ライフサイエンスコーパス: Doppler ultrasonography

1 ed testicle and absence of the blood flow in Doppler ultrasonography.

2 hepatosteatosis patients were examined using Doppler ultrasonography.

3 r reactivity were measured with transcranial Doppler ultrasonography.

4 ed with acoustic resonance imaging and power Doppler ultrasonography.

5 or middle-cerebral arteries on transcranial doppler ultrasonography.

6 s measured before surgery with colour duplex doppler ultrasonography.

7 lasia were evaluated by gray-scale and color Doppler ultrasonography.

8 may be detected with the use of transcranial Doppler ultrasonography.

9 ia who have abnormal results on transcranial Doppler ultrasonography.

10 sophageal echocardiography, and transcranial Doppler ultrasonography.

11 tinal artery (CRA) were measured using Color Doppler Ultrasonography.

12 troencephalography, computed tomography, and Doppler ultrasonography, 2% to 6%).

13 These include Doppler ultrasonography and magnetic resonance imaging a

14 Doppler ultrasonography and NIVE examinations were perfo

15 Colour Doppler ultrasonography and penile MRI can be used in mo

16 adenosine were measured using intracoronary Doppler ultrasonography and quantitative angiography.

17 to three ulcers, venous reflux confirmed by doppler ultrasonography, and adequate arterial flow in t

18 ood flow velocity (MCAVm) using transcranial Doppler ultrasonography, and expressed responses as chan

19 e ophthalmologic examination, gray-scale and Doppler ultrasonography, and nuclear magnetic resonance

20 Data were collected on Doppler ultrasonography, angiography, and vein angioplas

21 d testicle with absence of the blood flow in Doppler ultrasonography appear as very specific but late

22 Although B-mode and Doppler ultrasonography are highly sensitive for diagnos

23 Follow-up included Doppler ultrasonography at 1, 6, and 12 months and venog

24 ectively) were measured by 2-dimensional and Doppler ultrasonography at baseline, at 3 and 72 hours d

25 cose positron emission tomography, and color Doppler ultrasonography can show findings relevant to th

26 is that quantified tissue perfusion of power Doppler ultrasonography correlates with the clinically a

27 sessed noninvasively by bedside transcranial Doppler ultrasonography, correlates with risk of subsequ

28 ith second harmonic imaging and transcranial Doppler ultrasonography during a standardized procedure

29 al venous (PV) flow rates were measured with Doppler ultrasonography during inspiration and expiratio

30 On Doppler ultrasonography, during the first 6 months of tr

31 Jugular venous bulb oximetry, transcranial Doppler ultrasonography, electroencephalography, and nea

32 eceived additional investigations, including Doppler ultrasonography, followed by venography if indic

33 this proposal using functional transcranial Doppler ultrasonography (fTCD), which assesses blood flo

34 e osmolality, neurodevelopment, transcranial Doppler ultrasonography, growth, and mutagenicity.

35 Since its introduction in 1982, transcranial Doppler ultrasonography has become an important diagnost

36 flow scintigraphy and flow quantification at Doppler ultrasonography have focused on characterization

37 r the following 18 months using transcranial Doppler ultrasonography in 144 patients with dementia (A

38 Color Doppler ultrasonography is a rapid and non-invasive tech

39 Color Doppler ultrasonography is indicated in cases when the p

40 nant women with ureteral jets noted at color Doppler ultrasonography, jets were detected at only one

41 Portography, computed tomographic volumetry, Doppler ultrasonography, laboratory liver function and d

42 but other imaging modalities such as duplex Doppler ultrasonography, magnetic resonance angiography

43 by high-frequency ultrasonography and power Doppler ultrasonography measurements.

44 We carried out continuous spectral doppler ultrasonography of a hepatic vein from 20 s befo

45 raphy for sleep apnea underwent transcranial Doppler ultrasonography of the middle cerebral artery im

46 Doppler ultrasonography of the superior mesenteric arter

47 um sulfate or isolectin microangiography and Doppler ultrasonography of the superior mesenteric arter

48 vere anemia can be detected noninvasively by Doppler ultrasonography on the basis of an increase in t

49 e recanalization as assessed by transcranial Doppler ultrasonography or dramatic clinical recovery.

50 -related thromboses are usually diagnosed by Doppler ultrasonography or venography and treated with a

51 Parkinson's disease, including transcranial Doppler ultrasonography, radiolabeled tracer imaging, an

52 abdominal, thoracic, pubic, and transcranial Doppler ultrasonography scan), systematic clinical exami

53 mass was prominently hypervascular in color Doppler ultrasonography scan.

54 imary stroke prevention through transcranial Doppler ultrasonography screening may ultimately yield a

55 prevention has occurred through transcranial Doppler ultrasonography screening, but utilization of th

56 ssure, and reversal of portal venous flow on Doppler ultrasonography should not be used for the routi

57 s confirmed that utilization of transcranial Doppler ultrasonography (TCD), which examines blood flow

58 cribing and illustrating the key findings on Doppler ultrasonography that enable accurate diagnosis a

59 Transcranial Doppler ultrasonography that is aimed at residual obstru

60 quired transfusion, and it was documented by Doppler ultrasonography that PV thrombosis did not resul

61 ned to receive continuous 2-MHz transcranial Doppler ultrasonography (the target group) or placebo (t

62 This is similar to routine Doppler ultrasonography to assess blood flow, but techno

63 l arteries were insonated using transcranial Doppler ultrasonography to calculate mean middle cerebra

64 This experiment used functional transcranial Doppler ultrasonography to demonstrate that blood flow v

65 We used transcranial Doppler ultrasonography to identify children with sickle

66 racranial and transcranial venous echo-color Doppler ultrasonography (US) and contrast-enhanced US.

67 udy was to describe the gray-scale and color Doppler ultrasonography (US) and magnetic resonance (MR)

68 tomography (CT) and graded compression color Doppler ultrasonography (US) are highly accurate means o

69 o evaluate the ability of a quantified power Doppler ultrasonography (US) system to help quantitate d

70 Doppler ultrasonography (US), computed tomography (CT),

71 tramyocardial blood volume and perfusion and Doppler ultrasonography (US)-based intracoronary blood f

72 ted by FGR (IBR <5th percentile and abnormal Doppler ultrasonography [US] studies) underwent MR imagi

73 Flow was measured by transcranial Doppler ultrasonography, vessel geometry was determined

74 Doppler ultrasonography was performed at the start of th

75 Doppler ultrasonography was used to check the portal vei

76 Transcranial Doppler ultrasonography was used to determine the reacti

77 the patient and control groups, color duplex Doppler ultrasonography was used to examine portal vein

78 Transcranial Doppler ultrasonography was used to measure basilar arte

79 ere screened for carotid disease with duplex Doppler ultrasonography were compared with patients who

80 lation-perfusion imaging and lower extremity Doppler ultrasonography were performed (images not shown

81 ation, upper gastrointestinal endoscopy, and Doppler ultrasonography were performed before placement

82 Abdominal ultrasonography and portal vein doppler ultrasonography were performed in19 patients, 14

83 icated, and 82% underwent daily transcranial Doppler ultrasonography with embolic monitoring.