Literature DB >> 17371820

Prevention of brain injury by the nonbacteriolytic antibiotic daptomycin in experimental pneumococcal meningitis.

Denis Grandgirard1, Christian Schürch, Philippe Cottagnoud, Stephen L Leib.   

Abstract

Bacteriolytic antibiotics cause the release of bacterial components that augment the host inflammatory response, which in turn contributes to the pathophysiology of brain injury in bacterial meningitis. In the present study, antibiotic therapy with nonbacteriolytic daptomycin was compared with that of bacteriolytic ceftriaxone in experimental pneumococcal meningitis, and the treatments were evaluated for their effects on inflammation and brain injury. Eleven-day-old rats were injected intracisternally with 1.3 x 10(4) +/- 0.5 x 10(4) CFU of Streptococcus pneumoniae serotype 3 and randomized to therapy with ceftriaxone (100 mg/kg of body weight subcutaneously [s.c.]; n = 55) or daptomycin (50 mg/kg s.c.; n = 56) starting at 18 h after infection. The cerebrospinal fluid (CSF) was assessed for bacterial counts, matrix metalloproteinase-9 levels, and tumor necrosis factor alpha levels at different time intervals after infection. Cortical brain damage was evaluated at 40 h after infection. Daptomycin cleared the bacteria more efficiently from the CSF than ceftriaxone within 2 h after the initiation of therapy (log(10) 3.6 +/- 1.0 and log(10) 6.3 +/- 1.4 CFU/ml, respectively; P < 0.02); reduced the inflammatory host reaction, as assessed by the matrix metalloproteinase-9 concentration in CSF 40 h after infection (P < 0.005); and prevented the development of cortical injury (cortical injury present in 0/30 and 7/28 animals, respectively; P < 0.004). Compared to ceftriaxone, daptomycin cleared the bacteria from the CSF more rapidly and caused less CSF inflammation. This combined effect provides an explanation for the observation that daptomycin prevented the development of cortical brain injury in experimental pneumococcal meningitis. Further research is needed to investigate whether nonbacteriolytic antibiotic therapy with daptomycin represents an advantageous alternative over current bacteriolytic antibiotic therapies for the treatment of pneumococcal meningitis.

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Year:  2007        PMID: 17371820      PMCID: PMC1891377          DOI: 10.1128/AAC.01014-06

Source DB:  PubMed          Journal:  Antimicrob Agents Chemother        ISSN: 0066-4804            Impact factor:   5.191


  61 in total

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2.  Antimicrobial resistance among clinical isolates of Streptococcus pneumoniae in the United States during 1999--2000, including a comparison of resistance rates since 1994--1995.

Authors:  G V Doern; K P Heilmann; H K Huynh; P R Rhomberg; S L Coffman; A B Brueggemann
Journal:  Antimicrob Agents Chemother       Date:  2001-06       Impact factor: 5.191

3.  Daptomycin produces an enhanced bactericidal activity compared to ceftriaxone, measured by [3H]choline release in the cerebrospinal fluid, in experimental meningitis due to a penicillin-resistant pneumococcal strain without lysing its cell wall.

Authors:  A Stucki; M Cottagnoud; V Winkelmann; T Schaffner; P Cottagnoud
Journal:  Antimicrob Agents Chemother       Date:  2007-03-19       Impact factor: 5.191

4.  Clinical outcome in pneumococcal meningitis correlates with CSF lipoteichoic acid concentrations.

Authors:  O Schneider; U Michel; G Zysk; O Dubuis; R Nau
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5.  Inhibition of matrix metalloproteinases and tumour necrosis factor alpha converting enzyme as adjuvant therapy in pneumococcal meningitis.

Authors:  S L Leib; J M Clements; R L Lindberg; C Heimgartner; J M Loeffler; L A Pfister; M G Täuber; D Leppert
Journal:  Brain       Date:  2001-09       Impact factor: 13.501

6.  The free radical scavenger alpha-phenyl-tert-butyl nitrone aggravates hippocampal apoptosis and learning deficits in experimental pneumococcal meningitis.

Authors:  J M Loeffler; R Ringer; M Hablützel; M G Täuber; S L Leib
Journal:  J Infect Dis       Date:  2000-12-08       Impact factor: 5.226

7.  Matrix metalloproteinase (MMP)-8 and MMP-9 in cerebrospinal fluid during bacterial meningitis: association with blood-brain barrier damage and neurological sequelae.

