コーパス検索結果 (1語後でソート)
通し番号をクリックするとPubMedの該当ページを表示します
1 human pathogen causing pneumonia, sepsis and bacterial meningitis.
2 ocedure and had community-acquired anaerobic bacterial meningitis.
3 e, and S aureus as the causative pathogen of bacterial meningitis.
4 e observed in patients with septic shock and bacterial meningitis.
5 as identified in 24 of 1025 episodes (2%) of bacterial meningitis.
6 BS) have further changed the epidemiology of bacterial meningitis.
7 ospinal fluid profile indistinguishable from bacterial meningitis.
8 reases neurologic sequelae in a rat model of bacterial meningitis.
9 ponses in CNS inflammatory diseases, such as bacterial meningitis.
10 ntravenous administration of ceftriaxone for bacterial meningitis.
11 th parenteral antibiotics, although few have bacterial meningitis.
12 understanding of the role of inflammation in bacterial meningitis.
13 rile convulsive status epilepticus had acute bacterial meningitis.
14 lammation in animal models and patients with bacterial meningitis.
15 meningitidis is the major causative agent of bacterial meningitis.
16 mproving outcome in subsets of patients with bacterial meningitis.
17 degrees C had a rate of 0.4% for bacteremia/bacterial meningitis.
18 herwise healthy and present early with acute bacterial meningitis.
19 We identified 26 children with bacterial meningitis.
20 idemiology during the past decade than acute bacterial meningitis.
21 h antimicrobial agents, in humans with acute bacterial meningitis.
22 st in developing novel strategies to prevent bacterial meningitis.
23 ory cascade leading to tissue destruction in bacterial meningitis.
24 Alzheimer's disease, multiple sclerosis and bacterial meningitis.
25 nsplants from 33 cadaveric donor livers with bacterial meningitis.
26 erity of neurological damage in experimental bacterial meningitis.
27 ain is a pivotal event in the progression of bacterial meningitis.
28 cids (EAA) from brain tissue of animals with bacterial meningitis.
29 ococcus pneumoniae, the most common cause of bacterial meningitis.
30 as of inflammation in multiple sclerosis and bacterial meningitis.
31 tment into the central nervous system during bacterial meningitis.
32 urologic sequelae, including deafness, after bacterial meningitis.
33 ating complement expression in this model of bacterial meningitis.
34 to contribute to intrathecal inflammation in bacterial meningitis.
35 In this study we explored the role of ROI in bacterial meningitis.
36 vide a therapeutic approach for treatment of bacterial meningitis.
37 and 98 cases (2.7%: 98/3644) were confirmed bacterial meningitis.
38 cterial infections, including 11 (0.7%) with bacterial meningitis.
39 Case fatality ratios of bacterial meningitis.
40 CSF) leakage is a risk factor for developing bacterial meningitis.
41 .0% [82/2762]) CSF samples were positive for bacterial meningitis.
42 ationwide cohort study of community-acquired bacterial meningitis.
43 nimal role in the early host response during bacterial meningitis.
44 e identified as significant risk factors for bacterial meningitis.
45 oniae (pneumococcus) is the primary cause of bacterial meningitis.
46 urella multocida is a rare cause of neonatal bacterial meningitis.
47 hree pathogens responsible for most cases of bacterial meningitis.
48 is is the most frequent and critical type of bacterial meningitis.
49 treatment and contributes to brain damage in bacterial meningitis.
53 cus pneumoniae (SPN) is the leading cause of bacterial meningitis, a disease with high attributable m
54 treptococcus pneumoniae is the main cause of bacterial meningitis, a life-threating disease with a hi
55 ee most common pathogens accounting for most bacterial meningitis, a serious global infectious diseas
59 icenter observational study of children with bacterial meningitis, adjuvant corticosteroid therapy wa
62 from hospital-based sentinel surveillance of bacterial meningitis among children <5 years of age in T
63 H. influenzae type b remain associated with bacterial meningitis among children aged <5 years in Cot
64 to describe the epidemiology and etiology of bacterial meningitis among children less than 5 years in
65 95% confidence interval [CI], 3.1%-4.4%) had bacterial meningitis and 3174 (96.3%; 95% CI, 95.5%-96.9
67 de key insight into the seasonal dynamics of bacterial meningitis and add to knowledge about the glob
68 criteria accurately differentiated TBM from bacterial meningitis and could be considered for use in
69 eurobehavioral performance was altered after bacterial meningitis and could be correlated with histol
70 ults and children with common types of acute bacterial meningitis and has been of proven value in the
71 s is the most common and aggressive cause of bacterial meningitis and induces a novel apoptosis-induc
