ライフサイエンスコーパス: meniscus

1 eas asporin was particularly abundant in the meniscus.

2 in the extracellular matrix of cartilage and meniscus.

3 or by surgical destabilization of the medial meniscus.

4 the cross-sectional OCT images of lower tear meniscus.

5 rements of ocular aberrations and lower tear meniscus.

6 than patients without lesions in the medial meniscus.

7 microsurgical destabilization of the medial meniscus.

8 ed by surgical destabilization of the medial meniscus.

9 tructural features in the fibrocartilaginous meniscus.

10 l boundaries that have not fully cleared the meniscus.

11 l and saline mixture into the substance of a meniscus.

12 larized from the nonvascularized zone of the meniscus.

13 ture seen on MR images represents the entire meniscus.

14 ap tear of the posterior horn of the lateral meniscus.

15 y affecting the posterior horn of the medial meniscus.

16 ad tears of the posterior horn of the medial meniscus.

17 using surface tension generated by a moving meniscus.

18 t diet (HFD) by surgically destabilising the meniscus.

19 y the Laplace pressure caused by the concave meniscus.

20 was induced by destabilization of the medial meniscus.

21 flections at the liquid-air interface of the meniscus.

22 ral tear of the posterior horn of the medial meniscus (10 of 25) occurred in a combined 96% of the ca

23 ce in tear fluid collected from the inferior meniscus 15 minutes after instillation of 5 microl of 2%

24 hysical examination is moderately sensitive (meniscus, 87%; anterior cruciate ligament, 74%; and post

25 terior cruciate ligament, 81%) and specific (meniscus, 92%; anterior cruciate ligament, 95%; and post

26 We focus on healing of the meniscus, a tissue essential to knee function with limit

27 of cynomolgus monkeys with porcine or bovine meniscus and articular cartilage enabled the study of an

28 Studies on transplantation of porcine meniscus and articular cartilage into monkeys are import

29 Porcine meniscus and articular cartilage specimens were treated

30 T1(Gd) maps of the meniscus and articular cartilage were made from knee dGE

31 ional flow, ultrasonic irradiation, receding meniscus and by directly stretching a single molecule wi

32 kably low and complex friction properties of meniscus and cartilage under constant loading and motion

33 Cartilage-meniscus and cartilage-synovial fluid contrast was signi

34 pressures gradients within the curved liquid meniscus and fluid drag from the pillars at ultra-low Re

35 gh-resolution dynamic imaging of the droplet meniscus and its penetration behavior into the surface t

36 l of this study was to explore T1(Gd) in the meniscus and its relationship with articular cartilage T

37 derstand the mechanical functionality of the meniscus and its relationship with the tissue's complex

38 Readings were performed separately for meniscus and joint space including synovia, ligaments, a

39 tilage, respectively; T1[Gd] of the anterior meniscus and lateral compartments also correlated, with

40 hlorosilanes are incompatible with the water meniscus and polymerize during ink deposition.

41 help improve evaluation of the postoperative meniscus and possibly help improve evaluation of anterio

42 r animals by complete excision of the medial meniscus and resection of the anterior cruciate ligament

43 ility of the contact line between the liquid meniscus and the capillary tip.

44 overing of the posterior horn of the lateral meniscus and the posterior femoral line had a specificit

45 elevant to osteoarthritis such as ligaments, meniscus, and bone.

46 he joint, including the articular cartilage, meniscus, and epiphysis.

47 ment (anterior cruciate), elastic cartilage, meniscus, and hyaline cartilage were analyzed for NTTPHa

48 vidence of marked regeneration of the medial meniscus, and implanted cells were detected in the newly

49 easurements, fast imaging of the electrified meniscus, and mass spectrometry are utilized to study th

50 verexpressing DDR2 to destabilize the medial meniscus, and serial paraffin sections were examined at

51 mpletely ideal conditions (zero noise, known meniscus, and shape factor homogeneity), the software li

52 ranged in a "tree-like" formation within the meniscus appeared to have less blood vessels associated

53 roughs of the corrugations and the resulting meniscus are determined as a competition between surface

54 , upper and lower menisci heights, and upper meniscus area remained elevated for at least 5 minutes.

