ライフサイエンスコーパス: deformity

1 important tools in the management of spinal deformity.

2 ts capable of blocking severe juvenile spine deformity.

3 r preparation for surgical correction of the deformity.

4 management of children with pectus carinatum deformity.

5 s without gingival recession or mucogingival deformity.

6 has been termed the undertreated chest wall deformity.

7 of foot and ankle, hip dysplasia and spinal deformity.

8 n the penis and do not correct the hourglass deformity.

9 ing has a great potential in identifying ear deformity.

10 regulation resulted in EM-detectable cristae deformity.

11 l balance, coronal imbalance and valgus knee deformity.

12 tal abnormalities causing bone fragility and deformity.

13 e distal muscle weakness and musculoskeletal deformities.

14 oting irreversible physical disabilities and deformities.

15 d deformities, suggesting contaminants cause deformities.

16 ominant disorder with complex heart and limb deformities.

17 ith progressive joint contractures and spine deformities.

18 including systemic inflammation and skeletal deformities.

19 iscusses treatment options for each of those deformities.

20 - 3.87 hatch, and no significant increase in deformities.

21 es, enchondromas, joint destruction and bony deformities.

22 nd is patients with blepharospasm-associated deformities.

23 etween volunteers and patients with cam-type deformities.

24 c and Sertoli cells as well as the spermatid deformities.

25 hosphatemia mouse models exhibiting skeletal deformities.

26 ep-tendon-reflex abnormalities, and skeletal deformities.

27 ce exists for reconstruction of craniofacial deformities.

28 found in patients with XLMR and craniofacial deformities.

29 asymmetric densities, and 50% of parenchymal deformities.

30 ons (osteochondroma) and characteristic bone deformities.

31 f the rheumatoid hand by correcting existing deformities.

32 urve correction and stabilization for spinal deformities.

33 k lenses, along with severe anterior chamber deformities.

34 correlated with adult wing, leg, and tergite deformities.

35 res and the development of the observed limb deformities.

36 tissue swelling, pannus formation, and bone deformities.

37 dronate group had new or worsening vertebral deformities.

38 membranous ossification, as well as skeletal deformities.

39 s to fetal growth restriction and congenital deformities.

40 struct adverse outcome pathways for skeletal deformities.

41 for traumatic and postsurgical craniofacial deformities.

42 of ipsilateral thoracic and upper extremity deformities.

43 wing difficulties and childhood-onset spinal deformities.

44 ostosis, one of the most common craniofacial deformities.

45 tion resulting in severe congenital skeletal deformities.

46 Acquired deformities (13%), incontinence (11%), non-injury wounds

47 ities of gait and coordination (42%), spinal deformity (39%), focal weakness (21%), and sphincter dis

48 66%), microcalcifications (25%), parenchymal deformities (6%), and asymmetric densities (3%).

49 ars, SD); postnatal microcephaly (83%); foot deformities (69%); and epilepsy (66%) that is intractabl

50 sessment and treatment of adults with spinal deformity across countries of varying incomes, which rep

51 ic scoliosis (AIS) is the most common spinal deformity affecting 2% of the population.

52 diopathic scoliosis (AIS) is a complex spine deformity, affecting approximately 1-3% adolescents.

53 Adult spinal deformity affects the thoracic or thoracolumbar spine th

54 ctron microscopy showed carapace and antenna deformities after exposure to fibers, with no deformitie

55 The absence of Hint2 provokes mitochondrial deformities and a change in the pattern of acetylation o

56 shortened cilia with various ultrastructural deformities and a disrupted association between IFT subc

57 ciation study (BGWAS) of the KBD using joint deformities and body height as study phenotypes, totally

58 caused embryonic lethality with craniofacial deformities and cardiovascular developmental defects.

59 ase with variable symptoms, including facial deformities and conductive hearing loss.

60 in the developing cerebellum in addition to deformities and degeneration of the mature cerebellum.

61 utations are associated with severe skeletal deformities and disordered steroidogenesis.

