Evaluating the Suitability of Using Rat Models for Preclinical Efficacy and Side Effects with Inhaled Corticosteroids Nanosuspension Formulations

Inhaled corticosteroids (ICS) are often prescribed as first-line therapy for patients with asthma Despite their efficacy and improved safety profile compared with oral corticosteroids, the potential for systemic side effects continues to cause concern. In order to reduce the potential for systemic side effects, the pharmaceutical industry has begun efforts to generate new drugs with pulmonary-targeted topical efficacy. One of the major challenges of this approach is to differentiate both efficacy and side effects (pulmonary vs. systemic) in a preclinical animal model. In this study, fluticasone and ciclesonide were used as tool compounds to explore the possibility of demonstrating both efficacy and side effects in a rat model using pulmonary delivery via intratracheal (IT) instillation with nanosuspension formulations. The inhibition of neutrophil infiltration into bronchoalveolar lavage fluid (BALF) and cytokine (TNFα) production were utilized to assess pulmonary efficacy, while adrenal and thymus involution as well as plasma corticosterone suppression was measured to assess systemic side effects. Based on neutrophil infiltration and cytokine production data, the ED50s for ciclesonide and fluticasone were calculated to be 0.1 and 0.03 mg, respectively. At the ED50, the average adrenal involution was 7.6 ± 5.3% for ciclesonide versus 16.6 ± 5.1% for fluticasone, while the average thymus involution was 41.0 ± 4.3% for ciclesonide versus 59.5 ± 5.8% for fluticasone. However, the differentiation became less significant when the dose was pushed to the EDmax (0.3 mg for ciclesonide, 0.1 mg for fluticasone). Overall, the efficacy and side effect profiles of the two compounds exhibited differentiation at low to mid doses (0.03–0.1 mg ciclesonide, 0.01–0.03 mg fluticasone), while this differentiation diminished at the maximum efficacious dose (0.3 mg ciclesonide, 0.1 mg fluticasone), likely due to overdosing in this model. We conclude that the rat LPS model using IT administration of nanosuspensions of ICS is a useful tool to demonstrate pulmonary-targeted efficacy and to differentiate the side effects. However, it is only suitable at sub-maximum efficacious levels

Liposomal Formulations of Inflammatory Bowel Disease Drugs: Local versus Systemic Drug Delivery in a Rat Model

Based on adherence to intestinal mucosa, intralumenally administered liposomal formulations of 5-aminosalicylate (5-ASA) and 6-mercaptopurine (6-MP) were studied for their potential to enhance local drug delivery to intestinal tissue for the treatment of inflammatory bowel disease.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/41509/1/11095_2005_Article_5376.pd

Effect of food on the pharmacokinetics of budesonide controlled ileal release capsules in patients with active Crohn's disease.

Item does not contain fulltextAIM: To study the influence of food on the systemic availability of budesonide in patients with active Crohn's disease. METHODS: Eight patients with an established diagnosis of Crohn's disease each received 9 mg budesonide controlled ileal release (CIR) capsules (Entocort capsules) orally on two separate occasions: once in a fasting state and once after a heavy breakfast. For reference, deuterium-labelled ((2)H(8)) budesonide, 0.5 mg, was given intravenously. Plasma concentrations of budesonide and (2)H(8)-budesonide were determined for 12 h, and their pharmacokinetic parameters were calculated. RESULTS: Average systemic availability of budesonide during fasting conditions was 10.7%, area under the curve was 27.5 nmol/L x h and peak plasma concentration was 4.1 nmol/L. Corresponding postprandial values were 13.2%, 27.0 nmol/L x h and 3. 8 nmol/L. Food increased the mean absorption time from 4.5 to 6.8 h (P=0.0012). Body clearance of budesonide was about 25% higher after eating (P=0.0015). CONCLUSIONS: Food had little influence on systemic availability and peak plasma concentrations of budesonide administered in CIR capsules. Absorption was retarded postprandially, likely due to delayed gastric emptying. Budesonide in CIR capsules can be administered at the same dose regardless of prandial status in patients with Crohn's disease

Do airway clearance mechanisms influence the local and systemic effects of inhaled corticosteroids?

The role of airway clearance in inhaled drug therapy is complex. Disease-induced bronchoconstriction results in a central drug-deposition pattern where mucociliary clearance is most efficient. When drug-induced bronchodilation is achieved, deposition and uptake becomes more peripheral, and because there is less mucociliary clearance in the periphery, this will lead to an unintentional increase in lung exposure and enhance the risk of systemic side effects. In addition, mucociliary clearance is pathologically reduced in both asthma and chronic obstructive pulmonary disease. Among inhaled corticosteroids, rate of dissolution and lung uptake differs considerably. For the slowly dissolving, lipophilic steroids, the contribution of mucociliary clearance to these findings appears significant, and variability in lung and systemic exposure resulting from variable mucociliary function appears to be amplified. In addition, dose optimisation of non-stable asthma becomes more complex. The present review highlights the impact of mucociliary clearance on inhaled corticosteroid disposition and identifies critical areas where more research is needed

Evidence of the in vivo esterification of budesonide in human airways

AB - WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT * In vitro studies with human bronchial epithelial cells have shown that budesonide undergoes rapid, extensive and reversible intracellular esterification, a finding that is believed to contribute to retention and prolonged duration of action. * A case report has suggested retention of budesonide in the lungs of patients undergoing surgical resection. * This study evaluated, for the first time, the esterification (and distribution) of inhaled budesonide and fluticasone propionate in vivo in human lung. WHAT THIS STUDY ADDS * This study has unequivocally shown that budesonide undergoes esterification in human lungs in vivo. * Budesonide was detectable in central and peripheral lung tissue for 10 h, and budesonide oleate up to 43 h after inhalation. * The sustained retention of budesonide esters in the lungs probably contributes to the prolonged duration of action and once-daily efficacy of budesonide. AIMS Budesonide, unlike fluticasone propionate, undergoes fatty acid esterification in the lungs, and there is a need to characterize fully the distribution and fate of the two drugs after inhalation in humans. METHODS This open-label, randomized study was performed in adults undergoing whole lung or lobar resection resulting from lung cancer. Patients were given single 1000-mug doses of both budesonide and fluticasone propionate via dry powder inhalers before surgery. Tissue samples from peripheral and central lung, an ex vivo bronchial brush sample and intercostal muscle, together with plasma samples, were taken during surgery and analysed by liquid chromatography plus tandem mass spectrometry. RESULTS Lung tissue samples were obtained from 22 patients at surgery, 1-43 h after drug dosing. Budesonide was detectable from earliest sampling in central and peripheral lung tissue up to 10 h (in six of 22 samples), fluticasone propionate up to 22 h after inhalation (in 16 of 22 samples), and budesonide oleate up to 43 h after inhalation (in 21 of 22 samples). Budesonide, but not fluticasone propionate, was detected in intercostal muscle for up to 10 h after inhalation. Bronchial brush samples showed the presence of fluticasone propionate for up to 18 h, suggesting the presence of undissolved drug powder particles in the airway lumen. CONCLUSION Sustained retention of esterified budesonide in the lungs supports the prolonged duration of action of budesonide and suitability for once-daily administration