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Family Forest: Public Version Volume 4 H-L
The result of more than twenty years' research, this seven-volume book lists over 23,000 people and 8,500 marriages, all related to each other by birth or marriage and grouped into families with the surnames Brandt, Cencia, Cressman, Dybdall, Froelich, Henry, Knutson, Kohn, Krenz, Marsh, Meilgaard, Newell, Panetti, Raub, Richardson, Serra, Tempera, Walters, Whirry, and Young. Other frequently-occurring surnames include: Greene, Bartlett, Eastman, Smith, Wright, Davis, Denison, Arnold, Brown, Johnson, Spencer, Crossmann, Colby, Knighten, Wilbur, Marsh, Parker, Olmstead, Bowman, Hawley, Curtis, Adams, Hollingsworth, Rowley, Millis, and Howell. A few records extend back as far as the tenth century in Europe. The earliest recorded arrival in the New World was in 1626 with many more arrivals in the 1630s and 1640s. Until recent decades, the family has lived entirely north of the Mason-Dixon Line.
Functional Preservation and Quality of Life in Head and Neck Radiotherapy
The emphasis on cancer management in the past was based primarily on control rates from multidisciplinary input in management. There has always been a recognition that one would like to achieve the best result with the least complication, but never has there been any major emphasis on evidence-based outcome studies, nor on functional preservation and quality of life. The authors of this book have dealt very effectively with the various tumor types in head and neck cancer with the experts in the ? eld of management. The contents range from epidemiology and treatment outcome, treatment techniques with the potential impact on the quality of life such as dysphagia, to the various options relativ...
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Radiotherapy for Non-Malignant Disorders
This volume discusses the background and various clinical applications of radiation therapy in the treatment of non-malignant diseases. It documents the radiobiological and physical principles of treatment and the rationale underlying the use of radiotherapy for various disorders of the CNS, head and neck, eye, skin and soft tissues, bone and joints, and vascular system. In so doing, it draws attention to and elucidates the scope for application of radiotherapy beyond the treatment of malignancies. Both the risks and the benefits of such treatment are fully considered, the former ranging from minor clinical problems to life-threatening diseases.
Medical Implications of Biofilms
Human tissues often support large, complex microbial communities growing as biofilms that can cause a variety of infections. As a result of an increased use of implanted medical devices, the incidence of these biofilm-associated diseases is increasing: the non-shedding surfaces of these devices provide ideal substrata for colonisation by biofilm-forming microbes. The consequences of this mode of growth are far-reaching. As microbes in biofilms exhibit increased tolerance towards antimicrobial agents and decreased susceptibility to host defence systems, biofilm-associated diseases are becoming increasingly difficult to treat. Not surprisingly, therefore, interest in biofilms has increased dramatically. The application of microscopic and molecular techniques has revolutionised our understanding of biofilm structure, composition, organisation, and activities, resulting in important advances in the prevention and treatment of biofilm-related diseases. The purpose of this book, which was first published in 2003, is to bring these advances to the attention of clinicians and medical researchers.
Functional Micro- and Nanosystems
The 4th caesarium brought together world known experts reporting the state-of-the-art of Functional Micro-and Nanosystems. Its purpose was to identify and open up new research directions in this rapidly evolving new area and to discuss the potential with respect to applications in automotive, biochemical and information technology. Thin film technologies are an attractive approach to incorporate functional properties into micro- or nano-systems. The continuing development towards smaller structures is driven by the use of higher driving frequencies and thus smaller wavelengths, the growing integration of different functions, the higher degree of parallelism, and size requirements for the detection of bio-molecules. Hence this new technology opens up new possibilities in terms of high frequency wireless data transmission over long distances, sensors showing high spatial and time resolution and new devices to process biological, optical and electrical signals.