62 c osteoarthropathy, which manifests as joint deformities and growth retardation.

63 Changes attributed with morphological deformities and immunomodulation in susceptible regions

64 exposed, Nano-PS decreased the developmental deformities and impaired vascular development caused by

65 ome is characterized by various craniofacial deformities and is caused by an autosomal-dominant activ

66 Spinal deformities and lethality occurred at 1.8 and 3.5 mg/L R

67 Most importantly, thalidomide-induced limb deformities and microphthalmia in chicken embryos could

68 ibian larvae, frequently causing severe limb deformities and mortality.

69 edema, spinal malformation, and craniofacial deformities and there were distinct differences in the e

70 luding: 457 photographs of patients with ear deformity and 214 photographs of patients with normal ea

71 The increased prevalence of pistol grip deformity and an abnormally low neck shaft angle in unaf

72 gers, especially in cases that show no fixed deformity and are not associated with any other rheumato

73 d in human Klippel-Feil syndrome, Sprengel's deformity and Arnold-Chiari I/II malformation, providing

74 neficial for patients who suffer from penile deformity and can greatly improve their quality of life.

75 to this, based on the anatomical site of the deformity and degree of mouth opening.

76 n Mycobacterium leprae, causes nerve damage, deformity and disability in over 200,000 people every ye

77 ch to prevent the progression of, or reduce, deformity and improve sexual function.

78 s chronic bone disease characterized by bone deformity and inflammation that is reminiscent of patien

79 ding transcripts were associated with spinal deformity and likely involved in sensitivity to RDX.

80 disease which causes substantial joint pain, deformity and loss of activities of daily living.

81 ectomy breast reconstruction are to minimize deformity and optimize quality of life as perceived by p

82 women, but also in patients with valgus hip deformity and other abnormalities leading to reduction o

83 strumentation that indirectly corrects spine deformity and protects spine growth remaining to treat a

84 not lethal, they are responsible for tissue deformity and substantial morbidity, particularly in hig

85 pathic scoliosis is the most prevalent spine deformity and the molecular mechanisms underlying its pa

86 als who exhibited growth restriction, facial deformities, and a history of bacterial and viral infect

87 ities, including inability to work, physical deformities, and amputations.

88 in the sections of congenital malformations, deformities, and chromosomal abnormalities, and mental a

89 ing and hypophosphataemia, rickets, skeletal deformities, and growth impairment.

90 ts (hatching success, time to hatch, length, deformities, and heart rate).

91 lly weakened tendon, fragile bones, skeletal deformities, and in severe cases, prenatal death.

92 no6 leads to reduced skeleton size, skeletal deformities, and mineralization defects in mice.

93 ain features are pugilistic facies, skeletal deformities, and muscular hypertrophy despite a lack of

94 ated: older children, postsurgical recurrent deformities, and nonidiopathic clubfeet.

95 his loss leads to severe gait ataxia, spinal deformities, and respiratory insufficiency due to neurom

96 mercial NA developed cardiovascular and bone deformities, and transcriptomic networks reflected these

97 ctivity causes bone loss that leads to pain, deformity, and fracture.

98 haracterized by cortical-bone thinning, limb deformity, and fractures; two patients were examined by

99 Freezing of gait, postural deformity, and motor fluctuations were common late featu

100 , previous mediastinal radiation, chest wall deformity, and potential for injury to previous bypass g

101 halangeal (MCP) joint pain, swelling, and/or deformity, and radiographic enthesopathic changes.

102 and corrective growth of the concavity of a deformity, and vertical expandable prosthetic titanium r

103 Lower extremity angular deformities are among the most common nontraumatic condi

104 Foot deformities are common among children with cerebral pals

105 Postural deformities are frequent and disabling complications of

106 These deformities are reminiscent of those previously describe

107 herapeutic agents, neuropathy and associated deformities are seldom ameliorated to a significant exte

108 bradykinesia, and rigidity-because the hand deformities are similar to those in rheumatoid arthritis

109 ngth discrepancy and lower extremity angular deformity are among the most common nontraumatic conditi

110 antly raised the level of awareness for this deformity as both an anatomic and a functional problem.

