ライフサイエンスコーパス: bacterial count

1 a predictive model for determining the total bacterial count.

2 teurization as thermal treatment in terms of bacterial count.

3 Meanwhile, M -NDs reduce intracellular bacterial count.

4 d the expiry period showed no marked drop in bacterial count.

5 sive care unit-acquired pneumonia and higher bacterial count.

6 only moderately larger with minimally higher bacterial counts.

7 ntal endocarditis infections by target organ bacterial counts.

8 ng compared to wild-type 104, as assessed by bacterial counts.

9 ly at different time points for quantitative bacterial counts.

10 er standardization of IL-8 concentrations to bacterial counts.

11 l one associated with higher intraperitoneal bacterial counts.

12 (indicating better outcomes), and decreasing bacterial counts.

13 USA300 strains caused reduced pathology and bacterial counts.

14 r system (in vivo imaging system [IVIS]) and bacterial counts.

15 of NALC-NaOH treatment to the loss of viable bacterial counts.

16 ts susceptibility to the antibiotic with low bacterial counts (10(3) CFU) in 20 min; thus, redox prop

17 cterial cells directly from samples with low bacterial counts (10(4) cfu/mL) using a custom-designed

18 st effective variant, reducing P. aeruginosa bacterial counts 1000 times on day 4 post-infection.

19 The G3 device can give (1) accurate bacterial counts, (2) serve as a growth chamber for bact

20 ential preservative, as they evinced reduced bacterial count (5.81 log CFU/g on day 15) and retained

21 Infection, defined as a bacterial count above 50,000 cfu/ml, was present in 27 C

22 stigations demonstrate a >5-log reduction in bacterial counts after 5 minutes of AMF exposure.

23 ectively, achieving a 99% reduction in total bacterial counts after 8 h of treatment.

24 Bacterial counts after decontamination confirmed that th

25 ctions in corneal pathology and also lowered bacterial counts after infection with six different labo

26 ol L(-1) treated slices showed reduced total bacterial count along with lower soluble quinones, perox

27 In the test group, 71.25% of the bacterial count analyses for the eight different periodo

28 te (IA3902) resulted in significantly higher bacterial counts and a significantly longer duration of

29 Lungs were processed for leukocyte and bacterial counts and cytokine measurements.

30 WT mice, which was associated with increased bacterial counts and elevated inflammatory cytokine and

31 ented milks, such as acidification kinetics, bacterial counts and fatty acid content.

32 1alpha, developed larger lesions with higher bacterial counts and had decreased neutrophil recruitmen

33 in was accompanied by a >50-fold increase in bacterial counts and higher numbers of viable intracellu

34 ubstantially larger skin lesions with higher bacterial counts and impaired neutrophil recruitment com

35 any of the subsequent time points, except in bacterial counts and MPO activity.

36 Bacterial counts and neutrophil counts were significantl

37 Associations between preterm birth and bacterial counts and percentages were tested using multi

38 c FasL(-/-) exhibited significantly elevated bacterial counts and polymorphonuclear leukocyte numbers

39 mBD2 silencing also increased bacterial counts and polymorphonuclear neutrophil infilt

40 Changes in bacterial counts and proportions during pregnancy also w

41 and 5 h after infection were used to measure bacterial counts and to identify the subcellular localis

42 The secondary endpoints assessed were: bacterial counts, and biofilm formation on the surface o

43 topathology, myeloperoxidase (MPO) activity, bacterial counts, and ELISA analysis were used to assess

44 the number of infected pancreatic specimens, bacterial counts, and identified species at 1 week.

45 assessed by electroretinography, histology, bacterial counts, and myeloperoxidase ELISAs.

46 increased corneal opacity, PMN infiltration, bacterial counts, and perforated infected corneas.

47 ry reaction, abscess wall formation, abscess bacterial counts, and peritoneal bacterial counts, were

48 decreased the number of perforated corneas, bacterial counts, and PMNs.

49 Clinical score, slit lamp, histopathology, bacterial counts, and polymorphonuclear neutrophil (PMN)

50 tion, slit lamp examination; clinical score; bacterial counts; and myeloperoxidase (MPO), RT-PCR, ELI

51 In the present study, bacterial counts around single implants in periodontally

52 ub was non inferior in terms of reduction of bacterial counts, as compared to the conventional World

53 M1 showed decreased survival and higher lung bacterial counts, as well as increased dissemination of

54 metry and microscopy and by determining live bacterial counts associated with B cells both in vivo an

55 fewer vitreous exudates, and higher vitreous bacterial counts at 24 hours (P < 0.05).

56 There was no consistent difference in bacterial counts at any of the time points when comparin

57 ase chain reaction was used to measure total bacterial counts, Bacteroides/Prevotella (herein referre

58 levels and stem cell markers correlate with bacterial counts, being lowest in germ-free (GF), interm

59 rial adherence is insufficient to reduce the bacterial counts below that which elicits disease.

