ライフサイエンスコーパス: osteomyelitis

1 onal novel features (eg, endophthalmitis and osteomyelitis).

2 ware of the co-occurrence of choroiditis and osteomyelitis.

3 ive new bone formation in the acute phase of osteomyelitis.

4 erials using antiseptic silver ions to treat osteomyelitis.

5 tes from diabetic foot infections, including osteomyelitis.

6 ormation during the acute phase of S. aureus osteomyelitis.

7 and bone destruction and repair processes in osteomyelitis.

8 romotes bone formation at the lesion site of osteomyelitis.

9 and oral therapy for the treatment of acute osteomyelitis.

10 given in the case of confirmed or suspected osteomyelitis.

11 gns that are characteristic of infection and osteomyelitis.

12 , spleen tyrosine kinase (SYK), in mediating osteomyelitis.

13 treatment of pediatric septic arthritis and osteomyelitis.

14 nfectious focus and compromises treatment of osteomyelitis.

15 al significance was found regarding osteitis/osteomyelitis.

16 immunologic defects that can produce sterile osteomyelitis.

17 urce of the L. anisa that caused his patella osteomyelitis.

18 literature on pediatric septic arthritis and osteomyelitis.

19 destruction, we developed a murine model of osteomyelitis.

20 important role of innate immunity in sterile osteomyelitis.

21 medullary hematopoiesis or osteonecrosis and osteomyelitis.

22 antibiotic therapy for patients with chronic osteomyelitis.

23 ers for a novel model of osteoporosis and of osteomyelitis.

24 nset of pustulosis, periostitis, and sterile osteomyelitis.

25 iv) the cellular processes in osteolysis and osteomyelitis.

26 nd is a common cause of septic arthritis and osteomyelitis.

27 for approximately 80% of all cases of human osteomyelitis.

28 illin-resistant S. aureus to produce chronic osteomyelitis.

29 ric diseases, including septic arthritis and osteomyelitis.

30 S. aureus bacteremia and probable vertebral osteomyelitis.

31 male; aged 31-78 years), 43 had superimposed osteomyelitis.

32 Bone histology revealed necrosis and osteomyelitis.

33 fection such as bacteremia, endocarditis, or osteomyelitis.

34 e inflammation during bone diseases, such as osteomyelitis.

35 ssue from patients with S. aureus-associated osteomyelitis.

36 e, whereas 1 subject developed localized MAC osteomyelitis.

37 olymorphonuclear cells in implant-associated osteomyelitis.

38 in 18% of patients suspected of having pedal osteomyelitis.

39 es in the diagnosis of appendicular skeletal osteomyelitis.

40 est that they correspond to multiple foci of osteomyelitis.

41 fections (SSTVIs), endocarditis, sepsis, and osteomyelitis.

42 ningitis, epidural abscess, and/or vertebral osteomyelitis.

43 itis, epidural abscess, septic arthritis, or osteomyelitis.

44 t vancomycin, in a rat model of foreign body osteomyelitis.

45 humans, causing septicemia, meningitis, and osteomyelitis.

46 with post-traumatic infection in the form of osteomyelitis.

47 tained from a 12-year-old boy with S. aureus osteomyelitis.

48 s for IE, 1.4 to 2.4 per 100 000 persons for osteomyelitis, 0.5 to 0.9 per 100 000 persons for centra

49 s (hereinafter referred to as children) with osteomyelitis, 1005 received oral antibiotics at dischar

50 most common diagnoses were bacteremia (24%), osteomyelitis (20%), and pyelonephritis (13%).

51 , injection site reactions (35.2%), osteitis/osteomyelitis (27.9%), and distant soft tissue infection

52 nary tract infection (482 cases), cellulitis/osteomyelitis (422 cases), pneumonia (399 cases), and ba

53 y (20%), ocular disease (18%) and multifocal osteomyelitis (6%) being the most common.

54 (20%), ocular disease (18%), and multifocal osteomyelitis (6%) were the most common.

55 fections (29%), mediastinitis (16%), sternal osteomyelitis (6%), and pericarditis (6%).

56 rk focuses on the computational modelling of osteomyelitis, a bone pathology caused by bacteria infec

57 feature of both chronic recurrent multifocal osteomyelitis and (to a lesser degree) cherubism.

