Tag Archive for: beta-lactam

person pouring pills from bottle to hand

Therapeutic antibiotics associated with reductions in microbial diversity in CF

person pouring pills from bottle to hand

Researchers found that both insufficient beta-lactam pharmacokinetics (PK) and broad-spectrum antibiotics were associated with a greater decrease in species richness at the end of antibiotic therapy compared to pulmonary exacerbations onset.

There are more than 70,000 children and adults living with cystic fibrosis (CF) worldwide. Those with this progressive disease frequently suffer from recurrent episodes of lung infection and inflammation called pulmonary exacerbations.

In a new observational study led by Andrea Hahn, M.D., infectious diseases specialist at Children’s National Hospital, researchers found that both insufficient beta-lactam pharmacokinetics (PK) and broad-spectrum antibiotics were associated with a greater decrease in species richness at the end of antibiotic therapy compared to pulmonary exacerbations onset.

In prior studies evaluating the association between beta-lactam PK, insufficient beta-lactam PK was associated with reduced short-term decreases in microbial diversity compared to sufficient beta-lactam dosing. In this study researchers found that insufficient beta-lactam PK was associated with a greater short-term decrease in microbial diversity.

Dr. Hahn’s team also found that an increased presence of beta-lactam antibiotic resistance genes was associated with lower microbial diversity and lower lung function.

These studies suggest that community-level antibiotic resistance, rather than the resistance patterns of the most prevalent bacteria identified in cultures, may serve as a useful predictor of lung function recovery in individuals with cystic fibrosis (CF). This finding may aid clinicians in selecting the most effective antibiotics to treat pulmonary exacerbations in CF patients, thus enhancing their clinical outcomes.

Read the full study in Nature’s Scientific Reports.

Authors on the study from Children’s National Hospital include Andrea Hahn, M.D., M.S., Aszia Burrell, Hollis Chaney, M.D.Iman Sami-Zakhari, M.D.Anastassios Koumbourlis, M.D., M.P.H., and Robert J. Freishtat, M.D., M.P.H.

mother helping child with inhaler

Beta-lactam and microbial diversity in cystic fibrosis

mother helping child with inhaler

The study, published in the Journal of Investigative Medicine, examined the hypotheses that beta-lactam antibiotic PK and PD is associated with changes in richness and alpha diversity following treatment of a pulmonary exacerbations and determined associations between antibiotic PK, PD, antibiotic resistance and lung function.

Cystic fibrosis (CF) is a chronic lung disease that affects more than 30,000 people in the United States and 70,000 people worldwide. While this chronic disease is characterized by acute pulmonary exacerbations that are frequently treated with antibiotics, the impact of antibiotics on airway microbial diversity remains a critical knowledge gap.

A new study led by researchers at Children’s National Hospital found that beta-lactam antibiotic pharmacokinetic (PK) and pharmacodynamic (PD) target attainment during treatment is associated with suppressed recovery of microbial diversity, following a pulmonary exacerbation in children and adolescents with CF.

“By laying the groundwork for understanding how antibiotic PK may influence microbial diversity following pulmonary exacerbation, we hope to identify improved ways to guide antibiotic therapy in persons with CF,” says Andrea Hahn, M.D., M.S., an infectious diseases specialist at Children’s National and lead author of the study.

The study, published in the Journal of Investigative Medicine, examined the hypotheses that beta-lactam antibiotic PK and PD is associated with changes in richness and alpha diversity following treatment of a pulmonary exacerbations and determined associations between antibiotic PK, PD, antibiotic resistance and lung function.

“Beta-lactam antibiotics are frequently used to treat pulmonary exacerbations in persons with CF, yet are not routinely optimized,” says Dr. Hahn. “This study demonstrates the importance of beta-lactam PK’s on changes within the airway microbiome and provides context for care providers regarding the potential long-term impacts of antibiotic use in persons with CF, to ensure that we are optimizing therapy with each pulmonary exacerbation.”

Additional authors from Children’s National include: Aszia Burrell, Hollis Chaney, M.D.Iman Sami Zakhari, M.D.Anastassios Koumbourlis, M.D., M.P.H. and Robert Freishtat, M.D., M.P.H.