ライフサイエンスコーパス: Doppler ultrasound

1 lysis and improves post-exercise hyperaemia (Doppler ultrasound).

2 ided by brachial artery blood flow velocity (Doppler ultrasound).

3 get lesion binary restenosis, assessed using Doppler ultrasound.

4 Vessel patency was monitored by doppler ultrasound.

5 ed quickly and accurately through the use of Doppler ultrasound.

6 correlate well with the accepted standard of Doppler ultrasound.

7 ism, and elevated velocities on transcranial Doppler ultrasound.

8 at measurements of stroke volume using pulse-doppler ultrasound.

9 taken, and by measurement taken from cranial Doppler ultrasound.

10 l blood flow was determined using color-flow Doppler ultrasound.

11 emained equally perfused, as demonstrated by Doppler ultrasound.

12 showed microembolic signals in transcranial Doppler ultrasound.

13 he ventricular cavity visualized using color Doppler ultrasound.

14 g patients with complete graft thrombosis by Doppler ultrasound.

15 urements, and leg blood flow was measured by Doppler ultrasound.

16 measured in an additional 10 subjects using Doppler ultrasound.

17 severe fetal anemia and can be measured with Doppler ultrasound.

18 Forearm blood flow (FBF) was measured by Doppler ultrasound.

19 E-CMR) and to compare the method with paired Doppler ultrasound.

20 onducted on 27 Fontan patients who underwent Doppler ultrasound, 2D-SWE, and liver biopsy between Jan

21 ancillary studies was 4% (5% of transcranial Doppler ultrasounds, 4% of nuclear studies, 0% of electr

22 ities (CBFV) were measured with transcranial Doppler ultrasound along with noninvasive beat-to-beat b

23 tudy evaluated the diagnostic performance of Doppler ultrasound and 2D-SWE in assessing hepatic fibro

24 sensitivity and specificity of transcranial Doppler ultrasound and cerebral angiography.

25 Animals underwent Doppler ultrasound and fetal biometry followed by MRI at

26 went coronary angiography with intracoronary Doppler ultrasound and had exercise 201Tl testing within

27 lmonary oxygen uptake, photoplethysmography, Doppler ultrasound and muscle biopsies of the vastus lat

28 We measured LBF by Doppler ultrasound and muscle MBV by contrast-enhanced u

29 ebral artery was measured using transcranial Doppler ultrasound and postural control (i.e., elliptica

30 reliminary mapping of their venous access by Doppler ultrasound and then be assigned to a vascular ac

31 onary angiography, chest CT, lower extremity Doppler ultrasound and venography, and repeat lung scans

32 enhanced plaque vulnerability as revealed by Doppler ultrasound and/or histopathology.

33 e patients with a suspicion of TRAS based on Doppler-ultrasound and clinical setting underwent IA-CTA

34 We measured forearm blood flow (Doppler ultrasound) and calculated changes in vascular c

35 hy subjects, we measured forearm blood flow (Doppler ultrasound) and calculated changes in vascular c

36 l 2, n = 8), we measured forearm blood flow (Doppler ultrasound) and calculated changes in vascular c

37 lthy humans, we measured forearm blood flow (Doppler ultrasound) and calculated forearm vascular cond

38 lthy adults, we measured forearm blood flow (Doppler ultrasound) and calculated forearm vascular cond

39 lthy adults, we measured forearm blood flow (Doppler ultrasound) and calculated forearm vascular cond

40 We measured femoral blood flow (Doppler ultrasound) and calculated the femoral vascular

41 We measured forearm blood flow (FBF; Doppler ultrasound) and calculated the forearm vascular

42 We measured forearm blood flow (Doppler ultrasound) and calculated the reductions in for

43 adults, we measured forearm blood flow (FBF; Doppler ultrasound) and calculated the vascular conducta

44 We measured forearm blood flow (FBF; Doppler ultrasound) and calculated the vascular conducta

45 We measured forearm blood flow (Doppler ultrasound) and calculated the vascular conducta

46 Baseline femoral artery blood flow (Doppler ultrasound) and calculated vascular conductance

47 humans.We measured forearm blood flow (FBF; Doppler ultrasound) and calculated vascular conductance

48 We measured forearm blood flow (FBF; Doppler ultrasound) and calculated vascular conductance

49 ethysmography), femoral mean blood velocity (Doppler ultrasound) and femoral artery diameter (edge-de