58 Patients should be monitored for osteomyelitis and alternate therapy given in the case of

59 Chronic multifocal osteomyelitis and cherubism are hereditary chronic infla

60 models of both chronic recurrent multifocal osteomyelitis and cherubism have demonstrated that the b

61 The pedigree segregated chronic osteomyelitis and cutaneous inflammation in a pattern th

62 rom patients with chronic infections such as osteomyelitis and cystic fibrosis carry fewer SSRs than

63 Osteomyelitis and distant soft tissue infection may occu

64 ections to more invasive manifestations like osteomyelitis and endocarditis.

65 classification by adding a separate tier for osteomyelitis and evaluating if moderate and severe infe

66 human-relevant spontaneous animal model for osteomyelitis and identify dsRNA as a new treatment targ

67 lymerase chain reaction in 261 patients with osteomyelitis and in 299 matched blood donors.

68 significantly more frequent in patients with osteomyelitis and in feet that have been treated surgica

69 large cohort of rabbit model of experimental osteomyelitis and investigate the in vivo antimicrobial

70 Severe sepsis, combining acute osteomyelitis and lung involvement, has been described i

71 if risk categories are stratified by STI or osteomyelitis and moderate and severe infections are not

72 as pedal infection, with a focus on diabetic osteomyelitis and neuropathic osteoarthropathy.

73 ferent bone remodeling defective dynamics of osteomyelitis and osteoporosis.

74 Its role in diabetic pedal osteomyelitis and prosthetic joint infection is not esta

75 icating osteomyelitis such as diabetic pedal osteomyelitis and prosthetic joint infection, it is not

76 r an infected pressure ulcer or implant-free osteomyelitis and reviewed the literature on this topic

77 nia, urinary tract infection, cellulitis and osteomyelitis, and bacteremia and sepsis).

78 nia, urinary tract infection, cellulitis and osteomyelitis, and bacteremia and sepsis).

79 s an important etiology of septic arthritis, osteomyelitis, and bacteremia, especially in young child

80 ted infection comprised of septic arthritis, osteomyelitis, and biofilm formation on the implants in

81 ing inflammation, periprosthetic osteolysis, osteomyelitis, and bone damage, resulting in implant loo

82 ic diseases, including rheumatoid arthritis, osteomyelitis, and periodontitis, are usually associated

83 ositis, nontraumatic meningitis/hematogenous osteomyelitis, and pneumonia) each had a single high-vir

84 deep tissue infections, such as pyomyositis, osteomyelitis, and prostatic abscess.

85 or infection presenting as diskospondylitis, osteomyelitis, and pyelonephritis.

86 TCA cycle is dispensable for survival during osteomyelitis, and S. aureus instead has a critical need

87 is, central nervous system/spine infections, osteomyelitis, and septic arthritis were labeled as IDRI

88 y infections such as infective endocarditis, osteomyelitis, and septic arthritis.

89 Staphylococcus aureus infections, including osteomyelitis, and the msaABCR operon has been implicate

90 rabbits and rabbits with S. aureus-mediated osteomyelitis, and then we validated a proof of concept

91 studies using the keywords "probe to bone," "osteomyelitis," and "diabetic foot" from 1946 to May 201

92 In those without temporal bone osteomyelitis, antibiotic treatment can be stopped after

93 of surgical debridement in treating chronic osteomyelitis are important, unmet needs.

94 stations, management, and outcome of Candida osteomyelitis are not well understood.

95 Osteomyelitis, arthritis, and musculoskeletal inflammati

96 A case of septic arthritis and possible osteomyelitis as sequelae of rat bite fever in a pediatr

97 herapies aimed at prevention or treatment of osteomyelitis as well as amelioration of disease morbidi

98 e pathology of trauma-induced staphylococcal osteomyelitis, as determined by confocal microscopic ana

99 ce was significantly higher among those with osteomyelitis at all osteoporotic fracture sites after a

100 er 2003 to December 2010 with a diagnosis of osteomyelitis based on clinical features and the results

101 Bacterial chondronecrosis with osteomyelitis (BCO) is a common cause of lameness in com

102 ies for human bacterial chondronecrosis with osteomyelitis (BCO), much remains to be understood about

103 By using a rabbit model of vertebral osteomyelitis, Bierry et al (1) utilized ultrasmall supe

104 tibiotic for bone-targeted delivery to treat osteomyelitis biofilm pathogens constitute a promising a

105 expression data of normal, osteoporotic and osteomyelitis bone conditions.

106 ial role for interleukin-1beta (IL-1beta) in osteomyelitis, but deletion of the inflammasome componen

107 roidal lesions on funduscopy and evidence of osteomyelitis by imaging, culture analysis, or both at t

108 uses persistent, recurrent infections (e.g., osteomyelitis) by forming biofilms.

