ライフサイエンスコーパス: tractional

1 egatively correlated with the presence of CB tractional abnormalities (P = .002).

2 At baseline, tractional abnormalities of the CB were diagnosed in 58

3 Tractional abnormalities of the CB were identified with

4 To investigate the tractional alterations of the central bouquet (CB) in id

5 Eleven eyes shared common features with both tractional and degenerative lamellar macular holes and w

6 es of lamellar macular hole were identified: tractional and degenerative.

7 are three main types of RD: rhegmatogenous, tractional and exudative (also termed serous) RD.

8 ation of the nerve at the elbow results in a tractional and frictional neuritis with classical sympto

9 cal intervention, and tractional or combined tractional and rhegmatogenous detachments.

10 Combined TRD/RRD (tractional and rhegmatogenous retinal detachment) was as

11 the outer retina in 47% (8/17) of cases and tractional bacillary layer detachment in 12% (2/17) of c

12 Fibrous membranes and tractional bands can be detected in severe stage 3 ROP,

13 Dragging and vertical tractional bands were higher in the Stage 4A group than

14 e 3 group, dense fibrous membranes, vertical tractional bands, and dragging were detected in 18 eyes

15 4A group, dense fibrous membranes, vertical tractional bands, and dragging were detected in 21 eyes

16 es various pathological conditions caused by tractional changes in the eye.

17 ution, TMJ = temporomandibular joint, mu(T) =tractional coefficient, mu(s) = static coefficient of fr

18 l and anatomic features, predicts subsequent tractional complications such as VH and TRD.

19 of the posterior staphyloma correlated with tractional complications.

20 ith air endotamponade strongly advocates the tractional component of non-RRD and retinal schisis asso

21 e ILM appears important to completely remove tractional components of the VMI, histopathologic findin

22 types of MH were identified: "atrophic" and "tractional." CONCLUSIONS: Myopic MNV-related complicatio

23 r (INL) thickness was significantly lower in tractional cystoid spaces (P < .001).

24 T-A, and BFAF features of both exudative and tractional cystoid spaces, but without any FA leakage.

25 patients with Eales' disease, one developed tractional detachment at macula while the other, an epir

26 s of young patients (</=2.5 years) developed tractional detachment, despite prophylactic ablation in

27 retinal detachments was observed, with most tractional detachments (7 eyes) occurring by age 2.5 yea

28 In summary, four types of tractional developmental pathways of idiopathic LMH were

29 tact ellipsoid layer and was associated with tractional epiretinal membranes and/or vitreomacular tra

30 associated epiretinal proliferation, whereas tractional epiretinal membranes presenting contractive p

31 Two eyes had tractional folds in the retina with posterior extension

32 ing along the outer retinal surface, causing tractional folds of the outer retina in 47% (8/17) of ca

33 Generation of tractional force by Muller cells primarily involves inte

34 fibroblasts interact with collagen matrices, tractional force exerted by the cells can couple to matr

35 Fs) on retinal pigment epithelial (RPE) cell tractional force generation and the contributions of vit

36 68 samples were evaluated using Muller cell tractional force generation as a target bioassay.

37 ing amounts of growth factors that stimulate tractional force generation by Muller cells.

38 It appears that Muller cell tractional force generation in PDR is driven by vitreous

39 ty to modulate Muller cell proliferation and tractional force generation in tissue culture models.

40 F-I and -II are potent promoters of RPE cell tractional force generation in vitro.

41 Intact IGFBP-3 modulates Muller cell tractional force generation stimulated by IGF-I and IGF-

42 Tractional force generation was assessed as a function o

43 its effects on Muller cell proliferation and tractional force generation, activities relevant to prol

44 Contraction of fibroblasts and the resultant tractional force is a contributing factor to fibrotic di

45 Generation of tractional force was assessed with a tissue culture assa

46 d anterior scleral canal opening parameters, tractional forces (posterior vitreous staging and presen

47 Quantitation of cell tractional forces and cellular prestress by using tracti

48 TMJ may involve fatigue produced by surface tractional forces and compressive stresses.

49 stress-field translation on TMJ disc-surface tractional forces and stresses.

50 d on its ability to mechanically resist cell tractional forces and thereby produce cell and cytoskele

51 dentified matrix identity and cell-generated tractional forces as key determinants of the dedifferent

52 Cells capable of generating tractional forces associated with proliferative diabetic

53 ssels may lead to the transmission of strong tractional forces by a syneretic vitreous gel, especiall

54 This study tested the hypotheses that tractional forces following static loading of the TMJ di

55 Tractional forces generated by cells incubated on three-

56 collagen matrix contraction culminating from tractional forces generated by fibroblasts showed that b

57 te behavior and EC stiffening in response to tractional forces generated by leukocytes.

