Medical Imaging for Health Professionals: Technologies and Clinical Applications
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  • Wiley

More About This Title Medical Imaging for Health Professionals: Technologies and Clinical Applications

English

Describes the most common imaging technologies and their diagnostic applications so that pharmacists and other health professionals, as well as imaging researchers, can understand and interpret medical imaging science

This book guides pharmacists and other health professionals and researchers to understand and interpret medical imaging. Divided into two sections, it covers both fundamental principles and clinical applications. It describes the most common imaging technologies and their use to diagnose diseases. In addition, the authors introduce the emerging role of molecular imaging including PET in the diagnosis of cancer and to assess the effectiveness of cancer treatments. The book features many illustrations and discusses many patient case examples.

Medical Imaging for Health Professionals: Technologies and Clinical Applications offers in-depth chapters explaining the basic principles of: X-Ray, CT, and Mammography Technology; Nuclear Medicine Imaging Technology; Radionuclide Production and Radiopharmaceuticals; Magnetic Resonance Imaging (MRI) Technology; and Ultrasound Imaging Technology. It also provides chapters written by expert radiologists in well-explained terminology discussing clinical applications including: Cardiac Imaging; Lung Imaging; Breast Imaging; Endocrine Gland Imaging; Abdominal Imaging; Genitourinary Tract Imaging; Imaging of the Head, Neck, Spine and Brain; Musculoskeletal Imaging; and Molecular Imaging with Positron Emission Tomography (PET).

  • Teaches pharmacists, health professionals, and researchers the basics of medical imaging technology
  • Introduces all of the customary imaging tools—X-ray, CT, ultrasound, MRI, SPECT, and PET—and describes their diagnostic applications
  • Explains how molecular imaging aids in cancer diagnosis and in assessing the effectiveness of cancer treatments
  • Includes many case examples of imaging applications for diagnosing common diseases

Medical Imaging for Health Professionals: Technologies and Clinical Applications is an important resource for pharmacists, nurses, physiotherapists, respiratory therapists, occupational therapists, radiological or nuclear medicine technologists, health physicists, radiotherapists, as well as researchers in the imaging field.

English

Raymond M. Reilly, PhD, is a Professor and Director of the Centre for Pharmaceutical Oncology in the Leslie Dan Faculty of Pharmacy at the University of Toronto. He teaches the elective course "Medical Imaging for Pharmacists" for third year pharmacy students. Dr. Reilly has published 159 full research papers, 11 books or book chapters, and 137 abstracts. His areas of research are imaging and treatment of cancer using radiopharmaceuticals. His first book, Monoclonal Antibody and Peptide-Targeted Radiotherapy of Cancer, won first prize in the oncology category at the British Medical Association book awards in 2011.

