ライフサイエンスコーパス: acute diarrhea

1 ortant etiologies in pediatric patients with acute diarrhea.

2 rties, like xyloglucan, for the treatment of acute diarrhea.

3 cacious and safe option for the treatment of acute diarrhea.

4 ather than secondary prevention triggered by acute diarrhea.

5 ting that G. lamblia was not associated with acute diarrhea.

6 tored the net fluid loss in a mouse model of acute diarrhea.

7 fective in both prophylaxis and treatment of acute diarrhea.

8 indicates that Zn can be useful for treating acute diarrhea.

9 Infection is the most common cause of acute diarrhea.

10 positivity among samples from patients with acute diarrhea.

11 en <5 years of age who were hospitalized for acute diarrhea (3 looser-than-normal stools within <24 h

12 BF), in 201 U.S. and European travelers with acute diarrhea acquired in Mexico, Guatemala, and India.

13 k, P = .002) compared with infants with only acute diarrhea (AD; duration <7 days), even after contro

14 f a case-control study of moderate to severe acute diarrhea among children 0-59 months of age in Bama

15 All deaths due to acute diarrhea among children during 1998-2004 in the Ka

16 astrovirus (HAstV) is a significant cause of acute diarrhea among children, resulting in outbreaks of

17 g from sub-Saharan Africa or Southeast Asia, acute diarrhea among those returning from south central

18 Rectal swabs were collected at time of acute diarrhea and 14 days later from 127 children, aged

19 ing the receptor for IL-25 failed to develop acute diarrhea and anaphylaxis, highlighting a role for

20 eated oral doses of the same antigen induced acute diarrhea and anaphylaxis.

21 center, cohort study of cancer patients with acute diarrhea and C. difficile, identified in stools by

22 rium infection, which is accompanied by both acute diarrhea and high-level inflammation, V. cholerae

23 e children between ages 2 and 59 months with acute diarrhea and household access to a cell phone for

24 ted HECV-4408 was isolated from a child with acute diarrhea and is antigenically and genetically more

25 n our understanding of prolonged episodes of acute diarrhea and persistent diarrhea in children.

26 tion, and treatment of prolonged episodes of acute diarrhea and persistent diarrhea in resource-limit

27 mes from 32 healthy animals, 31 animals with acute diarrhea, and 29 animals with ICD.

28 ren aged <5 years who were hospitalized with acute diarrhea, and analyzed their stool samples using a

29 sease, including meconium ileus, early onset acute diarrhea, and pediatric inflammatory bowel disease

30 Piglets developed acute diarrhea, anorexia, and dehydration, which could o

31 e evaluated the effectiveness of HRV against acute diarrhea associated with enterotoxigenic Escherich

32 uced genetically restricted, dose-dependent, acute diarrhea associated with increased intestinal perm

33 72.0% presented acute diarrhea, being inflammatory in 60.1%.

34 odel meta-analysis of combined results (9774 acute diarrhea cases and 8766 controls) yielded a pooled

35 Escherichia coli (ETEC), a leading cause of acute diarrhea, colonizes the intestine by means of adhe

36 ite and Saccharomyces in adult patients with acute diarrhea due to different causes.

37 evaluated with U.S. soldiers presenting with acute diarrhea during deployment in Thailand.

38 Of 302 children with acute diarrhea enrolled, 199 had etiologies above the AF

39 Dogs with acute diarrhea, especially those with AHD, had the most

40 After causing acute diarrhea followed by clinical recovery, some enter

41 re obtained from a commercial vendor and had acute diarrhea following shipment.

42 eady known to effectively prevent and manage acute diarrhea, further research is needed to address th

43 0.063% for the healthy group, 0.131% for the acute-diarrhea group, and 0.297% for the chronic-diarrhe

44 oving treatment strategies for patients with acute diarrhea have included the clinical testing of mod

45 conducted from January 2010 to June 2017 for acute diarrhea hospitalizations among children aged <5 y

46 in Denmark (134 children and 28 adults) with acute diarrhea in 1998, 2000, and 2002.

47 control study within a birth cohort study of acute diarrhea in a peri-urban community in Peru from 20

48 from children admitted to the hospital with acute diarrhea in Botswana.

49 genomic analysis of feces from children with acute diarrhea in Burkina Faso, we identified in decreas

50 (spiB), or SPI-5 (sopB) caused mortality and acute diarrhea in calves.

51 for the prediction of viral-only etiology of acute diarrhea in children 0-59 months in Bangladesh and

52 The improved treatment of acute diarrhea in children during the past 35 years has

53 the effectiveness of ORS in the treatment of acute diarrhea in children under five years of age.

54 nfection with Yersinia enterocolitica causes acute diarrhea in early childhood.

55 the importance of astroviruses as a cause of acute diarrhea in hospitalized children <10 years old du

56 city of oral glutamine for the prevention of acute diarrhea in patients receiving pelvic radiation th

57 en shown to be effective in the treatment of acute diarrhea in several randomized controlled trials i

58 ic diarrhea coronavirus (PEDV), which causes acute diarrhea in swine, plays a role in antagonizing th

59 per day for 10 to 14 days for children with acute diarrhea; in previous trials, this dosage decrease

60 Although acute diarrhea is likely to be caused by infection, the

61 Acute diarrhea is the most common illness that affects t

62 Mortality due to acute diarrhea (<7 days' duration) is decreasing, but pr

63 of children between 0.5 to 2.5-year-old with acute diarrhea not associated with common pathogens.

64 5 hospitalized adults (>=18 years) with CDI (acute diarrhea, positive stool nucleic acid amplificatio

65 Prolonged episodes of acute diarrhea (ProD; duration 7-13 days) or persistent

66 Although less common than acute diarrhea, prolonged and persistent episodes of dia

67 a highly pathogenic lentivirus which causes acute diarrhea, rash, massive lymphocyte proliferation p

68 Endemic outbreaks of swine acute diarrhea syndrome coronavirus (SADS-CoV) have caus

69 Swine acute diarrhea syndrome coronavirus (SADS-CoV) is a newl

70 Swine acute diarrhea syndrome coronavirus (SADS-CoV) is a newl

71 Bat-originated swine acute diarrhea syndrome coronavirus (SADS-CoV), discover

72 of epithelial cell lines infected with swine acute diarrhea syndrome, severe acute respiratory syndro

73 In studies of acute diarrhea, the illness duration has been found to b

74 e utilized a murine model of T cell-mediated acute diarrhea to investigate the role of the epithelial

75 zania who were 6 to 59 months of age and had acute diarrhea to receive 5 mg, 10 mg, or 20 mg of zinc

76 to experience additional stunting following acute diarrhea, to enable targeted approaches to prevent

77 ective surveillance of all-age patients with acute diarrhea was conducted in China between 2009-2018.

78 Acute diarrhea was the second most common diagnosis amon

79 Infants with acute diarrhea were randomly assigned to receive zinc (1

80 ral rehydration solution in the treatment of acute diarrhea with particular attention to recent effor