ライフサイエンスコーパス: foot

1 ery when acting with another effector (i.e., foot).

2 han 40% of the longitudinal stiffness of the foot.

3 in the environment before re-infection of a foot.

4 s that were felt as occurring in the missing foot.

5 apment in webs to running down prey items on foot.

6 gher expression levels in both the brain and foot.

7 whereas only 3.2% of right-handers were left-footed.

8 covery of coordinates and models on an equal footing.

9 h and without inversion symmetry on an equal footing.

10 second, transverse tarsal arch of the human foot(16).

11 p reported 32% more anxiety, lifted the lead foot 43% higher and 10% slower over the obstacle, and lo

12 or anaesthetized hand after stimulation of a foot [6, 7] or the contralateral hand [8-10] challenges

13 NS1 monomer, consisting of an amino-terminal foot, a head and body domains connected to an extended c

14 , typically beginning slowly with a prespike foot, accelerating sharply to initiate a spike, reaching

15 Here we describe a remarkably well-preserved foot, accompanied by part of the wing plumage.

16 g future investigations on the role of basal foot across different cilia systems.

17 plantar intrinsic muscles (PIMs) within the foot actively contribute to foot stiffness.

18 Pathological and histological exam of a foot amputated from an affected child revealed complete

19 terize the organization of the ciliary basal foot, an appendage of basal bodies whose main role is to

20 ed from basal bodies, each extending a basal foot-an appendage linking motile cilia together to ensur

21 the natural loss of muscle, which remodeled foot anatomy during evolution and development, involves

22 f a longitudinal arch (LA) that stiffens the foot and aids bipedal gait.

23 We found that various subsections within the foot and ankle showed disparate work distribution, parti

24 dictive power using mechanical models of the foot and find its skeletal correlate in hominin feet.

25 luding diminished swelling in the inoculated foot and less necrosis and inflammation in the interosse

26 tional significance of the PIMs, we compared foot and lower limb mechanics with and without a tibial

27 Foot and mouth disease (FMD) burden disproportionally af

28 We compared modeling of foot and mouth disease (FMD) outbreaks using simple rand

29 the case of a 31-year-old patient with Hand, Foot and Mouth Disease (HFMD) and concurrent acute monoc

30 Hand, foot and mouth disease (HFMD), caused by enterovirus A71

31 EV-A71 causes hand, foot and mouth disease (HFMD), with virulent variants ex

32 s recently emerged as a major cause of hand, foot and mouth disease in children worldwide but no vacc

33 ccines.Coxsackievirus A6 (CVA6) causes hand, foot and mouth disease in children.

34 Foot and mouth disease virus (FMDV), is a highly contagi

35 al other enteroviruses responsible for hand, foot and mouth disease, and plays a key role in cell ent

36 rovirus 71 (EV71) is a common cause of hand, foot and mouth disease-a disease endemic especially in t

37 ntial extent was between toe PAT via the PPG foot and systolic BP [- 0.63 +/- 0.05 (mean +/- SE); p <

38 extensive representations of the prehensile foot and tail.

39 influence the longitudinal stiffness of the foot and thus the curvature-stiffness relationship of th

40 control several effectors (e.g., eye, hand, foot) and encode goal location in a variety of spatial c

41 which is the causative agent of human hand, foot, and mouth disease (HFMD).

42 ory symptoms (in 1197 [17%] patients), hand, foot, and mouth disease (in 528 [7% patients), and myoca

43 (EV-A71) is the major cause of severe hand, foot, and mouth disease and viral encephalitis in childr

44 Hand, foot, and mouth disease is a common childhood illness pr

45 available clinical data presented with hand, foot, and mouth disease.

46 le stimuli, each to a different limb-hand or foot-and reported which of all four limbs had been stimu

47 he framework to a dataset describing a local foot-and-mouth (FMD) outbreak in the UK, eliciting stron

48 Foot-and-mouth disease (FMD) can cause large disruptive

49 o estimate the occurrence of transmission of foot-and-mouth disease (FMD) during the incubation phase

50 Diagnostic tests for foot-and-mouth disease (FMD) include the detection of an

51 Foot-and-mouth disease (FMD) is a major livestock diseas

52 ), that is clinically indistinguishable from foot-and-mouth disease (FMD), in pigs.

