ライフサイエンスコーパス: crease

1 hesive, self-contacting interface within the crease.

2 ays a dominating role in the nucleation of a crease.

3 the endosperm from the aleurone towards the crease.

4 the presence or absence of PPW, RF, CF, and creases.

5 s, through simple folding of dynamic virtual creases.

6 inguishes dynamic scanning from static ssDNA creasing.

7 orism (68%), ptosis (56%), high upper eyelid crease (64%), lower eyelid retraction (60%), abnormal up

8 omprises characteristic circumferential skin creases accompanied by intellectual disability, a cleft

9 Primary buckling into wrinkles, folds, and creases along the gut, as well as secondary buckling phe

10 structure and the arrangement of plates and creases, an extremely broad range of thermal expansion c

11 d comprises two zones separated by a central crease: an embossed microwell, on the surface of which t

12 ndary outcome measures were lid contour, lid crease and any reported complications.

13 ontrast microscopy consistently identified a creased and distinct glassy membranous sheet enveloping

14 tinuous description of the sharp geometry of creases and apply it to the study of creased annuli, mad

15 hape of the pattern can be tuned from random creases and craters to aligned creases, craters and line

16 here how two fundamental geometric concepts, creases and curvature, combine to allow rapid transition

17 high-genus pattern with appropriate sets of creases and cuts, and proceed to fold it sequentially to

18 et of paper displays an intricate pattern of creases and point-like singular structures, termed d-con

19 al features; these include surface wrinkles, creases and surface/internal porosity at the individual

20 The elasticity within the origami creases and switching of mountain and valley crease line

21 hermal behavior of fabrics when subjected to creasing and thermal annealing to assess their reliabili

22 rietal baldness, crown top baldness, earlobe crease, and xanthelasmata was associated with increased

23 Male pattern baldness, earlobe crease, and xanthelasmata-alone or in combination-associ

24 and nodules in the vulva, perineum, inguinal creases, and left axilla.

25 s, macroglossia, macrosomia, ear pits or ear creases, and midline abdominal-wall defects.

26 ssed into irregular shapes with wrinkles and creases, and, notably, these deformed crystals, upon reh

27 ng radial creases to annular strips with the creases annealed to behave elastically.

28 dynamic switches between different states of creased annuli can be achieved, which could inspire the

29 We find that creased annuli have generic bistability and can be folde

30 etry of creases and apply it to the study of creased annuli, made by introducing radial creases to an

31 theory, we solve the nonlinear mechanics of creased annuli, with its stability determined by the sta

32 The anterior lid crease approach to the orbit allows the surgeon access t

33 Subsequently, the creases are folded toward their target angles by activat

34 Experimentally, creases are observed on substrates that exhibit either h

35 Creases are purposely introduced to thin structures for

36 n which flat inflexible sheets are joined by creases, are primarily created for zero-thickness sheets

37 that the surface can form a self-contacting crease at the leading front, which results from a buildu

38 neering analysis for scattering experiments (CREASE) based on genetic algorithms and molecular simula

39 s for increasing width show the formation of creases bounding nearly flat triangular regions, a featu

40 The Nafion polymer junction was creased by infiltrating polymer solution between the gap

41 d from random creases and craters to aligned creases, craters and lines, and the size of the pattern

42 Circumferential skin creases (CSC-KT) is a rare polymalformative syndrome cha

43 nd clinical significance of diagonal earlobe crease (DELC) in cognitively impaired patients using ima

44 Over the last decade, advances in crease design, mechanics modeling, and scalable fabricat

45 Creases did not resolve.

46 studies show that selecting optimal feedback crease distribution and fine-tuning the underlying origa

47 se hidden bending DOF are separated from the crease DOF by an energy gap that gives rise to a geometr

48 e picture), allowing controlled unfolding of creased features formed owing to an elastic surface inst

49 folding, in which the sheet bends as much as creases fold.

50 ura-Ori-based zero-energy patterns, in which crease folding requires no sheet bending, and random pat

51 The use of upper eyelid crease for access to the orbit allows excellent surgical

52 It is typically assumed that elongated creases form when ridges connecting two d-cones fold bey

53 ite element models are employed to study the crease formation and secondary morphological folds of th

54 o critical growth ratios for instability and crease formation of the developing brain.

55 After the crease forms, it progresses through the contact zone in

56 th mild to moderate ptosis and an asymmetric crease height.

57 ory approach in which compatibility at a few creases implies the foldability of the whole structure.

58 the yeast Saccharomyces cerevisiae and an in-crease in expression of a structural (INO1) and a regula

59 The magnitude of the in-crease in RNA longevity under conditions of RNase E scar

60 scribed 3 types of folds in the retina and a crease in the outer retina associated with papilledema o

61 2) mesangial matrix accumulation, and 3) in-crease in transforming growth factor (TGF)-beta1 secreti

62 severity of acute rejection were markedly de creased in liver-inclusive retransplantations, and no ch

63 the local electric field around bubbles and creases, in agreement with theoretical calculations.

64 pe, are being employed along with the eyelid crease incision to further improve surgical outcomes by

65 Here we characterize how an elastic creasing instability of the gel surface may occur for th

66 the gel absorbs water, triggering an elastic creasing instability that sequesters functionalized regi

67 of creased structures is challenging because creases introduce geometric discontinuity and often have

68 The primary strength of CREASE is its ability to analyze scattering profiles wit

69 Circumferential skin creases Kunze type (CSC-KT) is a specific congenital ent

70 Experiments have shown that the total crease length accrues logarithmically when repeatedly co

71 characteristic logarithmic scaling of total crease length, thereby supplying a missing physical basi

72 we induce either global or localized (i.e., crease level) frustration, which allows changing the ene

73 Using this method, two combination types of crease lines are unified in one reprogrammable procedure

74 creases and switching of mountain and valley crease lines enable it to have bistability.

