ライフサイエンスコーパス: rotator

1 ks at the interface of the cell body and the rotator.

2 a as a function of the dihedral angle of the rotator.

3 correlated to the rotation of the phenylene rotator.

4 rthermore, we detected that US 708 is a fast rotator.

5 u3P-Pt-P(t)Bu3 stator with a spinning H-Pt-H rotator.

6 3-fold or 6-fold symmetric potential of the rotator.

7 tate molecular rotor with a large triptycene rotator.

8 ple bonds to a linearly conjugated phenylene rotator.

9 ds at their C17 positions to a 1,4-phenylene rotator.

10 which leads to an alignment of the azimuthal rotators.

11 , we find an appreciable fraction of counter-rotators among blue galaxies (9 out of 489 galaxies).

12 mples prepared with a deuterated biphenylene rotator and a natural abundance stator.

13 roscope with a p-phenylene group acting as a rotator and two m-methoxy-substituted trityl groups acti

14 steps determined by the symmetries of their rotators and rotating units.

15 rate waveguide mode converters, polarization rotators and waveguide devices supporting asymmetric opt

16 ng of diazabicyclo[2.2.2]octane, acting as a rotator, and a set of five fluorine-substituted iodobenz

17 al grating couplers, splitters, polarization rotators, and active section with phase shifters-are inc

18 At low biases and low initial rotator angles, slight reorientations of individual roto

19 These rod-shaped molecules carrying an axial rotator are designed to interleave on an aqueous surface

20 otational barriers of methyl-sized molecular rotators are investigated theoretically using ab initio

21 Analysis reveals that the rotator arm directions are not random, but are coordinat

22 ndividual rotors can occur, resulting in the rotator arms pointing in different directions.

23 ating satellite functional groups around the rotator at a geometry that destabilizes the staggered co

24 onstrate all-dielectric on-chip polarization rotators based on phased arrays of Mie resonators with n

25 r Waals interactions, thus making very rigid rotators become thermally activated at room temperature.

26 By placing one Faraday rotator before and one after the specimen, rotation prod

27 The rotator cable can be depicted with US.

28 The rotator cable was identified at gross dissection.

29 dissected, assessed for the presence of the rotator cable, and imaged with 12-MHz US.

30 uated for the presence and appearance of the rotator cable.

31 e to which the two flanking ethynylphenylene rotators can explore various torsion angles; this allows

32 lecular rotors based on insertion of dipolar rotator carrying shafts as guests into channels of a hos

33 Analysis of the rotator cavity in the two co-crystals revealed subtle di

34 3 kcal/mol were found for the dichlorophenyl rotator contained within the TPP channel.

35 -order transition occurs between a hexagonal rotator crystal and a rhombic crystal.

36 ective care for patients suspected of having rotator cuff abnormality.

37 the expected location and orientation of the rotator cuff cable.

38 le option for symptom relief associated with rotator cuff calcific deposits.

39 Two radiologists graded rotator cuff contact on a three-point scale.

40 To prospectively evaluate rotator cuff contact with the glenoid in healthy volunte

41 In 238 patients with rotator cuff diagnoses at surgery, preoperative magnetic

42 Rotator cuff disease (RCD) is the most common cause of s

43 to guide the imaging evaluation of suspected rotator cuff disease in patients with a native rotator c

44 painful shoulders with clinically suspected rotator cuff disease.

45 ermine their relationship to patient age and rotator cuff disorders.

46 nologists to astronaut operators to complete rotator cuff evaluation.

47 Rotator cuff grading was similar for fast SE and convent

48 endations will lead to greater uniformity in rotator cuff imaging and more cost-effective care for pa

49 lgorithm was tested on coronal images of the rotator cuff in a series of 144 patients, and the improv

50 reliable detection of calcifications in the rotator cuff in patients with calcific tendonitis by usi

51 Rotator cuff injury is a very common pathology in patien

52 y and specificity to MRI in the diagnosis of rotator cuff injury.

53 sterior and anterior cystic abnormalities at rotator cuff insertion site on the greater tuberosity an

54 Distances between the rotator cuff insertion sites and the glenoid decreased i

55 r and intertechnique agreement for detecting rotator cuff lesions were measured and compared with kap

56 rography and MR arthrography in depiction of rotator cuff lesions.

