ライフサイエンスコーパス: colic

1 uadrant pain that was interpreted as biliary colic.

2 iated with the subsequent diagnosis of renal colic.

3 ged emergency department patients with renal colic.

4 uality in patients suspected of having renal colic.

5 examinations, and CT examinations for renal colic.

6 r patients with expectantly managed ureteric colic.

7 s was associated with a history of infantile colic.

8 ted ineffectiveness in breastfed babies with colic.

9 ars of age with a primary diagnosis of renal colic.

10 t hyperactivity disorder (ADHD), asthma, and colic.

11 All patients had a diagnosis of biliary colic.

12 patients who all had a diagnosis of biliary colic.

13 say, suffered from frequent and severe renal colic.

14 stinal motility that manifests clinically as colic.

15 to detect obstruction in patients with renal colic.

16 ging, and with the classic syndrome of renal colic.

17 s (NSAIDs) have been used to relieve biliary colic.

18 5 children, 55 children (7.9%) had infantile colic.

19 with cholelithiasis who present with biliary colic, a single 75-mg intramuscular dose of diclofenac c

20 e may cause complications, including biliary colic, acute pancreatitis, and acute cholecystitis.

21 64.1% fulfilled criteria for biliary colic and 74.9% underwent cholecystectomy, with similar

22 Two serious adverse events (biliary colic and abdominal pain), occurring in the same partici

23 us experience with 60 patients who had renal colic and had undergone radiography of the kidneys, uret

24 f the early life gut microbiome in infantile colic and later development of atopic and gastrointestin

25 the difference between resolution of biliary colic and pain-free state in patients with and without F

26 tones and ureteral stents can cause ureteral colic and pain.

27 the immediate symptomatic relief of biliary colic and the prevention of cholelithiasis-related compl

28 during 1997-1998 of 498 pairs of horses with colic and their controls.

29 In addition, three patients had renal colic and were suspected to have ureteric stones; they s

30 ble effectiveness in formula-fed babies with colic, and 1 suggested ineffectiveness in breastfed babi

31 Patients with renal colic are evaluated with clinical, laboratory, and imagi

32 e IMA was embolized through the SMA and left colic artery in seven patients and through the translumb

33 erior mesenteric artery ligation (above left colic artery), intraoperative complications, and being o

34 ion was attempted through the SMA and middle colic artery.

35 o the urologist in the treatment of ureteric colic as well as the advantages and disadvantages of eac

36 ditionally, patients undergoing CT for renal colic at a single institution (with institutional review

37 Difference in the prevalence of infantile colic between children with and without a diagnosis of m

38 y demonstrated active arterial bleeding from colic branches of the superior or inferior mesenteric ar

39 for people managed expectantly for ureteric colic, but emphasised the need for high-quality trials w

40 was defined by the Rome IV criteria, biliary colic by the Rome III criteria, and pain-free by an Izbi

41 Acute renal colic can be precipitated by dehydration and reduced uri

42 For renal colic, clinical selection, KUB radiography, and even pos

43 -20.3) times higher than among matched renal colic controls.

44 ts) were studied to examine individual renal colic CT dose index patterns and explore relationships b

45 examinations, and 10.2 mGy +/- 4.2 for renal colic CT examinations, while mean DLP was 805.7 mGy .cm

46 A review of the current research on infant colic does not provide many new insights, and the etiolo

47 ed, although there was consensus that infant colic does not reflect gastrointestinal malfunction.

48 T radiation exposure for evaluation of renal colic during 2015-2016 decreased relative to 2011-2012 v

49 iagnosis for the initial episode was biliary colic/dyskinesia (65.3%), acute cholecystitis (26.6%), c

50 blood triglycerides, ovarian cyst, and renal colic (each in one participant [4%]).

51 evidence to support probiotic use to manage colic, especially in formula-fed infants, or to prevent

52 ire identified personal history of infantile colic for case and control participants, confirmed by he

53 of 3 small trials of breastfed infants with colic found that Lactobacillus reuteri markedly reduced

54 hysical examination with intense pain in the colic frame with tenderness.