109 ons and chronic osteomyelitis, whereas acute osteomyelitis can typically be treated with medication a

110 in boys; systematic search for M ulcerans in osteomyelitis cases of non-specific aspect in areas ende

111 Since both osteoporosis and osteomyelitis cause loss of bone mass, we focused on com

112 pread, lung and bone involvements) of rabbit osteomyelitis caused by CA-MRSA LAC(WT) USA300 and its P

113 We report the first case of osteomyelitis caused by Gordonia bronchialis in a health

114 We present a case of aggressive spinal osteomyelitis caused by Mycobacterium heckeshornense in

115 Incidences of osteomyelitis caused by S. aureus have increased dramati

116 expensive, making it a reasonable choice for osteomyelitis caused by susceptible organisms.

117 human disorder chronic recurrent multifocal osteomyelitis, characterized by sterile inflammation of

118 in (nepholithiasis, urinary tract infection, osteomyelitis, cholecystitis, osteoporosis, cauda equina

119 weak biofilm producer, and strain UAMS-1, an osteomyelitis clinical strain, in this study.

120 iniscent of patients with chronic multifocal osteomyelitis (cmo).

121 ly similar to CRMO called chronic multifocal osteomyelitis (cmo).

122 ed in bone from BCO chickens and humans with osteomyelitis, compared with their healthy counterparts.

123 ecular mechanisms by which S. aureus induces osteomyelitis could lead to a better understanding of th

124 Chronic recurrent multifocal osteomyelitis (CRMO) in humans can be modeled in Pstpip2

125 Chronic recurrent multifocal osteomyelitis (CRMO) is a human autoinflammatory disorde

126 Chronic recurrent multifocal osteomyelitis (CRMO) is an autoinflammatory bone disease

127 matory disease, chronic recurrent multifocal osteomyelitis (CRMO).

128 ant therapy for infected bone defects and/or osteomyelitis debridement.

129 Recent studies in murine chronic multifocal osteomyelitis, deficiency of the interleukin-1 receptor

130 In patients with diabetic foot osteomyelitis (DFO) who underwent surgical debridement,

131 We present a case of osteomyelitis due to hypervirulent K pneumoniae reported

132 nce and treatment failure in 2 patients with osteomyelitis due to methicillin-resistant S. aureus.

133 f metastatic and severe infection, including osteomyelitis, due to the hypervirulent strain of K pneu

134 ble for bacteremia and progressive vertebral osteomyelitis during daptomycin therapy.

135 of chronic and relapsing infections such as osteomyelitis, endocarditis and infections of implanted

136 pneumonitis, isolated bloodstream infection, osteomyelitis, endocarditis, and mastoiditis.

137 ctions to more serious infections, including osteomyelitis, endocarditis, necrotizing pneumonia and s

138 We review the current state of osteomyelitis epidemiology, diagnostics, and therapeutic

139 patient had pneumonia 2 months prior to this osteomyelitis episode.

140 e were no differences in moderate and severe osteomyelitis except the number of surgeries (2.8 +/- 2.

141 ammatory disorder characterized by recurrent osteomyelitis, fever, dyserythropoietic anemia, and cuta

142 Cases of Candida osteomyelitis from 1970 through 2011 were reviewed.

143 nance imaging may not accurately distinguish osteomyelitis from bone remodeling.

144 her this approach can be used to distinguish osteomyelitis from inflammation, degenerative change, an

145 a 10-year period among men with and without osteomyelitis from the Veterans Aging Cohort Study.

146 ffective diagnostic tool for differentiating osteomyelitis from VOC bone infarction in SCD.

147 tanding of the underlying pathophysiology of osteomyelitis, from the perspective of both host and pat

148 In the osteomyelitis group, USS finding of periosteal elevation

149 OC included chronic osteomyelitis, growth arrest, avascular necrosis, chroni

150 ratio 0.9, 95% confidence interval 0.5-1.5); osteomyelitis (hazard ratio 1.5; 0.7-3.1); immune suppre

151 ltured osteoblasts or in two mouse models of osteomyelitis, highlighting the vagaries of exactly how

152 t is a result of bone inflammation (osteitis/osteomyelitis), i.e. replacememt of bone marrow fat by i

153 as present in 50%, sepsis/bacteremia in 52%, osteomyelitis in 10%, and endocarditis in 10%.

154 tis in 22 (15%), and septic arthritis and/or osteomyelitis in 3 (2%).

