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1 infection (94%) whereas just one patient was aseptic (6%).
2                              In recent years aseptic abscesses have been recognized as a new disease
3 esent a rare case of a 15 year old girl with aseptic abscesses, in whom antibiotic therapy comprising
4 ul markers for the differential diagnosis of aseptic and bacterial meningitis within neurosurgical pa
5 bacterial meningitis when compared with both aseptic and nonmeningitis groups.
6 provide a potential therapeutic approach for aseptic ARDS; however, it may be deleterious in septic A
7       Pyoderma gangrenosum, cystic acne, and aseptic arthritis are clinically distinct disorders with
8 ry marker levels were compared among febrile aseptic, bacterial, and nonmeningitis patients to determ
9 g are essential to create standardization of aseptic care.
10 this catheter were compared with those of an aseptic catheter coated with chlorhexidine and silver su
11  the management of parenteral nutrition, and aseptic catheter techniques to reduce sepsis.
12                                           An aseptic cerebral injury (ACI) was created in the right p
13          Corneal scraping was obtained under aseptic condition with sterile 21 gauge needle by an oph
14 animals, spleen samples were harvested under aseptic conditions to quantify bacterial translocation.
15                                        Under aseptic conditions, 8 mm full thickness cutaneous wounds
16                                        Under aseptic conditions, the distal 12 cm of the removed cath
17  was too great, and a lead-lined compounding aseptic containment isolator (CACI) was installed.
18 g non-CpG oligonucleotide injection or after aseptic cryoinjury of the brain.
19 showing prosthetic joint infection (PJI) and aseptic failure (AF), respectively.
20 ed orthopedic implants from 54 patients with aseptic failure and 24 patients with prosthetic knee or
21  prostheses (124 patients); 252 patients had aseptic failure, and 79 had prosthetic-joint infection.
22 cts had prosthetic joint infection (PJI) and aseptic failure, respectively.
23 luids from 135 and 231 subjects with PJI and aseptic failure, respectively.
24 was eliminated over time but was absent from aseptic fluids.
25                          Adherence to strict aseptic guidelines as published by the American Society
26 nesthesia providers need to adhere to strict aseptic guidelines to minimize the risk of potentially d
27  indication for revision arthroplasty due to aseptic implant failure, acute high-grade infection, or
28 epresents a rational approach for preventing aseptic implant failure.
29 ests that typical PJI bacteria may not cause aseptic implant failure.
30                                              Aseptic implant loosening related to implant wear partic
31 fter instillation of thioglycollate to cause aseptic inflammation and after administration of acetami
32 of major transcriptional pathways regulating aseptic inflammation and recovery of skeletal muscle aft
33 dilation, calcifying cardiomyocyte necrosis, aseptic inflammation, interstitial and focal replacement
34 ficient responses in a skin blister model of aseptic inflammation.
35 e downstream signaling outcome of septic and aseptic inflammatory responses.
36 mation and recovery of skeletal muscle after aseptic injury.
37 technical factors--appropriate catheter use, aseptic insertion, and proper maintenance--and socioadap
38 field of orthopedics and is known to provoke aseptic loosening around arthroplasties and is associate
39 y revision of a total elbow arthroplasty for aseptic loosening between 1996 and 2008 were identified.
40 ngement is a major source of dislocation and aseptic loosening in total hip arthroplasty (THA).
41                                              Aseptic loosening is a major complication of prosthetic
42 ged, indolent course and was thought to have aseptic loosening of his prosthesis until the time of su
43                                              Aseptic loosening of orthopaedic implants is induced by
44  of bacterial colonization may contribute to aseptic loosening of orthopaedic implants.
45 calized bone resorption that accompanies the aseptic loosening of prosthetic joints.
46 marker combination for the discrimination of aseptic loosening vs low-grade joint infection.
47 mbination for preoperative discrimination of aseptic loosening vs low-grade joint infection.
48 re likely to be more common in patients with aseptic loosening, prior studies have focused on LPS, a
49 revent wear debris-associated osteolysis and aseptic loosening.
50  prevention of periprosthetic osteolysis and aseptic loosening.