Authors:  D Leppert; S L Leib; C Grygar; K M Miller; U B Schaad; G A Holländer
Journal:  Clin Infect Dis       Date:  2000-07-14       Impact factor: 9.079

8.  Effects of clinically used antioxidants in experimental pneumococcal meningitis.

Authors:  M Auer; L A Pfister; D Leppert; M G Täuber; S L Leib
Journal:  J Infect Dis       Date:  2000-07-06       Impact factor: 5.226

9.  Release of teichoic and lipoteichoic acids from 30 different strains of Streptococcus pneumoniae during exposure to ceftriaxone, meropenem, quinupristin/dalfopristin, rifampicin and trovafloxacin.

Authors:  C Heer; K Stuertz; R R Reinert; M Mäder; R Nau
Journal:  Infection       Date:  2000 Jan-Feb       Impact factor: 3.553

10.  Endothelin inhibition improves cerebral blood flow and is neuroprotective in pneumococcal meningitis.

Authors:  L A Pfister; J H Tureen; S Shaw; S Christen; D M Ferriero; M G Täuber; S L Leib
Journal:  Ann Neurol       Date:  2000-03       Impact factor: 10.422
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  29 in total

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Authors:  Tatiana Barichello; Graziele Milioli; Jaqueline S Generoso; Andreza L Cipriano; Caroline S Costa; Ana Paula Moreira; Márcia Carvalho Vilela; Clarissa M Comim; Antonio Lucio Teixeira; João Quevedo
Journal:  J Neural Transm (Vienna)       Date:  2011-12-13       Impact factor: 3.575

2.  Use of corticosteroids and other adjunct therapies for acute bacterial meningitis in adults.

Authors:  Kameshwar Prasad; Nirendra Kumar Rai; Amit Kumar
Journal:  Curr Infect Dis Rep       Date:  2012-08       Impact factor: 3.725

3.  Adjunctive daptomycin attenuates brain damage and hearing loss more efficiently than rifampin in infant rat pneumococcal meningitis.

Authors:  Denis Grandgirard; Melchior Burri; Philipp Agyeman; Stephen L Leib
Journal:  Antimicrob Agents Chemother       Date:  2012-05-29       Impact factor: 5.191

4.  Antioxidant treatment prevents cognitive impairment and oxidative damage in pneumococcal meningitis survivor rats.

Authors:  Tatiana Barichello; Ana Lucia B Santos; Geovana D Savi; Jaqueline S Generoso; Paola Otaran; Cleonice M Michelon; Amanda V Steckert; Francielle Mina; Clarissa M Comim; Felipe Dal-Pizzol; João Quevedo
Journal:  Metab Brain Dis       Date:  2012-05-17       Impact factor: 3.584

5.  Genome-wide identification of Streptococcus pneumoniae genes essential for bacterial replication during experimental meningitis.

Authors:  T E Molzen; P Burghout; H J Bootsma; C T Brandt; Christa E van der Gaast-de Jongh; M J Eleveld; M M Verbeek; N Frimodt-Møller; C Østergaard; P W M Hermans
Journal:  Infect Immun       Date:  2010-11-01       Impact factor: 3.441

Review 6.  Animal models of Streptococcus pneumoniae disease.

Authors:  Damiana Chiavolini; Gianni Pozzi; Susanna Ricci
Journal:  Clin Microbiol Rev       Date:  2008-10       Impact factor: 26.132

7.  Adjuvant glycerol is not beneficial in experimental pneumococcal meningitis.

Authors:  Cornelia Blaser; Matthias Klein; Denis Grandgirard; Matthias Wittwer; Heikki Peltola; Michael Weigand; Uwe Koedel; Stephen L Leib
Journal:  BMC Infect Dis       Date:  2010-03-30       Impact factor: 3.090

8.  The Severity of Infection Determines the Localization of Damage and Extent of Sensorineural Hearing Loss in Experimental Pneumococcal Meningitis.

Authors:  Michael Perny; Marta Roccio; Denis Grandgirard; Magdalena Solyga; Pascal Senn; Stephen L Leib
Journal:  J Neurosci       Date:  2016-07-20       Impact factor: 6.167

9.  Daptomycin in experimental murine pneumococcal meningitis.

Authors:  Barry B Mook-Kanamori; Mark S Rouse; Cheol-In Kang; Diederik van de Beek; James M Steckelberg; Robin Patel
Journal:  BMC Infect Dis       Date:  2009-04-30       Impact factor: 3.090

10.  The efficacy and safety of daptomycin vs. vancomycin for the treatment of cellulitis and erysipelas.

Authors:  P E Pertel; B I Eisenstein; A S Link; B Donfrid; E J A Biermann; P Bernardo; W J Martone
Journal:  Int J Clin Pract       Date:  2009-03       Impact factor: 2.503
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