60 rjet irrigation significantly reduced viable bacterial counts by >=90.9% (~100-fold) on titanium surf

61 was demonstrated in animal models, reducing bacterial counts by six orders of magnitude, and contrib

62 s, we found that G. vaginalis and M. hominis bacterial counts, Candida vaginitis, and herpes simplex

63 early inflammation and a delayed increase in bacterial counts compared to animals infected with NTHi

64 y E. coli had significantly higher pulmonary bacterial counts compared with animals that received E.

65 xhibited lower mortality and decreased brain bacterial counts compared with mice infected with the co

66 ice display persistently elevated peritoneal bacterial counts compared with wild-type mice, reduced p

67 t mice were substantially larger with higher bacterial counts compared with wild-type mice.

68 o approximately 7.6 log(10) by 18 hours, but bacterial count declined to approximately 6.4 log(10) CF

69 Differential bacterial counts demonstrated that motile bacteria outco

70 Quantitative bacterial counts for lactobacilli and M. hominis are bet

71 revealed rapid and significant decreases in bacterial counts for protegrin-1-treated groups compared

72 ifferences occurred despite the finding that bacterial counts for the strain pairs were indistinguish

73 Based on bacterial counts from excised tissue, the liver density

74 rove upon previous approaches that relied on bacterial counts from the lungs of macaques.

75 Utilizing all three log(10) bacterial counts (G. vaginalis, M. hominis, and lactobac

76 hoc exploratory analyses of UTIs with higher bacterial counts (>/=10(5) colony-forming units per mL),

77 sera were collected after each challenge for bacterial counts, histological evaluation, cytokine prof

78 tes (HCTLR4KO) and then determined survival, bacterial counts, host inflammatory responses, and organ

79 s, thereby resulting in the reduction of the bacterial count in macrophages.

80 Moreover, MSC-intramammary treatment reduced bacterial count in milk of cows with S. aureus clinical

81 ed for real-time quantification of the total bacterial count in raw milk using an electrical bacteria

82 ameliorated corneal disease and reduced the bacterial count in the eye.

83 s like probiotics, starter culture and total bacterial count in the tested yogurt, where their enumer

84 PVL(+) strains also had significantly higher bacterial counts in abscesses compared with mice given n

85 helial and lymphocyte apoptosis and systemic bacterial counts in animals given iron supplementation a

86 Animals receiving I-IgG had lower bacterial counts in blood samples and lower bacterial de

87 .5% of positive sample pairs had significant bacterial counts in both lungs.

88 systemic inflammatory response and decreased bacterial counts in both the blood and peritoneal compar

89 e had a six- to eight-fold increase in total bacterial counts in comparison with sham and control mic

90 Bacterial counts in homogenized lungs and bronchoalveola

91 IL-6 treatment reduced total and liver bacterial counts in HS/IL-6 mice by 62% and 69%, respect

92 ory CD8+ T cells can reduce spleen and liver bacterial counts in IFN-gamma-deficient mice 3 d after L

93 icidal activity studies monitor daily sputum bacterial counts in individuals with tuberculosis (TB) f

94 th no attractant showed no increase in total bacterial counts in low permeability regions.

95 stant C57BL/6 mice, the mutant achieved high bacterial counts in lung and spleen that persisted in ti

96 (TNF) and interferon (IFN)-gamma, increased bacterial counts in lungs and blood, and early lethality

97 ed lung levels of TNF and IFN-gamma, reduced bacterial counts in lungs and plasma 40 h after the inoc

98 hoice, for improving survival and decreasing bacterial counts in major organs.

99 Decreased bacterial counts in mice infected with a cydC mutant (de

100 Among infected animals, bacterial counts in middle ear fluid specimens 7 days po

101 For example, bacterial counts in middle-ear fluids and the severity o

102 resulted in significantly lower total viable bacterial counts in moderate-to-deep pockets when compar

103 tiserum to mice produced significantly lower bacterial counts in organs than did normal rabbit serum

104 At late phase of infection, enhanced bacterial counts in PFOS treated mice were accompanied b

105 d was quantified in terms of change in total bacterial counts in pore throats in low permeability reg

106 After 3 weeks, bacterial counts in spleen and liver were statistically

107 n resulted in elevated PMN levels and viable bacterial counts in the cornea 3 and 5 days after infect

108 e susceptible to L. pneumophila, with higher bacterial counts in the lung.

109 We show that the viable and total bacterial counts in the lungs of chronically infected mi

110 nt (MyD88(-/-)) mice had dramatically higher bacterial counts in the lungs, with decreased neutrophil

111 r CFTR peptide 108-117 resulted in increased bacterial counts in the lungs.

112 and led to a substantial reduction of viable bacterial counts in the lungs.

113 ility to fluorescein isothiocyanate dextran, bacterial counts in the mesenteric lymph nodes complex,

114 ed by crystal violet staining and the viable bacterial counts in the mucoid P. aeruginosa biofilm est

115 sociated with, and perhaps due to, increased bacterial counts in the peritoneal cavity.