53 Enterovirus 71 (EV71) can cause hand-foot-and-mouth disease (HFMD) in young children.

54 Hand-foot-and-mouth disease (HFMD) is a highly contagious vir

55 eptor for the largest receptor-group of hand-foot-and-mouth disease causing viruses, which includes C

56 However, foot-and-mouth disease restrictions in place before the

57 tent infection in African buffalo.IMPORTANCE Foot-and-mouth disease virus (FMDV) is a highly contagio

58 stress response.IMPORTANCE The picornavirus foot-and-mouth disease virus (FMDV) is a notorious anima

59 Foot-and-mouth disease virus (FMDV) is one of the most d

60 dentified an aromatic hydrophobic residue in foot-and-mouth disease virus (FMDV) leader proteinase (L

61 Foot-and-mouth disease virus (FMDV) leader proteinase (L

62 The low fidelity of foot-and-mouth disease virus (FMDV) RNA-dependent RNA po

63 3D(pol), the RdRp of the foot-and-mouth disease virus (FMDV), is responsible for

64 Foot-and-mouth disease virus (FMDV), particularly strain

65 caffer) are the principal "carrier" hosts of foot-and-mouth disease virus (FMDV).

66 which acts as a primer in the replication of foot-and-mouth disease virus (FMDV).

67 Like other viruses, the picornavirus foot-and-mouth disease virus (FMDV; genus Aphthovirus),

68 uman rhinovirus, coxsackievirus, poliovirus, foot-and-mouth disease virus, enterovirus D-68, and a wi

69 nal structure of the corresponding domain of foot-and-mouth disease virus, revealing an analogous dom

70 bipartite scaphoid, tripartite patella, left foot anomaly and cuboid-navicular coalition), with at le

71 tainty minimization) imperatives on an equal footing - as primary determinants of proximal behavior.

72 ks rotational symmetry along the future head-foot axis of the animal.

73 y investigated the effects of toe springs on foot biomechanics in a controlled experiment in which pa

74 ot geometry and stiffness remains debated in foot biomechanics(12,13), podiatry(14,15) and palaeontol

75 As a means of adding value, chicken foot broth byproduct can be processed to obtain calcium

76 fensive odors secreted from (1) eastern leaf-footed bugs (Leptoglossus phyllopus, Hemiptera), (2) gra

77 Analysis of the black-footed cat studbook suggests additional captive cats are

78 we recruited 305 patients from two diabetic foot clinics.

79 rious pathologic conditions of the ankle and foot commonly encountered in clinical practice.

80 Males were 4.1% more often non-right-footed compared to females.

81 amma(-/-) malignancies of the ear, tail, and foot comprised poorly differentiated, round to spindle-s

82 We tested for a relationship between foot contact time and metabolic rate during locomotion f

83 Foot contact time does not explain variance in rate of e

84 Foot contact time, a proxy for rate of force production,

85 relation between energy expenditure rate and foot contact time, conditioned on fixed effects of mass

86 tivity during walking, especially at initial foot contact, to improve safety on surfaces that can be

87 Impact forces, due to the foot contacting the ground during locomotion, can be con

88 h the PIMs blocked, the distal joints of the foot could not be stiffened sufficiently to provide norm

89 .8 years, SD); postnatal microcephaly (83%); foot deformities (69%); and epilepsy (66%) that is intra

90 terized by distal muscle atrophy, often with foot deformity, weakness and sensory loss.

91 DNT surgery to treat foot drop entails rerouting a tibial nerve branch to the

92 aperture, or by preventing others including foot drop.

93 The stiff human foot enables an efficient push-off when walking or runni

94 wave and ear PPG foot, R-wave and finger PPG foot [finger pulse arrival time (PAT)], R-wave and toe P

95 o be determined, establishing a quantitative footing for the methodology.

96 Our results provide greater psychometric footing for the study of self-regulation and provide gui

97 developing embryos and proving a mechanistic footing for the transcriptional hierarchy driving myogen

98 the design of robotic feet and the study of foot function in locomotion.

99 springs may also have some effect on natural foot function.

100 Shifting ankle-foot gearing regulates speed of plantarflexor (i.e., cal

101 ested the hypothesis that manipulating ankle-foot gearing via stiff-insoled shoes will change the for

102 ed improved motor performance in rotarod and foot grip tests in treated Sh3tc2-/- mice compared to mo

103 ist muscle co-contraction around the time of foot-ground contact during toe walking.