57 Standard rotator cuff MR sequences yielded a sensitivity of 59% (

58 er sensitivity and specificity than standard rotator cuff MR sequences.

59 For grading fatty infiltration of rotator cuff muscles, kappa and Z statistics were used.

60 e to microgravity than the joint-stabilizing rotator cuff muscles.

61 elping identify abnormalities that may mimic rotator cuff or labral abnormalities at clinical examina

62 fect on image quality or on the depiction of rotator cuff or labral tears.

63 re was no difference in the detectability of rotator cuff or labral tears.

64 o surgical procedures (open and arthroscopic rotator cuff repair).

65 was associated with impingement syndrome and rotator cuff rupture (n = 2).

66 ity; and partial-thickness or full-thickness rotator cuff tear and labral tear detectability.

67 ck of similarity between the impingement and rotator cuff tear groups.

68 If rotator cuff tear was present, tendon retraction and loc

69 arthrography had 100% accuracy in depicting rotator cuff tear, whereas both indirect MR arthrography

70 confirm the presence or absence of labral or rotator cuff tear.

71 t labral tear and 88% in depicting recurrent rotator cuff tear.

72 e presence or absence of recurrent labral or rotator cuff tear.

73 t accurate for diagnosis of a full-thickness rotator cuff tear.

74 romiale ( OR odds ratio = 138, P < .001) and rotator cuff tears ( OR odds ratio = 5.4, P = .015) afte

75 roups: those without shoulder impingement or rotator cuff tears (31 patients), those with shoulder im

76 er impingement (22 patients), and those with rotator cuff tears (31 patients).

77 erformed well with respect to full thickness rotator cuff tears (FTT).

78 ultrasound (USG) and MRI in the diagnosis of rotator cuff tears (RCT) and to determine if high resolu

79 Rotator cuff tears (RCTs) represent a significant propor

80 (SGHL), presence of biceps tendinopathy, and rotator cuff tears adjacent to the rotator interval.

81 nt to the development of an os acromiale and rotator cuff tears after age 25 years.

82 r and intertechnique agreement for measuring rotator cuff tears and grading muscle fatty infiltration

83 shows promising results in the diagnosis of rotator cuff tears and in differentiating partial from c

84 skeletal pain caused, among other things, by rotator cuff tears due to narrowing of subacromial space

85 luate the prevalence of partial and complete rotator cuff tears in magnetic resonance images of patie

86 However, the diagnosis of rotator cuff tears is controversial.

87 with the development of an os acromiale and rotator cuff tears later in life was assessed with follo

88 ifference between US and MRI in detection of rotator cuff tears of any type (RCT) or FTT.

89 otal of 40 patients were diagnosed as having rotator cuff tears on ultrasound (USG) and MRI.

90 s, 31 patients who had positive findings for rotator cuff tears on ultrasound and/or MRI were finally

91 study, 40 patients with clinically suspected rotator cuff tears underwent both ultrasound and MRI of

92 s performed to assess for joint subluxation, rotator cuff tears, tendinosis, subacromial-subdeltoid b

93 In the diagnosis of rotator cuff tears, the strength of agreement between ul

94 s the investigation of choice for diagnosing rotator cuff tears.

95 ry cause of shoulder impingement syndrome or rotator cuff tears.

96 it a modality of first choice for evaluating rotator cuff tears.

97 terature on the causes and classification of rotator cuff tears.

98 ess the accuracy of US and MRI in diagnosing rotator cuff tears.

99 st consistent positive treatment effects for rotator cuff tendinitis were achieved by ultrasound-guid

100 ded fibrillar structure perpendicular to the rotator cuff tendon (average thickness and width, 1.2 mm

101 diagnostic performance for the evaluation of rotator cuff tendon tears.

102 se but no alteration in the depiction of the rotator cuff tendons or glenoid labrum.

103 hematoxylin-eosin stain) from three resected rotator cuff tendons were inspected for fibers in the ex

104 omial pain for at least 3 months with intact rotator cuff tendons, were eligible for arthroscopic sur

105 r than in conjunction with injuries to other rotator cuff tendons.

106 spected of having calcific tendonitis of the rotator cuff were included.

107 n in cases of partial-thickness tears of the rotator cuff with a horizontal component.