111 uals can be a leading cause of the 3D spinal deformity as is observed in the AIS population.

112 teria: baseline VCF, lytic tumor, and spinal deformity, as significant predictors of VCF.

113 tified anomalous mitral arcade, a rare valve deformity associated with mitral regurgitation.

114 The index of vertebral deformity, bone mass density (BMD), and biochemical para

115 ine imaging shows several vertebral endplate deformities, but overall preservation of vertebral heigh

116 inically, many nail disorders accompany bone deformities, but whether the two defects are causally re

117 the discussion on the restoration of facial deformities by allotransplantation.

118 in although neurological deficits and spinal deformity can be present too.

119 used to another in order to restore physical deformities caused by trauma, tumors, or congenital abno

120 n in this location is the potential cosmetic deformity caused by wide excision of the melanoma.

121 Camptocormia is an axial postural deformity characterised by abnormal thoracolumbar spinal

122 ession of SHIP2 levels caused severe F-actin deformities characterized by weak cortical actin and per

123 As a tricky dentofacial deformity clinically, long-face (LF) morphology is chara

124 comparison, looking for parenchymal contour deformity, close inspection of the retromammary fat, ide

125 wounds), masses (solid or soft, reducible), deformities (congenital or acquired), abdominal distenti

126 patient population to approach the goals of deformity correction and maintenance with preservation o

127 as L2-S1 fusion with decompression and spine deformity correction.

128 Rationale: Complete tracheal ring deformity (CTRD) is a rare congenital abnormality of unk

129 osteoarthritis, pathological fracture, bone deformity, deafness, and nerve compression syndromes.

130 ed to spastic paraplegia, microcephaly, foot deformity, decreased muscle mass of the lower limbs, ina

131 nd fractures that may be accompanied by bone deformity, dentinogenesis imperfecta, short stature, and

132 in GoogLeNet, a deep CNN, to generate an ear deformity detection model in Matlab.

133 ive distal muscle weakness and atrophy, foot deformities, distal sensory loss, as well as diminished

134 racing is a useful treatment to correct foot deformities during gait.

135 0I) mutation, and found significant skeletal deformities (e.g., shortening of tibiae and digits, simi

136 These chamber deformities emerge gradually during development, with a

137 The degree of curvature, the type of deformity, erectile dysfunction, and penile length are a

138 antibody-negative diabetes mellitus and skin deformities, familial Rosai-Dorfman disease, characteriz

139 e of their lateral deviation rendering their deformity fixed.

140 cular perturbations underlying developmental deformities following exposure to NAFCs.

141 r junction, with formation of the "swan-neck deformity" following degenerative tubular cell changes a

142 Developmental deformities for larval exposures included cardiac edema,

143 pelvis radiographs, we measured "pistol grip deformity" for each hip (visually categorized as nonsphe

144 we applied CNN to automatically identify ear deformity from 2D photographs.

145 hape abnormality to differentiate positional deformity from craniosynostosis.

146 Seven patients had fixed skeletal deformities (FSD).

147 isease, excluding concomitant anatomic nasal deformities, global airway dysfunction and systemic dise

148 er the spill and found that the frequency of deformities had returned to background levels and that t

149 fants with congenital central nervous system deformities had significantly higher levels of interleuk

150 nce of structural bony changes even when the deformity had been present for a number of years.

151 tment of limb length discrepancy and angular deformity has expanded the indications for surgical mana

152 The evidence to date suggests that postural deformities have a multifactorial pathophysiology.

153 Chironomid larval deformities have been widely investigated as an aquatic

154 Craniofacial deformities have functional and psychosocial sequelae an

155 rowth retardation, muscle weakness, skeletal deformities, hypocalcemia, tetany, and seizures.

