ライフサイエンスコーパス: abdominopelvic

1 Twenty-one men underwent dynamic and static abdominopelvic (18)F FACBC combined positron emission to

2 ients in the experimental arm also underwent abdominopelvic (18)F-fluciclovine PET/CT, and the images

3 Metastases were most frequently reported in abdominopelvic (23.6% of all reports) and thoracic (17.6

4 ials and Methods A convenience sample of 139 abdominopelvic 4D flow MRI acquisitions performed betwee

5 itis, perineal or caesarean wound infection, abdominopelvic abscess, mastitis or breast abscess, and

6 ganization of PPAT in patients compared with abdominopelvic adipose tissue (APAT), an extraperitoneal

7 nary tract (n = 9), gallbladder (n = 1), and abdominopelvic area (n = 47).

8 for different categories of radiation to the abdominopelvic area.

9 he need for opioid prescriptions after major abdominopelvic cancer surgery without adversely affectin

10 tionnaires to self-assess workload following abdominopelvic colon and rectal procedures.

11 osition (BC) imaging biomarkers derived from abdominopelvic computed tomography (CT) correlate with I

12 Evaluation with a contrast-enhanced abdominopelvic computed tomography (CT) scan demonstrate

13 lymphangioleiomyomatosis underwent chest and abdominopelvic computed tomography (CT).

14 formed: one undergoing conventional imaging (abdominopelvic contrast-enhanced CT and bone scanning) a

15 Eighty patients with LAM underwent chest and abdominopelvic CT and abdominopelvic US.

16 n was based on the results from conventional abdominopelvic CT and MRI.

17 y board-certified radiologists at nonfocused abdominopelvic CT and ultimate clinical diagnoses by a c

18 ale patients with blunt trauma who underwent abdominopelvic CT at a level 1 trauma center between Jan

19 ients with HGSOC (median age, 61 years) with abdominopelvic CT before primary cytoreductive surgery a

20 in patients admitted for BAPT who underwent abdominopelvic CT examination (P < .001).

21 unted for anatomic coverage during a typical abdominopelvic CT examination.

22 the pre- and postalgorithm groups: number of abdominopelvic CT examinations at admission, number of a

23 retrospective computerized search of 69,040 abdominopelvic CT examinations performed over a 4-year p

24 trospective cohort of 8139 contrast-enhanced abdominopelvic CT examinations undergoing up to 5 years

25 The percentage of abdominopelvic CT examinations with BAPT-related finding

26 lvic CT examinations at admission, number of abdominopelvic CT examinations with positive BAPT-relate

27 ally suspected of having acute appendicitis, abdominopelvic CT frequently identifies an alternative c

28 ocial security record who underwent chest or abdominopelvic CT from 2003 to 2007.

29 Chest and abdominopelvic CT images obtained before ASIR implementa

30 Pediatric abdominopelvic CT images with nonvisualized appendix hav

31 Given the prevalent use of abdominopelvic CT in trauma centers, opportunistic scree

32 onventional imaging only (bone scanning plus abdominopelvic CT or MRI) (arm A) or conventional imagin

33 ing perceived increased cancer risk from one abdominopelvic CT scan.

34 Admission abdominopelvic CT scans from patients 65 years and older

35 In 21 945 patients, 16 851 chest and 24 112 abdominopelvic CT scans were obtained.

36 The following parameters were recorded from abdominopelvic CT study reports for the pre- and postalg

37 patients admitted for BAPT who underwent an abdominopelvic CT study was 76.7% (5900 of 7688) in the

38 The average relative dose reduction for abdominopelvic CT was 29% (4.8/6.8 mGy), with a maximum

39 Abdominopelvic CT was performed (Figs 1-3).

40 An abdominal mass was suspected, and abdominopelvic CT was performed and followed by US; thes

41 An abdominal mass was suspected, and abdominopelvic CT was performed and followed by US; thes

42 Abdominopelvic CT was performed.

43 As a result, an abdominopelvic CT was performed.

44 2 patients were identified who had undergone abdominopelvic CT with a multi-detector row scanner and

45 18) and who had previously undergone 120-kVp abdominopelvic CT with BCM randomly received sICM (7.2 g

46 more than 5 years for patients who underwent abdominopelvic CT within 48 hours of emergent explorator

47 ist 300; Schering, Berlin, Germany) thoracic abdominopelvic CT.

48 for chest CT and 13% (7.8/6.8; P = .40) for abdominopelvic CT.

49 1 291) and 0.1% (six of 11 291, P < .01) for abdominopelvic CT.

50 T and abdominal pain, trauma, and cancer for abdominopelvic CT.

51 maging in a pelvic soft-tissue mass shown on abdominopelvic CT.

52 f surgical procedures that involve increased abdominopelvic dissection and morbidity.

