"The availability of well-defined genetic strains and the ability to create transgenic and knockout mice makes mouse models extremely valuable biomedical tools. Their suitability as an experimental system for cardiovascular research depends on the individual investigator’s ability to manipulate the mice surgically. Many mouse models require microsurgical techniques, which hitherto could not be performed without practical training. This comprehensive handbook enables scientists to develop these models in their own laboratories.
A Handbook of Mouse Models of Cardiovascular Disease is the first book to address pathology in mouse models of heart disease, providing the reader with essential information on technical assays in artificially created models. It includes background information on individual cardiovascular diseases, describes detailed methods and materials used for establishing each mouse model, discusses the problems that may appear in the experiments, and provides examples of applications of the model.
A Handbook of Mouse Models of Cardiovascular Disease:
This handbook is an invaluable resource for researchers in cardiovascular disease, pathology, physiology, interested in the mechanism of vascular disorders and therapeutic approaches. It is also relevant to clinicians seeking to understand the pathology of cardiovascular disease and the rationale for interventions, and of interest to the pharmaceutical industry and all those involved in drug discovery/development for cardiovascular disease. "
Show more"The availability of well-defined genetic strains and the ability to create transgenic and knockout mice makes mouse models extremely valuable biomedical tools. Their suitability as an experimental system for cardiovascular research depends on the individual investigator’s ability to manipulate the mice surgically. Many mouse models require microsurgical techniques, which hitherto could not be performed without practical training. This comprehensive handbook enables scientists to develop these models in their own laboratories.
A Handbook of Mouse Models of Cardiovascular Disease is the first book to address pathology in mouse models of heart disease, providing the reader with essential information on technical assays in artificially created models. It includes background information on individual cardiovascular diseases, describes detailed methods and materials used for establishing each mouse model, discusses the problems that may appear in the experiments, and provides examples of applications of the model.
A Handbook of Mouse Models of Cardiovascular Disease:
This handbook is an invaluable resource for researchers in cardiovascular disease, pathology, physiology, interested in the mechanism of vascular disorders and therapeutic approaches. It is also relevant to clinicians seeking to understand the pathology of cardiovascular disease and the rationale for interventions, and of interest to the pharmaceutical industry and all those involved in drug discovery/development for cardiovascular disease. "
Show morePreface xi
List of Contributors xiii
1 Mice – general information 1
Hermann Dietrich
Historical perspective of house mice as laboratory animals 1
Maintaining and breeding of mice 3
Mouse genetics 5
Blood and bone marrow collection methods 7
Anesthesia and analgesia 7
Euthanasia 14
References 14
2 Naturally occurring variation among mouse strains
19
Weibin Shi and Aldons J. Lusis
Introduction 19
Mapping genes underlying quantitative traits 20
Dissecting QTLs using congenic strains 22
Testing candidate genes in QTL regions 24
Functional tests of candidate genes 26
From mouse to man 28
References 28
3 Transgenic and gene-targeted mice in the study of
hyperlipidemia 33
Yadong Huang
Introduction 33
Generation of transgenic mouse models 34
Generation of gene-targeted mouse models 36
Application of transgenic and gene-targeted mouse models in hyperlipidemia research 38
Acknowledgments 39
References 40
4 Bone marrow transplantation: the methodology and its
application in atherosclerosis research 43
Menno P.J. de Winther and Marten H Hofker
Introduction 43
Methods 45
Discussion and application 48
Conclusions 50
References 51
5 Hyperlipidemia-induced atherosclerosis 53
Alan Daugherty and Debra L. Rateri
Introduction 53
Induction of hyperlipidemia in mice 54
Mouse strain 56
Environmental factors 57
Gender 57
Analysis of atherosclerotic lesions 57
Determination of lesion composition 62
Statistical analysis 63
Conclusions 64
Acknowledgments 64
References 64
6 Magnetic resonance imaging evaluation of atherosclerotic
plaque 67
Martina A. McAteer, Jürgen E. Schneider and Robin P. Choudhury
Introduction 67
Imaging atherosclerosis with MRI 68
Mouse MRI 68
Materials and methods 69
Discussion 75
Application 76
Acknowledgments 76
References 76
7 Plaque rupture 79
Christopher L. Jackson
Introduction 79
Animals 79
Husbandry and welfare 81
Termination 81
Tissue processing 82
Morphological analysis 83
Morphometric analysis 84
Study design considerations 85
Summary 85
Acknowledgment 86
References 86
8 Perivascular cuff-, electronic and chemical injury-induced
stenosis 89
Nuno M.M. Pires, Margreet R. de Vries, Abbey Schepers, Daniel
Eefting, Jan-Willem H.P. Lardenoye and Paul H.A. Quax
Introduction 89
Materials and methods 92
Discussion 93
Application 94
References 100
9 Flow-induced vascular remodeling 103
Vyacheslav A. Korshunov and Bradford C. Berk