104 udy assesses the effects of self-dousing and foot immersion on heart rate, core temperature, and ther

105 ptual precision and highlight regions of the foot important for balance and locomotion.

106 ehead, neck, underarm, lower back and dorsal foot in 10 males (27.8 +/- 2.7 years; 1.92 +/- 0.1 m(2)

107 We observed a prespike foot in a significant number of events (~20%) and argue

108 wed selectivity for the hand in controls and foot in individuals with dysplasia.

109 lly earliest record of an arctometatarsalian foot in tyrannosauroids, indicating that the group devel

110 Diseases Society of America (IDSA) diabetic foot infection classification by adding a separate tier

111 limb threatening ischemia(CLTI) or diabetic foot infection(DFI).

112 four-month-old infant, along with a serious foot injury suffered by the primiparous mother.

113 Impaired wound healing in the diabetic foot is a major problem often leading to amputation.

114 titative image analysis shows that the basal foot is organized into three main regions linked by elon

115 d in the new specimen but the outline of the foot is recorded in a detailed skin surface, which is su

116 performance resulting from constraining the foot joints by a rigid sole was the result of a mechanic

117 examined how constraining the motion of the foot joints with rigid soles influenced balance performa

118 ise (LAeq in decibels, dB) data on hour-long foot journeys around 16 locations throughout Long Beach,

119 the importance of external perturbation and foot landing orientation effects on postural adjustments

120 of step length (i.e., inter-feet distance at foot landing) when they moved their legs (active percept

121 Lower Jurassic Batrachopus with foot lengths (FL) in the 2-8 cm range, and Cretaceous Cr

122 the head (P2), or at heart level (P3), with foot-level Gz at 1.0 g, 1.7 g and 2.4 g.

123 f the head (P2), or at heart level (P3) with foot-level Gz at 1.0 g, 1.7 g and 2.4 g.

124 e heart (reduced g-gradient), independent of foot-level Gz, leads to improved g-tolerance.

125 is part of parrot courtship displays [4] and foot lifting is part of locomotion, these may be innate

126 a level, where they can operate on the same footing, making direct comparison of the obtained result

127 ings suggest that decreased sensation in the foot may be an underrecognized risk factor for death in

128 This renewed understanding of the foot may improve the clinical treatment of flatfoot diso

129 romyscus maniculatus) and low-altitude white-footed mice (P. leucopus) were born and raised in captiv

130 itative microperfusion data from gated human foot microvasculature.

131 We show that a novel, on-foot mobile noise measurement method coupled with machin

132 (birds) from China which had quite different foot morphologies.

133 The foot morphology of Ar. ramidus suggests that the evoluti

134 Based on the autapomorphic foot morphology, we erect a new taxon, Elektorornis chen

135 in males from a wild population of the white-footed mouse, Peromyscus leucopus.

136 tored diabetes-impaired blood flow recovery, foot movement, hindlimb capillary density, vessel diamet

137 His brain activity, eye movements and hand/foot movements were recorded.

138 e springs may contribute to weakening of the foot muscles and possibly to increased susceptibility to

139 ved the severe reduction or complete loss of foot muscles as skeletal elements elongated and digits w

140 Here, we report the natural loss of foot muscles in the bipedal jerboa, Jaculus jaculus.

141 Abdominal (n = 132), foot (n = 59), leg (n = 58) and peri-anal (n = 34) wound

142 More interestingly, fewer (e.g., N(foot)/N(events)) and smaller (e.g., I(foot)) prespike ev

143 up remained more cautious as to how the lead foot negotiated the obstacle, in order to reduce the cha

144 Here I show that the foot of Ar. ramidus is most similar to living chimpanzee

145 talyzes the selective hydrolysis of the rear foot of macrocyclized walkers (an information ratchet me

146 epresent an objective quantification of the "foot of the bed test" utilized by clinicians; therefore,

147 ectively activates KCNQ5 by binding near the foot of the channel voltage sensor.

148 t subtle structural differences exist in the foot of the lipid-binding "J-channel" in SK2, the struct

149 nput compensation and entrainability: on the footing of equal phase-response curves, it exhibits the

150 Its foot, of which the third digit is much longer than the s

151 netic information were obtained using either foot-of-the-wave analysis (FOWA) or analytical treatment

152 es, tantamount to taking the CD8(+) T cell's foot off the gas pedal.

