Principles of Neuropsychology, Second Edition PDF

Summary

This book, "Principles of Neuropsychology, Second Edition," details the history, methods, and disorders involving neuropsychology. It delves into the functioning brain, including cells of thought, functional neuroanatomy, and various brain disorders. The book is authored by Eric A. Zillmer, Mary V. Spiers, and William C. Culbertson, and published in 2008.

Full Transcript

 Second Edition

PRINCIPLES
OF
NEUROPSYCHOLOGY

Eric A. Zillmer
Drexel University

Mary V. Spiers
Drexel University

William C. Culbertson
Drexel University

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 Principles of Neuropsychology, Second Edition
Eric A. Zillmer, Mary V. Spiers, William C. Culbertson
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ISBN-13: 978-0-495-00376-2
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 This book is dedicated to the memory of
Carl R. Pacifico
Drexel Alumnus, Class of ’44
Friend, Mentor, Benefactor
E.A.Z.

This book is dedicated to my father.
His guidance as a psychologist and his personal struggle with Parkinson’s disease
have brought some of my greatest lessons.
M.V.S.

This book is dedicated to
my wife and daughter, my greatest gifts.
W.C.C.
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 BRIEF CONTENTS

Part One Introduction 1
Chapter 1 A History of Neuropsychology 3
Chapter 2 Methods of Investigating the Brain 32
Chapter 3 Neuropsychological Assessment and Diagnosis 62

Part Two The Functioning Brain 91
Chapter 4 Cells of Thought 93
Chapter 5 Functional Neuroanatomy 114
Chapter 6 Cerebral Specialization 154
Chapter 7 Somatosensory, Chemical, and Motor Systems 176
Chapter 8 Vision and Language 199
Chapter 9 Memory, Attention, Emotion, and Executive Functioning 224

Part Three Disorders of the Brain 267
Chapter 10 Developmental Disorders of Childhood 269
Chapter 11 Learning and Neuropsychiatric Disorders of Childhood 297
Chapter 12 Cerebrovascular Disorders and Tumors 339
Chapter 13 Traumatic Head Injury and Rehabilitation 369
Chapter 14 Normal Aging and Dementia: Alzheimer’s Disease 399
Chapter 15 Subcortical Dementias 423
Chapter 16 Alterations of Consciousness 443

v
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 CONTENTS

Part One INTRODUCTION 1

Chapter 1 A History of Neuropsychology 3
Keep in Mind 4
Overview 4
The Brain in Antiquity: Early Hypotheses 5
Ancient Greek Perspectives 6
The Cell Doctrine 7
Anatomic Discoveries and the Role of the Spiritual Soul 8
Non-Western Attitudes 12
Localization Theory 13
Phrenology and Faculty Psychology 13
The Era of Cortical Localization 16
Critics of Cortical Localization 18
Localization versus Equipotentiality 20
Integrated Theories of Brain Function 20
Jackson’s Alternative Model 20
Luria’s Functional Model 21
Modern Neuropsychology 24
Emerging Research Areas in Neuropsychology 27
Forensic Neuropsychology 28
Sports Neuropsychology 28
Terrorism, Law Enforcement, and the Military 28
Summary 30
Critical Thinking Questions 30
Key Terms 30
Web Connections 30
Neuropsychology in Action
1.1 The Brain of a Nazi 15
1.2 Paul Broca: A Manner of Not Speaking 17
1.3 Sigmund Freud: The Neurologist 19
1.4 The Walter Freeman Lobotomies: Mind over Matter? 22

Chapter 2 Methods of Investigating the Brain 32
Keep in Mind 33
Overview 33
Neurohistology Techniques 34
Golgi Stain 34
Nissl Stain 34
Other Staining Techniques 35
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viii Contents

