPG waveforms or (b) two of these PPG waveforms and

191 erences in laser Doppler, pulse oximetry, or toe temperature measurements during or after either infu

192 The fusion of digits or toes, syndactyly, can be part of complex syndromes, incl

193 In the tetrapod limb, the digits (fingers or toes) are the elements most subject to morphological div

194 ersely elongated digital pads, and the outer toe appears strongly thickened relative to the inner two

195 In the pig toe, the heterogeneity of scattering and PC signals was

196 They combine predictable toe pad friction with probabilistic friction from their

197 n to normal levels in 40 days, and prevented toe and foot necrosis.

198 s OEC delivery was ineffective in preventing toe necrosis and foot loss.

199 pmental delay, syndactyly of 2(nd) and 3(rd) toes, and severe muscle hypotonia resulting in incapacit

200 99mTc-annexin V in the front foot pads, rear toes, rear foot pads, and heels at the time of maximal e

201 than increasing margins of safety regarding toe clearance.

202 eath sculpts the tissue around the remaining toes.

203 studies often represent the first scientific toe in the water in new areas of inquiry.

204 dators, long-legged buzzards (LLB) and short-toed eagles (STE), which recently became sympatric durin

205 ying curvature in the toe region to simulate toe springs ranging from 10 to 40 degrees of curvature.

206 face and support its body mass with a single toe by using the millions of keratinous setae on its toe

207 of all fracture locations (excluding skull, toes, and fingers) and falls, 10-year cumulative inciden

208 happen usually does: The person with a sore toe manages to stub it, sometimes twice.

209 bility to roll forward at the end of stance, toe springs may also have some effect on natural foot fu

210 produce irregular hillslopes, on which steep toes and head scarps persist until being cleared by infr

211 foot included foot position before the step, toe clearance of the step edge, and foot position on the

212 r feet clean while walking about with sticky toes has remained a puzzle until now.

213 ich encodes a version of the game of tic-tac-toe and interactively competes against a human opponent.

214 yribozyme-based automaton that plays tic-tac-toe(42), to direct structural reconfiguration (Supplemen

215 g inverse dynamics techniques, we found that toe springs alter the joint moments and work at the toes

216 In the task fMRI study, we found that toe tapping of all the amputees activated the bilateral

217 While it is generally recognized that toe springs facilitate the forefoot's ability to roll fo

218 in shoes for centuries but also suggest that toe springs may contribute to weakening of the foot musc

219 amine ex vivo the hind limb of a rat and the toe of a pig.

220 ssessed by toe pinch, footpad prick, and the toe-spreading reflex.

221 The formation of RAS at the toe of the rock glacier most probably began at the onset

222 e sole at the front of the shoe elevates the toe box dorsally above the ground and thereby holds the

223 signed sandals with varying curvature in the toe region to simulate toe springs ranging from 10 to 40

224 od agreement with human foot behavior in the toe torque-angle curve.

225 al weight transfer (hyperpronation) into the toe-off phase of the gait cycle (late pronation).

226 eat onychomycosis, a fungal infection of the toe and fingernails, led to the discovery of a boron-con

227 of amputation, primarily at the level of the toe or metatarsal.

228 putations were primarily at the level of the toe or metatarsal.

229 l and was inhibited after stimulation of the toe tips or TA muscle.

230 eatment with Itraconozaole amputation of the toe was required.

231 oth the distal sural nerve and nerves of the toe.

232 tae reduced the forces necessary to peel the toe by simply detaching above a critical angle with the

233 The toes of live Tokay geckos were highly hydrophobic, and a

234 le semitendinosus (ST) by stimulation at the toes at a dose of 30 nmol kg(-1) i.v. cumulative, but ha

235 Inflammation at the toes facilitated both flexor reflexes evoked from the to

236 injection of ovalbumin at the heel or at the toes in pre-immunized, pentobarbitone-anesthetized rabbi

237 ings alter the joint moments and work at the toes such that greater degrees of toe spring curvature r

238 ing of a name with a pencil held between the toes or teeth.

239 s the lever arm of the foot, defunctions the toes, and disables the plantar plate and fat pad.

240 nithine, but unlike previous discoveries the toes are stout with transversely elongated digital pads,

241 litated both flexor reflexes evoked from the toes and inhibited MG extensor responses to stimulation

242 nsmission in spinal reflex pathways from the toes to the ankle flexor tibialis anterior (TA) and to t

243 elds for the flexor reflexes evoked from the toes were larger in spinalised compared to decerebrated,

244 re obtained by rolling down and gripping the toes inward to realize small pulling angles between the

245 sally above the ground and thereby holds the toes in a constantly dorsiflexed position.

246 numbness, tingling, and dysesthesias in the toes and feet are frequently referred to neurologists.

247 vements in the subjects' ability to lift the toes in the swing phase.