156 Additionally, we found ocular deformities in a minority of the fetuses.

157 iple osteochondromas and characteristic bone deformities in a pattern and a frequency that are almost

158 cial transplantation seeks to correct severe deformities in a single operation.

159 d bone mineralization in larvae and skeletal deformities in adult, mainly acting on reducing ER ciste

160 Toxic levels of selenium (Se) shown to cause deformities in birds, fish, and mammals can transfer fro

161 The present article describes common foot deformities in children with cerebral palsy and discusse

162 m (Se) toxicity thresholds for mortality and deformities in early life stages of zebrafish (Danio rer

163 ctions induced growth retardation and severe deformities in knee joints.

164 vo exposure to SeMet increased mortality and deformities in larval zebrafish in a concentration-depen

165 revent the development of nerve injuries and deformities in leprosy.

166 The incidence of morphological deformities in P. nivosa of approximately 70% persisted

167 Surgical management of spinal deformities in patients with neuromuscular diseases or o

168 Management of spinal deformities in patients with neuromuscular diseases or o

169 anding of the mechanisms underlying postural deformities in PD might ultimately lead us to more effec

170 -mediated signaling and rescued craniofacial deformities in Tgfbr2 mutant mice, indicating that activ

171 Although they lacked apparent deformities in the embryonic vasculature and heart, the

172 viable offspring and increased developmental deformities in the F1 and F2 generations, with a greater

173 ked to a constellation of neurodevelopmental deformities in the fetus resulting in a disease termed c

174 ked to a constellation of neurodevelopmental deformities in the fetus resulting in a disease termed c

175 PAH toxicity such as heart malformation and deformities in the jaw, fin, and tail.

176 ts and tumors were diagnosed on the basis of deformities in the kidney.

177 ent idiopathic scoliosis (AIS) causes spinal deformity in 3% of children.

178 ot uncommon, the most usual causes of spinal deformity in adults are iatrogenic flatback and degenera

179 sent the evolution of data related to spinal deformity in adults over the past several decades.

180 ic rods mimics the 3D patterns of the spinal deformity in AIS patients with the same S shaped sagitta

181 The prevalence of pistol grip deformity in at least 1 hip was 3.61% in controls and 17

182 hic scoliosis (IS) is the most common spinal deformity in children, and its etiology is unknown.

183 inimising the functional deficit or cosmetic deformity in the affected area, particularly in the head

184 uggests that the lesion is an acquired valve deformity in this setting, not a malformation.

185 Severe spinal deformity in young children is a formidable challenge fo

186 These deformities include camptocormia, antecollis, Pisa syndr

187 New treatment options for angular deformity include the method of 'guided growth' using sm

188 options for both limb length discrepancy and deformity include the method of 'guided growth' using sm

189 owth, but rather results in various skeletal deformities including cleft palate.

190 icantly increased, and the severity of these deformities increased over time.

191 o [HR], 0.53 per unit increase), high spinal deformity index (HR, 2.23 per five units increase), and

192 Misdiagnosis of the deformities is common-particularly when they occur early

193 Surgical correction of foot deformities is typically performed as a part of multilev

194 Our findings indicate that pistol grip deformity is associated with hip OA.

195 If there is ample penile length and the deformity is mild to moderate in severity, a variety of

196 ly involved; a gradual onset of symptoms and deformity is more common.

197 s severe clinically evident paw swelling and deformity, less synovial and periarticular inflammation,

198 on microscopy of patient hair shafts reveals deformities (longitudinal grooves) as well as plaque-lik

199 (BCS) is often assumed to result in minimal deformity, many patients report postoperative breast asy

200 Parameters that quantify these deformities may aid understanding of these associations.

201 s and placed in isolation for observation of deformity, mortality, and fertility.

202 This patient had multiple joint deformities, most notably in the bilateral metacarpophal

203 nd/or histological evidence of rickets, limb deformities, muscle weakness, and bone pain.

