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Acceptable Cost (acceptable + cost)

Distribution by Scientific Domains
Medical Sciences50%

Selected Abstracts

Optimal Synthesis of Protein Purification Processes

BIOTECHNOLOGY PROGRESS, Issue 4 2001
Elsa Vásquez-Alvarez
There has been an increasing interest in the development of systematic methods for the synthesis of purification steps for biotechnological products, which are often the most difficult and costly stages in a biochemical process. Chromatographic processes are extensively used in the purification of multicomponent biotechnological systems. One of the main challenges in the synthesis of purification processes is the appropriate selection and sequencing of chromatographic steps that are capable of producing the desired product at an acceptable cost and quality. This paper describes mathematical models and solution strategies based on mixed integer linear programming (MILP) for the synthesis of multistep purification processes. First, an optimization model is proposed that uses physicochemical data on a protein mixture, which contains the desired product, to select a sequence of operations with the minimum number of steps from a set of candidate chromatographic techniques that must achieve a specified purity level. Since several sequences that have the minimum number of steps may satisfy the purity level, it is possible to obtain the one that maximizes final purity. Then, a second model that may use the total number of steps obtained in the first model generates a solution with the maximum purity of the product. Whenever the sequence does not affect the final purity or more generally does not impact the objective function, alternative models that are of smaller size are developed for the optimal selection of steps. The models are tested in several examples, containing up to 13 contaminants and a set of 22 candidate high-resolution steps, generating sequences of six operations, and are compared to the current synthesis approaches. [source]

Fuel Cells, Advanced Reactors and Smart Catalysis: The Exploitation of Ceramic Ion-Conducting Membranes

CHEMICAL ENGINEERING & TECHNOLOGY (CET), Issue 8 2003
I.S. Metcalfe
Abstract Membrane reactors are of great interest in the chemical industries because they offer the possibility of improved yields, improved selectivities and more compact plant. However, a significant barrier to their uptake is the unavailability of membrane systems having the required performance at an acceptable cost. In this paper we will explore the use of one class of membrane that has the potential to deliver high performance at reasonable cost. Ion-conducting ceramic membranes can be used in a wide range of high temperature applications including fuel cells, advanced reactors and even smart catalytic systems. [source]

A Cost Utility Analysis of Interdisciplinary Early Intervention Versus Treatment as Usual For High-Risk Acute Low Back Pain Patients

PAIN PRACTICE, Issue 5 2010
Mark D. Rogerson PhD
Abstract Chronic pain is a costly and debilitating condition that has proven difficult to treat, solely with medical interventions, due to the complex interplay of biological, psychological, and social factors in its onset and persistence. Many studies have demonstrated the effectiveness of interdisciplinary treatment that includes psychosocial interventions for low back pain. Nevertheless, these interventions continue to be under-utilized due to concerns of cost and applicability. The present study utilized a cost utility analysis to evaluate effectiveness and associated costs of interdisciplinary early intervention for individuals with acute low back pain that was identified as high-risk for becoming chronic. Treatment effectiveness was evaluated using a standard pain measure and quality-adjusted life years, and associated medical and employment costs were gathered for 1 year. Results indicated that subjects improved significantly from pretreatment to 1-year follow-up, and that the early intervention group reported fewer health-care visits and missed workdays than the treatment as usual group. The majority of 1,000 bootstrapped samples demonstrated the dominance of the early intervention program as being both more effective and less costly from a societal perspective. The early intervention treatment was the preferred option in over 85% of samples within an established range of acceptable costs. These results are encouraging evidence for the cost-effectiveness of interdisciplinary intervention and the benefits of targeted early treatment. [source]

Clinical usefulness and patient satisfaction for treatment with low-dose cyclosporin administration in patients with moderate psoriasis vulgaris

THE JOURNAL OF DERMATOLOGY, Issue 5 2007
Masatoshi ABE
ABSTRACT The Japanese guidelines for psoriasis therapy with cyclosporin microemulsion preconcentrate (CyA MEPC) has been revised, and the clinical application of CyA MEPC is being expanded to include mild to moderate psoriasis. In this study, we aimed to confirm the clinical efficiency of low-dose cyclosporin therapy in patients with moderate psoriasis vulgaris. After informed consent was obtained, 19 patients with psoriasis vulgaris were enrolled in this study. Each patient basically administrated CyA MEPC, 2.5 mg/kg/day, orally over 12 weeks. When the psoriasis area and severity index (PASI) score showed a 75% reduction from the initial value, the dosage of CyA MEPC was reduced to 1.5 mg/kg/day and added a topical application of active vitamin D3 ointment. We interviewed the patients as to their satisfaction for the usefulness and cost of the treatment. All patients obtained improvement within 12 weeks. In 10 patients whose PASI score reduced over 75%, we could reduce CyA MEPC dosage. No adverse effects were noted in any patients during the treatment. It is of note that the cost for 1.5 mg/kg/day administration of CyA MEPC was accepted by all the patients. In conclusion, this preliminary study suggests that the CyA MEPC is effective, safe and would provide patients with acceptable costs. [source]