153 ng scientific landmarks-analogous to setting foot on the moon.

154 se had fever and 18 (42%) children had hand, foot, or mouth lesions at or before neurological onset.

155 h significantly higher rates of use of ankle-foot orthoses, full-time use of wheelchair, dexterity di

156 In patients with diabetic foot osteomyelitis (DFO) who underwent surgical debridem

157 rosy activity was monitored using the 'mouse-foot-pad propagation method', with WHO recommended conce

158 We show that the degree of hand and foot phalangeal curvature in this individual is indistin

159 hibit pronounced curvature in their hand and foot phalanges, which is assumed to develop throughout l

160 Able-bodied individuals demonstrated higher foot placement accuracy than BKAs, indicating that the l

161 amic balance control and the equifinality of foot placement humans exhibit.

162 ortex tracked obstacle location for planning foot placement nearly two steps ahead of reaching the ob

163 tep adjustments in postural sway and lateral foot placement positively correlated with those of postu

164 ameters (crossing height, crossing velocity, foot placement, single support time) were calculated off

165 plicated step-to-step dynamics of individual foot placements.

166 increase grasping efficiency in dorsiflexed foot postures by increasing the path length of the flexo

167 parameters of 20 healthy subjects with right-foot preference during treadmill walking at speeds of 1.

168 .g., N(foot)/N(events)) and smaller (e.g., I(foot)) prespike events are observed when chaotropes are

169 A high resolution (3 km foot print) SM/ST dataset prepared from a land data assi

170 high frequency on-chip systems with very low foot-print and energy requirements.

171 gnment stages), our OPtIC microlenses with a foot-print of 4 mum x 4 mum open up the possibility of m

172 We used hydroxy-radical foot printing with mass spectroscopy (XFMS) to track the

173 Podocyte foot process and slit diaphragm are the final barrier to

174 but mitigated hypertension-induced podocyte foot process effacement and albuminuria.

175 sis reveals that Robo2 cKO mice display less foot process effacement and better-preserved slit-diaphr

176 while podocytes were edematous with areas of foot process effacement and glomerular basement membrane

177 uria around postnatal day 28, accompanied by foot process effacement and loss of slit diaphragms.

178 Patients in a cluster with more prominent foot process effacement and microvillous transformation

179 docytes of the knockout mice had distinctive foot process effacement and microvillus formation.

180 ant insights into the mechanisms of podocyte foot process effacement and points out a promising strat

181 serum proteins leak into urine, and podocyte foot process effacement is the common pathway of all pro

182 Additionally, we observed severe podocyte foot process effacement of remaining podocytes, activati

183 es alphavbeta3 integrin on podocytes, causes foot process effacement, and contributes to proteinuric

184 anges were associated with profound podocyte foot process effacement, cell death, and sustained p38 a

185 ion is sufficient and necessary for podocyte foot process effacement, however, Rac1 inhibition is not

186 ular dysfunction, loss of stress fibers, and foot process effacement.

187 n microcopy analyses showed a focal podocyte foot process effacement.

188 m3 knockdown led to albuminuria and podocyte foot process effacement.

189 in the lower quarter of the taste bud and a foot process extending to the basement membrane often co

190 findings suggest that THSD7A functions as a foot process protein involved in the stabilization of th

191 ancing podocyte adhesion that helps maintain foot process structure.

192 e injury and loss, as evidenced by increased foot process width (a generally accepted structural mark

193 (increasing podocyte GL3 volume fraction and foot process width) was also associated with increasing

194 gate how regulation of actin dynamics within foot processes controls local morphology.

195 t of suPAR on podocyte injury, effacement of foot processes, and proteinuria.

196 THSD7A localizes to the basal aspect of foot processes, closely following the meanders of the sl

197 rminal region normally localizes to podocyte foot processes, it does not do so in the presence of FSG

198 ional complexes between abnormally broadened foot processes.

199 dney's formation of capillary loops abutting foot processes.

200 rol of dynamics of actin cytoskeleton in the foot processes.