51 stigate the role of macrophage activation in aseptic lung injury and identify molecular mediators wit
52          Although M2 polarization suppressed aseptic lung injury, it resulted in increased lung bacte
53 ctors, and metal ion levels as predictors of aseptic lymphocytic vasculitis-associated lesion (ALVAL)
54 lowing demonstration of an increased risk of aseptic meningitis 15-35 days after vaccination.
55 d from cerebrospinal fluid of a patient with aseptic meningitis and a recent history of tick attachme
56 amily Picornaviridae) are the major cause of aseptic meningitis and also cause a wide range of other
57 ted Kingdom) in 1998, active surveillance of aseptic meningitis and convulsion was established to eva
58 ance identified patients admitted with acute aseptic meningitis and encephalitis in 40 Romanian distr
59 pp. sandflies, is a major etiologic agent of aseptic meningitis and encephalitis in the Mediterranean
60 in newborn infants is a significant cause of aseptic meningitis and encephalitis.
61        Further studies of the role of JCV in aseptic meningitis and in idiopathic hydrocephalus are w
62 OKT3 usually manifests itself as a transient aseptic meningitis and remains uncommon.
63 ic immunosuppression who developed recurrent aseptic meningitis and underwent brain biopsy revealing
64 pted relative incidence of viral etiologies, aseptic meningitis due to HSV-2 infection was high, and
65 uses cause severe human disease ranging from aseptic meningitis following lymphocytic choriomeningiti
66  6 percent, facial-nerve palsy in 3 percent, aseptic meningitis in 2 percent, and carditis in 0.5 per
67 us (LCMV) infection can be severe, including aseptic meningitis in immunocompetent individuals, hydro
68 ldren had serious infections (varicella with aseptic meningitis in one and complicated sepsis in the
69 ematic, as demonstrated by the occurrence of aseptic meningitis in recipients of certain vaccine stra
70  leading cause of pediatric encephalitis and aseptic meningitis in the midwestern and southern United
71 hly neurotropic and was the leading cause of aseptic meningitis in the Western Hemisphere prior to wi
72 e highly neurotropic and a frequent cause of aseptic meningitis in unvaccinated humans.
73 iated upper respiratory illness, and 16 with aseptic meningitis or encephalitis who tested positive f
74 d be considered in children who present with aseptic meningitis or encephalitis.
75 eurological complications that can result in aseptic meningitis or encephalitis.
76 potension can mimic other conditions such as aseptic meningitis or pituitary adenomas.
77                          We report a case of aseptic meningitis resulting in symptomatic hydrocephalu
78                                  No cases of aseptic meningitis were detected among children aged 12-
79          A total of 2518 patients (80%) with aseptic meningitis were hospitalized.
80 meningitis (n = 9), in 6 of 18 patients with aseptic meningitis, and in 1 of 66 control patients.
81 lp physicians differentiate between Lyme and aseptic meningitis, as well as show the poor sensitivity
82 rus (EV) infection, the most common cause of aseptic meningitis, can be rapidly diagnosed with an EV-
83  is characterized by fever, urticarial rash, aseptic meningitis, deforming arthropathy, hearing loss,
84 with a number of severe pathologies, such as aseptic meningitis, dilated cardiomyopathy, type I diabe
85 despite features of infection, most cases of aseptic meningitis, encephalitis, and cerebral vasculiti
86 ens from patients with neurological disease (aseptic meningitis, encephalitis, and multiple sclerosis
87 ed by picornaviruses, including myocarditis, aseptic meningitis, encephalitis, hepatitis, and the com
88  cause a wide spectrum of disease, including aseptic meningitis, gastroenteritis, encephalitis, acute
89 nd in adult female patients with symptoms of aseptic meningitis, HSV-2 was the virus most commonly de
90  multiple human disease syndromes, including aseptic meningitis, paralysis, and heart disease, but no
91 anifesting as hand, foot, and mouth disease, aseptic meningitis, poliomyelitis-like acute flaccid par
92   The primary adverse reaction was headache; aseptic meningitis, skin reactions, thromboembolic event
93 tick-borne human enterovirus associated with aseptic meningitis.
94                         Thirteen percent had aseptic meningitis.
95 -2) is a common cause of acute and recurrent aseptic meningitis.
