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E-raamat: Visual Perception: A Clinical Orientation, Fifth Edition (Paperback)

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  • Formaat: 320 pages
  • Ilmumisaeg: 30-Jun-2017
  • Kirjastus: McGraw-Hill Education
  • Keel: eng
  • ISBN-13: 9781259585029
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Visual Perception: A Clinical Orientation, Fifth Edition (Paperback)Suurem pilt
  • Formaat: 320 pages
  • Ilmumisaeg: 30-Jun-2017
  • Kirjastus: McGraw-Hill Education
  • Keel: eng
  • ISBN-13: 9781259585029
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The cornerstone text on visual science now more clinically relevant than everSELF-ASSESSMENT QUIZ IN EACH CHAPTER

A Doodys Core Title for 2024 & 2022! 









Through five acclaimed editions, this trusted text has bridged the gap between basic visual science and clinical application. The Fifth Edition continues this mission with a more streamlined presentation and an even greater focus on clinical relevancy. Wide in scope, the book covers every clinically important aspect of visual science, including color vision and its defects, spatial vision, temporal aspects of vision, psychophysics, physiology, and development and maturation of the visual system.

This edition has been dramatically enhanced, with all figures in beautiful full color and the addition of new clinical images (including color vision tests and fundus photographs).  All chapters have been thoroughly revised to reflect the latest advances in basic science, while increasing their clinical orientation.  You will also find self-assessment questions at the end of every chapter and current references from leaders in each subfield.

The information presented in Visual Perception, Fifth Edition cannot be found in any other single volume. The books unique linkage of basic science and clinical application makes it of value to optometric and ophthalmologic students, faculty, and researchers. If you require a comprehensive text on visual science that imparts fundamental concepts in an engaging and interesting style, your search ends here.