55 Tear meniscus area showed similar trends in MGD (R = +0.55; P

56 ectional lower tear meniscus height and tear meniscus area were measured using optical coherence tomo

57 Using the knee meniscus as a model system, we query interstitial cell m

58 icial zone of articular cartilage and in the meniscus, as well as synovial lining cells.

59 Here we report a simple yet effective meniscus-assisted solution printing (MASP) strategy to y

60 First, a robust meniscus-assisted solution-printing strategy is employed

61 Au72Ge28 drops suspended by an atomic-scale meniscus at the pipette tip, and to image their phase tr

62 re filled with perflubron (22 ml/kg) until a meniscus at the teeth was observed.

63 ding of the metabolic state of injured human meniscus at the time of arthroscopic partial meniscectom

64 First, the formation of a meniscus between the nanochannel walls, during the slow

65 The water meniscus bisects the eyes of the "four-eyed" fish Anable

66 The meniscus (both its position and degeneration) accounts f

67 directly image the transient formation of a meniscus bridge between the bouncing drops, and propose

68 correction should not only restore the tear meniscus, but also deepen the fornix in CCh patients.

69 vochalasis obliterates tears not only in the meniscus, but also in the reservoir, explaining how symp

70 chment position and associated MRI findings (meniscus, cartilage, bone marrow edema, joint effusion,

71 All phenotypes except meniscus/cartilage increased odds of undergoing total kn

72 OA and are associated with NO production and meniscus cell apoptosis.

73 TAGLN, SFRP2, and FSTL1 as novel markers for meniscus cell dedifferentiation.

74 st time that electrical stimulation enhances meniscus cell migration and integrative tissue repair.

75 expression of the adenosine A2b receptor in meniscus cells after stimulation at the micro- and macro

76 These findings indicate that native meniscus cells can enhance meniscus healing if a scaffol

77 meniscus repair via migration of endogenous meniscus cells from the surrounding meniscus or exogenou

78 13 in TMJ fibrocartilaginous cells than knee meniscus cells to E2, providing an explanation for the d

79 d theoretical study, here we investigate the meniscus-climbing technique that such insects use.

80 The concept is demonstrated through a meniscus confined electrochemical 3D printing approach w

81 des with a spatial resolution defined by the meniscus contact area.

82 m the tip of the pipet ensures that a gentle meniscus contact is made with a substrate surface, which

83 d the surface at a series of positions until meniscus contact.

84 l tensile deformation to explants of porcine meniscus containing live cells.

85 In addition, T1(Gd) of the meniscus correlated with that of articular cartilage (R

86 e molecular signatures identified in damaged meniscus could be segregated largely with age and, to a

87 T1(Gd) of the meniscus covered a range of values (247-515 msec) and pa

88 a sensor and its behavior when a liquid-gas meniscus crosses its surface.

89 Conditioned media from meniscus cultures contained similarly elevated levels of

90 Except for upper tear meniscus curvature, all other parameters of tear menisci

91 The upper tear meniscus curvature, height, and area were 239 +/- 112 mi

92 exterior, and the etch rate in the resulting meniscus decreases as a function of distance from the bu

93 Two radiologists assessed cartilage and meniscus defects on right knee 3-T MR images at baseline

94 with the initiating events of cartilage and meniscus defects.

95 Meniscus degeneration is closely related to the progress

96 ective of this study was to generate porcine meniscus-derived matrix (MDM) scaffolds and test their e

97 using 2D (ideal) or 3D (realistic plasmonic) meniscus designs, respectively, compared to the power en

98 For normal blinks, the tear meniscus did not change significantly during blinking or

99 a positive correlation between RMS and tear meniscus dimensions and a negative correlation between v

100 Tear meniscus dimensions increase with RMS over time, and tea

101 Eye irritation symptoms, blink rate, tear meniscus dimensions, noninvasive (RBUT) and invasive tea

102 ude low signal due to short path lengths and meniscus distortions in small well sizes.

103 is induced by destabilization of the medial meniscus (DMM model) and to identify genes regulated dur

104 l OA following destabilisation of the medial meniscus (DMM) and after acute cartilage injury and repa

105 model and the destabilization of the medial meniscus (DMM) model of osteoarthritis in the mouse were

106 e subjected to the destabilization of medial meniscus (DMM) model of post-traumatic OA.