58 RPE cells generated tractional forces in response to IGF-I and -II with IGF-

59 , the principal glia of the retina, generate tractional forces in response to IGF-I and platelet-deri

60 fibrocontractive ocular tissues and generate tractional forces in response to insulin-like growth fac

61 uller cells acquire the capacity to generate tractional forces in vitro and the contraction-promoting

62 se to insulin-like growth factor I, generate tractional forces of the type that cause retinal detachm

63 Tractional forces on the temporomandibular joint (TMJ) d

64 ittle is known about the consequences of the tractional forces that leukocytes generate on ECs as the

65 Results showed non-linear increases in tractional forces that were positively correlated with i

66 ir stress fibers and focal adhesions so that tractional forces were concentrated in these corner regi

67 Maximum tractional forces were found to occur following 60 sec o

68 filopodia were also observed, and transient tractional forces were generated by these extending proc

69 e results showed that compressive strain and tractional forces were largest for the start of movement

70 Peak tractional forces were linearly and positively related t

71 s > 27 mm/sec and AR.epsilon(3), was > 0.09, tractional forces were significantly higher (< or = 12%

72 The results demonstrated that tractional forces were strain-related at the start of mo

73 ge thickness significantly affected TMJ disc tractional forces.

74 ndibular joint (TMJ) disc may be promoted by tractional forces.

75 roblast-like phenotype capable of generating tractional forces.

76 act extracellular matrices and thus generate tractional forces.

77 This study tested the hypotheses that tractional forces: (1) increased with stress-field veloc

78 ces, including the macular hole index (MHI), tractional hole index (THI), diameter hole index (DHI),

79 , higher macular hole index (MHI) and higher tractional hole index (THI); and persistent MHs with sma

80 Tractional intraretinal cystoid spaces (24/72 eyes, 33.3

81 Exudative and tractional intraretinal cystoid spaces displayed charact

82 Degenerative and tractional lamellar macular holes may be 2 distinct clin

83 ASIK in highly myopic eyes with pre-existing tractional macular abnormalities may exacerbate MRS prog

84 pic neovascular maculopathy (MNM) and myopic tractional maculopathy (MTM) was also assessed, along wi

85 Myopic tractional maculopathy complications were observed in 31

86 in both groups, consistent with presence of tractional membranes on optical coherence tomography ima

87 There was no exudation, neovascularization, tractional membranes, vitritis, retinitis, and choroidit

88 etinal traction syndrome and 4 with diabetic tractional membranes.

89 aks, rhegmatogenous detachment, or worsening tractional membranes.

90 terior displacement, followed by rebound and tractional nerve avulsion 10 mm behind the lamina after

91 t resolved before surgical intervention, and tractional or combined tractional and rhegmatogenous det

92 criteria were RD other than rhegmatogenous (tractional or exudative), and incomplete follow-up until

93 eria included RRD before 2009 and exudative, tractional, or traumatic retinal detachments.

94 thelium, outer retinal thinning/atrophy, and tractional outer retinal folds.

95 rovascular density in eyes with exudative vs tractional (P = .002) and FTMH (P < .001) subgroups.

96 Tractional progression was observed in 22.8% of eyes, pr

97 ravitreal hemorrhages (7.1%), and persistent tractional RD (10.6%).

98 roliferative diabetic retinopathy (PDR) with tractional RD (n = 8).

99 gnificantly higher in patients with diabetic tractional RD and PVR than in other patients.

100 but 3 weeks later the patient presented with tractional RD associated with proliferative vitreo-retin

101 Six eyes developed moderate to severe tractional RD or bullous RD in the control group by day

102 In tractional RD, preretinal, intraretinal or subretinal me

103 tinoblastoma and scleral buckling developing tractional RD.

104 gmatogenous retinal detachments (RRDs), 5 in tractional RDs, and 1 in exudative RD.

105 Tractional remodeling of collagen fibrils by fibroblasts

106 tion of cell extensions that enable collagen tractional remodeling.

107 coma (0.5%), vitreous hemorrhage (8.4%), and tractional retinal detachment (3.3%).

