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019			_a889674767
020			_a9783527687053 _qelectronic bk.
020			_a352768705X _qelectronic bk.
020			_a9783527687077 _qelectronic bk.
020			_a3527687076 _qelectronic bk.
020			_z9783527332618
020			_z9783527687084 (Mobi)
020			_z9783527687060 (ePub)
029	1		_aCHVBK _b334093287
029	1		_aCHBIS _b010441725
029	1		_aDEBSZ _b414086929
029	1		_aDEBSZ _b449442861
029	1		_aDEBBG _bBV043397164
035			_a(OCoLC)891400541 _z(OCoLC)889674767
050	1	4	_aT20 _b.F766 2014eb
072		7	_aSOC _x000000 _2bisacsh
082	0	4	_a609.04 _223
049			_aMAIN
245	0	0	_aFrom physics to daily life : _bapplications in biology, medicine, and healthcare / _cedited by Beatrice Bressan.
250			_aSecond edition.
264		1	_aWeinheim an der Bergstrasse, Germany : _bWiley Blackwell, _c2014.
264		4	_c©2014
300			_a1 online resource (389 pages) : _billustrations.
336			_atext _2rdacontent
337			_acomputer _2rdamedia
338			_aonline resource _2rdacarrier
500			_aInclude indexes.
588			_aDescription based on online resource; title from PDF title page (ebrary, viewed August 30, 2014).
505	0		_aFrom Physics to Daily Life: Applications in Biology, Medicine, and Healthcare; Contents; Contributors' CVs; Foreword; List of Acronyms; List of Units; 1 Introduction; Part I: Knowledge Management and Technology Transfer in an Organization; 2 Knowledge Management: From Theory to Practice; 2.1 Knowledge-Based and Innovative Organization; 2.2 The Theory of Knowledge; 2.2.1 Tacit and Explicit Knowledge; 2.2.2 The SECI Model and the Knowledge Creation Spiral; 2.2.3 The Two Dimensions and the Two Spirals of Knowledge Creation; 2.2.4 The Five Conditions and the Five Phases in Two Dimensions.
505	8		_a2.3 The Core Processes of Managing Knowledge2.3.1 Knowledge Outputs and Outcomes; 2.4 The Knowledge Worker; 2.4.1 The Individual Learning Process; 2.4.2 Scientific, Technological and Social Processes; 2.4.3 Concept Formation and the Hierarchical Levels of Conceptualization; 2.5 The Knowledge Creation, Acquisition, and Transfer Model; 2.6 Knowledge Management: A Case Study of CERN; 2.6.1 The LHC Case Study Survey; Part II: Examples of Knowledge and Technology Transfer; Section 1: Medical Applications; 3 Particle Beams for Cancer; 3.1 Radiations in the Therapy of Solid Tumours.
505	8		_a3.2 Conventional Radiation Therapy3.3 Neutrontherapy and Protontherapy; 3.4 Ion Therapy; 3.5 Proton Single-Room Facilities; 3.6 Conclusion; 4 Detection and Imaging; 4.1 Invention of the Multiwire Proportional Chamber; 4.2 Modalities for Medical Imaging; 4.3 Development of the HIDAC Detector; 4.4 The Dual-HIDAC PET Camera; 4.5 Early Developments in Positron Tomography; 4.6 Fully Three-Dimensional PET Acquisition; 4.7 The Partial Ring Tomograph; 4.8 The Birth of Multimodality Instrumentation; 4.9 Conclusion; 5 Micro-Fabricated Sensors; 5.1 3D Silicon Sensors; 5.1.1 3D Sensor Fabrication.
505	8		_a5.1.2 3D Silicon Sensors, State of the Art5.2 3D Sensor Applications; 5.2.1 Micro-Dosimetry for Cancer Therapy; 5.2.2 Structural Molecular Biology; 5.2.3 Scattering from Crystals; Section 2: Impact on Life Sciences; 6 Omics: Technologies and Translations; 6.1 Biology from Different Perspectives; 6.1.1 Biology from a Descriptive Discipline to a Holistic, Molecular, and Quantitative Science; 6.1.2 Biology from a Chain-of-Events Perspective to Network Thinking; 6.2 Quantum Leaps in Omics Development; 6.2.1 From Gene and DNA Analysis to Deep Sequencing.
505	8		_a6.2.1.1 Single Gene Expression Analysis: Real-Time PCR6.2.1.2 Microarrays-Based Transcriptomics; 6.2.1.3 Deep Sequencing; 6.2.2 Classical Biochemistry Goes -Omics; 6.2.2.1 Proteomics; 6.2.2.2 Metabolites; 6.2.2.3 Metabolomics; 6.3 Omics Output (I): Knowledge Bases; 6.3.1 Human Genome Projects; 6.3.2 Human Proteome Projects; 6.3.3 Human Metabolome Projects; 6.4 Omics Output (II): Translations and Challenges; 6.4.1 Genetics to Diagnostics; 6.4.2 Proteomics to Diagnostics; 6.5 From Omics to 'Know-mics': Translation into Personal and Actionable (gen)omics; 7 Technology Fallout in Bioinformatics.
520			_aBeatrice Bressan brings together a number of outstanding examples of successful cross-disciplinary technology transfer originating in fundamental physics research, which dramatically impacted progress in biomedical research and clinical applications. Many of these examples were developed at CERN, a hotbed of fundamental inventions in particle physics. Additional sections of the book deal with knowledge management and technology transfer including its economic aspects. While each chapter has been drafted by an expert in the field, the editor has carefully edited the whole book, ensuring a coh.
650		0	_aScience _xHistory _y21st century.
650		0	_aScience _xSocial aspects _xForecasting.
650		7	_aScience. _2fast _0(OCoLC)fst01108176
650		7	_aScience _xSocial aspects _xForecasting. _2fast _0(OCoLC)fst01108363
650		4	_aScience _xHistory _y21st century.
650		4	_aScience _xSocial aspects _xForecasting.
650		4	_aScience.
650		7	_aSOCIAL SCIENCE _xGeneral. _2bisacsh
648		7	_a2000-2099 _2fast
655		4	_aElectronic books.
655		7	_aHistory. _2fast _0(OCoLC)fst01411628
655		0	_aElectronic books.
700	1		_aBressan, Beatrice, _eeditor.
776	0	8	_iPrint version: _tFrom physics to daily life : applications in biology, medicine, and healthcare. _bSecond edition. _dWeinheim an der Bergstrasse, Germany : Wiley Blackwell, c2014 _hxxxix, 346 pages _z9783527332618
856	4	0	_uhttp://onlinelibrary.wiley.com/book/10.1002/9783527687077 _zWiley Online Library [Free Download only for SUST IP]
938			_aebrary _bEBRY _nebr10912891
938			_aCoutts Information Services _bCOUT _n28679124
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938			_aEBSCOhost _bEBSC _n832359
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