107 A destabilization of the medial meniscus (DMM) model was used to assess the in vivo acti

108 age induced by destabilization of the medial meniscus (DMM) OA-inducing surgery in mice.

109 performed the destabilization of the medial meniscus (DMM) surgery at 12-week-old mice to induce OA

110 e subjected to destabilization of the medial meniscus (DMM) surgery.

111 rse design and destabilization of the medial meniscus (DMM) technique.

112 models such as destabilization of the medial meniscus (DMM) used for evaluating disease-modifying OA

113 Surgical destabilization of the medial meniscus (DMM) was used to model OA in 12-week-old and 1

114 ced in mice by destabilization of the medial meniscus (DMM), and articular cartilage samples were mic

115 collected uninjured and destabilized medial meniscus (DMM)-injured knees from 8-wk-old C57BL/6J and

116 A generated by destabilization of the medial meniscus (DMM).

117 after surgical destabilization of the medial meniscus (DMM).

118 ment following destabilization of the medial meniscus (DMM).

119 macro-scale, and propose a role for A2bR in meniscus electrotransduction.

120 were found in three of five cases of lateral meniscus extrusion and normal root.

121 Among these 26 studies of an LMRT, lateral meniscus extrusion was identified in three (14%) of 21 c

122 Lateral meniscus extrusion was present in six (23%) of 26 LMRTs

123 cus root tear (MMRT), nonroot meniscus tear, meniscus extrusion, and presence of meniscofemoral ligam

124 and radial tears are associated with lateral meniscus extrusion; an absent MFL is more prevalent in p

125 g TMJ tissues relative to donor matched knee meniscus fibrocartilage tissue.

126 This dose of E2 had no effect on knee meniscus fibrocartilage, demonstrating the specificity o

127 Meniscus formation by the lipids and tilting of the nano

128 lar systems (DNA melting and nanoscale water meniscus formation), the mechanical properties of carbon

129 e open channels with electrolyte solution, a meniscus forms at the end of the probe and covers the tw

130 A meniscus forms at the end of the probe covering the two

131 When incorporated into the membrane, a meniscus forms in the vicinity of the peptide and the su

132 egies to promote meniscus repair and improve meniscus function are needed.

133 thin films via a simple and robust templated meniscus-guided coating method.

134 g ionic-liquid-based dynamic template during meniscus-guided coating results in highly aligned, highl

135 Spraying of liquids through an electrified meniscus has become a method of choice to produce ions f

136 "Molecular combing" induced by a receding meniscus has been shown to extend individual titin molec

137 Resection of a torn meniscus has no added benefit over sham surgery to relie

138 eous measurement of optical quality and tear meniscus has the potential to improve understanding of t

139 icate that native meniscus cells can enhance meniscus healing if a scaffold is provided that promotes

140 For tear meniscus height </=210 mum, relative risk ratio for deve

141 ded objective tests of Schirmer I (mm), tear meniscus height (mm), tear break-up time (s), inferior f

142 lens deposition (P = 0.007), increased tear meniscus height (P = 0.007), and decreased hydrogel nomi

143 Lower tear meniscus height (TMH) and area (TMA) were estimated from

144 Tear meniscus height (TMH) was measured by anterior segment o

145 correlations between TFT and the lower tear meniscus height and area.

146 Cross-sectional lower tear meniscus height and tear meniscus area were measured usi

147 to measure tear stability, composition, and meniscus height and their role in dry eye diagnosis and

148 ted to baseline dye staining, RBUT, and tear meniscus height and width.

149 ninvasive imaging of tear stability and tear meniscus height as a measure of tear volume and tear com

150 Tear meniscus height correlated with corneal staining for all

151 Tear meniscus height correlated with TBUT for all subjects (R

152 For delayed blinks, the lower tear meniscus height decreased after the blink (P < 0.05).

153 When compared with mean tear meniscus height in controls (345 mum), mean tear meniscu

154 Tear meniscus height was also measured in all images where a

155 The recovery rate of the original meniscus height was compared among groups at each time p

156 Lower central tear meniscus height was compared among the groups and a sign

157 scus height in controls (345 mum), mean tear meniscus height was lower in all tear dysfunction (234 m

158 Additionally, OCT measurements of the tear meniscus height within the punctum may be related to the

159 ed with baseline dye staining, baseline tear meniscus height, and blink rate after 45 minutes.

