ライフサイエンスコーパス: neonatal intensive care unit

1 d prematurity that required admission to the neonatal intensive care unit.

2 e investigated a putative MRSA outbreak in a neonatal intensive care unit.

3 reduce the rates of nosocomial sepsis in the neonatal intensive care unit.

4 n 8-month retrospective investigation in our neonatal intensive care unit.

5 cant cause of morbidity and mortality in the neonatal intensive care unit.

6 was significantly higher in neonates in the neonatal intensive care unit.

7 al sepsis, or admission of the infant to the neonatal intensive care unit.

8 ontact isolation during the outbreak in this neonatal intensive care unit.

9 clinical noninferiority trial at a tertiary neonatal intensive care unit.

10 Antibiotics are used frequently in the neonatal intensive care unit.

11 Observational cohort study in a level III neonatal intensive care unit.

12 gestational age, and hospitalization in the neonatal intensive care unit.

13 Retrospective cohort study at tertiary neonatal intensive care units.

14 inical trial performed at 33 US and Canadian neonatal intensive care units.

15 d for more than 48 h admitted to two level 3 neonatal intensive care units.

16 (VLBW) infants varies widely among different neonatal intensive care units.

17 yndrome and has become a standard of care in neonatal intensive care units.

18 ation in approaches to oxygen therapy within neonatal intensive care units.

19 hs 500-1499 g, and we assessed this in eight neonatal intensive care units.

20 icarbonate therapy is used routinely in many neonatal intensive care units.

21 in the preterm and term infants admitted to neonatal intensive care units.

22 ommonly critically ill patients in adult and neonatal intensive care units.

23 conducted between 2008 and 2014 in 21 French neonatal intensive care units.

24 ere obtained during routine ROP screening in neonatal intensive care units.

25 ty are still low and vary considerably among neonatal intensive care units.

26 nificant cause of morbidity and mortality in neonatal intensive care units.

27 ive care units (15.5%, 95% CI 11.6-20.3) and neonatal intensive care units (10.7%, 9.0-12.7).

28 onducted from January 2010 to June 2013 at 3 neonatal intensive care units (2 academically affiliated

29 rcent and 6 percent); who were admitted to a neonatal intensive care unit (6 percent and 7 percent);

30 o a loading-dose of phenobarbital from eight neonatal intensive care units across Europe.

31 higher rates of low birth weight (30.8%) and neonatal intensive care unit admission (30.8%) among neo

32 ed with glyburide were at increased risk for neonatal intensive care unit admission (RR = 1.41; 95% C

33 tress syndrome (RR = 6.5, 99% CI: 5.9, 7.1), neonatal intensive care unit admission (RR = 3.4, 99% CI

34 natal information and assessments during the neonatal intensive care unit admission and longitudinal

35 (2) Delayed intubation, (3) Normothermia on Neonatal Intensive Care Unit Admission, (4) Use of a pre

36 glyburide was 2.97% (95% CI, 1.82-4.12) for neonatal intensive care unit admission, 1.41% (95% CI, 0

37 Ten neonates required neonatal intensive care unit admission, five for respira

38 orn hospital stay, and 3.6 times the risk of neonatal intensive care unit admission.

39 e for gestational age, low birth weight, and neonatal intensive care unit admission.

40 ntilation and respiratory support during the neonatal intensive care unit admission.

41 weeks]) with various stages of ROP: 3 in the neonatal intensive care unit and 1 in the operating room

42 is of prematurity requiring admission to the neonatal intensive care unit and asthma.

43 ical center among 4 neonates with ROP in the neonatal intensive care unit and in the operating room.

44 Nurses are principal caregivers in the neonatal intensive care unit and support mothers to esta

45 justing after an infant's discharge from the neonatal intensive care unit and support the positive ps

46 significant PDA was conducted at 3 tertiary neonatal intensive care units and affiliated follow-up p

47 holucent lesion on an ultrasound scan in the neonatal intensive care unit, and cerebral palsy, microc

48 rrests occurring in the delivery department, neonatal intensive care unit, and in the out-of-hospital

49 Apgar scores, admission to the neonatal intensive care unit, and perinatal mortality we

50 SI; (4) management of staphylococcal BSIs in neonatal intensive care units; and (5) defining the impa

51 Parents of infants hospitalized in the neonatal intensive care unit are routinely taught cardio

52 However, most infants at modern neonatal intensive care units are predominantly fed with

53 udy is an observational study in the level 3 neonatal intensive care unit at Parkland Hospital, Dalla

