Feigenbaum's Echocardiography
Feigenbaum's Echocardiography Feigenbaum's Echocardiography

Feigenbaum's Echocardiography

Publication Date: December 16, 2009
Availability: In Stock
ISBN/ISSN: 9780781795579
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The thoroughly revised Seventh Edition of Feigenbaum's Echocardiography reflects recent changes in the technology and clinical use of echocardiography. Highlights include over 1,600 illustrations, 600 in full color; detailed discussions on the use of three-dimensional echocardiography and perfusion imaging; and new information on the mechanics and utility of Strain and Strain rate imaging. Many new images complement the state-of-the-art information on technological advances. Current AHA/ACC guidelines are included for each chapter.

An accompanying DVD contains tutorials on echo interpretation with voiceover and animations.  (DVD and DVD contents are not included with the Kindle version) 

--NEW! Additional images complement new content on technologic advances
--NEW! Basic exam information for newer techniques, with a focus on 3D echocardiography
--NEW! Detailed content on the use of 3D echocardiography
--NEW! Details on perfusion imaging with many additional images; new guideline will be coming out after FDA approval of a new device
--NEW! Information about the mechanics and utility of Strain and Strain rate imaging
--NEW! Relevant AHA/ACC guidelines of note for each chapter
--A classic text--it remains the definitive reference for clinically relevant information on echocardiography
--Co-author Thomas Ryan is 2008 president of the American Society of Echocardiography
--Over 1,600 illustrations, 600 in full color
William F. Armstrong MD
Professor of Medicine, Director, Echocardiography Laboratory, University of Michigan Health System, Ann Arbor, MI

Thomas Ryan MD
Associate Professor of Medicine, Duke University Hospital, Durham, NC

Edition: 7
ISBN/ISSN: 9780781795579
Product Format: Hardbound
Trim Size: 8.375 x 10.875
Pages: 816
Pub Date: December 16, 2009
Weight: 5.35

Chapter 1 History of Echocardiography

  • Development of Various Echocardiographic Technologies
  • Recording Echocardiograms
  • Cardiac Sonographers
  • Echocardiographic Education and Organizations
  • References
  • Chapter 2 Physics and Instrumentation

  • Physical Principles
  • Interaction Between Ultrasound and Tissue
  • The Transducer
  • Manipulating the Ultrasound Beam
  • Resolution
  • Creating the Image
  • Transmitting Ultrasound Energy
  • Display Options
  • Tradeoffs in Image Creation
  • Signal Processing
  • Tissue Harmonic Imaging
  • Artifacts
  • Doppler Echocardiography
  • Biologic Effects of Ultrasound
  • Suggested Readings
  • Chapter 3 Specialized Echocardiographic Techniques and Methods

  • Imaging Devices and Methods
  • Doppler Interrogation
  • Doppler Tissue Imaging
  • Speckle Tracking
  • Tissue Characterization
  • Acquisition of Cardiac Ultrasound Information
  • The Digital Echo Laboratory
  • Suggested Readings
  • Chapter 4 Contrast Echocardiography

  • Source of Ultrasound Contrast
  • Contrast Agents
  • Clinical Use
  • Ultrasound Interaction with Contrast Agents
  • Detection Methods
  • Contrast Artifacts
  • Detection and Utilization of Intracavitary Contrast
  • Detection of Miscellaneous Conditions
  • Myocardial Perfusion Contrast Echocardiography
  • Suggested Readings
  • Chapter 5 The Echocardiographic Examination

  • Selecting the Transducers
  • Patient Position
  • Placement of the Transducer
  • An Approach to the Transthoracic Examination
  • Parasternal Long-Axis Views
  • Parasternal Short-Axis Views
  • Apical Views
  • The Subcostal Examination
  • Suprasternal Views
  • Orientation of Two-Dimensional Images
  • Echocardiographic Measurements
  • Left Ventricular Wall Segments
  • M-Mode Examination
  • Transesophageal Echocardiography
  • Transesophageal Echocardiographic Views
  • Echocardiography as a Screening Test
  • Training in Echocardiography
  • Suggested Readings
  • Chapter 6 Evaluation of Systolic Function of the Left Ventricle

  • General Principles
  • Linear Measurements
  • Two-dimensional Measurements
  • Regional Left Ventricular Function
  • Doppler Evaluation of Global Left Ventricular Function
  • Conclusion
  • Suggested Readings
  • Chapter 7 Evaluation of Left Ventricular Diastolic Function

  • Normal Diastolic Function
  • Stages of Diastolic Dysfunction
  • Echo-Doppler Parameters of Diastolic Function
  • A Comprehensive Approach to Diastolic Dysfunction
  • Estimating Left Ventricular Filling Pressures
  • Stress Testing to Assess Diastolic Function
  • The Differential Diagnosis of Heart Failure with Normal Ejection Fraction
  • Evaluation of Diastolic Dysfunction in Specific Patient Groups
  • Prognosis in Patients with Diastolic Dysfunction
  • Suggested Readings
  • Chapter 8 Left and Right Atrium, and Right Ventricle

  • Left Atrium
  • Atrial Septum
  • Pulmonary Veins
  • Right Atrium
  • Right Ventricle
  • Suggested Readings
  • Chapter 9 Hemodynamics

  • Use of M-Mode and Two-Dimensional Echocardiography
  • Quantifying Blood Flow
  • Clinical Application of Blood Flow Measurement
  • Measuring Pressure Gradients
  • Applications of the Bernoulli Equation
  • Determining Pressure Half-Time
  • The Continuity Equation
  • Proximal Isovelocity Surface Area
  • Abbreviated Table of Contents

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