160 Baseline ocular surface dye staining, tear meniscus height, and blink rate predict severity of ocul

161 mos, eyelid laxity, MGD, Schirmer test, tear meniscus height, and dye disappearance test were assesse

162 -evaluation of ocular surface staining, tear meniscus height, and visual change will allow for a bett

163 Dry eye parameters including tear meniscus height, noninvasive first and average tear film

164 Lacrimal meniscus height, Schirmer test I, presence of superficia

165 Eye irritation symptoms, tear meniscus height, tear break-up time (TBUT), and corneal

166 l secondary outcome measures (Schirmer, tear meniscus height, tear break-up time, fluorescein corneal

167 The tear meniscus height, with and without blinking, was recorded

168 Herein, it is demonstrated how a simple meniscus imaging probe of just 30 nm in size can be depl

169 mination of the anterior horn of the lateral meniscus in all 22 patients was normal.

170 ) inhibit the integrative repair of the knee meniscus in an in vitro model system, and that inhibitor

171 a negative correlation between vMTF and tear meniscus in both groups.

172 s control; (2) destabilization of the medial meniscus in C57BL/6 mice as surgical OA model.

173 that meniscal cells derived from the lateral meniscus in medial OA patients have chondrogenic capacit

174 s and surgical destabilisation of the medial meniscus in mice).

175 the importance of an intact and functioning meniscus in patients with symptomatic knee OA, since the

176 ect adhesion is maintained, the exposed free meniscus in the thin elastic layer becomes unstable, lea

177 adjacent to the anterior horn of the lateral meniscus (in 19, 19, and 21 patients), and (h) focal car

178 fast solvent evaporation at the edge of the meniscus ink imparts the transport of perovskite solutes

179 lar matrix proteins in articular cartilages, meniscus, intervertebral disc, rib, and tracheal cartila

180 e a poor healing capacity, and damage to the meniscus is associated with significant pain, disability

181 revalent in patients with LMRTs and when the meniscus is extruded.

182 Around each fluorescent particle, a liquid meniscus is formed that increases the excitation efficie

183 The discoid meniscus is the most common abnormal meniscal variant in

184 corrugation peaks, but above the gas/liquid meniscus, is trapped and behaves as an ideal mass layer,

185 That the meniscus itself was the source of the amyloidogenic prot

186 t between cartilage and adjacent structures (meniscus, joint capsule, synovial fluid, muscle) was cal

187 ee OA had a high prevalence of cartilage and meniscus knee lesions.

188 equency (CBF) or airway surface liquid (ASL) meniscus length was observed up to passage six.

189 Meniscus, ligament, and articular cartilage abnormalitie

190 ncluding chondrocytes and fibroblasts of the meniscus, ligament, and tendon, regulate cell biosynthes

191 nt tear (167 [51%] vs 55 [50%], P = .86); or meniscus, ligament, or articular cartilage tear (242 [74

192 eniscus (MM) and one occurred in the lateral meniscus (LM).

193 sample electrode surface so that the liquid meniscus makes contact.

194 Saucerization of the remaining meniscus may be required to protect the repair from abno

195 cs of shell growth at the triple line, where meniscus meets the wire, is very different from that of

196 After destabilization of the medial meniscus, mice developed early-onset secondary mechanica

197 Five occurred in the medial meniscus (MM) and one occurred in the lateral meniscus (

198 ransection and destabilization of the medial meniscus models of OA.

199 cal basis for the T1(Gd) results relative to meniscus molecular structure needs investigation, these

200 In our method the meniscus motion was controlled mechanically, which provi

201 ntensity at the anterior horn of the lateral meniscus near its central attachment site on knee MR ima

202 ntensity at the anterior horn of the lateral meniscus near its central attachment site on two consecu

203 tal data from samples that neither clear the meniscus nor exhibit clearly defined plateau absorbances

204 ntegrin family may play an important role in meniscus OA pathology.