Radiologic Procedures 35
Skull X-Ray 36
Air Encephalography (Pneumoencephalography) 36
Computed Transaxial Tomography 36
Angiography 38
Sodium Amytal Injections (Wada Technique) 40
Electrophysiologic Procedures 40
Electroencephalography 40
Evoked Potential 44
Electrical Stimulation 45
Electromyography 47
Imaging of Brain Metabolism 47
Regional Cerebral Blood Flow 47
Single-Photon Emission Computed Tomography 48
Positron Emission Tomography 49
Magnetic Imaging Procedures 51
Magnetic Resonance Imaging 51
Magnetoencephalography 56
Cerebrospinal Fluid Studies: Lumbar Puncture 56
Behavioral Examinations 56
Neurologic Examination 56
Neuropsychological Evaluation 57
New Advances in Imaging Techniques: Mapping the Brain 57
Subtraction Procedures 57
Image Analysis and Quantification (Three-Dimensional) 57
Future Directions 58
Summary 60
Critical Thinking Questions 61
Key Terms 61
Web Connections 61
Neuropsychology in Action
2.1 Case Example of Brainstem Auditory-Evoked Response 46
2.2 Undergoing a Magnetic Resonance Imaging Procedure 52
2.3 New Frontiers in Functional Magnetic Resonance Imaging 54
2.4 Diagnostic Neuroimaging and Neuropsychology 59

Chapter 3 Neuropsychological Assessment
a n d D i a g n o s i s 62
Keep in Mind 63
Overview 63
General Considerations in Neuropsychological Testing 63
Why Testing? 64
Rationale of the Neuropsychological Examination 65
Appropriate Referrals for Neuropsychological Evaluation 66
Psychometric Issues in Neuropsychological Assessment 66
Reliability 67
Validity 67
False Positives and Base Rates 67
 Contents ix

Neuropsychological Tests 68
Orientation (Arousal) 69
Sensation and Perception 70
Attention/Concentration 71
Motor Skills 72
Verbal Functions/Language 73
Visuospatial Organization 74
Memory 75
Judgment/Problem Solving 76
Neuropsychological Diagnosis 78
Describing Function, Adaptation, and Prognosis 79
Interpreting Neuropsychological Assessment Data 79
Approaches to Neuropsychological Interpretation 80
Assessing Level of Performance 84
Deficit Measurement 86
Lateralizing Signs 88
Pathognomonic Signs (Qualitative Observations) 88
Summary 89
Critical Thinking Questions 89
Key Terms 89
Web Connections 89
Neuropsychology in Action
3.1 Case Example: The Neuropsychology of Lyme Disease 86

Part Two THE FUNCTIONING BRAIN 91

Chapter 4 Cells of Thought 93
Keep in Mind 94
Overview 94
Neurons and Glial Cells 94
Structure and Function of the Neuron 95
Glial Cells 99
Communication within a Neuron: The Neural Impulse 102
Resting Membrane Potential 102
Action Potential 102
Communication among Neurons 105
Structure of Synapses 105
Synaptic Transmission 105
Neurotransmitters 106
Regeneration of Neurons 110
Summary 112
Critical Thinking Questions 112
Key Terms 112
Web Connections 113
Neuropsychology in Action
4.1 Short-Circuiting Neurons: Multiple Sclerosis 98
4.2 Neuronal Firing: Clinical Examples 104
x Contents

4.3 What Can We Learn from Songbirds? 109
4.4 Stem Cell Research: Science and Ethics 110

Chapter 5 Functional Neuroanatomy 114
Keep in Mind 115
Overview 115
Anatomic and Functional Development of the Brain 116
Neurogenesis and Cellular Migration 116
Axon and Dendrite Development 117
Synaptogenesis 117
Myelination 117
Pruning 118
Regional Development 118
Lobular and Convolutional Development 118
Ventricular and Spinal Cord Development 119
Postnatal Development 120
Organization of the Nervous System 121
Peripheral Nervous System 122
Central Nervous System 122
Brain 122
Spinal Cord 123
Gross Anatomy: Protection and Sustenance of the Brain 124
Skull 125
Meninges 125
Ventricular System 127
Vascular System 131
Cerebral Arteries 132
Venous System 133
Principal Divisions of the Brain 133
Brainstem and Cerebellum 134
Lower Brainstem 137
Upper Brainstem: Diencephalon 141
Cerebellum 146
Telencephalon 147
Basal Ganglia 147
Limbic System 149
Corpus Callosum 151
Summary 152
Critical Thinking Questions 152
Key Terms 152
Web Connections 153

Chapter 6 Cerebral Specialization 154
Keep in Mind 155
Overview 155
The Cerebral Hemispheres 155
Structure 155
 Contents xi

