ライフサイエンスコーパス: echogenic

1 echoes, and fibrous or calcified tissues are echogenic.

2 s C3 nanodroplets is effective, resulting in echogenic and persistent microbubbles which provide real

3 ring potential of protein-coated bubbles for echogenic and therapeutic applications and extend the us

4 emoglobin-based, acellular, non-coagulative, echogenic, and cytoprotective perfusate that promotes re

5 l within the lesion in the Doppler study, an echogenic band (representing edema, hemorrhage, and fat

6 lex with mural nodules (n = 7), complex with echogenic bands (n = 4), anechoic with posterior acousti

7 ar and demonstrated indistinct margins or an echogenic boundary.

8 positive ascertainment rate in fetuses with echogenic bowel grades 2 and 3.

9 d nuchal fold, echogenic intracardiac focus, echogenic bowel, renal pyelectasis, and humeral and femo

10 identified as having a fetus with abnormally echogenic bowel.

11 ere is much interest in generating nanoscale echogenic bubbles (nanobubbles), which can enable new us

12 At sonography, they appeared as unique echogenic casts with variable posterior acoustic shadowi

13 erogeneous epigastric collection with linear echogenic components suggestive of bone fragments.

14 aphic features, such as predominantly cystic echogenic composition and the presence of a perinodular

15 However, most of these utilize echogenic contrast agents engineered for imaging, which

16 as based on characteristic imaging findings (echogenic, cystic kidney at US that did not function at

17 lower abdomen with presence of some internal echogenic debris and calcified foci in their dependent p

18 improves ethanol retention and generates an echogenic depot in tissue.

19 Intra-mural echogenic dots were seen in one neonate in the study gro

20 (72 of 74 [97.3%]) at baseline, followed by echogenic foci (31 of 74 [41.9%]), composition (23 of 74

21 2.3%; 95% CI: 1.1%, 4.3%), or indeterminate echogenic foci (n = 39, 9.9%; 95% CI: 7.2%, 13.3%).

22 ypoechoic areas in four (7%); peritesticular echogenic foci in 40 (73%); linear hypoechoic striations

23 s (composition, echogenicity, shape, margin, echogenic foci), and a genetic AI algorithm was applied

24 SA cycle (n = 36), reporting of nodule size, echogenic foci, and composition increased to 100%.

25 and margins and substantial concordance for echogenic foci, and the third radiologist had nearly per

26 c lesion with linear margins, peritesticular echogenic foci, linear hypoechoic striations, and testic

27 and septae; papillary projections and solid, echogenic foci.

28 and substantial concordance for margins and echogenic foci.

29 hypoechogenic pattern with multiple internal echogenic foci.

30 and margins and substantial concordance for echogenic foci; the second radiologist had nearly perfec

31 hin-walled, cystic lesion with an eccentric, echogenic focus in the subcutaneous plane.

32 rpose was to quantitate and confirm specific echogenic immunoliposome (ELIP) atheroma component enhan

33 Targeted echogenic immunoliposomes (ELIPs) for ultrasound enhance

34 Then, we found that MWCNTs were highly echogenic in liver and heart through ex vivo experiments

35 ype and included assessment of any potential echogenic intracardiac focus (ie, calcified papillary mu

36 A sonographically isolated echogenic intracardiac focus (no other anomalies or mark

37 The positive predictive value (PPV) of an echogenic intracardiac focus in this high-risk populatio

38 An echogenic intracardiac focus was seen in 147 of the 3,19

39 choroid plexus cyst, thickened nuchal fold, echogenic intracardiac focus, echogenic bowel, renal pye

40 For a sonographically isolated echogenic intracardiac focus, the PPV was 3.7%; sensitiv

41 ype comprising cerebral ventriculomegaly and echogenic kidneys with histopathological findings of con

42 triculomegaly, periventricular heterotopias, echogenic kidneys, and renal failure was homozygous for

43 Sonography revealed bilaterally enlarged echogenic kidneys, testis and epididymis with echogenic

44 ldhood, which presents with greatly enlarged echogenic kidneys, ultimately leading to renal insuffici

45 It appeared as a single echogenic line between the thalami in 171 (38.9%) fetuse

46 thalami in 171 (38.9%) fetuses, as parallel echogenic lines outlining a fluid-filled lumen in 243 (5

47 bioactive gas-delivery method by the use of echogenic liposomes (ELIP) as the gas carrier.

48 tissue plasminogen activator (rt-PA)-loaded echogenic liposomes (OFP t-ELIP) using differential inte

49 ization-freeze method to encapsulate Xe into echogenic liposomes (Xe-ELIP) and have modulated local g

50 rom the injection site and is not inherently echogenic, making biodistribution difficult to monitor.

51 The echogenic mass appeared to be in the ciliary body (n = 1

52 ynthesize and characterized long-circulating echogenic nanobubble encapsulated LTSLs (ELTSLs) and NTS

53 ynthesize and characterized long-circulating echogenic nanobubble encapsulated LTSLs (ELTSLs) and NTS

54 ree of neovascularization compared with more echogenic ones (P < .001).

55 ing, or a smoothly marginated, homogeneously echogenic, pedunculated endoluminal mass.

56 chogenic kidneys, testis and epididymis with echogenic peritoneal fluid tracking into both scrotal sa

57 ination of the tumour detected solid, highly echogenic prominent tumour with high reflectivity and ac

58 In summary, this study established the echogenic properties of EC-ethanol for spatiotemporal an

59 d out a thorough investigation to assess the echogenic property of the nanotubes in vitro.

60 One child also demonstrated an echogenic renal mass.

61 injury healing (normal parenchyma or linear echogenic "scar").

62 A highly echogenic "star burst" sign around the entire vessel wal

63 Examination of the murine echogenic subventricular zone (SVZ) revealed NLRP3-infla

64 MLs tended to be smaller and more frequently echogenic than RCCs, but statistically significant overl

65 common carotid artery was significantly more echogenic than the near wall at 2 mL contrast agent dose

66 posterior acoustic shadowing or as discrete, echogenic, variably shadowing foci in variably dilated d

67 ed that the EC-ethanol depots were 1.5x more echogenic when EC-ethanol ratios increased from 6 to 12%