Problem Solving in Neuroradiology, by Meng Law, MD, Peter M. Som, MD and Thomas P. Naidich, MD, is your survival guide to solving diagnostic challenges that are particularly problematic in neuroimaging. With a concise, practical, and instructional approach, it helps you apply basic principles of problem solving to imaging of the head and interventional neck, brain, and spine. Inside, you'll find expert guidance on how to accurately read what you see, and how to perform critical techniques including biopsy, percutaneous drainage, and tumor ablation. User-friendly features, such as tables and boxes, tips, pitfalls, and rules of thumb, place today's best practices at your fingertips, including protocols for optimizing the most state-of-the-art imaging modalities. A full-color design, including more than 700 high-quality images, highlights critical elements to enhance your understanding.
Apply expert tricks of the trade and protocols for optimizing the most state-of-the-art imaging modalities and their clinical applications used for the brain and spine-with general indications for use and special situations.
Make the most efficient use of modern imaging modalities including multidetector CT, PET, advanced MR imaging/MR spectroscopy (MRS), diffusion-weighted imaging (DWI), diffusion tensor imaging (DTI), and perfusion weighted imaging (PWI).
Successfully perform difficult interventional techniques such as biopsies of the spine and interventional angiography-key techniques for more accurately diagnosing cerebral vascular disease, aneurysm, and blood vessel malformations-as well as percutaneous drainage and tumor ablation.
Know what to expect. A dedicated section is organized by the clinical scenarios most likely to be encountered in daily practice, such as neurodegenerative disease, vascular disease, and cancer.
Avoid common problems that can lead to an incorrect diagnosis. Tables and boxes with tips, pitfalls, and other teaching points show you what to look for, while problem-solving advice helps you accurately identify what you see-especially those images that could suggest several possible diagnoses.
See conditions as they appear in practice thanks to an abundance of case examples and specially designed full-color, high-quality images which complement the text and highlight important elements.
Quickly find the information you need thanks to a well-organized, user-friendly format with templated headings, detailed illustrations, and at-a-glance tables.
1. Multi-detector Computed Tomography as a Problem Solving Tool in Neuroradiology
2. Magnetic Resonance Imaging as a Problem Solving Tool
3. Advanced MR (MR Spectroscopy, Diffusion Imaging, Diffusion Tensor Imaging and Perfusion Imaging): A Multiparametric Algorithmic Approach to Problem Solving in Neuroradiology
4. PET/CT Imaging in Squamous Cell Carcinoma of the Head and Neck
5. Diagnostic Angiography
6. Neurointerventional Radiology
7. Spine Procedures - Biopsies
8. Neurodegenerative Disorders
10. Metabolic Disorders
12. Brain Trauma
13. Imaging of Spine Trauma
14. Imaging of Congenital Brain Abnormalities
16. Neuroimaging of Pediatric Hypoxic-Ischemic Injury
17. Intrauterine and Perinatal Infections
18. Head and Neck Radiology
19. Spine: Tumors and Infection
20. Spine and Lower Back Pain
By Meng Law, MD; Peter M. Som, MD, Professor of Radiology, Otolaryngology, and Radiation Oncology, Department of Radiology, Mount Sinai School of Medicine; Chief of Head and Neck Radiology, Mount Sinai Hospital, New York, NY and Thomas P. Naidich, MD, Professor of Radiology; Professor of Neurosurgery; Professor, Center For Anatomy And Functional Morphology, Mt Sinai School of Medicine, New York, NY, US
276 x 216 (8 1/2 x 10 7/8)
Please allow 3 - 4 weeks for delivery.
"Problem Solving in Neuroradiology is a survival guide to solving diagnostic challenges that are particularly problematic in neuroimaging. With a concise, practical, and instructional approach, the text helps clinicians apply basic principles of problem solving to imaging of the head and interventional neck, brain, and spine. Clinicians find expert guidance on how to read what they see, and how to perform critical techniques including biopsy, percutaneous drainage, and tumor ablation.
There are none more qualified than these three primary authors to guide us through the many areas of neuroimaging. Their deep knowledge of the field and their love of teaching - imparting knowledge, combined with a firm foundation of the underlying anatomy of the brain, head and neck, and spine and the associated imaging techniques - results in a textbook that will appeal to all levels of radiologists, from trainee to attending physician. Who better than Tom Naidich to lead us through the intricacies of brain anatomy and to show us how important this knowledge is when applying advanced imaging protocols, or Peter Som to take the reader through the basics of head and neck imaging and address questions of a critical nature related to ENT radiology, or Meng Law to demonstrate the current state-of-the-art of neuroimaging. For years I have learned from them, and to this day I marvel at their command of the intricacies of neuroimaging. Congratulations to Drs. Law, Som, and Naidich, not only for conceiving this new way of presenting diagnostic imaging but also for offering to the neuroradiology and neuroscience community a book that will provide new insights into diagnosis and intervention in neurological diseases." - from the foreword by Robert M. Quencer, MD SirReadaLot.org