Thematische Bibliographien / Carbon ion therapy / Bücher
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Bücher zum Thema „Carbon ion therapy“

Autor: Grafiati
Veröffentlicht am 25. Juni 2021
Zuletzt aktualisiert am 3. März 2023

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1

Nunes, Marcos d’Ávila. Protontherapy Versus Carbon Ion Therapy. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-18983-3.

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2

Proton and carbon ion therapy. Boca Raton: Taylor & Francis, 2013.

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3

Shi, China) NIRS-IMP Joint Symposium on Carbon Ion Therapy (2009 Lanzhou. Proceedings of NIRS-IMP Joint Symposium on Carbon Ion Therapy: August 14-15, 2009, Institute of Modern Physics Lanzhou, China. Chiba, Japan: National Institute of Radiological Sciences Education and International Cooperation Section, 2009.

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4

Chris, Sutton, Hrsg. Lasers in gynaecology. London: Chapman & Hall Medical, 1992.

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5

Lomax, Tony, und C.-M. Charlie Ma. Proton and Carbon Ion Therapy. Taylor & Francis Group, 2012.

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6

Lomax, Tony, und C.-M. Charlie Ma. Proton and Carbon Ion Therapy. Taylor & Francis Group, 2012.

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7

Ma, Chang-Ming Charlie, und Tony Lomax. Proton and Carbon Ion Therapy. Taylor & Francis Group, 2020.

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8

Lomax, Tony, und C.-M. Charlie Ma. Proton and Carbon Ion Therapy. Taylor & Francis Group, 2012.

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9

Nunes, Marcos d’Ávila d'Ávila. Protontherapy Versus Carbon Ion Therapy: Advantages, Disadvantages and Similarities. Springer, 2016.

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10

Nunes, Marcos d'Ávila. Protontherapy Versus Carbon Ion Therapy: Advantages, Disadvantages and Similarities. Springer London, Limited, 2015.

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11

Nunes, Marcos d'Ávila. Protontherapy vs Carbon Ion Therapy: Advantages, Disadvantages and Similarities. Springer International Publishing AG, 2015.

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12

Munro, James. A Taxonomy of Prima Facie Violations of International Economic Law. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198828709.003.0008.

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Having determined that carbon units are, to varying extents, subject to international economic law, Chapter 8 assesses the consistency of emissions trading schemes and their rules affecting carbon units with that body of law. In particular, Chapter 8 identifies and evaluates the rules in emissions trading schemes affecting the trade, use, and value of carbon units that constitute prima facie violations of that body of law. It considers: (i) the differential treatment of carbon units that engages disciplines on non-discrimination; (ii) the quantitative restrictions on external carbon units that engage disciplines on market access; and (iii) the kinds of governmental interference in carbon markets that engage disciplines on investment. Chapter 8 thereby identifies and catalogues numerous prima facie breaches embedded in the rules of most emissions trading schemes.
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13

Burke, A., D. Carroll, Frank Torti und S. V. Torti. Bifunctional nanomaterials for the imaging and treatment of cancer. Herausgegeben von A. V. Narlikar und Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.13.

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This article examines the potential of bifunctional nanomaterials for the imaging and treatment of cancer. Several nanomaterials possess properties desirable for a cancer therapy and have been the subject of research as anticancer agents. Those that have received the most attention include encapsulated iron oxides, single- and multiwalled carbon nanotubes, gold nanorods and gold nanoshells. This article first considers thermal ablative therapy incancer, focusing on the mechanisms of thermotoxicity and thermoresistance before discussing a number of nanomaterials with applications for cancer treatment. In particular, it evaluates the use of nanomaterials in thermal therapy. It also looks at gold nanoshells and nanorods, taking into account their physical properties, and concludes with an assessment of iron-oxide nanoparticles and future directions for nanomaterials as multifunctional agents for cancer therapy.
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14

Selim, Bernardo, und Kannan Ramar. Beyond positive airway pressure therapy: experimental and non-conventional treatments in sleep apnoea. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198784906.003.0259.

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With decreased adherence to positive airway pressure therapy to treat sleep apnoeas, non-conventional treatments based on new therapeutic targets are emerging. In central sleep apnoea syndrome associated with heart failure, phrenic nerve stimulation and non-conventional pharmacological treatments such as carbonic anhydrase inhibitors, gas therapies, and cardiac devices are novel alternative therapies. In obstructive sleep apnoea, a better understanding of predominant pathophysiological pathways is characterizing diverse clinical phenotypes. For patients with low arousal threshold, sedatives or hypnotics might be effective, whereas for those with unstable ventilatory control, carbonic anhydrase inhibitors or oxygen might improve obstructive sleep apnoea. For patients with upper airway muscle dysfunction, an increase in pharyngeal tone might be beneficial. This chapter describes ‘experimental’ therapies and novel technologies to treat these disorders.
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15

CO2 Laser Surgery. Springer, 2012.