 
Foreword to Fifth Edition xi
Preface to Fifth Edition xiii
1 Experimental Approaches
1(2)
2 Introductory Concepts
3(24)
Very Basic Ocular Anatomy
3(3)
Basic Retinal Anatomy and Postretinal Pathways
6(14)
Electromagnetic Spectrum
20(3)
Transmission Characteristics of the Eye
23(1)
Summary
24(1)
Self-Assessment Questions
25(2)
3 The Duplex Retina
27(36)
Basic Distinctions Between Scotopic and Photopic Vision
28(1)
Morphological Distinctions Between Rods and Cones
28(3)
Photopigments in Rods and Cones
31(6)
Retinal Distribution of Photoreceptors
37(2)
Dark Adaptation
39(3)
Light Adaptation
42(2)
Spatial Resolution and Spatial Summation
44(2)
Temporal Resolution and Temporal Summation
46(3)
Stiles-Crawford Effect of the First Kind
49(3)
Additional Clinical Considerations
52(4)
Summary
56(2)
Self-Assessment Questions
58(5)
4 Photometry
63(20)
Photometry and Radiometry: Basic Concepts and Units
63(5)
Inverse Square Law
68(1)
Specification of Light Sources
69(3)
Filters
72(6)
Summary
78(1)
Self-Assessment Questions
79(4)
5 Color Vision
83(32)
Trichromatic Theory
83(9)
Molecular Genetics of Cone Photopigments
92(2)
Color Labels
94(2)
Wavelength Discrimination
96(1)
Color Constancy
97(1)
Physiological Basis of Color Vision
98(5)
CIE Color System
103(6)
Summary
109(1)
Self-Assessment Questions
110(5)
6 Anomalies of Color Vision
115(36)
Classification
115(2)
Basic Data of Inherited Red-Green Color Vision Anomalies
117(7)
Color Labeling
124(2)
Inheritance of Anomalous Color Vision
126(1)
Molecular Genetics of Red-Green Color Vision Anomalies
126(3)
Acquired Color Vision Anomalies
129(2)
Achromatopsias
131(1)
Chromatopsias
131(1)
Color Vision Tests
132(6)
Nagel Anomaloscope
138(3)
Additional Clinical Considerations
141(5)
Summary
146(1)
Self-Assessment Questions
147(4)
7 Spatial Vision
151(32)
Sine-Wave Gratings
151(4)
Spatial Modulation Transfer Function of a Lens
155(2)
The Human Contrast Sensitivity Function
157(1)
CSF High-Frequency Cutoff
157(5)
CSF Low-Frequency Drop Off
162(1)
The Visual System as a Fourier Analyzer
163(2)
Relationship of High-Frequency CSF Cutoff to Snellen Acuity
165(3)
High-Pass Visual Acuity
168(1)
Clinical Implications of the CSF
169(3)
Clinical Determination of the CSF
172(1)
Other Forms of Visual Acuity
173(4)
Summary
177(1)
Self-Assessment Questions
178(5)
8 Temporal Vision
183(14)
Stimulus Considerations
183(4)
Temporal Modulation Transfer Functions
187(3)
Masking
190(2)
Additional Clinical Considerations
192(1)
Summary
193(1)
Self-Assessment Questions
194(3)
9 Motion Perception
197(10)
Stimuli Used to Study Motion Perception
197(3)
Dorsal Processing Stream
200(1)
Roles of Luminance and Color
201(1)
Dynamic Visual Acuity
202(1)
Saccadic Suppression
203(1)
Additional Clinical Considerations
203(1)
Summary
204(1)
Self-Assessment Questions
205(2)
10 Depth Perception
207(16)
Monocular Depth Cues
207(7)
Binocular Depth Cues
214(2)
Size Illusions
216(2)
Additional Clinical Considerations
218(2)
Summary
220(1)
Self-Assessment Questions
221(2)
11 Psychophysical Methodology
223(22)
Threshold: Basic Concepts
223(2)
Threshold Determination
225(6)
Signal Detection Theory
231(4)
Weber's Law
235(6)
Summary
241(1)
Self-Assessment Questions
242(3)
12 Functional Retinal Physiology
245(22)
Receptive Fields of Ganglion Cells
245(7)
Photoreceptors
252(1)
Horizontal Cells
252(3)
Bipolar Cells
255(4)
Amacrine Cells
259(1)
Ganglion Cells
259(4)
Additional Clinical Considerations
263(1)
Summary
263(1)
Self-Assessment Questions
264(3)
13 Parallel Processing
267(12)
Parallel Retinocortical Pathways
267(5)
Functions of the Parvo and Magno Pathways
272(1)
Additional Clinical Considerations
273(2)
Summary
275(1)
Self-Assessment Questions
276(3)
14 Striate Cortex
279(18)
Basic Organization of the Cortex
279(2)
Simple and Complex Cells
281(6)
Edges or Gratings
287(1)
Striate Cortex Architecture
287(2)
Additional Clinical Considerations
289(4)
Summary
293(1)
Self-Assessment Questions
294(3)
15 Information Streams and Extrastriate Processing
297(18)
Information Diverges Beyond Striate Cortex
297(1)
Cortical Modularity
298(2)
Role of Area MT/V5 in Motion Perception
300(1)
IT and Form Perception
301(1)
A Word About Visual Attention
302(4)
Visual Agnosias
306(1)
Visual Neglect and Synesthesia
307(1)
Phantom Vision
308(1)
Are There Grandmother Cells?
308(1)
Can Vision Be Trained?
309(1)
Summary
310(1)
Self-Assessment Questions
311(4)
16 Gross Electrical Potentials
315(20)
Electrooculogram
315(2)
Electroretinogram
317(7)
Visually Evoked Potentials
324(7)
Summary
331(1)
Self-Assessment Questions
332(3)
17 Development and Maturation of Vision
335(38)
Deprivation Studies
335(5)
Amblyopia
340(6)
Meridional Amblyopia
346(2)
Perceptual Consequences of Bilateral Visual Deprivation
348(1)
Development of Myopia
349(3)
Development of Grating Acuity
352(4)
Development of Other Visual Capabilities
356(5)
Additional Clinical Considerations
361(1)
Vision in the Later Years
361(8)
Self-Assessment Questions
369(4)
Answers to Self-Assessment Questions
373(10)
Chapter 2 Introductory Concepts
373(1)
Chapter 3 The Duplex Retina
373(1)
Chapter 4 Photometry
374(1)
Chapter 5 Color Vision
375(1)
Chapter 6 Anomalies of Color Vision
376(1)
Chapter 7 Spatial Vision
376(1)
Chapter 8 Temporal Vision
377(1)
Chapter 9 Motion Perception
378(1)
Chapter 10 Depth Perception
378(1)
Chapter 11 Psychophysical Methodology
379(1)
Chapter 12 Functional Retinal Physiology
379(1)
Chapter 13 Parallel Processing
380(1)
Chapter 14 Striate Cortex
380(1)
Chapter 15 Information Streams and Extrastriate Processing
381(1)
Chapter 16 Gross Electrical Potentials
381(1)
Chapter 17 Development and Maturation of Vision
382(1)
References 383(28)
Index 411
Dr. Schwartz studied optics at the School of Optometry, University of California, Berkeley and has taught optics in both the basic curriculum and special Board review courses. He has co-chaired the Examination Development Commission, National Board of Examiners in Optometry.
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