RESUMEN
Achromobacter xylosoxidans is a common bacterium that rarely causes pneumonia. Determining whether A. xylosoxidans is the cause of lung infection in patients suspected of having chronic infectious lung disease is challenging because it can present with colonization. We report a case of a 56-year-old immunocompetent woman suspected of having non-tuberculous mycobacteria (NTM) infection on imaging examination and monitored for 3 years. Sputum examinations revealed A. xylosoxidans several times, and it was determined to be a colonization. A. xylosoxidans was isolated from bronchial lavage fluid and aspirated sputum, but no evidence of NTM was observed. She was diagnosed with A. xylosoxidans infection and given ceftazidime for 2 weeks. Her symptoms and imaging findings improved rapidly after treatment, without recurrences. A. xylosoxidans rarely causes chronic lower respiratory tract infections similar to NTM in immunocompetent patients. A. xylosoxidans may be a target for treatment when detected in lower respiratory tract specimens.
RESUMEN
The effects of hyperglycemia on the pharmacokinetics of valproic acid (VPA) were examined by time-concentration profiles of plasma VPA accompanied with blood glucose (BG) changing. In addition, time-concentration profiles of plasma free fatty acids (FFAs) were also obtained to examine the interaction between VPA and FFAs in vivo. For the experiments in vivo, normal rats, given multiple doses of maltose orally, and diabetic rats, which were made to maintain hyperglycemia, were used. Plasma VPA and FFA were determined by high-performance liquid chromatography with electrochemical detection (HPLC-ECD) systems based on the reduction of quinone for the selective determination of acids, respectively. BG was determined by pocket-size glucose meter. The maximum plasma concentrations (Cmax) of VPA in normal rats given multiple doses of maltose orally and in diabetic rats were remarkably decreased in comparison with those in the control rats. From the present study, it was shown that the metabolism of plasma VPA is accelerated under hyperglycemia. Moreover, we also found that VPA was preferentially metabolized in comparison with the plasma FFA in vivo.