116 A large increase in bacterial counts in the pore throats just outside the lo

117 When mastitis occurred, the milk bacterial counts in the probiotic group were significant

118 erleukin-12 (IL-12) antibodies, resulting in bacterial counts in the spleens and livers of anti-IL-12

119 cholera toxin (CT), had significantly lower bacterial counts in their kidneys ( P = 0.001) and splee

120 e that lacked both T-cell subsets had higher bacterial counts in their livers 15 to 18 days after inf

121 d no significant effect on individual plaque bacterial counts in unadjusted models or those adjusted

122 mice, serum levels of IL-6 and TNF-alpha and bacterial counts in various organs were significantly re

123 d disks displayed a significant reduction in bacterial counts (in average 92% reduction).

124 Body weight, bacterial count, inflammation, and lung pathology were e

125 se (i.e., cachexia, diarrhea, and high fecal bacterial counts) is preceded by a lengthy subclinical s

126 s developed an inflammatory lesion with high bacterial counts, marked neutrophil infiltration, and hi

127 ed maximum growth rates (k, 1/h) and maximum bacterial counts (Nm log CFU/mL) for each CPY variant.

128 Finally, a loss of bacterial counts occurs after the first round of growth.

129 hiocyanate (ITC) conversion rate, color, and bacterial count of kale leaves were investigated.

130 rs were recorded, and total and quantitative bacterial counts of Aggregatibacter actinomycetemcomitan

131 marcescens, 3 Acps significantly reduced the bacterial counts of infected females, suggesting a prote

132 Bacterial counts of the middle ear effusions were lower

133 Application of L-PRF significantly reduced bacterial counts on contaminated SLA titanium surface, m

134 with the assigned technique and reduction of bacterial counts on the hands of health-care workers.

135 There was no change in the total aerobic bacterial count or total mould count as a result of trea

136 ts (P=.006; inverse association), M. hominis bacterial counts (P=.0001; positive association), Candid

137 In multivariate analysis, only lactobacilli bacterial counts (P=.006; inverse association), M. homin

138 In vivo, lung bacterial count, pulmonary immune response (neutrophil m

139 An increase in total bacterial counts, ranging from 1.09 to 1.74 times, was o

140 he control sites indicated that 90.6% of the bacterial counts remained the same, 6% increased, and 3%

141 se of recombinant IL-17 had lesion sizes and bacterial counts resembling those of WT mice, demonstrat

142 GBS) showed 100% detection, but at the lower bacterial counts, SBCB and IGLB were more sensitive than

143 The bacterial counts showed that sonication was effective on

144 However, bacterial counts subsequently increased and by 15 hrs an

145 as associated with a significant decrease in bacterial counts, suppressed bacterial production of PVL

146 nt, proteolytic activities and psychrophilic bacterial count than did samples treated with soybean an

147 ceptibility more rapidly, with lower initial bacterial counts than existing commercial systems, and p

148 was significantly less effective in reducing bacterial counts than the medium of wild-type cells.

149 ontal diseases sites, as well as lower total bacterial count, than all the other groups at 180 days.

150 This phenotype was accompanied by higher bacterial counts, the formation of extracellular bacteri

151 Varying the bacterial count thresholds for urine culture positivity

152 By relating bacterial count to infectiousness and fitting dynamic ep

153 1 by 24-48 hours of infection, and increased bacterial counts up to 5 days after infection, compared

154 Post-immersion, adherent bacterial count was quantified.

155 g 173 positive BAL sample pairs, significant bacterial counts were detected exclusively in 6.4% of le

156 aerodynamics were evaluated; neutrophil and bacterial counts were determined in bronchoalveolar lava

157 sted and levels of cytokines, defensins, and bacterial counts were determined.

158 Bacterial counts were done, and the MIC of each mouthwas

159 Very high bacterial counts were found in the ileum and cecal conte

160 In contrast, blood bacterial counts were greatest in deficient mice.

161 Bacterial counts were higher in the AP group for Parvimo

162 acterial counts, were all similar, but blood bacterial counts were higher.

163 in CapG(+/+) mice at days 5 to 9, while the bacterial counts were identical on day 5 for Salmonella-

164 bulk-tank milk somatic cell counts and total bacterial counts were measured and staphylococci were is

165 d tailings pH and neutrophilic heterotrophic bacterial counts were observed.

166 onas, Enterobacteriaceae and H(2)S producing bacterial counts were obtained in PEF-1 CLE, compared to

167 rviving animals were sacrificed at 72 h, and bacterial counts were performed on their kidneys, livers

168 Total bacterial counts were significantly reduced by doxycycli

169 on, abscess bacterial counts, and peritoneal bacterial counts, were all similar, but blood bacterial

170 and NC resulted in a significant decrease in bacterial counts when applied for 60 and 120 s (1.55 and

171 WT mice, Kit(W-sh/W-sh) mice showed reduced bacterial counts with less bacterial dissemination to di

172 openem, achieved a 3-log CFU/mL reduction in bacterial count within 3 h in time-kill kinetics and exh

173 significantly inhibited total psychrophilic bacterial count, yeast and mold count during storage.

174 Microbial load (logCFU/g) in terms of total bacterial count, yeast and mold count of shallot onion p

175 Total viable bacterial count, yeast and mould count, colour, essentia