55 Infantile colic, gastroesophageal reflux, and constipation are the

56 Children with infantile colic had an increased risk of developing constipation (

57 The description of infant colic has been expanded to include criteria for the gene

58 The description of infant colic has been expanded, although there was consensus th

59 The management of ureteric colic has changed significantly over the past three deca

60 of NSAIDs in the natural history of biliary colic has not been clarified.

61 and taxa abundances were not associated with colic, however a sparse Partial Least Squares model incl

62 rials concluded probiotics effectively treat colic in breastfed babies; 1 suggested possible effectiv

63 ive in the prevention/management of crying ("colic") in infants 3 months or younger.

64 Several factors were associated with colic including race, breastfeeding, and pets.

65 d for use for intestinal ailments, including colic, infection, and inflammation, as well as for non-i

66 of visceral pain in such conditions as renal colic, interstitial cystitis and inflammatory bowel dise

67 benign paroxysmal torticollis and infantile colic into the unified diagnosis of 'childhood migraine

68 Infantile colic is a common cause of inconsolable crying during th

69 Infantile colic is a common condition with limited knowledge about

70 Infantile colic is a distinct, although poorly defined, clinical e

71 Biliary colic is reported by only a few patients post-cholecyste

72 Such colic manifests as severe loin pain and can be accompani

73 Recent research suggests infant colic may also fit into this category.

74 of nine species was moderately predictive of colic: median, cross-validated AUC = 0.627, p = .003.

75 ), acute cholecystitis (n = 17), and biliary colics (n = 35).

76 rovascular risk factors and subsequent renal colic (negative control).

77 ecystectomies were performed: 16 for biliary colic (no deaths, three patients with complications), 19

78 red with the 826 matched controls with renal colic (odds ratio, 2.5; 95% confidence interval [CI], 1.

79 nt or outpatient cholecystectomy for biliary colic or biliary dyskinesia, acute cholecystitis, or chr

80 ssociated with a lower frequency of reported colic or irritability (P < 0.001) and a lower frequency

81 ted in adequate growth, reduced reporting of colic or irritability, and a lower frequency of antibiot

82 70 years who presented to the ED with ureter colic or musculoskeletal back and/or neck pain.

83 30 patients with biliary colic, pancreatitis, unexplained derangement of liver fu

84 tutional level for CT performed with a renal colic protocol at institutions that contributed at least

85 There were 49 903 renal colic protocol CT examinations conducted at 93 instituti

86 igest leaves using fermentation in the caeco-colic region.

87 ant crying/distress, or diagnosis of "infant colic." RESULTS Of the 12 trials (1825 infants) reviewed

88 study was designed to assess modified retro colic retro gastric gastrojejunostomy in reducing macro

89 y higher than in matched patients with renal colic, suggesting that some strokes, or sentinel events

90 re more likely to have experienced infantile colic than those without migraine (72.6% vs 26.5%; odds

91 crying in exclusively breastfed infants with colic, there is still insufficient evidence to support p

92 These results suggest infantile colic to involve gastrointestinal and/or atopic mechanis

93 fant crying/distress or diagnosis of "infant colic." Twelve of the 1180 initially identified studies

94 Subsequently, 80 patients with renal colic underwent scintigraphy within 12 h of presentation

95 rior pancreaticoduodenal vein, in 22; middle colic vein (MCV), in 29; and first jejunal vein (FJV), i

96 ansplant patient that caused middle and left colic vein thrombosis and resultant ischemic colitis.

97 ght gastroepiploic vein (RGEV), in 31; right colic vein, in 30; anterior superior pancreaticoduodenal

98 Infantile colic was evaluated at age 3 months by interviews.

99 ree patients with cholelithiasis and biliary colic were enrolled in this randomized, double-blind, pl

100 ed 118 patients with symptoms of acute renal colic who underwent the following two successive CT exam

101 ize of veterinarians) for the association of colic with certain covariates, using a moving average ap

102 We link infantile colic with risk of developing constipation and atopic di

103 % of patients fulfilled criteria for biliary colic, with no significant difference between those with