Browsing by Subject "Lung cancer"
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Item Development of an inhalational formulation of Coenzyme Q₁₀ to treat lung malignancies(2011-12) Carvalho, Thiago Cardoso; McConville, Jason ThomasCancer is the second leading cause of death in the United States and its onset is highly incident in the lungs, with very low long-term survival rates. Chemotherapy plays a significant role for lung cancer treatment, and pulmonary delivery may be a potential route for anticancer drug delivery to treat lung tumors. Coenzyme Q₁₀ (CoQ₁₀) is a poorly-water soluble compound that is being investigated for the treatment of carcinomas. In this work, we hypothesize that formulations of CoQ10 may be developed for pulmonary delivery with a satisfactory pharmacokinetic profile that will have the potential to improve a pharmacodynamic response when treating lung malignancies. The formulation design was to use a vibrating-mesh nebulizer to aerosolize aqueous dispersions of CoQ₁₀ stabilized by phospholipids physiologically found in the lungs. In the first study, a method was developed to measure the surface tension of liquids, a physicochemical property that has been shown to influence the aerosol output characteristics from vibrating-mesh nebulizers. Subsequently, this method was used, together with analysis of particle size distribution, zeta potential, and rheology, to further evaluate the factors influencing the capability of this nebulizer system to continuously and steadily aerosolize formulations of CoQ₁₀ prepared with high pressure homogenization. The aerosolization profile (nebulization performance and in vitro drug deposition of nebulized droplets) of formulations prepared with soybean lecithin, dimyristoylphosphatidylcholine (DMPC), dipalmitoylphosphatidylcholine (DPPC) and distearoylphosphatidylcholine (DSPC) were evaluated. The rheological behavior of these dispersions was found to be the factor that may be indicative of the aerosolization output profile. Finally, the pulmonary deposition and systemic distribution of CoQ₁₀ prepared as DMPC, DPPC, and DSPC dispersions were investigated in vivo in mice. It was found that high drug amounts were deposited and retained in the mouse lungs for at least 48 hours post nebulization. Systemic distribution was not observed and deposition in the nasal cavity occurred at a lower scale than in the lungs. This body of work provides evidence that CoQ₁₀ may be successfully formulated as dispersions to be aerosolized using vibrating-mesh nebulizers and achieve high drug deposition in the lungs during inhalation.Item Total and segmented direct cost-of-care for stage IV non-small cell lung cancer in a privately insured population(2011-05) Bell, Allison Miriam; Koeller, Jim; Frei, Christopher; Ryan, Laurajo; Penrod, JohnIntroduction: New treatments for stage IV (adv) NSCLC have emerged this past decade. Recent pharmacoeconomic research has focused on cost of treatment, comparative costs of therapies, and cost/cost effectiveness of adding a biologic to traditional therapy. Drug cost is thought to be a primary driver of cost change in NSCLC, yet to our knowledge, characterization of the direct cost of NSCLC has not been published since the new treatments have emerged in the guidelines. Our primary objective was to characterize the direct and segmented cost of adv NSCLC from 2000-9. We also want to determine cost impact of new therapies, and cost trend from 2000-9. Methods: This PharMetrics claims database study includes diagnosed NSCLC patients [greater than or equal to] 20 yo. Small cell lung cancer was excluded. Claims were divided into disease segments and time periods representative of changes in therapy ("pre" (2000-2), "transition" (2003-5), and "current" (2006-9) periods). Descriptive statistics (median, interquartile range (IQR)), chi-square test (nominal data), and Wilcoxan rank sum tests were performed on the data. To adjust for baseline confounders, multivariate least squares regression models were created. Results: Costs are reported as medians in terms of per patient per month (pppm). Overall monthly cost (n=969) was $10,281 pppm. Diagnosis cost $6,601 pppm, active treatment cost $9,287 pppm, and end-of life cost $12,215 pppm. There was no difference in cost between the “transition” (n=439) and “current” (n=503) periods overall or for any segment of disease. Comorbidities had no effect on cost. For patients receiving at least 5 months of active treatment medication (n=316) total median cost was $144,147 per patient ($9,371 pppm). Discussion: There was no difference in cost between the transition and current periods, in regards to either overall cost or segmented cost. The most expensive segment was end-of-life, with a median cost exceeding $12,000 pppm. Surprisingly, comorbidities had no effect on cost. Newer agents (biologics, TKIs, and pemetrexed) represent only a modest portion of cost, with a majority of cost for stage IV NSCLC comprised of non-drug costs.