50 valuated by brachial artery blood flow (BAF; Doppler ultrasound) and forearm skeletal muscle microvas

51 FBF was measured (Doppler ultrasound) and forearm vascular conductance (FV

52 ned changes (%Delta) in leg blood flow (LBF, Doppler ultrasound) and leg VO2 to intra-arterial infusi

53 LBF was determined second-by-second by Doppler ultrasound, and central haemodynamics were measu

54 e were measured by ultrasonic wall tracking, Doppler ultrasound, and photoplethysmography, respective

55 ating emboli can be detected by transcranial Doppler ultrasound, are frequent in patients with sympto

56 se was used to quantify peak leg blood flow (Doppler ultrasound), arterial-to-venous oxygen content d

57 ocity (MCAV) was measured using transcranial Doppler ultrasound, as an index of CBF, in 10 healthy su

58 Reported use of Doppler ultrasound assessment was negatively associated

59 Echocardiography and Doppler ultrasound assessments for wave intensity analys

60 hich we analyzed hepatic artery patency with Doppler ultrasound at 1, 3, 6, and 12 months after percu

61 erformance indexes quantified by pulsed-wave Doppler ultrasound at day 30, followed by normalization

62 udy, we compared BV and F with intracoronary Doppler ultrasound-based coronary blood flow (CBF) as a

63 aluate the potential cost-effectiveness of a Doppler ultrasound-based screening strategy versus no ul

64 rimester, uterine blood flow was measured by Doppler ultrasound before fetal delivery and tissue coll

65 ry blood velocity waveforms were obtained by Doppler ultrasound before, during, and after maternal ad

66 emoral arterial and venous blood samples and Doppler ultrasound blood flow measurements) and whole-bo

67 - 3 kg/m(2)) we measured forearm blood flow (Doppler ultrasound), blood pressure (brachial artery cat

68 Recordings of CBFV (transcranial Doppler ultrasound), BP (Finometer) and end-tidal CO(2)

69 hanges in forearm vascular conductance (FVC; Doppler ultrasound, brachial intra-arterial pressure via

70 resonance imaging (MRI) and testicular color Doppler ultrasound (CDU) were performed by two radiologi

71 s that had been solely assessed using colour Doppler ultrasound (CDUS), those exclusively evaluated w

72 Blood flow was determined by transcranial Doppler ultrasound (cerebral blood flow) and constant in

73 ting glucose levels postpancreas transplant, Doppler ultrasound, computed tomography, autoantibody ti

74 Conventional modalities such as Doppler ultrasound, contrast-enhanced computed tomograph

75 MRI, magnetic resonance angiography (MRA), Doppler ultrasound, CT, and positron emission tomography

76 re performed using the Vancouver Scar Scale, Doppler ultrasound, Cutometer, Mexameter and PeriCam PSI

77 We reviewed transcranial Doppler ultrasound data of 199 patients; 55 had symptoma

78 Transcranial Doppler ultrasound data were available in 25 asymptomati

79 Doppler ultrasound definitively helps to diagnose the tu

80 can be detected in patients by transcranial Doppler ultrasound despite aspirin and heparin treatment

81 mittently from brachial blood flow velocity (Doppler ultrasound) divided by mean arterial pressure (M

82 lood flow responsiveness was evaluated using Doppler ultrasound during reactive hyperaemia (RH), pass

83 Doppler ultrasound (DUS) arterial abnormalities (DAA) af

84 essed oxygen microelectrode, color and power Doppler ultrasound (DUS), and diffuse light spectroscopy

85 Finometer), CBF velocity (CBFV; transcranial Doppler ultrasound), end-tidal CO(2) (capnography) and h

86 on of MR estimates of pressure gradient with Doppler ultrasound estimates (in 22 of 32 patients) and

87 Non-invasive Doppler ultrasound estimates have partially addressed th

88 Graft thrombosis was found on routine Doppler ultrasound evaluation of the transplanted organs

89 Color Doppler ultrasound examination of two cases showed intra

90 Doppler ultrasound examination was performed on three of

91 s clinically significant, and routine venous Doppler ultrasound following decannulation is warranted

92 The sensitivity of transcranial Doppler ultrasound for anterior circulation in patients

93 sensitivity and specificity of transcranial Doppler ultrasound for anterior circulation vessels were