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16

Guerrero, Nina, David Marcus und Alan Turry. Poised in the Creative Now. Herausgegeben von Jane Edwards. Oxford University Press, 2015. http://dx.doi.org/10.1093/oxfordhb/9780199639755.013.10.

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Nordoff-Robbins music therapy was founded through the pioneering collaboration between Paul Nordoff (1909–1977), an accomplished composer and pianist, and Clive Robbins (1927–2011), an innovative special educator. Their partnership began in 1959 at Sunfield Children’s Homes in Worcestershire, England, and they worked together for approximately 16 years in Europe and the United States. In 1975, formal training began at the newly opened Nordoff-Robbins Music Therapy Centre in London. In the same year, Clive Robbins formed a new music therapy team with his wife Carol Robbins (1942–1996). The Robbins’ developed and disseminated the Nordoff-Robbins model, and in 1990 they established the Nordoff-Robbins Center for Music Therapy at New York University’s Steinhardt School of Culture, Education, and Human Development. Throughout its history, the clinical techniques, training methods, and research within this model have been based in close engagement with clinical work.
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17

Lasers in Gynecology (Lasers in Medicine and Surgery Series 4). Routledge, 1992.

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18

Let's Talk about Constitutions. International Institute for Democracy and Electoral Assistance, 2021. http://dx.doi.org/10.31752/idea.2021.73.

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Let’s talk about constitutions! is designed to present difficult constitutional concepts to non-specialist and young audiences in an entertaining and informative way. It has been developed to promote young people’s understanding of constitutional issues and thereby empower and inspire youth to play a full and meaningful part in their own constitution-building process. With dynamic images, relatable characters and simple language, Let’s talk about constitutions! illustrates key concepts to answer the questions: what is a constitution and why is it important? The cartoon is an educational tool that can be enjoyed by youth and adults alike, whether integrated into youth centre curricula or non-governmental organizations civic education campaigns. The booklet is designed primarily for Myanmar and the characters and scripts are tailored to this context. The information shared in the cartoon, however, is relevant for people interested in learning and teaching about constitutions all around the world.
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19

Kirchman, David L. Introduction to geomicrobiology. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789406.003.0013.

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Geomicrobiology, the marriage of geology and microbiology, is about the impact of microbes on Earth materials in terrestrial systems and sediments. Many geomicrobiological processes occur over long timescales. Even the slow growth and low activity of microbes, however, have big effects when added up over millennia. After reviewing the basics of bacteria–surface interactions, the chapter moves on to discussing biomineralization, which is the microbially mediated formation of solid minerals from soluble ions. The role of microbes can vary from merely providing passive surfaces for mineral formation, to active control of the entire precipitation process. The formation of carbonate-containing minerals by coccolithophorids and other marine organisms is especially important because of the role of these minerals in the carbon cycle. Iron minerals can be formed by chemolithoautotrophic bacteria, which gain a small amount of energy from iron oxidation. Similarly, manganese-rich minerals are formed during manganese oxidation, although how this reaction benefits microbes is unclear. These minerals and others give geologists and geomicrobiologists clues about early life on Earth. In addition to forming minerals, microbes help to dissolve them, a process called weathering. Microbes contribute to weathering and mineral dissolution through several mechanisms: production of protons (acidity) or hydroxides that dissolve minerals; production of ligands that chelate metals in minerals thereby breaking up the solid phase; and direct reduction of mineral-bound metals to more soluble forms. The chapter ends with some comments about the role of microbes in degrading oil and other fossil fuels.
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20

Stuewer, Roger H. Artificial Radioactivity. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198827870.003.0011.

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Frédéric Joliot discovered artificial radioactivity on January 11, 1934, when he bombarded aluminum with polonium alpha particles and produced a radioactive isotope of phosphorus that decayed by emitting a positron. He detected it with a Geiger–Müller counter that Wolfgang Gentner had constructed for him. Two months later, Enrico Fermi, motivated in part by an insight of his first assistant, Gian Carlo Wick, decided to see if neutrons also could produce artificial radioactivity. The transformation of a neutron into a proton in a nucleus should create an electron, so to increase their number and hence the probability of creating an electron, he bombarded various elements with intense sources of neutrons, and on March 20, 1934, with aluminum he observed the created electrons and thereby discovered neutron-induced artificial radioactivity. Less than four months later, Marie Curie died on July 4, 1934, at age sixty-six.
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