96 is and 3174 (96.3%; 95% CI, 95.5%-96.9%) had aseptic meningitis.
97 ere found in the blood of healthy humans and aseptic mice free of S. aureus infection.
98  patient was noted to have a newly developed aseptic monarticular arthritis of the right knee.
99  presence of myocarditis with focal areas of aseptic necrosis in the RV 24 h after SIRS induction.
100 terized histologically by the presence of an aseptic neutrophilic infiltrate in the epidermis, dermis
101 mmunisation with tetanus toxoid vaccine, and aseptic obstetric and postnatal umbilical-cord care prac
102 tis at fever onset, which was not evident in aseptic or nonmeningitis patients.
103 s study, an animal model of calvaria-induced aseptic osteolysis was used to analyze possible bone res
104 ence that increased IL-1 signaling can cause aseptic osteolytic bone lesions and that the absence of
105                   We analysed 186 reports of aseptic peritonitis between September, 2001, and January
106 y loss of Cybr, and Cybr-deficient mice with aseptic peritonitis have fewer cells than controls prese
107               In response to excess cases of aseptic peritonitis in peritoneal dialysis patients usin
108                              Excess cases of aseptic peritonitis in peritoneal dialysis patients were
109 rations in recalled dialysate and reports of aseptic peritonitis.
110           We aimed to establish the cause of aseptic peritonitis.
111 on proper patient evaluation and use of full aseptic precautions.
112  for povidone-iodine solution during initial aseptic preparation during catheter insertion and subseq
113 iomarker approach in differentiating between aseptic prosthesis loosening and low-grade joint infecti
114 rkers can preoperatively distinguish between aseptic prosthesis loosening and low-grade joint infecti
115 I by direct venous inoculation (DVI) of 3200 aseptic, purified, cryopreserved P falciparum sporozoite
116 t the PfSPZ Vaccine--composed of attenuated, aseptic, purified, cryopreserved PfSPZ--was safe and wel
117 immunization by direct venous inoculation of aseptic, purified, cryopreserved, non-irradiated PfSPZ (
118 d by mosquitoes; by intravenous injection of aseptic, purified, radiation-attenuated, cryopreserved P
119 nd significantly fewer T cells compared with aseptic revisions.
120                                         When aseptic root cultures were fed [14C]-DCA, compared with
121 ed resources through scrupulous attention to aseptic skin cleansing and improved venipuncture techniq
122                                              Aseptic splenic abscesses should always prompt clinician
123                                     Methods: Aseptic surgery was performed on 2 rats.
124                                              Aseptic surgery was performed on 2 rats.
125 his syndrome has become the prototype for an aseptic systemic autoimmune disease caused by a known en
126 damental principles of infection control and aseptic technique (for example, reuse of syringes or lan
127                                       Strict aseptic technique and proper catheter maintenance decrea
128 eed for compliance with current standards of aseptic technique and quality assurance during the prepa
129 ompliance with recognized standards and poor aseptic technique are the most likely causes of these ou
130 d duration of urinary catheterization, using aseptic technique for catheter insertion, and adhering t
131  agencies emphasize the importance of strict aseptic technique in the prevention of infectious compli
132 nsensus regarding certain aspects of optimal aseptic technique including outer glove exchange while d
133 are-associated HCV transmission can occur if aseptic technique is not followed.
134 iological products should follow appropriate aseptic technique to prevent contamination of sterile ra
135 ctices that could have facilitated breaks in aseptic technique were identified at the pharmacy.
136               These data suggest that strict aseptic techniques must be used when preparing and admin
137                                        Using aseptic techniques, the PRP preparation soak-loaded onto
138 io following the literature procedures using aseptic techniques.
139 uder around the brachiocephalic artery using aseptic techniques.
140 ) tubes into the deltoid region under strict aseptic techniques.
141 External ocular samples were collected using aseptic techniques.
142 ic, structural, and functional changes after aseptic trauma in mice related to astrocytes and later i
143 etween the brain and immune system following aseptic trauma.
144  4D-confocal microscopy, we showed that both aseptic wounding and Escherichia coli inoculation trigge
145 ulated by abdominal inoculation coupled with aseptic wounding of the thorax.

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