A retrospective study of 167 patients with soft-tissue malignant fibrous histiocytoma of the trunk, extremities, and retroperitoneal region revealed twice as many deeply situated tumors as superficial tumors. Malignant fibrous histiocytoma may be subclassified into fibrous, giant-cell, myxoid, and inflammatory variants. The fibrous variant accounted for two-thirds of the lesions. The prognosis is no different among the histologic subtypes. The depth of the tumor significantly affects survival, and three important groups were identified: superficial tumors, superficial tumors that recur in deep locations, and deeply situated tumors. The group with superficial tumors that subsequently did not recur in deep locations had a significantly better 4-year survival rate than did the other two groups (65% versus 34% and 40%, respectively). Patients with distally located tumors had a better 5-year survival rate than did patients with proximally located tumors (73% versus 28%). Local recurrence was found in 51% of patients who had a "complete" excision. Patients with superficial tumors had a higher local recurrence rate (71%) than did those with deep tumors (41%). Few patients with retroperitoneal tumors were long-term survivors; the 5-year survival rate was 14%. Cancer 45167-178. 1980. ALIGNANT FIBROUS HISTIOCYTOMA is one of a
This project focused on development of new methods and equipment for reducing the size and cost of chromatography and ion exchange technologies that support biomass-tofuels/chemicals conversion processes. This project also focused on development of robust membrane systems for industrial scale biomass suspended solids removal. Large-scale displacement of petroleum will come from low-cost cellulosic feedstocks such as straw and corn stover crop residues. This project has taken a step toward making this projection a reality by reducing capital and energy costs, the two largest cost factors associated with converting cellulosic biomass to chemicals and fuels. The technology exists for using acid or enzyme hydrolysis processes to convert biomass feedstock (i.e., waste cellulose such as straw, corn stover, and wood) into their base monomeric sugar building blocks, which can, in turn, be processed into chemicals and fuels using a number of innovative fermentation technologies. However, while these processes are technically possible, practical and economic barriers make these processes only marginally feasible or not feasible at all. These barriers are due in part to the complexity and large fixed and recurring capital costs of unit operations including filtration, chromatographic separation, and ion exchange. C. STI Product TitleThis project was designed to help remove these barriers by developing and implementing new purification and separation technologies that will reduce the capital costs of the purification and chromatographic separation units by 50% to 70%. The technologies fundamental to these improvements are: (a) highly efficient clarification and purification systems that use screening and membrane filtration to eliminate suspended solids and colloidal material from feed streams and (b) fractal technology based chromatographic separation and ion exchange systems that can substitute for conventional systems but at much smaller size and cost.A non-hazardous "raw sugar beet juice" stream (75 to 100 gal/min) was used for prototype testing of these technologies. This raw beet juice stream from the Amalgamated Sugar LLC plant in Twin Falls, Idaho contained abrasive materials and membrane foulants. Its characteristics were representative of an industrial-scale heterogeneous plant extract/hydrolysis stream, and therefore was an ideal model system for developing new separation equipment. Subsequent testing used both synthetic acid hydrolysate and corn stover derived weak acid hydrolysate (NREL produced).A two-phased approach was used for the research and development described in this project. The first level of study involved testing the new concepts at the bench level. The bench-scale evaluations provided fundamental understanding of the processes, building and testing small prototype systems, and determining the efficiency of the novel processes. The second level of study, macro-level, required building larger systems that directly simulated industrial operations and provided validation of performance to minimize fi...
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