54 children were recruited as infants from the Neonatal Intensive Care Unit at Queen Charlotte's and Ha

55 (<30 weeks' gestational age; admitted to the neonatal intensive care unit at the Royal Women's Hospit

56 t 22 or 23 weeks of gestation at a level III neonatal intensive care unit at the University of Cologn

57 from June 29, 2011, to October 14, 2014, in neonatal intensive care units at 8 academic institutions

58 The setting was neonatal intensive care units at The Children's Hospital

59 esistant Staphylococcus aureus (MRSA) in the neonatal intensive care units at two hospitals, we asses

60 health care worker inadvertently exposed 32 neonatal intensive care unit babies to 2009 influenza A

61 During an outbreak of MRSA in a neonatal intensive care unit between July 18, 1991 and J

62 ll antibiotic use in infants admitted to the neonatal intensive care unit between March 1, 2012, and

63 born in 558 Vermont Oxford Network hospital neonatal intensive care units between January 1, 2007, a

64 VLBW infants (<1500 g) admitted to level III neonatal intensive care units between January 1, 2010, a

65 o 29 participating Canadian Neonatal Network neonatal intensive care units between January 1, 2010, a

66 than 1250 g admitted to 6 Canadian tertiary neonatal intensive care units between May 2006 and June

67 tibiotic stewardship strategies in a level 3 neonatal intensive care unit by surveillance and assessm

68 gh assessment of antibiotic consumption in a neonatal intensive care unit can inform high-yield stewa

69 atal intensive care unit length of stay, and neonatal intensive care unit complications.

70 A quarter of all neonates admitted to neonatal intensive care units develop thrombocytopenia,

71 stillbirth, perinatal death, or admission to neonatal intensive care unit did not differ between wome

72 for gestational age (SGA) baby; need for the neonatal intensive care unit; doubling of serum creatini

73 etected in specimens from six infants in our neonatal intensive care unit due to phenotypic character

74 sion to the Palomar Rady Children's Hospital Neonatal Intensive Care Unit during the 35 month study p

75 2502 infants were admitted to the neonatal intensive care unit during the two study period

76 racic Surgery, Pediatric Intensive Care, and Neonatal Intensive Care Unit Follow-Up teams to provide

77 cted age, all children were scheduled in the Neonatal Intensive-Care Unit Follow-Up Clinic for a visi

78 ate recovery was associated with a stay in a neonatal intensive care unit for >28 days (P = 0.039), v

79 gh March 2012, we surveyed 272 babies in our neonatal intensive care unit for rectal colonization wit

80 term) of gestational age, were maintained in neonatal intensive care units for </=14 d.

81 weight <or=1.5kg admitted to a tertiary care neonatal intensive care unit from 2002 to 2006 were retr

82 Images were obtained from 13 North American neonatal intensive care units from eyes of infants with

83 All neonates admitted to 24 participating neonatal intensive care units from four countries (Austr

84 microbiologically constrained ecosphere of a neonatal intensive care unit, gut bacterial communities

85 Twenty-eight of 56 infants in a neonatal intensive care unit had stools positive for ade

86 tential factor, exposure to stressors in the neonatal intensive care unit, has not yet been studied i

87 ycemia, newborn sepsis, and admission to the neonatal intensive care unit (ICU).

88 < .0001); and those with intensive care unit/neonatal intensive care unit (ICU/NICU) admissions (OR =

89 ital care workers (HCWs) in the surgical and neonatal intensive care units (ICUs) of four hospitals.

90 ies) guidelines at a tertiary level academic neonatal intensive care unit in 2014.

91 erobacter sakazakii infections occurred in a neonatal intensive care unit in France from 5 May to 11

92 nfants with birth weight less than 1251 g in neonatal intensive care units in 13 North American cente

93 between January 2006 and December 2013 from neonatal intensive care units in 25 US children's hospit

94 al ophthalmologists participating in level 3 neonatal intensive care units in academic centers with i

95 days of birth, were enrolled at 3 level III neonatal intensive care units in Atlanta, Georgia.

96 onal cohort study in pediatric, cardiac, and neonatal intensive care units in eight hospitals, carrie

97 29 weeks of gestation and hospitalized in 68 neonatal intensive care units in France from April throu

98 33) were linked with structural data from 66 neonatal intensive care units in Germany.