Function 159
Asymmetry, Lateralization, and Dominance 161
Hemispheric Anatomic and Functional Differences 163
Neuropsychological and Behavioral Cerebral Differences 166
Sex Differences and Hemispheric Specialization 167
Sexual Hormones 171
Summary 175
Critical Thinking Questions 175
Key Terms 175
Web Connections 175
Neuropsychology in Action
6.1 The Evolution of the Brain: A Focus on Brain Size 156
6.2 A Land Where Girls Rule in Math 172

Chapter 7 S o m a t o s e n s o r y, C h e m i c a l ,
a n d M o t o r S y s t e m s 176
Keep in Mind 177
Overview 177
Somatosensory Processing 178
Chemical Senses 184
Taste 184
Smell 187
Motor Systems 189
Cortical Motor Processing 189
The Cerebellum and Motor Processing 195
Subcortical Motor Processing 195
Summary 197
Critical Thinking Questions 197
Key Terms 197
Web Connections 198
Neuropsychology in Action
7.1 Synesthesia: Melded Sensory Integration 179
7.2 Phantoms of Feeling 184
7.3 Tourette Syndrome: Too Much Behavior 196

Chapter 8 Vision and Language 199
Keep in Mind 200
Overview 200
Visual Processing 200
Primary Visual Processing 201
Higher Visual Processing: Object Recognition and Spatial Localization 204
Auditory and Language Processing 215
Primary Auditory Processing 215
Higher Auditory Processing: Speech and Language 215
Aphasia: A Breakdown of Language 219
xii Contents

Summary 221
Critical Thinking Questions 222
Key Terms 222
Web Connections 222
Neuropsychology in Action
8.1 Blindness: Helping Us See the Plasticity of the Brain 205
8.2 The Case of Jonathan 206
8.3 Case Study: Neglect 211

Chapter 9 M e m o r y, A t t e n t i o n , E m o t i o n ,
a n d E x e c u t i v e F u n c t i o n i n g 224
Keep in Mind 225
Overview 225
Memory Systems 225
A Framework for Conceptualizing Memory Systems 226
Long-Term Memory 227
Short-Term Memory and Working Memory 237
Attention 240
Subcortical Structures Influencing Attention 240
The Cerebral Cortex and Attention 241
Models of Attention 242
Executive Functioning 246
Development of Executive Functions 247
Frontal-Mediated Functions and Dysfunctions 252
Relation of Memory, Attention, and Executive Function 258
Neuropsychology of Emotional Processing 259
Brain Organization of Emotion 260
Summary 264
Critical Thinking Questions 264
Key Terms 265
Web Connections 265
Neuropsychology in Action
9.1 Amnesia: The Case of N.A. 227
9.2 Executive Function Tasks 248
9.3 The Case of Phineas Gage 255

Part Three DISORDERS OF THE BRAIN 267

Chapter 10 Developmental Disorders of Childhood 269
Keep in Mind 270
Overview 270
Vulnerability and Plasticity of the Developing Brain 270
Child and Adult Brain: Structural and Functional Differences 273
Specific Developmental Disorders 274
Abnormalities of Anatomic Development 274
Genetic and Chromosomal Disorders 281
Acquired Disorders 291
 Contents xiii

Summary 295
Critical Thinking Questions 295
Key Terms 295
Web Connections 295
Neuropsychology in Action
10.1 Principles of Assessment in Pediatric Neuropsychology 275

Chapter 11 Learning and Neuropsychiatric Disorders
o f C h i l d h o o d 297
Keep in Mind 298
Overview 298
Learning Disabilities 298
Verbal Learning Disability: Dyslexia 299
Nonverbal Learning Disability Syndrome 305
Pervasive Developmental Disorders 310
Autism 311
Disruptive Behavioral Disorders 322
Attention-Deficit/Hyperactivity Disorder 322
Tic Disorders 332
Gilles de la Tourette’s Syndrome 332
Summary 337
Critical Thinking Questions 337
Key Terms 338
Web Connections 338
Neuropsychology in Action
11.1 Genetics of Learning Disabilities 300
11.2 Case Study of an Adolescent with Asperger’s Syndrome 314
11.3 Case Study of a Child with an Attention-Deficit/Hyperactivity Disorder 327

