Antibacterial therapy in cystic fibrosis

Cystic fibrosis and outpatient treatment with parenteral antibiotics in children

Despite recent key insights into the pathogenesis of cystic fibrosis, the treatment of patients suffering from this disease remains largely symptomatic. Control of respiratory infections is a vital part of patient management, involving daily physiotherapy and administration of mucolytics, bronchodilators and oral or intravenous antibiotics as necessary. For those patients requiring frequent courses of intravenous antibiotics, home treatment appears preferable to repeated hospital admissions. A home care programme for cystic fibrosis has been running at the Wilhelmina Children's Hospital in Utrecht since 1991, with the aid of two specialist nurses to provide support and instruction for children and their parents. While parents of younger children were often reluctant to accept the increased responsibility for their child's care, children who had received a period of home treatment were enthusiastic about its use and eager for the programme to continue. However, anxiety of patients and parents and medical instability may be of such importance in certain circumstances that treatment is not always given at home, even after former successful periods of home care.

A retrospective analysis using Monte Carlo simulation to evaluate recommended ceftazidime dosing regimens in healthy volunteers, patients with cystic fibrosis, and patients in the intensive care unit

BACKGROUND

Over the past decades, the relationship between the pharmacokinetic (PK) properties of antibiotics, MICs, and clinical effects has been increasingly well understood. Interpatient variability in the PK profile, however, has only recently been recognized as a major factor in predicting the outcome in individual patients and establishing breakpoints for clinical susceptibility. Most predictions to date have used data from healthy volunteers.

OBJECTIVE

The purpose of this study was to perform Monte Carlo simulations of the PK/pharmacodynamic relationships of ceftazidime to assess whether the probability of target attainment (PTA) differed significantly between 3 distinct populations. To that end, population PK models of ceftazidime were developed for the 3 populations.

METHODS

Serum concentration-time data from earlier studies in healthy volunteers (n = 8), patients with cystic fibrosis (CF) (n = 17), and patients in the intensive care unit (ICU) (n = 6) were used to obtain population PK parameter estimates and covariance matrices using the nonparametric adaptive grid program. The PTA for each group was obtained using 10,000 patient simulations for dosing regimens of 1000 and 2000 mg q8h over a range of MICs and percentages of time that concentrations of unbound drug remained above the MIC (%T > MIC).

RESULTS

The relationship between the MIC and the population mean %T > MIC, as well as the PTA profiles, differed markedly between the 3 groups as a result of both differences and variations in V(d) and Cl. Breakpoints based on a 100% PTA for a %T > MIC of 60% were < or = 4, 0.5, and 0.5 mg/L in healthy volunteers, patients with CF, and patients in the ICU, respectively. However, when PTA values between 90% and 100% were reevaluated and differences in clinical dosing regimens were accounted for, the resulting breakpoints were identical in the 3 groups.

CONCLUSIONS

PK parameter estimates for ceftazidime based on data from a small group of healthy volunteers resulted in a clinical susceptibility breakpoint comparable to those for patients with CF and patients in the ICU. Based on the study findings, this breakpoint would be < or = 4 mg/L. Patients suspected of having unusually high rates of clearance should be monitored closely.

Can tobramycin inhalation be improved with a jet nebulizer?

Data on the pharmacokinetics of antibiotics after inhalation are limited. The aim of this pilot study was to assess the pharmacokinetics of tobramycin under optimalized and standardized aerosol circumstances and, furthermore, to be able to consider possible treatment of exacerbations with inhalation therapy. Six patients were studied after inhalation of 600 mg tobramycin. A jet nebulizer loaded with a 10% solution of tobramycin in water was used. The percentage of the dose that was systemically absorbed ranged from 1.0% to 16.6%. The maximum serum levels of tobramycin ranged from 0.77 mg/L to 3.63 mg/L (mean 1.70 +/- 1.01). The pharmacokinetic data were best described by a two-compartment model. Compared to intravenous administration, the long terminal half-life (mean 9.47 h +/- 3.28 h) could be explained by the slow absorption of tobramycin from the site of administration (flip-flop model). Despite standardized aerosol conditions, considerable interpatient variability was observed. However, the relatively low serum levels allow a further increase of the dose.

New approaches to optimizing antimicrobial therapy in patients with cystic fibrosis

Chronic pulmonary infections are a significant cause of morbidity and mortality in patients with cystic fibrosis. The traditional approach to managing patients with cystic fibrosis is to treat acute exacerbations with antimicrobial, airway clearance, and nutritional therapies. Advances in the understanding of the pharmacodynamics of antibiotics have led to the development of new dosing strategies to maximize the antibiotics' activity. Recent data on the use of aerosolized tobramycin as chronic maintenance therapy have demonstrated that it improves pulmonary function significantly and reduces hospitalization days. New insights into the pathogenesis of pulmonary disease have led to the development of novel therapies, including salt-insensitive antimicrobial peptides and rBPI21, as adjunctive therapy to increase the sensitivity of current antibiotics. In addition, macrolide antibiotics are being investigated for their anti-inflammatory effects as chronic maintenance therapy. Until effective therapies are available to correct the basic genetic defect that causes cystic fibrosis, antibacterial and anti-inflammatory agents will continue to be the mainstay of treatment.

Effect of vitamin K1 supplementation on vitamin K status in cystic fibrosis patients

BACKGROUND

Patients with cystic fibrosis are at risk for impaired vitamin K status due to fat malabsorption from pancreatic insufficiency. This study was designed to assess vitamin K status and measure the effect of vitamin K1 supplementation in cystic fibrosis patients.