248 tibialis anterior (TA) by stimulation of the toes were inhibited to the same extent by morphine (1-30

249 x responses to electrical stimulation of the toes were recorded from the ankle flexor tibialis anteri

250 tremor, pes cavus, and abnormalities of the toes.

251 dry adhesion in the millions of setae on the toes of geckos has been the focus of scientific study fo

252 y reduced to a very low value by rolling the toes upward and backward, which, mediated by the lever f

253 toes-ST reflexes were enhanced, whereas the toes-TA reflex was inhibited.

254 ity levels in 26 loci and asymmetry in third toe length in 11 populations of the chukar partridge (Al

255 fore and distal guts of wild two- and three-toed sloths, and correlate these communities with both d

256 specific gut bacterial communities, as three-toed sloths subsist primarily on Cecropia tree leaves wh

257 nterpret the ribless neck vertebrae of three-toed sloths caudal to V7 as thoracic based on our develo

258 ess diverse diet and gut microbiota of three-toed sloths may render them more susceptible to habitat

259 Specifically, three-toed sloths possess a highly conserved, low-diversity fo

260 tain plantar rigidity from foot-flat through toe-off, reminiscent of some Miocene apes and Old World

261 uble opening jars or bottles (11%), tingling toes/feet (10%), and trouble walking stairs or standing

262 They also more often reported tingling toes/feet (29% v 14%; P = .0127) compared with those tre

263 conditions; (iii) develops an atypical (tip-toe) walking pattern after 6 months of age; (iv) accumul

264 Furthermore, the development of the "tip-toe" walking behavior previously observed in the MsrA-/-

265 elephantiforms evolved the more derived "tip-toed" (subunguligrade) morphology, including the predigi

266 al space to guard an individual from head to toe.

267 le body, changing motor-control from head to toe.

268 t or significant effects on the TA reflex to toe stimulation.

269 to wing and wing tissue to leg give rise to toe-like or wing-like digits in wing and leg respectivel

270 WB-MRI is able to cover area from head to toes in one diagnostic work-up, and besides the anatomic

271 PSMA-11 PET/CT scans acquired from vertex to toes for primary staging (n = 93/388, 24%), biochemical

272 e-body (18)F-FDG PET/CT scans from vertex to toes in pediatric lymphoma patients, although this sugge

273 Including the total body (from vertex to toes) in (68)Ga-PSMA-11 PET/CT imaging revealed addition

274 elected household members for verbal head-to-toe examinations for surgical conditions.

275 ed family members underwent a verbal head-to-toe physical examination and answered questions about ba

276 lected household members underwent a head-to-toe verbal examination and need for surgical care was re

277 members were randomly selected for a head-to-toe verbal interview to determine existing untreated and

278 We propose a "head-to-toe" dimerization model for RPTPgamma/zeta that is disti

279 gative LR, 0.13), difficulty walking heel-to-toe (positive LR, 2.9; negative LR, 0.32), and rigidity

280 The glabella tap and heel-to-toe tests also should be assessed.

281 displays with the ability to compete toe-to-toe with disruptive technologies like organic light-emit

282 Craniofacial anomalies and twisted toes have also been observed in some affected females.

283 In contrast, two-toed sloths have a more variable and diverse foregut mic

284 og in phylogenetically distant taxa, the two-toed sloth, cetaceans, and higher primates.

285 primarily on Cecropia tree leaves while two-toed sloths have a more generalist diet.

286 an anterior-to-posterior, dorsal-to-ventral, toes-to-tongue gradient in a mirror orientation to the S

287 an anterior-to-posterior, dorsal-to-ventral, toes-to-tongue somatotopic gradient in a mirror orientat

288 Minimum horizontal and vertical toe clearance were assessed by analyzing data collected

289 eater within-subject variability in vertical toe clearance when wearing multifocal spectacles (varian

290 eased within-subject variability in vertical toe clearance when wearing multifocal spectacles, elderl

291 f the feet from the step, increased vertical toe clearance and reduced distance of the leading heel p

292 ly increase margins of safety (mean vertical toe clearance).

293 Voluntary toe walking in adults is characterized by feedforward co

294 ere, we investigated maturation of voluntary toe walking in typically-developing children and typical

295 nnectivity and refugial isolation in the web-toed salamanders (Hydromantes) of the Sierra Nevada.

296 ct agonist and antagonist ankle muscles when toe walking.

297 ain a co-contraction activation pattern when toe walking due to weak muscles and insufficient motor a

298 rding dampening was 43.6% sensitive, whereas toe brachial index <0.7 was 89.7% sensitive in diagnosin

299 Our results help explain why toe springs have been a pervasive feature in shoes for c

300 ubiquitin ligase lead to PNH associated with toe syndactyly, cleft palate and neurodevelopmental dela