205 h scales in tissue of the fibrocartilaginous meniscus of the knee joint, and to define a quantitative

206 hyaline articular cartilage, as well as the meniscus of the knee of end-stage osteoarthritis patient

207 after surgical destabilization of the medial meniscus of the knee was increased in mice with intact c

208 were expressed in the patella, fat pad, and meniscus of the rat knee and in human articular cartilag

209 system nonproblematic to study, because the meniscus of the scanning pipet is only in contact with t

210 nal that is used to control and position the meniscus on a surface of interest.

211 s were extended by a motor-controlled moving meniscus on an atomically flat surface.

212 with an S-shaped fold in the free edge of a meniscus on sagittal images were included.

213 M tip to deposit organic molecules through a meniscus onto an underlying substrate under ambient cond

214 dogenous meniscus cells from the surrounding meniscus or exogenously seeded human bone marrow-derived

215 lage defect (77 [23%] vs 20 [18%], P = .29); meniscus or ligament tear (167 [51%] vs 55 [50%], P = .8

216 nsumption is measured by tracking the liquid meniscus over time.

217 of the volume was located in the lower tear meniscus (P < 0.01).

218 erity and grade of cartilage (P = .0025) and meniscus (P = .0067) lesions was demonstrated.

219 represent significant Haines jumps when the meniscus passes from a narrow "throat" to a wide "body",

220 thritis (OA), and 6 control patients (4 with meniscus pathology, 2 with vascular insufficiency).

221 14, osteophytes, ectopic calcification, and meniscus pathology.

222 procedure slightly underestimates the actual meniscus position (r(a)), uncertainty about its exact lo

223 e distribution parameters, such as the exact meniscus position, and the weight-average frictional rat

224 he rim of the droplet by the nonvolatile oil meniscus, preventing flow toward the contact line, thus

225 center set by the seeding particle, and the meniscus profile set by the strong surface tension of wa

226 tears, opening new avenues for cartilage and meniscus regeneration.

227 The meniscus region draws water into it.

228 lly, repair of tissues such as cartilage and meniscus remains an unmet medical need, and single-cell

229 Therefore, strategies to promote meniscus repair and improve meniscus function are needed

230 developed for use in articular cartilage and meniscus repair and regeneration.

231 ds and test their effectiveness in promoting meniscus repair via migration of endogenous meniscus cel

232 o current surgical methods for cartilage and meniscus repair.

233 developing electrotherapeutic strategies for meniscus repair.

234 his analysis of the initial depletion at the meniscus reveals its buoyant molar mass and sedimentatio

235 nd retrospectively reviewed for LMRT, medial meniscus root tear (MMRT), nonroot meniscus tear, menisc

236 In 33 patients, 34 meniscus root tears were identified.

237 and five (2.2%) of 231 patients with normal meniscus roots (P<.001).

238 n birefringent congophilic deposits in the 7 meniscus samples were recognized by an anti-human Apo A-

239 meniscal damage as increases in cartilage or meniscus scores at followup on the Whole-Organ Magnetic

240 The Wrisberg ligament type is a hypermobile meniscus secondary to a lack of posterior tibial attachm

241 femoral, tibial, and patellar) cartilage and meniscus segmentations was standardized.

242 lesions in the posterior horn of the medial meniscus showed a greater increase of T1(rho) and T2 fro

243 rface tension in order to form a electrolyte meniscus stable.

244 joint components (i.e., cartilage, synovium, meniscus, subchondral bone) were examined by histologic

245 dial side of the joint, including cartilage, meniscus, subchondral bone, and the joint capsule with s

246 Samples of human OA articular cartilage, meniscus, synovial membrane, and osteophytic fibrocartil

247 robust expression of COX-2 and PGE(2) in OA meniscus, synovial membrane, and osteophytic fibrocartil

248 ration distribution in close vicinity of the meniscus, taken in rapid succession after the start of t

249 ant difference in the rates of occurrence of meniscus tear (149 [45%; orthopedic surgeon referrals] v

250 The rat medial meniscus tear (MMT) model of OA was used to investigate

251 mptoms consistent with a degenerative medial meniscus tear and no knee osteoarthritis.