Chapter 12 C e r e b r o v a s c u l a r D i s o r d e r s a n d Tu m o r s 339
Keep in Mind 340
Overview 340
Pathologic Process of Brain Damage 340
Brain Lesions 340
Anoxia and Hypoxia: Oxygen Deprivation to the Brain 341
Hydrocephalus 342
Overview of Cerebrovascular Disorders 342
Stroke Definition 343
Impairment of Blood Supply to the Brain 344
Types of Cerebrovascular Disorders 344
Transient Ischemic Attacks 344
Infarctions 345
Hemorrhage 346
Diagnosing Cerebrovascular Disease 347
Computed Transaxial Tomography 349
Angiography 349
Other Tests 349
xiv Contents

Treatment and Prognosis of Vascular Disorders 349
Factors Involved in Stroke Recovery 349
Medical Treatment 350
Preventing Stroke 350
Neuropsychological Deficits Associated with Stroke 351
Neuropsychological Risk Factors 351
Attention Deficits 352
Memory Problems 353
Deficits in Abstract Reasoning 353
Cognitive Deficits Associated with Right Brain Strokes 353
Cognitive Deficits Associated with Left Brain Damage 355
Anterior versus Posterior Strokes 356
Emotional and Behavioral Changes after a Stroke 356
Tumors of the Brain 357
Types of Intracranial Tumors 359
Infiltrating Tumors 359
Noninfiltrating Tumors 359
Childhood Tumors 361
Diagnosis of Brain Tumors 361
Treatment of Brain Tumors 362
Brain Tumors and Neuropsychology 363
Other Neurologic Disorders 363
Brain Abscess 363
Infections 363
Neurotoxins 365
Summary 367
Critical Thinking Questions 367
Key Terms 368
Web Connections 368
Neuropsychology in Action
12.1 Migraine Headache: A Vascular Disorder of the Brain 348
12.2 Case Example of a Left Stroke 354
12.3 Neuropsychology of Treatments for Individuals with Brain Tumors 364
12.4 Family and Child Adjustment to Cognitive Aspects of Cancer in Children 366

Chapter 13 Tr a u m a t i c H e a d I n j u r y a n d R e h a b i l i t a t i o n 369
Keep in Mind 370
Overview 370
Traumatic Head Injury 370
Epidemiology of Traumatic Head Injury 371
Mechanism of Impact: Neuronal Shearing, Stretching, and Tearing 371
Penetrating Head Injury 373
Closed Head Injury 373
Assessing the Severity of Brain Injury 375
Complications of Moderate and Severe Brain Injury 376
Edema 376
Brain Herniation 376
Extradural and Subdural Hemorrhage 377
 Contents xv

Intracranial Bleeding 378
Skull Fractures 378
Post-traumatic Epilepsy 379
Mild Head Injury: “Concussions” 379
Sports-Related Concussions: A Neuropsychological Perspective 381
Postconcussional Syndrome 385
Treatment of Head Injuries 385
Neuropsychological Manifestations 386
Recovery, Rehabilitation, and Intervention of Traumatic Brain Injury 388
Adaptation and Recovery 388
Diaschisis 388
Brain Reorganization 389
Overview of the Rehabilitation Process 389
Admission to Rehabilitation Programs 390
Evaluation of Goals and Discharge Planning 393
Treatment Planning 394
Assessment of Everyday Activities 394
Treatment Methods for Neuropsychological Rehabilitation 395
Psychotherapy in Rehabilitation 395
Summary 397
Critical Thinking Questions 398
Key Terms 398
Web Connections 398
Neuropsychology in Action
13.1 Case Study: Penetrating Head Injury 374
13.2 Can a Concussion Change Your Life? 380
13.3 Consensual Sex after Traumatic Brain Injury: Sex as a Problem-Solving Task 386
13.4 It Is More Than a Black Box 396

Chapter 14 Normal Aging and Dementia:
A l z h e i m e r ’ s D i s e a s e 399
Keep in Mind 400
Overview 400
Normal Aging 400
Cognitive Changes Associated with Aging 401
Brain Changes Associated with Aging 404
Mild Cognitive Impairment 405
Summary 406
Defining Dementia 406
Diagnostic Criteria for Dementia 407
Subtypes and Classifications of Dementia 408
Alzheimer’s Disease 409
Diagnostic Problem of Alzheimer’s Disease 409
Neuropathology of Alzheimer’s Disease 411
Histologic Markers 411
Clinical Presentation and Neuropsychological Profile of Alzheimer’s Disease 413
Treatment 420
xvi Contents