155 Acid-fast bacillus (AFB) spinal osteomyelitis in a patient with AIDS is often presumed t

156 usual case of epidural abscess and vertebral osteomyelitis in a patient with an autoimmune disorder w

157 se of Bordetella petrii septic arthritis and osteomyelitis in an elbow resulted from a dirt bike acci

158 Bone scintigraphy accurately diagnoses osteomyelitis in bones not affected by underlying condit

159 enhanced surveillance for early detection of osteomyelitis in boys; systematic search for M ulcerans

160 Postdischarge treatment of acute osteomyelitis in children requires weeks of antibiotic t

161 ease resembling chronic recurrent multifocal osteomyelitis in humans.

162 that resembles chronic recurrent multifocal osteomyelitis in humans.

163 can result in undulant fever, arthritis, and osteomyelitis in humans.

164 us aureus is the single most common cause of osteomyelitis in humans.

165 autoinflammatory disease chronic multifocal osteomyelitis in mice.

166 Thus, we assessed implant-associated osteomyelitis in normal versus high-fat-diet obese/T2D m

167 rrent application to infectious diseases and osteomyelitis in particular.

168 The treatment of osteomyelitis in patients with stage IV sacral pressure

169 aspase-8-mediated maturation of IL-1beta and osteomyelitis in Pstpip2(cmo) mice.

170 ycin treatment in a biofilm model of chronic osteomyelitis in rabbits, clinical and radiographic sign

171 ex are the major causes of tenosynovitis and osteomyelitis in the United States, with little change o

172 ex versus ciprofloxacin for the treatment of osteomyelitis in vivo.

173 reasingly as a cause of septic arthritis and osteomyelitis in young children.

174 ne pathologies (osteopenia, osteoporosis and osteomyelitis) in an effective way.

175 rders including chronic recurrent multifocal osteomyelitis including the monogenic forms of the disea

176 Location of skin ulceration and presence of osteomyelitis (indicated by means of low T1-weighted sig

177 of osteoblasts during bone diseases, such as osteomyelitis, induces cells to produce inflammatory mol

178 g protein 9 (CARD9) are each dispensable for osteomyelitis induction in Pstpip2(cmo) mice, whereas ge

179 Endocarditis, meningitis, prostatitis, osteomyelitis, infected vascular catheter, internal orga

180 infection (bacteremia and associated sternal osteomyelitis, infective endocarditis) caused by Staphyl

181 e a novel murine model of metastatic chronic osteomyelitis initiated after intravenous inoculation of

182 standard recommendation for treating chronic osteomyelitis is 6 weeks of parenteral antibiotic therap

183 Osteomyelitis is a common manifestation of invasive Stap

184 Osteomyelitis is a debilitating bone infection often cau

185 Osteomyelitis is a major problem worldwide and is devast

186 Osteomyelitis is a mostly posttraumatic, Staphylococcal

187 Osteomyelitis is a serious bone infection typically caus

188 In children, hematogenous osteomyelitis is an infection that primarily affects the

189 Osteomyelitis is an inflammation of the bone and bone ma

190 Osteomyelitis is an inflammatory disease of the bone tha

191 Candida osteomyelitis is being reported with increasing frequenc

192 authors recommend 2 weeks of therapy if the osteomyelitis is limited to cortical bone.

193 Bacterial osteomyelitis is notoriously difficult to treat, in part

194 treat, the pathogenesis of S. aureus-induced osteomyelitis is poorly understood.

195 If the wound can be closed and osteomyelitis is present on bone biopsy, appropriate ant

196 These results suggest that, at least in osteomyelitis, it would be therapeutically preferable to

197 ilm-specific quadrivalent vaccine against an osteomyelitis model in rabbits has previously been devel

198 pact of mutating msa as assessed in a murine osteomyelitis model, which had a significant impact in L

199 ximum CA z score >2 was found in 2 subjects (osteomyelitis, Mycoplasma pneumonia).

200 pinal infections included isolated vertebral osteomyelitis (n = 1) and primary epidural abscess (n =

201 emia (n = 5), soft tissue infections (n = 3) osteomyelitis (n = 2), infected joint prosthesis (n = 2)

202 significantly more frequent in patients with osteomyelitis (n = 28, 97%) (P <.001) and in feet that h

203 ic pedal osteomyelitis (n = 8), or long bone osteomyelitis (n = 4) were imaged 5, 30, 60, and 120 min

204 lung abscess (n = 7), pericarditis (n = 2), osteomyelitis (n = 5), meningitis/cerebritis (n = 2), an

205 d joint replacement (n = 12), diabetic pedal osteomyelitis (n = 8), or long bone osteomyelitis (n = 4

206 Subsequent osteomyelitis necessitated hardware exchange, and wound

207 , joint and soft tissues [26; discitis (10), osteomyelitis (nine), septic arthritis (one), cellulitis

208 who care for patients with native vertebral osteomyelitis (NVO).