94 placement real-time, ultrasound guidance or Doppler ultrasound guidance improves success rates and d

95 Conventional ultrasound and Doppler ultrasound have a limited role in the characteri

96 We examined eight sheep by using tissue Doppler ultrasound images obtained in the apical four-ch

97 ogenic therapy was performed by serial power Doppler ultrasound imaging of murine tumors treated with

98 longitudinal grayscale, color, and spectral Doppler ultrasound in 2 human recipients of genetically

99 We performed postdecannulation venous Doppler ultrasound in 88.9% of extracorporeal membrane o

100 ltrasound and femoral blood flow (FBF) using Doppler ultrasound in response to a stimulation frequenc

101 peroneal nerve) and forearm blood flow (FBF, Doppler ultrasound) in 16 healthy control subjects (31 +

102 in the middle cerebral artery (CFV) (pulsed Doppler ultrasound) in 17 healthy awake subjects while t

103 Spectral Doppler ultrasound indicates pulmonary hypertension and

104 Incorporating Doppler ultrasound into a multi-parametric model may imp

105 lular carcinoma, but contrast-enhanced power Doppler ultrasound is a new imaging technique able to di

106 These results indicate that power Doppler ultrasound is a sensitive, noninvasive method fo

107 rine spiral artery resistance as detected by Doppler ultrasound is commonly used in the second trimes

108 Doppler ultrasound is initially used in accessible perip

109 Doppler ultrasound is the clinical gold standard for non

110 Using Doppler ultrasound, IUGR cases were divided into 2 group

111 Biopsies were performed with color-flow Doppler ultrasound localization using an 18-gauge automa

112 sessed with non-invasive techniques, such as Doppler ultrasound, magnetic resonance angiography, and

113 Color Doppler ultrasound, magnetic resonance imaging, and posi

114 Intracoronary Doppler ultrasound may enhance diagnostic accuracy by pr

115 All patients then underwent Transcranial Doppler ultrasound measurements of OAF parameters, inclu

116 nostic tools in clinical obstetrics, such as Doppler ultrasound measurements of umbilical blood flow

117 Doppler ultrasound measurements showed decreased umbilic

118 After topical epinephrine, color Doppler ultrasound measurements were not significantly d

119 Color Doppler ultrasound measurements were performed at baseli

120 Transcranial Doppler ultrasound measures vessel flow velocity respons

121 l and venous catheters), femoral blood flow (Doppler-ultrasound), microvascular quadriceps blood flow

122 Daily transcranial Doppler ultrasound monitoring could provide early identi

123 Bilateral transcranial Doppler ultrasound monitoring of the middle cerebral art

124 , 95% CI 0.89-0.96) for 70-99% stenosis than Doppler ultrasound, MR angiography, and CT angiography (

125 A host of imaging modalities, including Doppler ultrasound, MRI, and CT, have been investigated

126 tic resonance imaging (n = 26), transcranial Doppler ultrasound (n = 35) and perfusion computed tomog

127 ith the results of scintigraphy (n = 72) and Doppler ultrasound (n = 60), clinical presentation (n =

128 o treatment allocation undertook compression Doppler ultrasound of both legs at about 7-10 days and,

129 The primary role of Doppler ultrasound of the acute testicle and scrotum is

130 Vascular function was assessed with Doppler ultrasound of the femoral artery and the passive

131 Blood flow was assessed with Doppler ultrasound of the femoral artery during both pas

132 femoral artery catheter) and leg blood flow (Doppler ultrasound of the femoral artery) were measured

133 lastography) and vascular index (color power Doppler ultrasound) of the medial gastrocnemius (MG) mus

134 ing pancreatic cancer, but contrast-enhanced Doppler ultrasound or endosonography may be as sensitive

135 Doppler ultrasound probe can evaluate arterial flow to t

136 aluate the potential of ultrafast plane-wave Doppler ultrasound (PWU) to detect increased flow veloci

137 Transcranial Doppler ultrasound recordings from the ipsilateral middl

138 -second with finger photoplethysmography and Doppler ultrasound, respectively.