53 resections, 22,854 hysterectomies, and 1471 abdominopelvic endovascular procedures.

54 come the routine and preferred procedure for abdominopelvic evaluations with PET imaging.

55 for each patient model for routine chest and abdominopelvic examinations and were normalized by volum

56 From September 1995 to December 2002, 140 abdominopelvic fluid collections were drained at two ins

57 The transgluteal approach to the drainage of abdominopelvic fluid collections with imaging guidance i

58 Patients with abdominopelvic fluid detected on MRI of the lower abdome

59 oefficient (ADC) values in the evaluation of abdominopelvic fluids.

60 lues by an established conversion factor for abdominopelvic fluoroscopy-guided procedures.

61 ues, as well as a variety of extraintestinal abdominopelvic IBD inflammatory bowel disease manifestat

62 Primary abdominopelvic indications were second in frequency to t

63 ies, in clinical practice in a wide range of abdominopelvic indications.

64 tal cancer for survivors treated with direct abdominopelvic irradiation was 1.4% (95% CI, 0.7%-2.6%)

65 ical hyperplasias, primary tumors and paired abdominopelvic metastases to survey the evolutionary lan

66 ower quadrant US and nonenhanced, nonsedated abdominopelvic MR imaging examinations.

67 ally proved acute appendicitis who underwent abdominopelvic multidetector CT.

68 d with the risk of discharge to an ICF after abdominopelvic operations.

69 during a 2-week period with mild to moderate abdominopelvic or flank pain and who underwent CT were s

70 (CTC) is used to examine the colorectum and abdominopelvic organs simultaneously.

71 r 60% of women with endometriosis experience abdominopelvic pain and broader pain manifestations, inc

72 sions are implicated in the cause of chronic abdominopelvic pain, and many patients are relieved of t

73 adhesions irrespective of reports of chronic abdominopelvic pain.

74 dults aged 65 and older who underwent common abdominopelvic procedures (cholecystectomy, colectomy, h

75 Childhood cancer survivors treated with abdominopelvic radiation (RT) are at increased risk of c

76 (RIGS) is a limiting factor for therapeutic abdominopelvic radiation and is predicted to be a major

77 Overall, survivors treated with abdominopelvic radiotherapy treatment (ART) were three t

78 al pressure, anorectal junction descent, and abdominopelvic-rectoanal coordination (P < .05).

79 evacuation and show limited agreement; thus, abdominopelvic-rectoanal coordination in normal defecati

80 rectal pressurization, anal relaxation, and abdominopelvic-rectoanal coordination.

81 Four of the five abdominopelvic recurrences of disease in the chemotherap

82 ts of CT and arcitumomab were concordant for abdominopelvic resectability, nonresectability, or absen

83 patients undergoing evaluation for curative abdominopelvic resection of colorectal cancer and in the

84 Evaluation for abdominopelvic retroperitoneal lymphadenopathy, either w

85 early mortality among survivors treated with abdominopelvic RT, with reasonable burden-to-benefit tra

86 ning, chest radiography, or dedicated CT and abdominopelvic sonography or contrast-enhanced CT.

87 d fluorophores add value during laparoscopic abdominopelvic surgeries and could potentially decrease

88 This was an analysis of nonemergent, abdominopelvic surgeries from 2008 to 2014 from a single

89 ost, morbidity, and mortality of unnecessary abdominopelvic surgery and increases those who are poten

90 operative venous thromboembolism after major abdominopelvic surgery in patients not at high risk of b

91 Opioid use is common before abdominopelvic surgery, and is independently associated

92 cy study in patients undergoing laparoscopic abdominopelvic surgery.

93 Older adults frequently undergo abdominopelvic surgical operations, yet the risk and sig

94 This abdominopelvic survey potential provides radiologists wi

95 omputed tomography (CT) utilization in blunt abdominopelvic trauma (BAPT) over an 8-year period at an

96 In a rabbit abdominopelvic trauma model, dual-contrast DE CT signifi

97 Among survivors, abdominopelvic tumor (adjusted rate ratio [ARR], 3.6; 95

98 ), was compared to that of CT for predicting abdominopelvic tumor resectability by correlating the re

99 urvivor Study (2,002 with and 10,314 without abdominopelvic tumors) and 4,023 sibling participants.

100 (95% CI, 4.4% to 7.3%) among survivors with abdominopelvic tumors, 1.0% (95% CI, 0.7% to 1.4%) among

101 % (95% CI, 0.7% to 1.4%) among those without abdominopelvic tumors, and 0.3% (95% CI, 0.1% to 0.5%) a

102 AM underwent chest and abdominopelvic CT and abdominopelvic US.

103 rovide hemodynamic insights for a variety of abdominopelvic vascular diseases, but its clinical utili