204 ifestations (joint tenderness, swelling, and deformity, nodules, erythrocyte sedimentation rate [ESR]

205 tant mice were born with severe craniofacial deformity not seen in the Six1 (-/-) or Six2 (-/-) singl

206 nce of a patient with congenital or acquired deformity numerically along their own continuum of norma

207 eformities after exposure to fibers, with no deformities observed after exposure to PE beads.

208 Spinal deformities observed in wild Sacramento Splittail (Pogon

209 pathic scoliosis (AIS) is a prevalent spinal deformity occurring during peripubertal growth period th

210 severe disease complications, such as mitten deformities of hands and feet and aggressive epithelial

211 te manipulation for the treatment of angular deformities of knees has expanded the indications for su

212 mon for the reconstruction of complex facial deformities of skin, soft tissues, bony structures, and

213 sive fibrosis of the palm leading to flexion deformities of the digits that impair hand function.

214 Subtle deformities of the hip joint are implicated in the etiol

215 in the tissue plane, with defects leading to deformities of the limbs, neural tube and inner ear.

216 er techniques have been developed to correct deformities of the long bones.

217 ement, especially when assessing geometrical deformities of the proximal femur.

218 Vertebral deformities of the thoracic and lumbar spine were radiog

219 e of post-traumatic meningeal hemorrhages or deformities of the vertebral canal.

220 is revealed by simultaneous enlargement and deformity of multiple joints, degradation of articular c

221 lized gingival hyperplasia, whereas Sprengel deformity of scapula, fusion of spine, rib abnormities,

222 ncluding interruption of the CW and anatomic deformity of the cerebral arteries.

223 d in the differential diagnosis of swan neck deformity of the fingers, especially in cases that show

224 -year-old woman who presented with swan neck deformity of the fingers.

225 Paucity of digitations is a deformity of the hippocampal head that was detected inde

226 scoliosis (AIS) is a three-dimensional (3D) deformity of the spinal column in pediatric population.

227 Associated deformity of the trachea or great vessels was recorded a

228 anding of consequences of lower limb angular deformities on knees.

229 Patients with vertebral deformities or fractures were excluded.

230 atory insufficiency due to progressive chest deformity or have persistent bone disease.

231 pressure or as a direct result from cranial deformities, or both.

232 arried women (P = 0.03) and those with joint deformities (P = 0.00) were more likely to stop working.

233 re complications such as rickets, lower limb deformities, pain, poor mineralization of the teeth and

234 VMs cause deformity, pain, and local intravascular coagulopathy, a

235 P2B(Intron5) flies significantly rescued eye deformities, photoreceptor patterning defect, and photot

236 ome, which is characterized by osteoskeletal deformities, photosensitivity, and increased osteosarcom

237 y, cardiac abnormalities and musculoskeletal deformities, pigmented hypertrichotic dermatosis with in

238 nd calcein staining revealed severe skeletal deformity, presence of fractures and delayed mineralizat

239 r and molecular mechanisms underlying spinal deformity progression in adolescent idiopathic scoliosis

240 ls was correlated with a reduction of spinal deformity progression risk.

241 ted with a significantly high risk of spinal deformity progression when compared to the other two end

242 molecular mechanism interfering with spinal deformity progression.

243 tification of AIS patients at risk of spinal deformity progression.

244 treatments resulted in acceptable mortality/deformity rates, the observed effects strongly support t

245 , but included increased incidence of larval deformities, reduced larval growth and survival, impaire

246 nsisted of aberrant hind limb posture, digit deformities, reduced voluntary locomotor activity, reduc

247 e, yet the mechanisms underlying this spinal deformity remain unknown.

248 hat any causal link between contaminants and deformities remains uncertain, and suggest improved expe

249 e erythropoiesis, have craniofacial and limb deformities resembling those of patients with Diamond-Bl

250 ing stairs, palpable effusion, fixed-flexion deformity, restricted-flexion range of motion, and crepi

251 nal outcomes for a variety of hand and wrist deformities resulting from rheumatoid arthritis (RA).

252 effects), and mortality (which can confound deformity results).