252 anical symptoms are caused by a degenerative meniscus tear and prompt caution in using patients' self

253 1-0635, rats with surgically induced medial meniscus tear exhibited histologic evidence of chondropr

254 The surgical medial meniscus tear model in rats was used to evaluate the cho

255 T, medial meniscus root tear (MMRT), nonroot meniscus tear, meniscus extrusion, and presence of menis

256 s but with symptoms of a degenerative medial meniscus tear, the outcomes after arthroscopic partial m

257 ve treatment of patients with a degenerative meniscus tear.

258 Meniscus tears are associated with a heightened risk of

259 ispersive X-ray spectroscopy, wettability by meniscus technique, and roughness by an optical profiler

260 d using both the red cell method and the oil meniscus technique.

261 the local matrix to the cell and nucleus in meniscus, tendon, and the annulus fibrosus, as well as i

262 le musculoskeletal tissues (i.e., cartilage, meniscus, tendons, ligaments).

263 NA uses a hydrophobic surface and a receding meniscus, termed molecular combing.

264 d x(0) is the extension length of the liquid meniscus that drives the bulk fluid toward the adsorbed

265 nd an effective position of the air-solution meniscus that is obtained as an additional parameter in

266 s associated with increased thickness of the meniscus that may lead to abnormal shearing forces acros

267 In meniscus, the observed heterogeneity in strain transfer

268 owing surgical destabilization of the medial meniscus, the progressive degeneration toward OA was dra

269 M, PRRX1, and SNTB1 as potential markers for meniscus tissue and ACTA2, TAGLN, SFRP2, and FSTL1 as no

270 sent a potential cell source to consider for meniscus tissue engineering.

271 tability of a microscale or nanoscale liquid meniscus to "write" pure copper and platinum three-dimen

272 wth, and engineered the curvature of the ink meniscus to control crystal nucleation.

273 ic the collagen-fiber alignment in the human meniscus to create a reinforced artificial meniscus with

274 cclusion was categorized as cutoff, tapered, meniscus, tram-track, or tandem.

275 nd distribution were evaluated in the medial meniscus transection model of OA (5-, 10-, and 15-month

276 At 9 weeks after meniscus transection, composite nanoparticles were injec

277 ervoir in the fornix rapidly replenishes the meniscus under normal circumstances.

278 However, no tear meniscus variable was a significant predictor of TFT (al

279 ficant correlations between TFT and any tear meniscus variable.

280 he instillation of the lubricant at 4 hours, meniscus variables increased (P < 0.001), but recovery t

281 At baseline, upper tear meniscus variables were strongly correlated with the com

282 trongly correlated with the comparable lower meniscus variables.

283 into the inferior fornix, the inferior tear meniscus was depleted using a capillary tube.

284 mages where a typical triangular-shaped tear meniscus was obtained.

285 ntensity at the anterior horn of the lateral meniscus was seen on the images of seven of the 11 MR st

286 Prevalence of an extruded meniscus was seven (88%) of eight for an MMRT and six (2

287 The recovery rate of the tear meniscus was significantly slower in symptomatic than as

288 ere subjected to destabilizing of the medial meniscus, we observed accelerated progression to OA, whi

289 values for 96 confirmed tears of the lateral meniscus were 72% and 93%.

290 ficity for 143 confirmed tears of the medial meniscus were 89% and 84%, respectively, while the value

291 djacent to the central portion of the medial meniscus were collected for histologic evaluation.

292 No differences in radial measurements of the meniscus were found for different MR techniques (P =.551

293 ments of wavefront aberration and lower tear meniscus were performed for 11 normal eyes and 7 eyes wi

294 MR signs of repeat tear of the postoperative meniscus were the presence of a line and fluid within th

295 e local electrochemical reactions within the meniscus while a bias between the QRCEs in the electroly

296 ng was inversely correlated to baseline tear meniscus width, whereas change in total ocular surface d

297 are similar to those in the lumen, a convex meniscus will form at the flared opening into the pit ch

298 n meniscus to create a reinforced artificial meniscus with circumferentially and radially aligned car

299 001 for correlations of the medial posterior meniscus with the medial femoral and tibial cartilage, r

300 Patients with epiphora had a higher tear meniscus within the punctum compared with healthy contro