ライフサイエンスコーパス: Gram-positive cocci

1 d by Gram stain showed large aggregations of Gram positive cocci.

2 shes it from other staphylococci and related Gram-positive cocci.

3 ly collected blood culture broths containing Gram-positive cocci.

4 in the pathogenicity of clinically important Gram-positive cocci.

5 organism for studying cell wall synthesis in Gram-positive cocci.

6 identified as potent adhesins in pathogenic Gram-positive cocci.

7 are key enzymes in vancomycin resistance of Gram-positive cocci.

8 d by MSSA and MRSA from that caused by other gram-positive cocci.

9 ococci in blood cultures growing clusters of gram-positive cocci.

10 of the 29 different bacteria identified were Gram-positive cocci.

11 or difficult-to-identify catalase-negative, gram-positive cocci.

12 rate recognition by the secretion pathway of gram-positive cocci.

13 ology of nonpathogenic as well as pathogenic gram-positive cocci.

14 abases to include newly described species of gram-positive cocci.

15 otential antibacterial target in the low-G+C gram-positive cocci.

16 agents directed against multidrug-resistant gram-positive cocci.

17 of study animals with massive deposition of gram-positive cocci.

18 in three cultures heavily contaminated with gram-positive cocci.

19 cocci, and 1 both gram-negative bacilli and gram-positive cocci.

20 For blood cultures positive for gram-positive cocci, 24 to 48 h is required for the dete

21 The most common causative pathogens included gram-positive cocci (45%), predominantly staphylococci,

22 The predominant anaerobes were gram-positive cocci (45.2%), Prevotella species (13.6%),

23 comprising 10 Enterobacteriaceae isolates, 5 Gram-positive cocci, 5 Gram-negative nonfermenting speci

24 Gram-positive cocci accounted for the majority of the or

25 the molecular basis for a reaction by which Gram-positive cocci acquire resistance to a last resort

26 Infections with gram-positive cocci and fungi are common, with pulmonary

27 existent infection with antibiotic-resistant Gram-positive cocci and fungi, and high mortality (27.1%

28 As ComW seems to be unique to Gram-positive cocci and has no sequence similarity with

29 otic with concentration-dependent killing of Gram-positive cocci and pharmacokinetics characterized b

30 he predominance of atypical mycobacteria and Gram-positive cocci and the growing number of other rare

31 PS) (Gram-negative rods), lipoteichoic acid (Gram-positive cocci), and lipoarabinomannan (Mycobacteri

32 of which 13 yielded gram-negative bacilli, 5 gram-positive cocci, and 1 both gram-negative bacilli an

33 caused by any organism, gram-negative rods, gram-positive cocci, and fungal bloodstream infection.

34 Since none of these six species of gram-positive cocci are included in the identification d

35 e catalase-negative, vancomycin-susceptible, gram-positive cocci arranged in clusters and tetrads, as

36 capable of providing rapid identification of Gram-positive cocci as well as detection of resistance m

37 ved study therapy, excluding those with only gram-positive cocci at baseline).

38 osed that isoprenoid biosynthesis in several gram-positive cocci depends on the mevalonate pathway fo

39 suggest that multidrug-resistant strains of gram-positive cocci employ exclusively the mevalonate pa

40 However, gram-positive cocci exclusively use the mevalonate pathw

41 iated with higher rates of positive FUBC for gram-positive cocci (GPC) but not GNB.

42 lase-negative staphylococci (CoNS) and other Gram-positive cocci (GPC) directly from VersaTREK blood

43 g both on timely identification of clustered Gram-positive cocci (GPC) in blood cultures and on appro

44 nts infected with gram-negative rods (GNRs), gram-positive cocci (GPC), and Candida species.

45 Most DFIs are polymicrobial, with aerobic gram-positive cocci (GPC), and especially staphylococci,

46 olar lavage (BAL) fluid was notable for many Gram-positive cocci (GPC), but cultures of BAL fluid and

47 e separated states into bacteremia caused by Gram-positive cocci (GPC), susceptible Gram-negative bac

48 s: overall growth, pathogens, septic events, gram-positive cocci, gram-negative rods, Staphylococcus

49 ine its methicillin resistance directly from gram-positive cocci in cluster-containing blood culture

50 tly from positive blood culture bottles with gram-positive cocci in clusters (GPCC) and provides resu

51 ity testing of staphylococcal isolates after gram-positive cocci in clusters (GPCC) are observed in p

52 positive blood culture bottles that contain gram-positive cocci in clusters (GPCC) is described.