209 Osteomyelitis occurs in many diabetic patients with a fo

210 lity prevention for patients presenting with osteomyelitis, oedema, or multifocal or large lesions.

211 he overall complete response rate of Candida osteomyelitis of 32% reflects the difficulty in treating

212 Diagnoses included osteitis or osteomyelitis of peripheral bone, osteomyelitis of the m

213 scribed here for the first time is a case of osteomyelitis of the foot caused by the mold Pseudallesc

214 niation, foramen magnum stenosis, and severe osteomyelitis of the jaw were common clinical features.

215 steitis or osteomyelitis of peripheral bone, osteomyelitis of the maxilla, and infected endoprosthese

216 noblastic T-cell lymphoma was diagnosed with osteomyelitis of the patella.

217 lated from a bone lesion in a young dog with osteomyelitis of the right ilium.

218 hese appearances suggested chronic infective osteomyelitis of the xiphoid process of the sternum.

219 Resonance Imaging (MRI) demonstrated erosive osteomyelitis of the xiphoid process with enhancing infl

220 istinguishing between acute presentations of osteomyelitis (OM) and vaso-occlusive crisis (VOC) bone

221 B) test is a commonly used clinical test for osteomyelitis (OM), but its utility has been questioned

222 l abscess or phlegmon, arachnoiditis, spinal osteomyelitis or diskitis, or moderate to severe epidura

223 atments and outcomes of 28 reported cases of osteomyelitis or septic arthritis caused by Scedosporium

224 sed with bacteremia or sepsis, endocarditis, osteomyelitis or septic arthritis, and skin or soft tiss

225 g diverse, multidrug-resistant isolates from osteomyelitis or septic patients.

226 fever or swelling which are common in acute osteomyelitis or VOC.

227 inary tract infection, pneumonia, cellulitis/osteomyelitis, or bacteremia/septicemia.

228 ngitis, posterior circulation stroke, spinal osteomyelitis, or epidural abscess that developed after

229 Osteomyelitis, or inflammation of bone, is most commonly

230 Presentation with oedema, osteomyelitis, or large (>/=15 cm in diameter), or multi

231 liver enzyme elevation and the occurrence of osteomyelitis, oritavancin has been associated with adve

232 0.001), internal organ abscess (P < 0.001), osteomyelitis (P < 0.001), prostatitis (P < 0.001), diab

233 members suffered from cementoma and purulent osteomyelitis (p.Cys360Tyr).

234 bone remodeling, define Sae as critical for osteomyelitis pathogenesis, and identify protease-depend

235 atory locus sae was found to be critical for osteomyelitis pathogenesis, as Sae-regulated factors pro

236 reolysin plays a critical role in modulating osteomyelitis pathogenesis.

237 Osteomyelitis pathogens are bone-attached biofilms, maki

238 lity testing of the conjugate against common osteomyelitis pathogens revealed an effective bactericid

239 nted with multifocal Mycobacterium abscessus osteomyelitis (patient 1) and disseminated CMV and Mycob

240 tes were not significantly different between osteomyelitis patients and controls (P = .1).

241 morphism were significantly more frequent in osteomyelitis patients compared to controls (P < .001).

242 Osteomyelitis patients had greater antibiotic duration (

243 II genotype carrier osteomyelitis patients had lower PAI-1/tPA complex level

244 polymorphism and susceptibility to bacterial osteomyelitis, perhaps by fibrinolysis dysfunction.

245 who had neonatal onset of sterile multifocal osteomyelitis, periostitis, and pustulosis.

246 on between these genotypes and chronicity of osteomyelitis, post-traumatic etiology, or with a specif

247 r mouse model of staphylococcal hematogenous osteomyelitis precisely reproduces most features of the

248 syndrome (LPIN2), murine chronic multifocal osteomyelitis (pstpip2), and cherubism (SH3BP2 and possi

249 rae complex associated with tenosynovitis or osteomyelitis recovered between 1984 and 2014 from 13 st

250 n, pain, prevention of sepsis, prevention of osteomyelitis, recurrence rate, and harms of treatment (

251 Effective treatment of osteomyelitis remains a formidable clinical challenge.

252 Osteomyelitis remains a serious inflammatory bone diseas

253 The pathogenesis of osteomyelitis remains poorly understood, mainly for lack

254 The optimal duration of therapy for chronic osteomyelitis remains uncertain.

255 s, and can reduce our reliance on animals in osteomyelitis research.