108 Two radiologists independently graded the rotator cuff with separate and side-by-side assessment o

109 ative rotator cuff, patients with a repaired rotator cuff, and patients who have undergone shoulder r

110 Common injury sites include the rotator cuff, glenohumeral joint, acromioclavicular join

111 n; extraarticular contrast material leakage; rotator cuff, glenoid labrum, and anterior capsule consp

112 tator cuff disease in patients with a native rotator cuff, patients with a repaired rotator cuff, and

113 sion criteria included a full-thickness torn rotator cuff.

114 r was present in the anterior portion of the rotator cuff.

115 h tendon tears in the anterior aspect of the rotator cuff.

116 nventional SE sequence for evaluation of the rotator cuff.

117 plete- and 12 partial-thickness tears of the rotator cuff.

118 o (2)H NMR studies have shown that phenylene rotator flipping has an activation energy of 9.0 kcal/mo

119 Three rotator-forming linkers were cyclized to form a rigid cy

120 ion of its axis, which prevents the attached rotator from contributing to the stopping action.

121 t the (13)C signals of the natural abundance rotator group can be selectively observed with short con

122 ne whether the carbon signals of the central rotator group could be selectively enhanced and studied

123 ees bent angle linked to a central phenylene rotator has an ideal structure to examine aromatic CH/pi

124 Two triptycene rotators have been covalently linked to the backbone of

125 set of crystalline molecular gyroscopes with rotators having axial symmetry that ranges from two- to

126 these studies it was determined that the BCO rotator in 3 has an activation energy of only 1.15 kcal

127 ld motion of the 1,4-diethynylphenylene-d(4) rotator in the kHz regime.

128 ely 3 kcal mol(-1), for the roughly 3 A long rotator in trans-H2Pt(P(t)Bu3)2.

129 we were able to assign two types of Brownian rotators in [nBu(4)N(+)](2)[BABCO][BABCO(-)](2).

130 The behavior of the rotators in the preceding complexes is probed by VT NMR.

131 aterials-shield, concentrator, diffuser, and rotator-in both simulation and experimental verification

132 Clinical and arthroscopic diagnoses of rotator interval abnormalities and subtle instability pa

133 The rotator interval and the long head of the biceps brachii

134 Abnormalities of the rotator interval may be acquired or congenital and are a

135 athy, and rotator cuff tears adjacent to the rotator interval.

136 f molecular rotors with transversely dipolar rotators into TPP channels is followed by solid-state nu

137 imen, rotation produced by the first Faraday rotator is cancelled by the second.

138 ively cylindrical bicyclo[2.2.2]octane (BCO) rotator linked to mestranol fragments were investigated

139 is(ethynyl)bicyclo[2.2.2]octane (BCO) chiral rotators linked by a diyne fragment and self-assembles i

140 identified gyration of the three p-phenylene rotators on the millisecond time scale at -93 degrees C,

141 ely at room temperature without the need for rotators or other specialized equipment.

142 phases with crystalline, liquid crystalline, rotator, or noncrystalline phases with both long-range p

143 A transient metastable rotator phase occurring on crystallization of hexadecane

144 pass through a series of metastable plastic rotator phases before freezing.

145 d 3 times larger than those of the phenylene rotators previously studied in the solid state, it is ex

146 The central regions of blue counter-rotators show younger stellar populations and more inten

147 cing geometry can also be found in molecular rotators surface mounted on graphite surfaces or carbon

148 suggesting that the Sun may be a much faster rotator than previously thought, and that large-scale co

149 stabilizes the staggered conformation of the rotator through van der Waals repulsive interactions and

150 rotors was devised from a set of stators and rotators to gain simple access to a large number of stru

151 trument has been developed using two Faraday rotators under computer control to change the angle of p

152 oluminous stators that may accommodate large rotator units and speed rotational dynamics in the solid

153 As a result, the dipolar rotators were distributed equally in two planes parallel

154 osts whose upper decks carry a biphenyl-like rotator with a dipole moment perpendicular to the rotati

155 ne representing the stator and the other the rotator with DABCO as an interconnecting axle and copper

156 we were able to assign two types of Brownian rotators with different activation energies, 1.85 and 6.

157 or controlling the direction and coupling of rotators within molecular systems.

158 cture and properties of multiple p-phenylene rotators within one molecule.