ライフサイエンスコーパス: ultrasound scan

1 s was referred for a routine first trimester ultrasound scan.

2 ingleton pregnancy at the time of the dating ultrasound scan.

3 thyroid function, and a transvaginal pelvic ultrasound scan.

4 rogression to higher level of care after the ultrasound scan.

5 ovasculature (14.6 mum resolution) using one ultrasound scan.

6 Gestational age was estimated by repeated ultrasound scans.

7 y fetuses using frame-by-frame coding of 4-D ultrasound scans.

8 nction and are readily seen on DMSA, but not ultrasound scans.

9 d by cord blood platelet counts and cerebral ultrasound scans.

10 805 women, 383 pregnancies were confirmed by ultrasound scans.

11 of the volume of MMC was performed based on ultrasound scans.

12 orkflow using machine learning and abdominal ultrasound scans.

13 and fetal growth documented through repeated ultrasound scans.

14 68 adult male patients who underwent cardiac ultrasound scanning.

15 pA) and 10 normal control subjects underwent ultrasound scanning.

16 isease underwent preoperative carotid artery ultrasound scanning.

17 t the high operator-dependent variability of ultrasound scanning.

18 Ultrasound scanning 5 weeks posttransplant revealed mild

19 vity of the assay compared well with that of ultrasound scanning (59%) and computed tomography (83%)

20 We ultrasound scanned 7546 mouse fetuses from 262 mutageniz

21 Using echocardiography, we ultrasound scanned 87,355 chemically mutagenized C57BL/6

22 nts, with and without needle rotation, using ultrasound scanning acoustic microscopy.

23 art graft function, measured by quantitative ultrasound scan, against prolonged cold ischemia-reperfu

24 e and IMT were determined at the time of the ultrasound scan and included traditional cardiovascular

25 s found between the severity of steatosis on ultrasound scan and NASH incidence (p = 0.026).

26 te specific antigen, followed by transrectal ultrasound scanning and biopsy, but these lack adequate

27 Annual surveillance by transvaginal ultrasound scanning and serum CA-125 measurement in wome

28 Patients had annual neck ultrasound scans and 6-monthly serum thyroglobulin measu

29 Prenatal ultrasound scans and neonatal structural magnetic resona

30 rformed at least 30 structured point-of-care ultrasound scans and/or reached point-of-care ultrasound

31 phic data collection, ophthalmic evaluation, ultrasound scan, and systemic studies were performed at

32 Abdominal ultrasound scans are comparatively low cost and exhibit

33 ovarian cancer algorithm) with transvaginal ultrasound scan as a second-line test (multimodal screen

34 90th customised percentile) as identified by ultrasound scan between 35 weeks and 0 days (35(+0) week

35 s similar to those applied during diagnostic ultrasound scanning, can be utilised to both trigger and

36 On an ultrasound scan, CIMT and presence of plaque are associa

37 A comparison between the coregistered CT and ultrasound scan confirmed the imaging accuracy.

38 We linked ultrasound scan data to routinely available data on hosp

39 AFAFP) levels or abnormalities visualized on ultrasound scan during the second trimester of pregnancy

40 All patients underwent liver ultrasound scan every 6 months.

41 green angiography findings, together with B-ultrasound scan features were recorded, with axial lengt

42 study support the policy of third trimester ultrasound scan for fetal presentation.

43 etermine the cost effectiveness of universal ultrasound scanning for breech presentation near term (3

44 rvational study, involving cases whose first ultrasound scans for congenital hydronephrosis were perf

45 technical advancements in clinical obstetric ultrasound scanning have largely concerned improving ima

46 Abdominal computed tomography scans and ultrasound scans have been shown to be accurate in the d

47 ality in these cases was first aroused after ultrasound scan in 136 (79%); chromosome analysis becaus

48 iagnosed with a missed miscarriage by pelvic ultrasound scan in the first 14 weeks of pregnancy, chos

49 Gestational age was determined by a dating ultrasound scan in the first trimester, and infant birth

50 triculomegaly and an echolucent lesion on an ultrasound scan in the neonatal intensive care unit, and

51 mal menstrual history, and a first-trimester ultrasound scan in which the crown-rump length of the em

52 ine learning techniques applied to abdominal ultrasound scanning may help alleviate some of these dis

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

54 Echo data from 50-MHz ultrasound scans of the iris and ciliary body of rabbits

55 Trans-sternal ultrasound scans of the thymus were performed at birth,

56 ion of plantar flexion of the ankle based on ultrasound scan or postnatal examination.

57 his period, which included use of endoscopic ultrasound scanning (P = 0.012).

58 Follow-up angiography and ultrasound scan performed 24 hours after the procedure r

59 d leakage of Evans blue were observed in the ultrasound scan plane within the anterior left ventricle

60 The studies demonstrated that ultrasound scans rarely confirm the clinical diagnosis o

61 B-mode ultrasound scans sampling throughout the liver were acqu

62 The antenatal ultrasound scan showed a single, live, intrauterine foet

63 The antenatal ultrasound scan showed a single, live, intrauterine gest

64 included electrocardiograms, carotid artery ultrasound scans, spirometry, measurements of body size,

65 We examined the combined role of ultrasound scan (USS), C - reactive protein and White bl

66 ite matter damage evident in newborn cranial ultrasound scans (ventriculomegaly and an echolucent les

67 ve reliable data on number of facility-based ultrasound scans via the standard antenatal referral pat

68 ometric data were recorded, and an abdominal ultrasound scan was carried out.

69 An ultrasound scan was performed, showing a well-circumscri

70 Endometrial thickness assessment on ultrasound scan was possible in 379 (95%) of the 399 wom

71 Ultrasound scanning was utilized to diagnose the NAFLD.

72 Up to five 3D ultrasound scans were completed across gestation, from w

73 Ultrasound scans were obtained at the implant regions of

74 n criteria, a sample of 199 patients and 350 ultrasound scans were obtained.

75 267 ONSD ultrasound scans were performed in 107 participants over

76 267 ONSD ultrasound scans were performed in 107 participants over

77 KM width measurements on ultrasound scans were performed linearly (lnKM) and alon

78 ages of the prostate acquired with abdominal ultrasound scans (which could be conducted by operators