Handbook of medical imaging : processing and analysis

In recent years, the remarkable advances in medical imaging instruments have increased their use considerably for diagnostics as well as planning and follow-up of treatment. Emerging from the fields of radiology, medical physics and engineering, medical imaging no longer simply deals with the technology and interpretation of radiographic images. The limitless possibilities presented by computer science and technology, coupled with engineering advances in signal processing, optics and nuclear medicine have created the vastly expanded field of medical imaging. The Handbook of Medical Imaging is the first comprehensive compilation of the concepts and techniques used to analyze and manipulate medical images after they have been generated or digitized. The Handbook is organized in six sections that relate to the main functions needed for processing: enhancement, segmentation, quantification, registration, visualization as well as compression storage and telemedicine.

Author Notes

Isaac Bankman is affiliated with Johns Hopkins University

I Enhancement

Fundametal Enhancement Techniques

Adaptive Image Filtering

Enhancement by Multiscale Nonlinear Operators

Medical Image Enhancement with Hybrid Filters

II Segmentation

Overview and Fundamentals of Medical Image Segmentation

Image Segmentation by Fuzzy Clustering: Methods and Issues

Segmentation with Neural Networks

Deformable Models

Shape Constraints in Deformable Models

Gradient Vector Flow Deformable Models

Fully Automated Hybrid Segmentation of the Brain

Volumetric Segmentation

Partial Volume Segmentation with Voxel Histograms

III Quantification

Two-dimensional Shape and Texture Quantification

Texture Analysis in Three Dimensions as a Cue to Medical Diagnosis

Computational Neuroanatomy Using Shape Transformation

Morphometry of Arterial Trees and Microvascular Networks

Image-Based Computational Biomechanics of the Musculoskeletal System

Three-Dimensional Bone Angle Quantification

Database Selection and Feature Extraction for Neural Networks

Quantitative Image Analysis for Estimation of Breast Cancer Risk

Classification of Breast Lesions in Mammograms

Quantitative Analysis of Cardiac Function

Image Processing and Analysis in Tagged Cardiac MRI

Image Interpolation and Resampling

IV Registration

The Physical Basis of Spatial Distortions in Magnetic Resonance Images

Physical and Biological Bases of Spatial Distortiobns in Positron Emission Tomography Images

Biological Underpinnings of Anatomic Consistency and Variability in the Human Brain

Spatial Transformation Models

Validation of Registration Accuracy

Landmark-based Registration using Features Identified Through Differential Geometry

Registration of Contours using Chamfer Matching

Within-Modality Registration using Intensity-Based Cost Functions

Across-Modality Registration using Intensity-Based Cost Functions

Talairach Space as a Tool for Intersubject Standardization in the Brain

Warping Strategies for Intersubject Registration

Optimizing the Resampling of Registered Images

Clinical Applications of Image Registration

Registration for Image-Guided Surgery

Image Registration and the Construction of Multidimensional Brain Atlases

V Visualization

Visualization Pathways in Biomedicine

Three-Dimensional Visualization in Medicine and Biology

Volume Visualization in Medicine

Fast Isosurface Extraction Methods for Large Image Data Sets

Morphometric Methods for Virtual Endoscopy

VI Compression Storage and Communication

Fundamentals and Standards of Compression and Communication

Medical Image Archive and Retrieval

Image Standardization in PACS

Quality Evaluation for Compressed Medical Images: Fundamentals

Quality Evaluation for Compressed Medical Images: Diagnostic Accuracy

Quality Evaluation for Compressed Medical Images: Statistical Issues

Three-Dimensional Image Compression with Wavelet Transforms

Medical Image Processing and Analysis Software

Index

Available:*

On Order

Summary

Summary

Author Notes

Table of Contents