139 Based on Doppler ultrasound results, 51.9% of patients fell into

140 ration of vascular maps created with MRI and Doppler ultrasound revealed BBB opening inside the inten

141 Doppler ultrasound RI measurements were obtained in the

142 The condition was diagnosed by the Doppler ultrasound scan of the liver.

143 erial patency is monitored with percutaneous Doppler ultrasound screening (pDUS).

144 Participants had transcranial Doppler ultrasound screening by a local examiner.

145 Color and spectral Doppler ultrasound should be used to supplement the find

146 ients with cirrhosis with PVTs identified on Doppler ultrasound should undergo cross-sectional imagin

147 Intraoperative and serial Doppler ultrasound showed good flow through the allograf

148 Doppler ultrasound showed normal testicular vessels pass

149 Tumor vascular window and Doppler ultrasound showed that PI3K antagonists enhanced

150 Transcranial Doppler ultrasound signs of vasospasm improved after end

151 mean times for symptomatic and transcranial Doppler ultrasound signs of vasospasm presentation were

152 Using an enhanced multigate spectral Doppler ultrasound system (ultrasound advanced open plat

153 CV prophylaxis and transcranial doppler ultrasound (TCD) are performed in 41.3%, 45.0%,

154 olic signals (MES), detected by transcranial Doppler ultrasound (TCD), are markers of future stroke a

155 gic exam, complete blood count, transcranial Doppler ultrasound (TCD), measurement of intelligence qu

156 lood flow (.Q(L)) in the femoral artery with Doppler ultrasound techniques and calculated limb vascul

157 e based on history, physical examination and Doppler ultrasound, the necessity of both MRI, MR angiog

158 d one of the following methods: angiography, Doppler ultrasound to assess plaque and carotid intima-m

159 Within each trial, we utilized transcranial Doppler ultrasound to assess the cerebral blood velocity

160 g chronic hemodialysis, we used transcranial Doppler ultrasound to measure cerebral arterial mean flo

161 We employed transcranial Doppler ultrasound to measure cerebral blood flow (CBF)

162 x and resistive index were mapped with color Doppler ultrasound (US) and compared with spectral Doppl

163 d by an ophthalmologist and radiologist with Doppler ultrasound (US) examinations.

164 derwent a preoperative vascular mapping with Doppler ultrasound (US), and only patients who had suita

165 ation time in five healthy subjects by using Doppler ultrasound (US).

166 rokes, and 1 child had abnormal transcranial Doppler ultrasound velocities.

167 Transcranial Doppler ultrasound was as sensitive as cerebral angiogra

168 The reliability of transcranial Doppler ultrasound was better at detecting high mean cer

169 Doppler ultrasound was performed 2 days later, and patie

170 Doppler ultrasound was performed in a subset of 55 pregn

171 Transcranial Doppler ultrasound was performed to identify and follow

172 enosis rate 1 year after brachytherapy, when Doppler ultrasound was used for follow-up monitoring.

173 tid and vertebral arteries, and transcranial Doppler ultrasound was used to assess middle cerebral ar

174 Two-dimensional Doppler ultrasound was used to determine brachial arteri

175 Transcranial Doppler ultrasound was used to measure blood flow veloci

176 Femoral artery blood flow (Doppler ultrasound) was 26% lower in the older men (P<0.

177 of the temporal tap was sought in the pulsed Doppler ultrasound waveforms of the ECA, common carotid

178 multaneous intravascular two-dimensional and Doppler ultrasound, we examined the effect of intracoron

179 Tail cuff blood pressure and uterine artery Doppler ultrasound were measured on GD 15, 19, and 21.

180 sensitivity and specificity of transcranial Doppler ultrasound were middle cerebral artery, 64% and

181 ssure and brachial artery blood flow (duplex Doppler ultrasound) were continuously measured during su

182 omated auscultation) and femoral blood flow (Doppler ultrasound) were measured in the supine position

183 entials, cerebral oximetry, and transcranial Doppler ultrasound) were used.

184 Doppler ultrasound, which evaluates hepatic hemodynamics

185 od flow (FBF) was measured beat-to-beat with Doppler ultrasound, while saline or drugs were infused s

186 l of this study was to compare intracoronary Doppler ultrasound with both 201Tl imaging and coronary

187 rearm skeletal muscle capillary recruitment (Doppler ultrasound with or without microbubble contrast)

188 medicine referral and middle cerebral artery Doppler ultrasound without titration testing or with the