English

Preface xxi

Acknowledgments xxiii

1 Introduction to Medical Imaging 2
Raymond M. Reilly

1.1 Medical Imaging Procedures 2

1.2 Radiation Doses from Medical Imaging Procedures 4

1.3 Summary 8

References 9

2 X‐Ray, CT, and Mammography Technology 11
Raymond M. Reilly

2.1 Introduction 11

2.2 X‐Rays 11

2.3 Radiography 15

2.4 Computed Tomography 16

2.5 Mammography 23

2.6 Summary 25

References 26

Additional Reading 26

3 Nuclear Medicine Imaging Technology 27
Raymond M. Reilly

3.1 Introduction 27

3.2 Scintillation Detectors 28

3.3 The Gamma Camera 31

3.4 Single Photon Emission Computed Tomography 37

3.5 Positron Emission Tomography 38

3.6 Multimodality Imaging – SPECT/CT, PET/CT, and PET/MR 41

3.7 Summary 42

References 42

4 Radionuclide Production and Radiopharmaceuticals 46
Noor Al‐saden and Raymond M. Reilly

4.1 Introduction 46

4.2 Production of Radionuclides 47

4.3 Radiopharmaceutical Preparation and Supply 57

4.4 Radiopharmaceuticals for Cardiac Imaging 58

4.5 Radiopharmaceuticals for Tumor Imaging 63

4.6 Radiopharmaceuticals for Brain/CNS Imaging 70

4.7 Radiopharmaceuticals for Renal Imaging 74

4.8 Radiopharmaceuticals for Hepatobiliary Imaging 76

4.9 Radiopharmaceuticals for Bone Imaging 77

4.10 Radiopharmaceuticals for Lung Imaging 79

4.11 Radiopharmaceuticals for Thyroid/Parathyroid Imaging 80

4.12 Radiopharmaceuticals for Imaging Infection/Inflammation 83

4.14 Summary 85

Reference 85

Additional Reading 85

5 Magnetic Resonance Imaging (MRI) Technology 87
Raymond M. Reilly

5.1 Introduction 87

5.2 Principles of MRI 87

5.3 Components of the MRI System 98

5.4 MRI Safety Considerations 100

5.5 MRI Contrast Agents 102

5.6 Summary 104

References 105

Additional Reading 105

6 Ultrasound Imaging Technology 107
Raymond M. Reilly

6.1 Principles of Ultrasound Imaging 107

6.2 Doppler US 111

6.3 US Contrast Agents 112

6.4 Summary 113

References 113

Additional Reading 113

7 Cardiac Imaging 117
Laura Jimenez‐Juan, Shaheeda Ahmed, and Katherine Zukotynski

7.1 Introduction 117

7.2 Cardiovascular Magnetic Resonance Imaging (CMR) 117

7.3 Cardiovascular MRI Techniques 118

7.4 Echocardiography 129

7.5 Nuclear Cardiology 133

7.6 Summary 140

References 140

8 Lung Imaging 146
Anastasia Oikonomou

8.1 Introduction 146

8.2 Chest Radiograph – Projections 146

8.3 Normal Findings in a Chest X‐Ray 148

8.4 Normal Findings in a Chest CT 155

8.5 Pneumonia 158

8.6 Tuberculosis 159

8.7 Chronic Obstructive Pulmonary Disease 163

8.8 Pleural Effusion 167

8.9 Pneumothorax 169

8.10 Pulmonary Embolism 170

8.11 Solitary Pulmonary Nodule 172

8.12 Lung Cancer 176

8.13 Summary 178

References 180

9 Breast Imaging 186
Hemi Dua and Jagbir Khinda

9.1 Introduction 186

9.2 Risk Factors for Breast Cancer 186

9.3 Guidelines for Breast Cancer Screening 187

9.4 Breast Anatomy 189

9.5 Imaging Techniques 191

9.6 Mammography 191

9.7 Ultrasound Imaging 197

9.8 Breast MRI 198

9.9 PEM and Breast‐Specific Gamma Camera Imaging 202

9.10 Contrast‐Enhanced Spectral Mammography 202

9.11 The ABCs of Breast Imaging – Image Interpretation 203

9.12 BI‐RADS Assessment Categories 209

9.13 Image‐Guided Breast Intervention 209

9.14 Extramammary Staging 219

9.15 Breast Lymphoscintigraphy 220

9.16 Summary 220

References 220

10 Endocrine Gland Imaging 225
Katerina Mastrocostas, Kim May Lam, Shereen Ezzat, and Sangeet Ghai

10.1 Introduction 225

10.2 The Thyroid Gland 225

10.3 Thyroid Hormone Diseases 227

10.4 Thyroid Cancer 240

10.5 The Parathyroid Glands 244

10.6 The Adrenal Glands 249

10.7 Mass Lesions of the Adrenal Cortex 250

10.8 Mass Lesions of the Adrenal Medulla 253

10.9 Other Neuroendocrine Diseases 255

10.10 Summary 259

Additional Reading 260

11 Abdominal Imaging 264
Vivek Singh and Chirag Patel

11.1 Introduction 264

11.2 Surgical Sieve 265

11.3 Peritoneum/Mesentery 265

11.4 Acute Peritoneal Pathologies 266

11.5 Gastrointestinal Tract 270

11.6 Inflammatory Bowel Disease 279

11.7 Colorectal Adenocarcinoma 282

11.8 Hepatic System 287

11.9 Diffuse Hepatic Disease 289

11.10 Focal Hepatic Disease 292

11.11 Biliary Tract 300

11.12 Gallbladder 301

11.13 Bile Ducts 304

11.14 Pancreas 306

11.15 Spleen/Lymph Nodes 313

11.16 Summary 316

Reference 317

Additional Reading 317

12 Genitourinary Tract Imaging 320
Sarah Johnson

12.1 Introduction 320

12.2 GU System Imaging Modalities 321

12.3 Evaluation of the Kidneys and Collecting Systems 328

12.4 Bladder and Urethra 343

12.5 Testicles 345

12.6 Prostate 348

12.7 Female Genitourinary Tract 350

12.8 Pediatric Genitourinary Tract 360

12.9 Summary 364

References 364

13 Imaging of the Head, Neck, Spine, and Brain 371
Laila Alshafai, Eugene Yu, and Sylvain Houle

13.1 Introduction 371

13.2 Imaging the Skull and Brain 372

13.4 Imaging the Head and Neck 390

13.5 PET and SPECT Neuroimaging 396

13.6 Summary 401

References 401

14 Musculoskeletal Imaging 404
Rakesh Mohankumar and Ali Naraghi

14.1 Introduction 404

14.2 Plain Radiography (X‐rays) 404

14.3 Computed Tomography 408

14.4 Magnetic Resonance Imaging 411

14.5 Ultrasound 413

14.6 Applications of Musculoskeletal Imaging 415

14.7 Summary 435

Additional Reading 435

15 Molecular Imaging with Positron Emission Tomography 439
Ur Metser, Noam Tau, and Amit Singnurkar

15.1 Introduction 439

15.2 PET Probes Including 18F‐FDG 440

15.3 18F‐FDG PET in Oncology 442

15.4 18F‐FDG PET in Non‐Oncology Indications 453

15.5 Overview of Other PET Radiopharmaceuticals 460

15.6 Multimodal Imaging – PET/CT Versus PET/MR 468

15.7 Summary 470

References 470

Index 485

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