Introduction 103
Materials and methods 104
Discussion 107
Applications 108
References 110
Movie legends 111
10 Vein graft atherosclerosis 113
Yanhua Hu and Qingbo Xu
Introduction 113
Materials and methods 114
Discussion 119
Applications 120
Acknowledgments 122
References 122
11 Angiotensin II-induced aortic aneurysms 125
Yi-Xin Wang, Lisa A. Cassis and Alan Daugherty
Introduction 125
Methods 126
Discussion 133
Acknowledgments 133
References 134
12 Carotidojugular fistula 137
Yves Castier, Alain Tedgui and Stéphanie Lehoux
Introduction 137
Creation of the AVF 138
Hemodynamic and structural data 142
References 144
13 Applications to the study of stroke 147
Jacques Seylaz and Elisabeth Pinard
Introduction 147
Experimental preparation of mice 148
Methods 153
Applications 155
References 157
14 Identifying congenital heart defects in embryos using
high-resolution magnetic resonance imaging 159
Jürgen E Schneider and Shoumo Bhattacharya
Introduction 159
Identifying mouse cardiac malformations 160
Magnetic resonance imaging 160
Embryo MRI technique and analysis 161
Discussion 166
Applications 166
Pros and cons of ex vivo MRI 169
Acknowledgments 169
References 170
15 Allograft arteriopathy: heterotopic heart transplantation
and aortic interposition grafts 173
Koichi Shimizu and Richard N. Mitchell
Introduction 173
Murine models for AA 175
Murine heterotopic cardiac transplantation 177
Murine aortic interposition grafts 183
Translation to clinical investigation 187
References 189
16 Heart preconditioning analysis 193
Guang-Wu Wang, David A Liem, Steven Le and Peipei Ping
Introduction 193
Methods 194
Methodological considerations 198
References 200
17 Myocardial ischemia–reperfusion 203
Bernhard Metzler, Elisabetta Conci and Otmar Pachinger
Myocardial ischemia–reperfusion 203
Ischemia–reperfusion models 206
Measurement of infarction size 210
Electrocardiogram and in vivo left ventricular pressure–volume measurements 214
Different mouse types 215
Conclusion 217
References 217
18 Cardiac hypertrophy 221
David J. Grieve, Alison C. Cave and Ajay M. Shah
Introduction 221
Materials and methods 222
Summary 231
Acknowledgments 231
References 231
19 The retrogradely perfused isolated heart model 235
Mihaela M. Mocanu and Derek M. Yellon
Introduction 235
Langendorff system 235
Preparation of hearts for perfusion 237
Experimental protocol 241
Measurement of infarct size 242
Infarct size computation 243
General comments 244
Acknowledgments 244
References 244
20 Measurement of pulse wave velocity 245
Yi-Xin Wang
Introduction 245
Materials and methods 246
Discussion 249
Application 251
References 252
21 Gene transfer to dyslipidemic mice 255
Kazuhiro Oka, Andrew H. Baker and Lawrence Chan
Introduction 255
Mouse models of dyslipidemia 256
ApoB transgenic mice 263
Vectors for liver-directed gene transfer 263
Route or vector delivery 267
Conclusion 268
Acknowledgments 269
References 269
22 Hypertension 273
Daiana Weiss and W. Robert Taylor
Introduction 273
Pharmacological models of hypertension 275
Renal models of hypertension 278
Genetic models of hypertension 279
Measurement of blood pressure in mice 282
Summary 282
References 283
23 Ischemia-induced neovascularisation 287
Ken-ichiro Sasaki, Christopher Heeschen, Alexandra Aicher and
Stefanie Dimmeler
Introduction 287
Materials and methods 288
Discussion 296
Application 296
References 297
24 Angiogenesis in biomatrices and artificial materials
299
Pieter Koolwijk and Victor W.M. van Hinsburgh
Introduction 299
Materials and methods 300
Discussion 305
Application 307
Acknowledgments 308
References 308
25 Venous thrombosis 311
Alberto Smith, James Gossage, Matthew Waltham, Bijan Modarai and
Julie Humphries
Background 311
Models of thrombosis 313
The St Thomas’ model 314
References 319
26 Virus-induced vasculitis 321
Philippe Krebs and Burkhard Ludewig
Introduction 321
Materials and methods 322
Discussion 329
Application 329
References 330
27 Surgically induced chronic heart failure 333
Craig A. Lygate and Stefan Neubauer
Introduction 333
Materials and methods 336
Discussion 340
Applications 346
Conclusions 346
References 347
28 Cardiac electrophysiology 349
Sander Verheule, Toshiaki Sato and Jeffrey E. Olgin
Introduction 349
Anesthesia for adult mice 350
ECG recording and analysis 351
Transesophageal stimulation 352
Open chest epicardial measurements 354
Studies on Langendorff perfused hearts 357
Conclusion 360
References 361
29 Ligation- and wire injury-induced stenosis 363
Volkhard Lindner
Introduction 363
Materials and methods 364
Discussion 367
Acknowledgments 370
References 370
Index 373
Qingbo Xu. John Parker Professor of Vascular Biology, Department of Cardiac and Vascular Sciences, St George's Hospital Medical School.
Professor Xu has an excellent standing in the field of atherosclerosis with an outstanding scientific track record. He is part of a European Network of Excellence on vascular biology, which is a large consortium of experts. He is an expert in mouse models and in microsurgery. His group pioneers the study of heat shock proteins in atherogenesis and has established the first mouse model of vein graft atherosclerosis, which is proven to be powerful in studying the mechanisms of progenitor cells participating in atherosclerosis. Professor Xu’s group also generated the first PKC knockout mice and analysed protein profiles of cardiovascular cells in these mice.
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