Your search keyword '"Edquist, Petra"' showing total 5 results

1. Effects of penicillin V on the faecal microbiota in patients with pharyngotonsillitis-an observational study

Author

Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, Edlund, Charlotta, Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, and Edlund, Charlotta

Abstract

Background The intestinal microbiota functions as a reservoir of antibiotic resistance. Objectives To evaluate penicillin V (phenoxymethylpenicillin) effects on the faecal microbiota with focus on beta-lactam resistance. Methods We included 31 primary care patients with group A streptococcal pharyngotonsillitis treated with penicillin V for 5 (800 mg x 4) or 10 days (1000 mg x 3). Twenty-nine patients contributed with three faecal swab samples each. The faecal specimens were collected at the start of penicillin V treatment, after the last dose and at follow-up 7-9 days after completed treatment. Samples were inoculated semiquantitatively on selective screening agar plates to study beta-lactam resistance, species shifts among Enterobacterales and enterococci, and colonization with Candida spp. and Clostridioides difficile. Representative colonies were identified using MALDI-TOF. Results were analysed by non-parametric statistical methods. Results An increase in the proportion of patients colonized with ampicillin-resistant Enterobacterales, from 52% to 86% (P = 0.007), and Enterobacterales with decreased susceptibility to third-generation cephalosporins, from 32% to 52% (P = 0.034), was observed between the first and second samples. This increase was no longer significant at follow-up. New colonization with ampicillin-resistant Enterobacterales species and non-Enterobacterales Gram-negative species was observed, and persisted at follow-up. Conclusions Following treatment with penicillin V, we observed decreased susceptibility to ampicillin and third-generation cephalosporins, and prolonged colonization with non-Escherichia coli Gram-negative species. These findings challenge the perception that penicillin V has limited ecological effect on the intestinal microbiota, and emphasizes the importance of avoiding even narrow-spectrum antimicrobials when possible., Funding Agencies|Public Health Agency of Sweden; Healthcare Committee, Region Vaestra Goetaland; Axel Linders Foundation; Skaraborg Institute [19/1039]

Published

2022

2. Effects of penicillin V on the faecal microbiota in patients with pharyngotonsillitis-an observational study

Author

Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, Edlund, Charlotta, Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, and Edlund, Charlotta

Abstract

Background The intestinal microbiota functions as a reservoir of antibiotic resistance. Objectives To evaluate penicillin V (phenoxymethylpenicillin) effects on the faecal microbiota with focus on beta-lactam resistance. Methods We included 31 primary care patients with group A streptococcal pharyngotonsillitis treated with penicillin V for 5 (800 mg x 4) or 10 days (1000 mg x 3). Twenty-nine patients contributed with three faecal swab samples each. The faecal specimens were collected at the start of penicillin V treatment, after the last dose and at follow-up 7-9 days after completed treatment. Samples were inoculated semiquantitatively on selective screening agar plates to study beta-lactam resistance, species shifts among Enterobacterales and enterococci, and colonization with Candida spp. and Clostridioides difficile. Representative colonies were identified using MALDI-TOF. Results were analysed by non-parametric statistical methods. Results An increase in the proportion of patients colonized with ampicillin-resistant Enterobacterales, from 52% to 86% (P = 0.007), and Enterobacterales with decreased susceptibility to third-generation cephalosporins, from 32% to 52% (P = 0.034), was observed between the first and second samples. This increase was no longer significant at follow-up. New colonization with ampicillin-resistant Enterobacterales species and non-Enterobacterales Gram-negative species was observed, and persisted at follow-up. Conclusions Following treatment with penicillin V, we observed decreased susceptibility to ampicillin and third-generation cephalosporins, and prolonged colonization with non-Escherichia coli Gram-negative species. These findings challenge the perception that penicillin V has limited ecological effect on the intestinal microbiota, and emphasizes the importance of avoiding even narrow-spectrum antimicrobials when possible., Funding Agencies|Public Health Agency of Sweden; Healthcare Committee, Region Vaestra Goetaland; Axel Linders Foundation; Skaraborg Institute [19/1039]

Published

2022

3. Effects of penicillin V on the faecal microbiota in patients with pharyngotonsillitis-an observational study

Author

Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, Edlund, Charlotta, Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, and Edlund, Charlotta