72 Niamey, Niger, to determine risk factors for bacterial meningitis and invasive bacterial disease.
74 reptococcus pneumoniae is the major cause of bacterial meningitis and it damages the hippocampus by i
76 gender unexpectedly broad protection against bacterial meningitis and may provide a therapeutic targe
77 up B Streptococcus (GBS) is a major cause of bacterial meningitis and neurological morbidity in newbo
78 umoniae (pneumococcus) is a leading cause of bacterial meningitis and neurological sequelae in childr
79 een a dramatic reduction in the incidence of bacterial meningitis and of occult bacteremia since the
80 a diagnosis of malaria-slide-negative acute bacterial meningitis and other nonspecific encephalopath
82 hospital admission logbook were recorded for bacterial meningitis and pneumonia hospitalizations in c
84 Neisseria meningitidis is a leading cause of bacterial meningitis and sepsis worldwide and an occasio
86 terial (for example, tuberculosis, syphilis, bacterial meningitis and sepsis), fungal (for example, c
89 Neisseria meningitidis is a leading cause of bacterial meningitis and septicemia in children and youn
91 negative pathogenic bacteria responsible for bacterial meningitis and septicemia, and the sexually tr
94 able diseases to determine the prevalence of bacterial meningitis and vaccine impact across the count
96 umoniae remains a leading cause of pediatric bacterial meningitis, and nonvaccine serotypes may play
97 PCV10 introduction, pneumococcal meningitis, bacterial meningitis, and pneumonia hospitalizations dec
98 for the pathogenesis of brain edema in acute bacterial meningitis, and suggest that inhibition of AQP
102 a has been implicated in the pathogenesis of bacterial meningitis as a potent mediator of inflammatio
104 r 31, 2006, of 2780 children discharged with bacterial meningitis as their primary diagnosis from 27
105 We analyzed episodes of community-acquired bacterial meningitis associated with CSF leakage from a
106 old: to document the current epidemiology of bacterial meningitis at a tertiary care medical center a
107 -8 levels were observed within patients with bacterial meningitis at fever onset, which was not evide
108 Sahel region of West Africa has the highest bacterial meningitis attack and case fatality rate in th
109 important causes of community and nosocomial bacterial meningitis based on International Classificati
111 ditis is an uncommon coexisting condition in bacterial meningitis but is associated with a high rate
112 examethasone should be used in patients with bacterial meningitis but stopped if Listeria monocytogen
114 iability may contribute to susceptibility of bacterial meningitis, but which genes contribute to the
115 14 patients categorized as very low risk for bacterial meningitis by the Bacterial Meningitis Score,
116 thogen-specific meningitis case fatality and bacterial meningitis case data from surveillance studies
117 ningitidis serogroup A (NmA) among confirmed bacterial meningitis cases decreased from 254 (86.4%) du
120 of bacteria accounted for 60% (3790/6286) of bacterial meningitis cases: Neisseria meningitidis (1350
124 ia meningitidis is one of the main agents of bacterial meningitis, causing substantial morbidity and
126 those with normal IMs had bacteremia and/or bacterial meningitis compared with those with abnormal I
130 in-8 in a temporal manner may indicate early bacterial meningitis development in neurosurgical patien
131 , a group of children with culture-confirmed bacterial meningitis, diagnosed between 2003 and 2009, w
133 is was reported in two children: one case of bacterial meningitis due to Streptococcus pneumoniae in
139 We describe the epidemiologic features of bacterial meningitis five years after the H. influenzae
140 to the Netherlands Reference Laboratory for Bacterial Meningitis from 1989 through 1997, were assess
141 trials undertaken in Blantyre investigating bacterial meningitis from 1990 to the current time and c
142 linic and laboratory features to distinguish bacterial meningitis from other diseases can be useful.
144 exist that can protect against some types of bacterial meningitis (Haemophilus influenzae type b, Nei
148 Neisseria meningitidis, a causative agent of bacterial meningitis, has a relatively small repertoire
151 gnificantly reduce mortality associated with bacterial meningitis; however, in children, studies reve
152 idis serogroup B (MnB) is a leading cause of bacterial meningitis; however, MnB is most commonly asso
153 that classifies patients at very low risk of bacterial meningitis if they lack all of the following c
160 study analysing data from clinical trials of bacterial meningitis in Blantyre, Malawi to investigate
162 During reinforced surveillance of acute bacterial meningitis in Burkina Faso, meningococcal stra
169 disease is no longer a major cause of acute bacterial meningitis in children but, instead, cases are
170 r the past several decades, the incidence of bacterial meningitis in children has decreased but there
171 neumoniae is the most common cause of severe bacterial meningitis in children, the elderly, and immun
172 tudy was to determine the impact of PCV10 on bacterial meningitis in hospitalized children <5 years o
173 a meningitidis is a major causative agent of bacterial meningitis in human beings, especially among y
174 mine the incidence, etiology, and outcome of bacterial meningitis in infants aged <90 days in the Uni
180 and Drug Administration received reports of bacterial meningitis in patients with cochlear implants
182 oups A and X are among the leading causes of bacterial meningitis in the African meningitis belt.
183 Spn was the most common cause of pediatric bacterial meningitis in the African region even after re
184 hort study of adults with community-acquired bacterial meningitis in the Netherlands from 2006 to 201
185 seria meningitidis has been a major cause of bacterial meningitis in the sub-Saharan region of Africa
187 e in meningitis due to H. influenzae type b, bacterial meningitis in the United States is now a disea
188 lus influenzae type b was the major cause of bacterial meningitis in the United States, and meningiti
189 nues to be the leading identifiable cause of bacterial meningitis in the USA, but with a significant
205 tion of antibiotic treatment on suspicion of bacterial meningitis is important, but it is not enough
208 ningitis among young children, the burden of bacterial meningitis is now borne more by older adults.