253 edures have been developed to correct penile deformity secondary to Peyronie's disease.

254 signaling exhibit abnormalities that mirror deformities seen in the human VACTERL (vertebral, anal,

255 is (AIS) is an unexplained and common spinal deformity seen in otherwise healthy children.

256 The correction of acquired penile deformity seen in Peyronie's disease patients can be a c

257 Among RA characteristics, increasing joint deformity, self-reported disability scores, C-reactive p

258 n-o-deethylase (EROD) at 96 hpf, and cardiac deformity severity was scored at 144 hpf.

259 The prevalence of vertebral deformities should be evaluated prospectively in patient

260 dent, however, that the management of spinal deformity should use a multidimensional approach with an

261 ice were born with crinkled tails and spinal deformities similar to those in ankylosing spondylitis.

262 By CAD/CAM technique, it can correct jaw deformities simultaneously and produce stable results.

263 ength discrepancy and angular and rotational deformities simultaneously.

264 orted very exciting advances in the field of deformity spine surgery.

265 nd ultimately results in gross morphological deformities strikingly similar to CZS.

266 eptor gene family members cause craniofacial deformities, such as cleft palate, in mice.

267 ve births and in many cases can cause spinal deformities, such as scoliosis, and result in disability

268 spatial association between contaminants and deformities, suggesting contaminants cause deformities.

269 Although adolescent spinal deformities taken into adulthood are not uncommon, the m

270 ents with THA had a higher prevalence of cam deformity than did their respective controls (median alp

271 enerally reserved for men with severe penile deformities that impede satisfactory sexual intercourse.

272 Idiopathic scoliosis (IS) is a spine deformity that affects approximately 3% of the populatio

273 D), or a gummy smile (GS), is a mucogingival deformity that can be of concern to patients.

274 enting the significant medical morbidity and deformity that scoliosis can insidiously inflict.

275 unction, the severity and flexibility of the deformity, the presence or absence of pain and skin irri

276 he background and clinical features of these deformities to highlight these commonly unrecognised and

277 se in rheumatoid arthritis, equinovarus foot deformity typically suggests an orthopaedic problem, and

278 Quantifying ear deformity using linear measurements and mathematical mod

279 A severe alveolar bone deformity vertically and horizontally (Seibert Class III

280 An S-shaped lid deformity was evident, and 2 of the 3 cases demonstrated

281 A mild pectus excavatum deformity was present.

282 Interestingly, this vascular deformity was related to endothelial repulsion through b

283 No tracheal or vascular deformity was seen in any patient.

284 ed by distal muscle atrophy, often with foot deformity, weakness and sensory loss.

285 Various developmental deformities were also manifested in H. armigera larvae a

286 More parenchymal deformities were recalled with double reading, whereas m

287 Photographs of patients with and without ear deformity were obtained as standard of care in our photo

288 nts with a clinically and objectively severe deformity were offered surgical correction.

289 n GMR-Gal4 in the Drosophila eye, causes eye deformities when compared to expression of wild-type CHM

290 H is likely linked to increased risk of bone deformities, whereas the association of GH and MAPK inhi

291 a (XLH) leads to growth retardation and bone deformities, which are not fully avoided by conventional

292 Charcot and Purves-Stewart recognised these deformities, which cause substantial functional disabili

293 has also been true for pediatric chest wall deformities, which previously were treated in only the m

294 he ability of surgeons to safely correct the deformity while maintaining sagittal and coronal balance

295 coliosis (AIS) is a complex inherited spinal deformity whose etiology has been elusive.

296 e, such as acetabular dysplasia, pistol grip deformity, wide femoral neck, altered femoral neck-shaft

297 Correction of mucogingival recession deformities with a variety of periodontal plastic surger

298 The assessment of spinal deformities with rasterstereography can enhance the unde

299 ociated POC5 variant mRNAs resulted in spine deformity, without affecting other skeletal structures.

300 causes of congenital mental retardation and deformities world-wide.