256 Osteomyelitis resulting from a mold infection often pres

257 Pedal osteomyelitis results almost exclusively from contiguous

258 occus-induced chicken BCO model and in human osteomyelitis samples.

259 Endocarditis, osteomyelitis, sepsis, and SSTVI hospitalizations have i

260 substance use diagnosis code, endocarditis, osteomyelitis, sepsis, and SSTVI hospitalizations increa

261 frequently leads to infective endocarditis, osteomyelitis, septic arthritis and metastatic abscess f

262 ge- and sex-matched patients with BU without osteomyelitis showed that case patients were less likely

263 fer from autoinflammatory chronic multifocal osteomyelitis similar to several human syndromes.

264 rans infections are not limited to skin, and osteomyelitis, still poorly described in the literature,

265 mpetent child with S. prolificans-associated osteomyelitis successfully treated with debridement, loc

266 radionuclide test of choice for complicating osteomyelitis such as diabetic pedal osteomyelitis and p

267 veloped anemia, but did not show evidence of osteomyelitis, suggesting that additional environmental

268 vancomycin against MRSA in rat foreign body osteomyelitis, suggesting that rifabutin and/or rifapent

269 sistent with a subacute form of hematogenous osteomyelitis termed a Brodie abscess.

270 nteracting protein 2), spontaneously develop osteomyelitis that resembles chronic recurrent multifoca

271 tis, epidural abscess, septic arthritis, and osteomyelitis), the mean age was 49 years and 35% were f

272 Treatment of osteomyelitis therefore typically consists of long cours

273 A-infected nude mice developed arthritis and osteomyelitis to a severity similar to Map(+)SA-infected

274 Spread of osteomyelitis to adjacent bones in the forefoot occurred

275 used a murine model of acute, posttraumatic osteomyelitis to evaluate the virulence of two divergent

276 ve bacterium Staphylococcus aureus Bacterial osteomyelitis triggers pathological bone remodeling, whi

277 We stratified STI and osteomyelitis using IDSA criteria for moderate and sever

278 Diet-induced protection against osteomyelitis was accompanied by marked reductions in in

279 Osteomyelitis was confirmed by bone culture or histopath

280 test this hypothesis, a rabbit model of GAS osteomyelitis was developed.

281 Presence of superimposed osteomyelitis was documented.

282 Incidence of osteitis/osteomyelitis was less when vaccination was done after 5

283 M avium complex osteomyelitis was more frequent in dominant than in rece

284 Osteomyelitis was observed beneath active BU lesions (60

285 sertion in agrC) from a patient with chronic osteomyelitis was passed through the bloodstream using a

286 e bracket the oldest case of bone infection (osteomyelitis) was identified in the mandible of a 275-m

287 Using a murine model of osteomyelitis, we examined survival of S. aureus mutants

288 Soft-tissue infection and osteomyelitis were the most common infections in the ind

289 nically exposed bone do not have evidence of osteomyelitis when biopsied, and magnetic resonance imag

290 strated in an animal model of periprosthetic osteomyelitis, where a single dose of 10 mg/kg (15.6 mum

291 ffective for treating uncomplicated cases of osteomyelitis, whereas 2-4 days of intravenous antibioti

292 ly required for joint infections and chronic osteomyelitis, whereas acute osteomyelitis can typically

293 54 (9%) male patients had Buruli ulcer osteomyelitis, whereas only 28 (4%) of female patients d

294 a child presenting with orbital abscess and osteomyelitis who was diagnosed with hepatosplenic cat s

295 We found 70 lesions in 31 patients (52 with osteomyelitis) who had a median follow-up of 2.7 years (

296 Timely diagnosis of Candida osteomyelitis with extended courses of 6-12 months of an

297 tation of Buruli ulcer included Buruli ulcer osteomyelitis with no identifiable present or past Burul

298 eating otherwise healthy children with acute osteomyelitis with prolonged intravenous antibiotics aft

299 overview of the main pathologic concepts in osteomyelitis, with a focus on the new discoveries in re

300 ies associated with diagnosis of M. ulcerans osteomyelitis, with one-fourth of patients having no app