Abstract

Background The intestinal microbiota functions as a reservoir of antibiotic resistance. Objectives To evaluate penicillin V (phenoxymethylpenicillin) effects on the faecal microbiota with focus on beta-lactam resistance. Methods We included 31 primary care patients with group A streptococcal pharyngotonsillitis treated with penicillin V for 5 (800 mg x 4) or 10 days (1000 mg x 3). Twenty-nine patients contributed with three faecal swab samples each. The faecal specimens were collected at the start of penicillin V treatment, after the last dose and at follow-up 7-9 days after completed treatment. Samples were inoculated semiquantitatively on selective screening agar plates to study beta-lactam resistance, species shifts among Enterobacterales and enterococci, and colonization with Candida spp. and Clostridioides difficile. Representative colonies were identified using MALDI-TOF. Results were analysed by non-parametric statistical methods. Results An increase in the proportion of patients colonized with ampicillin-resistant Enterobacterales, from 52% to 86% (P = 0.007), and Enterobacterales with decreased susceptibility to third-generation cephalosporins, from 32% to 52% (P = 0.034), was observed between the first and second samples. This increase was no longer significant at follow-up. New colonization with ampicillin-resistant Enterobacterales species and non-Enterobacterales Gram-negative species was observed, and persisted at follow-up. Conclusions Following treatment with penicillin V, we observed decreased susceptibility to ampicillin and third-generation cephalosporins, and prolonged colonization with non-Escherichia coli Gram-negative species. These findings challenge the perception that penicillin V has limited ecological effect on the intestinal microbiota, and emphasizes the importance of avoiding even narrow-spectrum antimicrobials when possible., Funding Agencies|Public Health Agency of Sweden; Healthcare Committee, Region Vaestra Goetaland; Axel Linders Foundation; Skaraborg Institute [19/1039]

Published

2022

4. Effects of penicillin V on the faecal microbiota in patients with pharyngotonsillitis-an observational study

Author

Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, Edlund, Charlotta, Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, and Edlund, Charlotta

Abstract

Background The intestinal microbiota functions as a reservoir of antibiotic resistance. Objectives To evaluate penicillin V (phenoxymethylpenicillin) effects on the faecal microbiota with focus on beta-lactam resistance. Methods We included 31 primary care patients with group A streptococcal pharyngotonsillitis treated with penicillin V for 5 (800 mg x 4) or 10 days (1000 mg x 3). Twenty-nine patients contributed with three faecal swab samples each. The faecal specimens were collected at the start of penicillin V treatment, after the last dose and at follow-up 7-9 days after completed treatment. Samples were inoculated semiquantitatively on selective screening agar plates to study beta-lactam resistance, species shifts among Enterobacterales and enterococci, and colonization with Candida spp. and Clostridioides difficile. Representative colonies were identified using MALDI-TOF. Results were analysed by non-parametric statistical methods. Results An increase in the proportion of patients colonized with ampicillin-resistant Enterobacterales, from 52% to 86% (P = 0.007), and Enterobacterales with decreased susceptibility to third-generation cephalosporins, from 32% to 52% (P = 0.034), was observed between the first and second samples. This increase was no longer significant at follow-up. New colonization with ampicillin-resistant Enterobacterales species and non-Enterobacterales Gram-negative species was observed, and persisted at follow-up. Conclusions Following treatment with penicillin V, we observed decreased susceptibility to ampicillin and third-generation cephalosporins, and prolonged colonization with non-Escherichia coli Gram-negative species. These findings challenge the perception that penicillin V has limited ecological effect on the intestinal microbiota, and emphasizes the importance of avoiding even narrow-spectrum antimicrobials when possible., Funding Agencies|Public Health Agency of Sweden; Healthcare Committee, Region Vaestra Goetaland; Axel Linders Foundation; Skaraborg Institute [19/1039]

Published

2022

5. Effects of penicillin V on the faecal microbiota in patients with pharyngotonsillitis-an observational study

Author

Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, Edlund, Charlotta, Rystedt, Karin, Edquist, Petra, Giske, Christian G., Hedin, Katarina, Tyrstrup, Mia, Stahlgren, Gunilla Skoog, Sundvall, Paer-Daniel, and Edlund, Charlotta

Abstract

Background The intestinal microbiota functions as a reservoir of antibiotic resistance. Objectives To evaluate penicillin V (phenoxymethylpenicillin) effects on the faecal microbiota with focus on beta-lactam resistance. Methods We included 31 primary care patients with group A streptococcal pharyngotonsillitis treated with penicillin V for 5 (800 mg x 4) or 10 days (1000 mg x 3). Twenty-nine patients contributed with three faecal swab samples each. The faecal specimens were collected at the start of penicillin V treatment, after the last dose and at follow-up 7-9 days after completed treatment. Samples were inoculated semiquantitatively on selective screening agar plates to study beta-lactam resistance, species shifts among Enterobacterales and enterococci, and colonization with Candida spp. and Clostridioides difficile. Representative colonies were identified using MALDI-TOF. Results were analysed by non-parametric statistical methods. Results An increase in the proportion of patients colonized with ampicillin-resistant Enterobacterales, from 52% to 86% (P = 0.007), and Enterobacterales with decreased susceptibility to third-generation cephalosporins, from 32% to 52% (P = 0.034), was observed between the first and second samples. This increase was no longer significant at follow-up. New colonization with ampicillin-resistant Enterobacterales species and non-Enterobacterales Gram-negative species was observed, and persisted at follow-up. Conclusions Following treatment with penicillin V, we observed decreased susceptibility to ampicillin and third-generation cephalosporins, and prolonged colonization with non-Escherichia coli Gram-negative species. These findings challenge the perception that penicillin V has limited ecological effect on the intestinal microbiota, and emphasizes the importance of avoiding even narrow-spectrum antimicrobials when possible., Funding Agencies|Public Health Agency of Sweden; Healthcare Committee, Region Vaestra Goetaland; Axel Linders Foundation; Skaraborg Institute [19/1039]

Published

2022