Verfügbarkeit: Shock wave physics for urologists

Shock wave physics for urologists:

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Bibliographische Detailangaben
1. Verfasser:	Loske, Achim M. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Querétaro Univ. Nacional Autónoma de México 2007
Schlagworte:	Ondas de choque Urología Urologie Extrakorporale Stoßwellenlithotripsie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	189 S. Ill., graph. Darst.
ISBN:	9789703243778

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Datensatz im Suchindex

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adam_text	Contents Foreword 13 Preface 15 Acknowledgements 17 Introduction 19 I Brief history of extracorporeal shock wave lithotripsy 23 Basic physics 31 11.1 Work and energy 31 11.1.1 The physical concept of work 31 11.1.2 Energy 31 11.1.3 Power 32 II. 2 Elastic properties of solids 32 II. 3 Density and pressure 34 II.4 Electricity and magnetism 36 11.4.1 Electric charge 36 II. 4.2 Electric current 37 1I.4.3 Voltage 37 II.4.4 Resistance 38 II.4.5 Capacitance 39 II.4.6 Magnetic fields 39 II. 5 Mechanical waves 39 11.5.1 A few definitions 40 II. 5.2 Transverse waves 42 II. 5.3 Longitudinal waves 42 II. 5.4 Frequency spectrum 43 II. 5.5 Speed of mechanical waves 43 II. 5.6 Intensity and power 44 II. 5.7 Superposition and interference 44 II.5.8 Frequency content of a wave 45 II. 5.9 Reflection and refraction 47 11.5.10 Diffraction 49 11.5.11 Sonic booms 49 11.5.12 Resonance 50 11.5.13 Sonoluminescence 50 11.5.14 Radiation pressure 50 III Lithotripter shock waves 55 IV Shock wave generation and focusing 61 IV.1 Electrohydraulic shock wave generation 61 IV.2 Piezoelectric shock wave generation 67 IV.3 Electromagnetic shock wave generation 70 IV.3.1 Flat coil shock wave generators 70 IV.3.2 Cylindrical coil shock wave generators 71 IV.3.3 Self-focusing shock wave generators 72 IV.4 Other shock wave sources 73 V Shock wave comminution mechanisms 77 V.1 Spalling 78 V.2 Cavitata 80 V.3 Compression 83 V.4 Fatigue 84 VI Shock wave interaction with living tissue and cells 87 VII Recommendations for physicians 95 VIM Choosing a lithotripter 95 VI1. 1.1 The best lithotripter 95 VIM .2 Pressure field and electric energy 96 VII. 1.3 Fragmentation efficiency 97 Vll.1.4 The Shockwave generator 98 VII. 1.5 Imaging systems and patient positioning 101 VII. 1.6 Shockwave coupling devices 102 VII. 1.7 Lithotripters for pediatric and obese patients 103 VII.2 Selecting the dose 104 VII.3 Selecting the Shockwave rate 106 VII.4 Patient positioning and shock wave coupling 107 VII.5 Water treatment 113 VII.6 Conditions for good fragmentation 113 VII.7 Some contraindications 1 1 4 VIII Research 119 Vil I Л Research extracorporeal lithotripters 119 VHI.1.1 The UK research lithotripter 120 Vlll.1.2 MEXILIT research lithotripter 121 VIII.1.3 The US research lithotripters 122 VIII.1.4HM3 research lithotripter 122 VIII.2 Modified extracorporeal lithotripters 124 Vlll.2.1 Tandem shock wave lithotripters 125 VIII.2.2 Pressure-release Shockwave lithotripters 130 Vlll.2.3 Dual-phase shock wave lithotripters 131 VIII.3 Evaluation of Shockwave lithotripters 132 Vlll.3.1 Piezoelectric transducers 133 Vlll.3.2 Polyvinylidene difluoride gauges 133 Vlll.3.3 Optical-fiber hydrophones and light spot hydrophones 135 Vlll.3.4 Dual passive cavitation detectors 137 VIII.4 Pre-focal alignment 137 Vill.5 Prophylactic shock waves 138 VIII.6 CT attenuation number vs. fragmentation 139 V1I1.7 Bactericidal effect of lithotripters 142 VIII.8 Cell transfection and tumor therapy 145 VIII.9 Thrombus ablation 146 IX Other uses of shock waves in medicine 149 IX.1 Non-urological ESWL 149 IX.2 Orthopedic application of shock waves 150 IX.3 Treatment of Peyronie s disease 151 IX.4 Treatment of refractory angina pectoris 152 IX.5 Shock waves in ophthalmology 152 X Glossary 155 References 173