53 d culture instruments and demonstrating only Gram-positive cocci in clusters on Gram stain were teste

54 red BacT/ALERT blood culture bottles growing gram-positive cocci in clusters were cultured and studie

55 s from one hundred blood cultures containing gram-positive cocci in clusters were identified by conve

56 ient blood cultures with gram stains showing gram-positive cocci in clusters were included.

57 d 100 positive blood cultures that contained gram-positive cocci in clusters were tested.

58 ive blood cultures (containing predominantly gram-positive cocci in clusters) were subcultured on 5%

59 five major categories of Gram-stained WSIs: gram-positive cocci in clusters, gram-positive cocci in

60 22 positive blood culture bottles containing gram-positive cocci in clusters.

61 ctly from positive blood cultures containing Gram-positive cocci in clusters.

62 t blood cultures with a Gram stain result of Gram-positive cocci in pairs and/or chains were evaluate

63 ained WSIs: gram-positive cocci in clusters, gram-positive cocci in pairs/chains, gram-positive rods,

64 A total of 765 Bactec bottles demonstrating Gram-positive cocci in singles or clusters were tested d

65 to a class of surface-associated proteins of gram-positive cocci involved in virulence and immunity.

66 rebrospinal fluid (CSF) in order to identify Gram-positive cocci noted on a Gram stain of CSF from a

67 ood cultures (in BacT/Alert FA bottles) with Gram-positive cocci observed with Gram staining were ana

68 species of enteric gram-negative bacilli and gram-positive cocci, only Lactococcus lactis subspecies

69 eus are emerging to provide insight into how Gram-positive cocci overcome the challenge of lacking ob

70 P < .001) pathogens, 136 of 345 (39%) of the gram-positive cocci (P < .001), 48 of 175 (27%; P = .02)

71 aerobic bottle recovered significantly more gram-positive cocci (P < 0.001), S. aureus isolates (P <

72 naerobic bottle recovered significantly more gram-positive cocci (P < 0.001), S. aureus isolates (P <

73 The FAN bottles recovered significantly more gram-positive cocci (P < 0.001), Staphylococcus aureus (

74 nificantly more total organisms (P = 0.002), gram-positive cocci (P = 0.03), Staphylococcus aureus (P

75 s on urine Gram stain compared to those with Gram-positive cocci (P=0.67).

76 e a highly effective approach for preventing gram-positive cocci-related, skin flora-related, or cent

77 The primary outcome was gram-positive cocci-related, skin flora-related, or cent

78 The growth rates of 25 strains of gram-positive cocci representing five genera on heart in

79 re of an infected abdominal aortic aneurysm; gram-positive cocci resembling S. pneumoniae were detect

80 The primary outcome was gram-positive cocci, skin-flora-related, or central-line

81 ld be a highly effective approach to prevent gram-positive-cocci-, skin-flora-related, or central-lin

82 genes) were identified and sequenced in two gram-positive cocci, Staphylococcus aureus and Enterococ

83 e separated states into bacteremia caused by gram-positive cocci, susceptible gram-negative bacilli (

84 p distinguish the alloiococci from the other gram-positive cocci that are facultatively anaerobic.

85 In contrast, in response to the gram-positive cocci, the lpr animals had similar or lowe

86 For 104 gram-positive cocci, there were 93.2 and 93.1% categoric

87 MRSA from positive blood cultures exhibiting Gram-positive cocci upon initial Gram staining.

88 dentification of a substantial proportion of Gram-positive cocci using the Biotyper method according

89 ative rods were isolated in 55% of patients, Gram-positive cocci were isolated in 47%.

90 Gram-positive cocci were responsible for 58% and 72% of

91 sequence similarities when the genes of the gram-positive cocci were translated and compared to bact

92 quinolones, 24% of anaerobes, especially the gram-positive cocci, were resistant to moxifloxacin; 27%

93 hat the genes for mevalonate biosynthesis in gram-positive cocci, which are highly divergent from tho