108 luded epiretinal membrane (n = 26), diabetic tractional retinal detachment (n = 14), full-thickness m

109 = 121), vitreous floaters (n = 69), diabetic tractional retinal detachment (n = 49), vitreous hemorrh

110 inal membrane (ERM), and an additional 8 for tractional retinal detachment (RD) and/or rhegmatogenous

111 tion best-corrected visual acuity (BCVA) and tractional retinal detachment (RD) in her left eye, 3 ye

112 d safety of diabetic vitrectomy for treating tractional retinal detachment (TRD) by assessing visual

113 new or recurrent vitreous hemorrhage (VH) or tractional retinal detachment (TRD) during follow-up.

114 PRP) and intravitreal injections (IVIs) with tractional retinal detachment (TRD) is unclear.

115 Tractional retinal detachment (TRD) occurs in approximat

116 ge, rhegmatogenous retinal detachment (RRD), tractional retinal detachment (TRD) secondary to Coats-l

117 Most patients needing diabetic tractional retinal detachment (TRD) surgery are working-

118 to the conventional microscope in pediatric tractional retinal detachment (TRD) surgery secondary to

119 t vitrectomy for vitreous hemorrhage (VH) or tractional retinal detachment (TRD) was more common amon

120 feration (FP), vitreous hemorrhage (VH), and tractional retinal detachment (TRD) were documented.

121 cluding blindness, vitreous hemorrhage (VH), tractional retinal detachment (TRD), and diabetic macula

122 , vitreomacular interface abnormalities, and tractional retinal detachment (TRD), respectively.

123 cidence of PPV, vitreous hemorrhage (VH), or tractional retinal detachment (TRD).

124 ular growth and retinal traction, leading to tractional retinal detachment (TRD).

125 trategy with contractile cellular forces and tractional retinal detachment (TRD).

126 Detection of progression of tractional retinal detachment (TRD).

127 lan irrigation of 2 children presenting with tractional retinal detachment after retinoblastoma thera

128 owth factor (VEGF) therapy, this can lead to tractional retinal detachment and blindness.

129 cipitate fibrotic changes, drusen formation, tractional retinal detachment and so on.

130 found covering the posterior pole and led to tractional retinal detachment around the macula.

131 h ROP stage 4 or 5 who underwent surgery for tractional retinal detachment at King Khaled Eye Special

132 ive vitreoretinopathy, results in a blinding tractional retinal detachment because of the contractile

133 a significantly greater number of eyes with tractional retinal detachment in the IVI group compared

134 Tractional retinal detachment is an important risk facto

135 Eyes with tractional retinal detachment more than 5-disc-diameter

136 ds up 3D visualization system is feasible in tractional retinal detachment related to ROP with simila

137 em may be advantageous in advanced pediatric tractional retinal detachment surgeries.

138 Tractional retinal detachment was the greatest risk fact

139 olved adult patients who underwent E-PPV for tractional retinal detachment with anterior PVR and epic

140 All cases of PPV for rhegmatogenous or tractional retinal detachment with completed postoperati

141 Tractional retinal detachment with or without secondary

142 thin 6 months of worsening or development of tractional retinal detachment, folds, dragging, breaks,

143 ectomy for vision-threatening complications (tractional retinal detachment, nonclearing vitreous hemo

144 Patients with tractional retinal detachment, previous retinal detachme

145 cated by proliferative vitreoretinopathy and tractional retinal detachment.

146 ong with proliferative vitreoretinopathy and tractional retinal detachment.

147 tears of the retinal pigment epithelium and tractional retinal detachment.

148 lete and posterior retinal reattachment; (5) tractional retinal detachment; (6) hypotony/increased in

149 haemorrhage (VH), 6 (13%) bilateral, 2 (4%) tractional retinal detachments and 3 (6.5%) had neovascu

150 rs plana vitrectomy (E-PPV) in patients with tractional retinal detachments associated with anterior

151 ented with absent red reflexes from complete tractional retinal detachments diagnosed at 3 days of ag

152 Full-thickness eyewall sections showed tractional retinal folds, tented intravitreal vasculariz

153 111 eyes (30.6%), RDs in 140 eyes (38.6 %), tractional retinoschisis in 44 eyes (11.9%), and visible

154 ularization and later progressed to combined tractional-rhegmatogenous detachment.

155 ular glaucoma, macular edema, or presence of tractional/rhegmatogenous retinal detachment.

156 rated growth corresponded to regions of high tractional stress generated within the sheet, as predict

157 ystoid spaces was significantly lower in the tractional subgroup (P < .001).

158 Tractional tethering by the optic nerve (ON) on the eye

159 Tractional vitreous bands on imaging correlated with plu

160 ctate hyperreflective vitreous opacities and tractional vitreous bands predict the presence and sever

161 The first type, tractional, was diagnosed in 43 eyes, and was characteri