99 5, 2009, and March 25, 2012, in 13 level III neonatal intensive care units in Germany.

100 intestinal food allergy was conducted in 126 neonatal intensive care units in Japan between April 201

101 ts (birth weight <1500 g) admitted to 1 of 6 neonatal intensive care units in the Netherlands from Ma

102 Louis with clinical data from the four neonatal intensive care units in the St.

103 1 hospitalized VLBW (<1500 g) infants at 348 neonatal intensive care units in the United States from

104 andomized clinical study was conducted at 16 neonatal intensive care units in the United States, with

105 low birth weight children from six regional neonatal intensive care units in Wisconsin and Iowa who

106 ion in the health and development of preterm/neonatal intensive care unit infants.

107 trition in health and development of preterm/neonatal intensive care unit infants.

108 Exposure to stressors in the Neonatal Intensive Care Unit is associated with regional

109 ase or mitigate exposure to stressors in the neonatal intensive care unit is warranted.

110 e hospital discharge of premature infants in neonatal intensive care units is often delayed due to th

111 Of 13 neonatal intensive care unit isolates tested, all were m

112 The median neonatal intensive care unit length of stay was 34 days

113 mission to the neonatal intensive care unit, neonatal intensive care unit length of stay, and neonata

114 nates (moderate evidence), or admission to a neonatal intensive care unit (low evidence).

115 were higher and the odds for admission to a neonatal intensive care unit lower with planned out-of-h

116 rge, nationally representative cohort at 348 neonatal intensive care units managed by the Pediatrix M

117 ween 401 and 1000 g who were cared for in US neonatal intensive care units managed by the Pediatrix M

118 We hypothesized that neonatal intensive care unit managerial practices and or

119 al mortality, fetal deaths, admission to the neonatal intensive care unit, neonatal intensive care un

120 ith a structured neurobehavioral assessment (Neonatal Intensive Care Unit Network Neurobehavioral Sca

121 group had the least favorable scores on the Neonatal Intensive Care Unit Network Neurobehavioral Sca

122 The primary outcomes were prematurity, neonatal intensive care unit (NICU) admission, congenita

123 ek at delivery, birth weight, resuscitation, neonatal intensive care unit (NICU) admission, NICU leng

124 between fetal exposure to oral pathogens and neonatal intensive care unit (NICU) admission.

125 mple of children who were hospital ized in a neonatal intensive care unit (NICU) after birth.

126 xposed to multiple painful procedures in the neonatal intensive care unit (NICU) during a period of r

127 e if modifications to the preterm gut on the neonatal intensive care unit (NICU) impacted the gut mic

128 emely low-birth-weight (ELBW) infants in the neonatal intensive care unit (NICU) is associated with a

129 a greater effect on mortality risk than does neonatal intensive care unit (NICU) level.

130 trointestinal tracts of infants and from the neonatal intensive care unit (NICU) room environment.

131 We analyzed the relation between neonatal intensive care unit (NICU) strategies concernin

132 ty-four of these babies were admitted to the neonatal intensive care unit (NICU), and one of them had

133 mall-footprint, 1.5-T MRI scanner within our neonatal intensive care unit (NICU), diagnostic-quality

134 parents voice their dissatisfaction with the neonatal intensive care unit (NICU), it is often not bec

135 SA) is a frequent source of infection in the neonatal intensive care unit (NICU), often associated wi

136 tal of 266 infants in a single institutional neonatal intensive care unit (NICU), whose gestational a

137 s were acquired in nonsedated infants in the neonatal intensive care unit (NICU).

138 is (PFGE) typing to analyze an outbreak in a neonatal intensive care unit (NICU).

139 y; small for gestational age (SGA); need for neonatal intensive care unit (NICU); new onset of hypert

140 ts born in the United States are admitted to neonatal intensive care units (NICU) annually.

141 enter cohort study of 156 ELBW infants at 16 neonatal intensive care units (NICU) within the NICHD Ne

142 infancy, cesarean delivery, breast-feeding, neonatal intensive care unit [NICU] admission, and absen

143 el thrombosis and bleeding, and death in the neonatal intensive care unit [NICU]) after the first 50

144 rugs in a cohort of neonates admitted to 290 neonatal intensive care units (NICUs) (the Pediatrix Dat

145 re born, and most spend their first weeks in neonatal intensive care units (NICUs) [1].