METHODS

Eighteen outpatients participated in a crossover study to determine the effect of vitamin K1 (phylloquinone) supplementation. After obtaining initial data, each subject was randomly assigned to either a 4-week study treatment of 5 mg oral vitamin K1 supplementation per week, or no supplementation and then crossed over to the other treatment for a second 4 week period. Plasma, serum and urine samples were collected and analyzed pre-study and at the end of each study period.

RESULTS

The mean concentration of plasma vitamin K1 for the supplemented group was significantly higher than the unsupplemented group, [0.34 nmol/L and 0.21 nmol/L, respectively (p < 0.05)]. The percent of undercarboxylated osteocalcin increased on supplementation from 17% to 31%, (p < 0.005). Prothrombin induced in vitamin K absence (PIVKA-II) increased on supplementation from 5 ng/mL to 22 ng/mL, (p < 0.005). The ratio of urinary gamma-carboxyglutamic acid/creatinine was similar for both study periods.

CONCLUSIONS

In contrast to other studies in cystic fibrosis, this study demonstrated a need for vitamin K1 supplementation. The carboxylation state of osteocalcin and PIVKA-II were the most sensitive indices of changes in vitamin K1 status. Although the 5 mg vitamin K1/week dose improved these vitamin K parameters, normal levels were not achieved.

Prospective evaluation of a dose prediction algorithm for intravenous tobramycin in adolescent and adult patients with cystic fibrosis

The predictive performance of a new algorithm to calculate the initial daily dose of tobramycin in patients with cystic fibrosis (CF) was prospectively evaluated. Twenty-six patients with CF (15 men, 11 women, 18-45 years of age) with an acute exacerbation of their chronic pulmonary infection were treated with intravenous tobramycin. The initial dose was calculated with a previously presented algorithm. This algorithm was derived from correlation analysis performed on the adjusted daily dose guided by the determination of serum concentrations: dose (mg three times daily) = 90 + 2.13 x LBM (kg), where LBM (male) = (1.1 x body weight [BW]) - (128 x BW2/height2) and LBM (female) = (1.07 x BW) - (148 x BW2/height2). The predictive performance of this algorithm was evaluated comparing the calculated initial daily dose with the adjusted daily dose for peak and trough levels of 9-11 mg/L and 1.0 mg/L, respectively. Mean squared error and mean error were determined as reflections of precision and bias. The predictive performance of the algorithm was compared with historical data on the predictive performance of the standard equation to dose of 3.3 mg/kg body weight three times daily. The dose calculated with the algorithm proved to give peak serum concentrations in a narrower range and to have a greater precision, but bias was equal. Applying the algorithm, more patients had initial peak serum concentrations in the pre-determined range of 9-11 mg/L than when using the standard equation, so fewer dose adjustments had to be made.

Predictive value of pulmonary function testing during pulmonary exacerbations in cystic fibrosis

The optimal duration of therapy for acute exacerbations of cystic fibrosis (CF) has not been defined, and the utility of serial pulmonary function testing in predicting the duration of therapy has yet to be established. In a review of 90 pulmonary exacerbations of 39 patients with CF requiring hospitalization, we found that 72% of the patients recovered following 2 weeks of intravenous antibiotics and aggressive chest physiotherapy, and that 28% required an extended third week of therapy. Recovery was delayed in patients with more severe chronic pulmonary disease, but the rate of improvement was independent of the degree of pulmonary deterioration with the acute exacerbation. A 40% recovery of FEV1 at 1 week was found to correlate significantly with the duration of hospitalization in the 90 patients. When prospectively applied to a second series of consecutively hospitalized patients with CF, 25/28 patients admitted for 2 weeks demonstrated > 40% improvement in FEV1 at 1 week, as compared to 5/10 patients subsequently treated for > or = 3 weeks (P = 0.030). The predictive values for 2- or 3-week hospitalizations with 1-week interval recovery of > 40% or < or = 40% in FEV1 were 79% and 62%, respectively. These findings suggest that the response to intensive therapy in CF exacerbations is variable and that improvements in pulmonary function after 1 week of therapy may be used to predict the subsequent duration of therapy in the majority of CF patients with pulmonary exacerbations.

Fluoroquinolones in the treatment of cystic fibrosis: a critical appraisal

While the appropriate usage of antibiotics in cystic fibrosis patients is still a matter of debate, the introduction of oral antipseudomonal antibiotics such as fluoroquinolones represents an eagerly awaited addition to the therapeutic armamentarium. Ciprofloxacin is the single agent most often studied and used in this population for treatment of pulmonary exacerbations. Altered pharmacokinetics of fluoroquinolones have been described in cystic fibrosis patients as for other drugs, and a higher dosage than usual is recommended. Open clinical trials have shown good efficacy of ciprofloxacin in acute infection. A few comparative trials have demonstrated that ciprofloxacin is as effective clinically as conventional intravenous agents. As with other agents, a lack of correlation between clinical improvement and bacteriologic evaluation has been observed. Ciprofloxacin (and possibly ofloxacin) are considered useful alternatives to parenteral agents in therapy of cystic fibrosis patients older than 18 years of age with exacerbations of pulmonary infection. Intermittent therapy with ciprofloxacin alternating with other conventional treatment appears to be a rational approach; clinical trials evaluating the alternation of fluoroquinolones with intravenous anti-pseudomonal therapy are necessary. Considering the potential for emergence of resistance and the not completely elucidated implication of increasing MICs during ciprofloxacin therapy, the duration of treatment should be limited to 2 to 4 weeks. In older children (12 to 18 years old), ciprofloxacin provides an alternative to intravenous agents when clinically justifiable. In view of the possibility of fluoroquinolone associated-arthropathy in younger children, ciprofloxacin should be used judiciously when no alternative agents are available or in life-threatening situations.