201 (an information ratchet mechanism), the rear foot producing an (R)-stereocenter at its point of attac

202 Active ankle-foot prostheses generate mechanical power during the pus

203 ution imaging, we identify CEP112 as a basal foot protein and other candidate components of this asse

204 Inspired by mussel foot proteins (Mfp) secreted by the saltwater mussel, My

205 enylalanine (DOPA, Y) residues in the mussel foot proteins (Mfps) has been highlighted.

206 estigate the molecular architecture of basal foot proteins in cells with primary or motile cilia and

207 utellae scale filament (SSF) feathers on the foot, providing direct analogies to the plumage patterns

208 me delays between the ECG R-wave and ear PPG foot, R-wave and finger PPG foot [finger pulse arrival t

209 mpressions and casts, the latter essentially foot replicas.

210 tion and mitigation strategies, e.g., the "6-foot rule." Here we analyze flows during breathing and s

211 One important factor is that the foot's ability to exert torque on the support surface is

212 ific regions in males (i.e. ~40% decrease in foot sensitivity), and also induced a generalized reduct

213 walked on the variable-stiffness prosthetic foot set to a randomized stiffness, while several prosth

214 t-Yangming (SMFY) or Gallbladder Meridian of Foot-Shaoyang (GMFS) in healthy male Sprague Dawley (SD)

215 blethal effects of ingested plastic in Flesh-footed Shearwaters (Ardenna carneipes) using blood chemi

216 netic activation of a single glomerulus with foot shock in mice induces freezing to light stimulation

217 Three 10 s auditory cues predicted unique foot shock probabilities: danger (p=1.00), uncertainty (

218 most CA1 neurons did not respond to tone and foot shock throughout the training and recall cycles.

219 ks and a different context never paired with foot shock was retained normally for 15 d.

220 ard with increasing risk of punishment (mild foot shock).

221 g consisting of an auditory CS paired with a foot shock, and the auditory CS was re-presented during

222 cally activated by aversive stimuli, such as foot shock.

223 scrimination between auditory cues signaling foot-shock could be avoided by making or withholding ins

224 The foot-shock-driven excitation within the LHb requires glu

225 ined mice to associate these odors with mild foot shocks (F0-Trained), and 3) trained mice to associa

226 discrimination between a context paired with foot shocks and a different context never paired with fo

227 ncluding a population that responded to mild foot shocks and predicted aversive events.

228 nspecifics, one of which is stressed via two foot shocks and the other naive to treatment.

229 ined mice to associate these odors with mild foot shocks and then extinguished their fear toward thes

230 The presentation of two foot shocks of weaker intensity during retrieval resulte

231 s 11 [18%] in the standard-dose group), hand-foot skin reaction (eight [15%] patients vs ten [16%] pa

232 Grade 3 hand-foot skin reaction was reported in 24% of participants o

233 Furthermore, foot skin single-cell RNA sequencing analysis showed mul

234 on micro-CT scanning of the StW 573 ('Little Foot') skull has revealed the most complete early homini

235 nt and prosthetist preference for prosthetic foot stiffness using a custom variable-stiffness prosthe

236 1.25, 1.75, and 2.0 m/s) and three levels of foot stiffness.

237 PIMs) within the foot actively contribute to foot stiffness.

238 inchworm-like movements, backward steps, and foot stomps.

239 The simulations revealed that foot strike pattern affected the soleus and gastrocnemiu

240 oplasmic pre-60S in a region containing the "foot" structure assembled around the 3' end of the 7S pr

241 ection with CHIKV, with a marked increase in foot swelling compared to wild-type mice.

242 IRF-1 expression limited CHIKV-induced foot swelling in joint-associated tissues and prevented

243 opathy (27.1% v 11.2%) and more grade 2 hand/foot syndrome (28.5% v 3.3%) and diarrhea (13.7% v 5.8%)

244 xicity, the most frequent of which were hand-foot syndrome in 43 (20%) patients, diarrhoea in 16 (8%)

245 grade 2 or higher mucositis, diarrhoea, hand-foot syndrome, or fatigue.

246 During locomotion, the human ankle-foot system dynamically alters its gearing, or leverage

247 tributed to Ardipithecus ramidus preserves a foot that purportedly shares morphometric affinities wit

248 ibution of anisotropies, placing on a firmer footing the understanding of the rate of DT fusion in a

249 In the foot, the material properties of the inter-metatarsal ti

250 likely to encounter livestock and humans on foot, thus disrupting the social associations among grou

251 bing high loads, but help stiffen the distal foot to aid push-off against the ground when walking or

252 rrent, increasing ~15-fold from the prespike foot to the spike peak.