146 nence syndrome from 2004 through 2013 in 299 neonatal intensive care units (NICUs) across the United

147 Premature infants in neonatal intensive care units (NICUs) are highly suscept

148 CCC cases were reviewed from 2 academic neonatal intensive care units (NICUs) from 2004 to 2015.

149 To determine the proportion of neonatal intensive care units (NICUs) in 2014 that achie

150 been a large increase in both the number of neonatal intensive care units (NICUs) in community hospi

151 es were collected from infants nursed in two neonatal intensive care units (NICUs) in East London, Un

152 sion in the number of low-level and midlevel neonatal intensive care units (NICUs) in recent decades.

153 g less than 750 g at birth (N = 361) from 32 neonatal intensive care units (NICUs) in the United Stat

154 illin-resistant Staphylococcus aureus in the neonatal intensive care units (NICUs) of two hospitals.

155 bstantial shortfalls in nurse staffing in US neonatal intensive care units (NICUs) relative to nation

156 It is difficult for neonatal intensive care units (NICUs) to determine the o

157 lied SourceTracker to microbial surveys from neonatal intensive care units (NICUs), offices and molec

158 se of morbidity and mortality in neonates in neonatal intensive care units (NICUs).

159 tly performed skin-breaking procedure in the neonatal intensive care units (NICUs).

160 ors influencing azithromycin use in European neonatal intensive care units (NICUs).

161 UK recommendations suggest that large neonatal intensive-care units (NICUs) have better outcom

162 of prematurely born infants were obtained by neonatal intensive care unit nurses.

163 inborn babies with type 1 zone 1 ROP at the Neonatal Intensive Care Unit of the Catholic University,

164 hough severe outcomes such as admission to a neonatal intensive care unit or perinatal mortality show

165 collected from 4 geographically independent neonatal intensive care units, over a 48-month period.

166 Twenty-two academic neonatal intensive care units participated.

167 n between 2010 and 2011 who were admitted to neonatal intensive care units participating in the Canad

168 Infants hospitalized in the neonatal intensive care unit, particularly preterm infan

169 e become an increasingly frequent problem in neonatal intensive care units, particularly among extrem

170 ic potential and 20% of thrombocytopenias in neonatal intensive care unit patients are severe.

171 gnificant morbidity and late mortality among neonatal intensive care unit patients.

172 Recent pilot randomized trials in the neonatal intensive care unit population have assessed th

173 rtery bypass graft, angioplasty, cardiac and neonatal intensive care units, positron emission tomogra

174 gh close to half of the newborns admitted to neonatal intensive care units receive treatment for "hyp

175 Prospectively collected clinical data in the neonatal intensive care unit's medical database, nutriti

176 nization with P. aeruginosa among infants in neonatal intensive care units should be investigated by

177 ndardized kit for the CD64 index was used in neonatal intensive care units, showing high sensitivity

178 ome was measured within the entire period of neonatal intensive care unit stay up to 90 days after ra

179 with or without fundoplication during their neonatal intensive care unit stay.

180 c P. aeruginosa infection among infants in a neonatal intensive care unit that was associated with ca

181 ical and surgical wards to the pediatric and neonatal intensive care units that occurred during 370,5

182 In contrast, in infants admitted to neonatal intensive care units, thrombocytopenia develops

183 hic Association and 1998 and 1999 surveys of neonatal intensive care units to calculate the supply of

184 isk factors, neurodevelopmental follow-up of neonatal intensive care unit trials offers the potential

185 with neurological impairment admitted to the neonatal intensive care unit underwent GT placement alon

186 h gentamicin at the time of admission to the neonatal intensive care unit, using a standard protocol,

187 Cardiac arrests occurring in the neonatal intensive care unit were excluded.

188 less than 29 weeks who were admitted to the neonatal intensive care unit were prospectively studied

189 ices as rated by healthcare professionals in neonatal intensive care units were associated with the d

190 ntra-abdominal infections hospitalized in 24 neonatal intensive care units were studied in an open-la

191 ial was conducted in infants admitted to the neonatal intensive care unit who weighed less than 1000

192 All neonates admitted to the neonatal intensive care unit with signs of respiratory d

193 Neonatal intensive care units with better work environme