75 ime-scales of a few seconds, with control of crease locations by micro-patterning of underlying elect

76 ertrichosis (n = 22, 76%), high upper eyelid crease (n = 20, 69%), upper eyelid ptosis (n = 14, 52%),

77 mal eyelid signs (retraction, ptosis, absent crease), ocular asymmetry (hypoglobus, enophthalmos), an

78 When the offset between square creases of the pattern is uniform, it is known as the pl

79 We report electrically driven creasing of polyelectrolye hydrogel surfaces with low sw

80 characterized by randomly arranged ridges or creases on material surfaces, has significant potential

81 intellectual disability associated with skin creases on the limbs, and very characteristic craniofaci

82 cine (DHLNL), and lysino-norleucine (LNL) in-creased or decreased depending on the specific crosslink

83 ype 2), Protruding or Pendulous (Type 3) and Creased or Ridged (Type 4).

84 ines the folding behavior observed in curved-crease origami and elastic shell buckling.

85 Physical models of this curved crease origami display topological singularities, includ

86 about the amphiphilic polymers in solution, CREASE outputs the structure of the self-assembled micel

87 Here our process involves modifying valley-crease panels and extending adjacent panels to eliminate

88 nto various compact shapes, depending on the crease pattern and the overcurvature of the flat annulus

89 ing symmetry defines an equivalence class of crease pattern geometries that possess equal and opposit

90 how that the traditional square twist, whose crease pattern has zero degrees of freedom (DOF) and the

91 llation, we find that each unit cell of this crease pattern is mechanically bistable, and by switchin

92 sson's ratios generically change sign as the crease pattern rigidly folds between degenerate ground s

93 bled using rigid origami, which prescribes a crease pattern such that the materials making the origam

94 legible images of the letter's contents and crease pattern while preserving letterlocking evidence.

95 e negative Poisson's ratio Miura-ori origami crease pattern.

96 ng deformations that are not explicit in the crease pattern.

97 such attention, only two extreme classes of crease patterns are usually studied; special Miura-Ori-b

98 ystematic exploration of the entire space of crease patterns as a function of the folding energy.

99 In this work, crease patterns composed of more general trapezoid faces

100 l results in origami, finding the entropy of crease patterns of given folding energy.

101 However, existing efforts focus on crease patterns that are composed of parallelogram faces

102 formalism to a particular class of periodic crease patterns with unit cells composed of four arbitra

103 tric symmetries and functionality in origami crease patterns.

104 ions of periodic origami sheets with generic crease patterns.

105 ncept of self-folding origami with universal crease patterns.

106 In normally watered plants, crease pericarp Psi and sieve tube turgor were almost 1

107 In water-stressed plants, peduncle Psi and crease pericarp Psi were similar.

108 sucrose or osmotic concentrations or in the crease pericarp sucrose pool size.

109 ection as it can not only correct the eyelid crease position but also narrow the wide TPS.

110 -conjunctival resection (MMCR) on the eyelid crease position.

111 Crease positions are directed by topographic features on

112 re highest in the nucellar projection of the crease region.

113 ard SARS-CoV-2 transmission and there was in-creased risk of SARS-CoV-2 acquisition and transmission

114 First, we demonstrate CREASE's ability to reverse-engineer self-assembled nano

115 We then present CREASE's outputs for scattering profiles obtained from s

116 Because the incision is in the lid crease, scarring is minimal.

117 ings are also concentrated in the transverse crease separating the distal and proximal pads.

118 a framework for supervised learning in thin, creased sheets that learn the desired force-response beh

119 Here we discuss the geometry of folding a creased shell, and demonstrate theoretically the conditi

120 bifurcation of stability, for the case of a creased shell, the inherent geometry itself serves as a

121 ICS) and middle phalanges, while blushing in crease skin (CS), which we have called the Blanch-Blush

122 uidance for the synthesis of both smooth and creased soft cell substrates for basic and applied cell

123 sheet using training forces, prompting local crease stiffnesses to change in proportion to their expe

124 Modeling the mechanics of creased structures is challenging because creases introd

125 troduce and characterize a different type of crease that is inherently plastic and is formed by the p

126 region, is not compromised by stretching or creasing that inevitably results in transforming a 2D pl

127 act by folding the device along this central crease; the analytical signal is recorded from the folde

128 bacterial load is carried in the seed coat, crease tissue and endosperm.

129 surface area from the distal interphalangeal crease to the tip of the finger.

130 f creased annuli, made by introducing radial creases to annular strips with the creases annealed to b

131 ress is induced by resistance of furrows and creases to the differential growth of the basal layer an

132 Deep creases (up to 70% of the swelled film thickness) can be

133 eyelid hyperpigmentation, high upper eyelid crease, upper eyelid ptosis, upper and/or lower eyelid r

134 etinal folds (RF), choroidal folds (CF), and creases using transaxial and en face views.

135 unction (RDDF) to describe the geometry of a crease, with the finite spike of the RDDF capturing the

136 ft, and the ability to bend the sensors to a crease without loss of sensor performance.

137 These patterns can be classified into creases, wrinkles, folds, period-doubles, ridges and del

138 eriod-doubling in the foregut and multiscale creasing-wrinkling in the hindgut, are captured and well