adam_txt	Contents Foreword 13 Preface 15 Acknowledgements 17 Introduction 19 I Brief history of extracorporeal shock wave lithotripsy 23 Basic physics 31 11.1 Work and energy 31 11.1.1 The physical concept of work 31 11.1.2 Energy 31 11.1.3 Power 32 II. 2 Elastic properties of solids 32 II. 3 Density and pressure 34 II.4 Electricity and magnetism 36 11.4.1 Electric charge 36 II. 4.2 Electric current 37 1I.4.3 Voltage 37 II.4.4 Resistance 38 II.4.5 Capacitance 39 II.4.6 Magnetic fields 39 II. 5 Mechanical waves 39 11.5.1 A few definitions 40 II. 5.2 Transverse waves 42 II. 5.3 Longitudinal waves 42 II. 5.4 Frequency spectrum 43 II. 5.5 Speed of mechanical waves 43 II. 5.6 Intensity and power 44 II. 5.7 Superposition and interference 44 II.5.8 Frequency content of a wave 45 II. 5.9 Reflection and refraction 47 11.5.10 Diffraction 49 11.5.11 Sonic booms 49 11.5.12 Resonance 50 11.5.13 Sonoluminescence 50 11.5.14 Radiation pressure 50 III Lithotripter shock waves 55 IV Shock wave generation and focusing 61 IV.1 Electrohydraulic shock wave generation 61 IV.2 Piezoelectric shock wave generation 67 IV.3 Electromagnetic shock wave generation 70 IV.3.1 Flat coil shock wave generators 70 IV.3.2 Cylindrical coil shock wave generators 71 IV.3.3 Self-focusing shock wave generators 72 IV.4 Other shock wave sources 73 V Shock wave comminution mechanisms 77 V.1 Spalling 78 V.2 Cavitata 80 V.3 Compression 83 V.4 Fatigue 84 VI Shock wave interaction with living tissue and cells 87 VII Recommendations for physicians 95 VIM Choosing a lithotripter 95 VI1. 1.1 The "best" lithotripter 95 VIM .2 Pressure field and electric energy 96 VII. 1.3 Fragmentation efficiency 97 Vll.1.4 The Shockwave generator 98 VII. 1.5 Imaging systems and patient positioning 101 VII. 1.6 Shockwave coupling devices 102 VII. 1.7 Lithotripters for pediatric and obese patients 103 VII.2 Selecting the dose 104 VII.3 Selecting the Shockwave rate 106 VII.4 Patient positioning and shock wave coupling 107 VII.5 Water treatment 113 VII.6 Conditions for good fragmentation 113 VII.7 Some contraindications 1 1 4 VIII Research 119 Vil I Л Research extracorporeal lithotripters 119 VHI.1.1 The UK research lithotripter 120 Vlll.1.2 MEXILIT research lithotripter 121 VIII.1.3 The US research lithotripters 122 VIII.1.4HM3 research lithotripter 122 VIII.2 Modified extracorporeal lithotripters 124 Vlll.2.1 Tandem shock wave lithotripters 125 VIII.2.2 Pressure-release Shockwave lithotripters 130 Vlll.2.3 Dual-phase shock wave lithotripters 131 VIII.3 Evaluation of Shockwave lithotripters 132 Vlll.3.1 Piezoelectric transducers 133 Vlll.3.2 Polyvinylidene difluoride gauges 133 Vlll.3.3 Optical-fiber hydrophones and light spot hydrophones 135 Vlll.3.4 Dual passive cavitation detectors 137 VIII.4 Pre-focal alignment 137 Vill.5 Prophylactic shock waves 138 VIII.6 CT attenuation number vs. fragmentation 139 V1I1.7 Bactericidal effect of lithotripters 142 VIII.8 Cell transfection and tumor therapy 145 VIII.9 Thrombus ablation 146 IX Other uses of shock waves in medicine 149 IX.1 Non-urological ESWL 149 IX.2 Orthopedic application of shock waves 150 IX.3 Treatment of Peyronie's disease 151 IX.4 Treatment of refractory angina pectoris 152 IX.5 Shock waves in ophthalmology 152 X Glossary 155 References 173
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spelling	Loske, Achim M. Verfasser aut Shock wave physics for urologists Achim M. Loske Querétaro Univ. Nacional Autónoma de México 2007 189 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Ondas de choque Urología Urologie (DE-588)4062158-3 gnd rswk-swf Extrakorporale Stoßwellenlithotripsie (DE-588)4191735-2 gnd rswk-swf Extrakorporale Stoßwellenlithotripsie (DE-588)4191735-2 s Urologie (DE-588)4062158-3 s DE-604 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016421686&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Loske, Achim M. Shock wave physics for urologists Ondas de choque Urología Urologie (DE-588)4062158-3 gnd Extrakorporale Stoßwellenlithotripsie (DE-588)4191735-2 gnd
subject_GND	(DE-588)4062158-3 (DE-588)4191735-2
title	Shock wave physics for urologists
title_auth	Shock wave physics for urologists
title_exact_search	Shock wave physics for urologists
title_exact_search_txtP	Shock wave physics for urologists
title_full	Shock wave physics for urologists Achim M. Loske
title_fullStr	Shock wave physics for urologists Achim M. Loske
title_full_unstemmed	Shock wave physics for urologists Achim M. Loske
title_short	Shock wave physics for urologists
title_sort	shock wave physics for urologists
topic	Ondas de choque Urología Urologie (DE-588)4062158-3 gnd Extrakorporale Stoßwellenlithotripsie (DE-588)4191735-2 gnd
topic_facet	Ondas de choque Urología Urologie Extrakorporale Stoßwellenlithotripsie
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