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

254 egardless of perch diameter and texture, but foot, toe, and claw kinematics become surface-specific u

255 s during the next stance, well in advance of foot touchdown.

256 Diabetic foot ulcer (DFU) is a problem worldwide, and prevention

257 biological properties is vital for diabetic foot ulcer (DFU) treatment.

258 pair, which contributes to impaired diabetic foot ulcer healing.

259 tated wound image dataset consisting of 1109 foot ulcer images from 889 patients to train and test th

260 Diabetic foot ulcer microbiota were found to exist in one of four

261 Importantly, in both diabetic foot ulcer patients, metagenomic sequencing identified p

262 Differentiation of diabetic foot ulcer-derived induced pluripotent stem cells reveal

263 PAD is a major risk factor for diabetic foot ulceration and amputation.

264 otentially successful treatment for diabetic foot ulceration.

265 Diabetic foot ulcerations (DFUs) represent a major medical, socia

266 study of patients with neuropathic diabetic foot ulcers (DFU).

267 Diabetic foot ulcers (DFUs) are a leading cause of high morbidity

268 Diabetic foot ulcers (DFUs) are a life-threatening disease that o

269 Diabetic foot ulcers (DFUs) are a major complication of diabetes,

270 Nonhealing diabetic foot ulcers (DFUs) are characterized by low-grade chroni

271 Treatment for chronic diabetic foot ulcers is limited by the inability to simultaneousl

272 Diabetic foot ulcers represent a significant source of morbidity

273 role of pressure in pathogenesis of diabetic foot ulcers".

274 with neuroischaemic (NI) or neuropathic (NP) foot ulcers.

275 and effective treatment for chronic diabetic foot ulcers.

276 Stiff insoles increased leverage of the foot upon the ground (p < 0.001), and increased dorsifle

277 us scale (EDSS) score of 3.5-6.5, a timed 25-foot walk (TW25) of less than 40 s, evidence of clinical

278 20% increase in time to perform the Timed 25-Foot Walk [T25FW], and composite progression defined as

279 e Expanded Disability Status Scale, Timed 25-Foot Walk and 9-Hole Peg Test.

280 isability Status Scale (R(2)=0.26), timed 25-foot walk test (R(2)=0.23), 9-hole peg test (R(2)=0.23),

281 panded Disability Status Scale, the Timed 25-Foot Walk, the Nine-Hole Peg Test, and the 3 s Paced Aud

282 matter cross-sectional area of the Timed 25-Foot Walk.

283 tudy provides evidence that the modern human foot was derived from an ancestral form adapted to terre

284 however the sympathetic skin response of the foot was impaired and sweat gland innervation was reduce

285 that was more pronounced in males (i.e. the foot was ~31% more sensitive than the forehead); and (ii

286 the evolutionary solution to protecting the foot, we wondered whether they differ from shoes in main

287 treatment of lung cancer on a more objective footing, we developed a computational model of cisplatin

288 etween counting fingers and hand motion at 1 foot were more likely to undergo initial PPV.

289 peroneal nerve innervating the dorsum of the foot were recorded by microneurography in seven healthy

290 etry) in the innervated dermatome (dorsum of foot) were continuously measured.

291 As many as 60.1% of left-handers were left-footed whereas only 3.2% of right-handers were left-foot

292 o add an extra gear unavailable to the human foot, which can enhance muscular performance in a specif

293 s (BDD), an infectious disease of the bovine foot with a predominant treponemal etiology, is a leadin

294 Here we describe a foot with digital proportions unlike any previously desc

295 rmese amber: two isolated wings, an isolated foot with wing fragment, and two partial skeletons [4, 8

296 t places iron-based superconductors on equal footing with copper oxide superconductors, where a simil

297 placing agro-ecological innovations on equal footing with input-intensive measures, our work provides

298 eople) cannot reach a healthcare facility by foot within one hour.

299 an important ecological engineer: the dusky-footed woodrat, Neotoma fuscipes.

300 d at acupoints of either Stomach Meridian of Foot-Yangming (SMFY) or Gallbladder Meridian of Foot-Sha