209 high mortality and morbidity associated with bacterial meningitis is the incomplete understanding of
212 atients, and for patients with endocarditis, bacterial meningitis, lymphoma/leukemia, HIV/AIDS, inter
216 hia coli isolates from infants with neonatal bacterial meningitis (NBM), as submitted to the Netherla
217 control patients, and infants with neonatal bacterial meningitis (NBM), were analyzed and were compa
218 An estimated 4100 cases and 500 deaths from bacterial meningitis occurred annually in the United Sta
221 occus pneumoniae is the most common cause of bacterial meningitis of high mortality and morbidity.
225 on UK charity, whose child had suffered from bacterial meningitis or meningococcal septicaemia within
226 arditis (OR = 8.3; CI, 4.9-13.9; P < .0001), bacterial meningitis (OR = 3.8; CI, 1.2-12.0; P = .023),
229 Historically, Nigeria has experienced large bacterial meningitis outbreaks with high mortality in ch
231 differed (cryptococcal meningitis p=0.0014, bacterial meningitis p=0.0043, CNS tuberculosis p<0.0001
232 in the presence of endocarditis (P < 0.001), bacterial meningitis (P < 0.001), pyogenic arthritis (P
233 fference in cerebral malaria (p=0.98), acute bacterial meningitis (p=0.99), or all-cause coma (p=0.08
234 d morbidity remain high in adults with acute bacterial meningitis, particularly when due to Streptoco
235 13-2015, and 2016-2018, respectively, with a bacterial meningitis pathogen detected in 33.6% (294/876
236 y period, and proportion of specimens with a bacterial meningitis pathogen identified, by period, pat
238 e chain reaction; 22 (76%) were positive for bacterial meningitis pathogens, 16 (73%) of which were N
243 HO), Cote d'Ivoire has implemented pediatric bacterial meningitis (PBM) surveillance at 2 sentinel ho
245 type b (Hib) is a leading cause of childhood bacterial meningitis, pneumonia, and other serious infec
246 leakage should be suspected in patients with bacterial meningitis presenting with liquorrhea, recurre
254 rosis, cerebral ischemia and hemorrhage, and bacterial meningitis respond to treatment with MMPIs.
258 This large multicenter study validates the Bacterial Meningitis Score prediction rule in the era of
259 ery low risk for bacterial meningitis by the Bacterial Meningitis Score, only 2 had bacterial meningi
260 ly developed a clinical prediction rule, the Bacterial Meningitis Score, that classifies patients at
262 sease activity had a latitudinal trend, with bacterial meningitis seasons peaking during the winter m
263 y the Bacterial Meningitis Score, only 2 had bacterial meningitis (sensitivity, 98.3%; 95% CI, 94.2%-
266 ion, single-dose surgical prophylaxis, acute bacterial meningitis, spontaneous bacterial peritonitis,
267 o the major Gram-positive causative agent of bacterial meningitis, Streptococcus pneumoniae, and show
268 We describe findings from sentinel site bacterial meningitis surveillance in children <5 years o
270 ared with children admitted to hospital with bacterial meningitis symptoms but negative diagnosis.
271 f the inflammatory responses associated with bacterial meningitis that emphasize the need for early d
272 We conclude that in the treatment of severe bacterial meningitis, the application of moderate hypoth
273 e diagnosis of enteroviral meningitis versus bacterial meningitis, thereby resulting in timely and ap
275 omide could have a therapeutic role in acute bacterial meningitis through inhibition of IL-8-mediated
277 ections (IBIs), defined as bacteremia and/or bacterial meningitis, using complete blood cell count pa
278 d Wales, the incidence of confirmed neonatal bacterial meningitis was 0.21 (n = 167; 95% CI, .18-.25)
281 via culture, latex, and/or rt-PCR; confirmed bacterial meningitis was defined by a positive result on
284 sociated with 23% (9-36) of cases, and acute bacterial meningitis was the cause of 10% (8-12) of case
285 lay an important role in the pathogenesis of bacterial meningitis, we examined whether functional pol
286 th Organization case definition of suspected bacterial meningitis were analyzed at the sentinel site
287 m these data, we estimate that 5755 cases of bacterial meningitis were caused by these five pathogens
292 ys prior to fever onset within patients with bacterial meningitis when compared with both aseptic and
294 ave dramatically altered the epidemiology of bacterial meningitis, while the methodology for culturin
296 free diagnosis of these three major types of bacterial meningitis, with high sensitivity and specific
297 or the differential diagnosis of aseptic and bacterial meningitis within neurosurgical patients.
298 Neisseria meningitidis is a major cause of bacterial meningitis worldwide, especially in the Africa
300 lts, strep throat, scarlet fever, pneumonia, bacterial meningitis, yeast infections, urinary tract in