Treatments for Cognitive Enhancement 420
Cognitive, Behavioral, and Psychiatric Symptom Control 421
Summary 421
Critical Thinking Questions 421
Key Terms 422
Web Connections 422
Neuropsychology in Action
14.1 The Discovery of Alzheimer’s Disease 410
14.2 Differentiating between Symptoms of Alzheimer’s Disease and Normal Aging 414

Chapter 15 Subcortical Dementias 423
Keep in Mind 424
Overview 424
Parkinson’s Disease 424
Neuropathology of Parkinson’s Disease 424
Clinical Presentation and Neuropsychological Profile of Parkinson’s Disease 425
Treatments for Parkinson’s Disease 431
Huntington’s Disease 434
Neuropathology of Huntington’s Disease 434
Clinical Presentation and Neuropsychological Profile of Huntington’s Disease 435
Creutzfeldt–Jakob Disease 436
Neuropathology of Creutzfeldt–Jakob Disease 438
Clinical Presentation and Neuropsychological Profile of Creutzfeldt–Jakob Disease 439
Summary 441
Critical Thinking Questions 442
Key Terms 442
Web Connections 442
Neuropsychology in Action
15.1 Understanding Subcortical Dementia 426
15.2 Pallidotomy Surgery: A Case Report 432
15.3 Testing Fate: Would You Want to Know If You Were Going to Get
Huntington’s Disease? 435
15.4 Creutzfeldt–Jakob Disease and Mad Cow Disease: What’s the Connection? 438
15.5 The Neurologic Examination for Dementia 440

Chapter 16 Alterations of Consciousness 443
Keep in Mind 444
Overview 444
Understanding Consciousness 444
Mind and Brain 445
Anatomic Correlates of Consciousness 447
Rhythms of Consciousness 449
The Brain and Mind in Sleep 451
Sleep Architecture 451
Sleep Anatomy and Physiology 456
Reticular Activating System and Rapid Eye Movement Sleep 456
Functions of Rapid Eye Movement Sleep 459
Sleep Disorders 461
 Contents xvii

Runaway Brain: Seizure Disorders 463
Classification of Seizure Types 464
Neuroanatomy and Neurophysiology of Seizures 467
Neuropsychological Presentation 469
Treatment of Epilepsy 472
Summary 474
Critical Thinking Questions 474
Key Terms 474
Web Connections 475
Neuropsychology in Action
16.1 Self in the Mirror 446
16.2 The Case of the Last Coronation 450
16.3 Lucid Dreaming: A Paradox of Consciousness 453
16.4 Déjà Vu and Epilepsy 465
16.5 Epilepsy and the Case of the Sweeping Lady 468

References 477
Glossary 511
Answers to Critical Thinking Questions 539
Name Index 551
Subject Index 561
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 PREFACE

How can behavior make neuropsychological sense? That components, we believe it is most useful for aspiring prac-
is the question we try to answer when we teach neuropsy- titioners and researchers to obtain a comprehensive view
chology to our students. Like many teachers, we have had of each neurologic disorder with its multiple cognitive
the experience of observing instructors and examining components.
books on the topic of neuropsychology that presented the
material in an esoteric manner removed from real-life sit- 2. An emphasis on integrating theory and research
uations. Neuropsychology is an exciting and dynamic The integration of theory with studies of neuroanatomic
field that readily stimulates and inspires students and structure and functioning is central to a dynamic under-
teachers alike. It was with this goal in mind that we have standing of neuropsychology. In this respect, Principles of
written a progressive and accessible text on the study of Neuropsychology reviews general theories of brain function
neuropsychology. and specific theories of higher cortical functioning. A con-
The goal of Principles of Neuropsychology was to write ceptual understanding of brain function is important be-
an undergraduate or beginning graduate-level psychology cause it provides a foundation on which to base the study
textbook that teaches brain function in a clear, interest- of complex behavioral syndromes as they correspond to
ing, and progressive manner. The guiding thesis of Prin- brain regions and neuronal networks. Otherwise, nothing
ciples of Neuropsychology is that all interactions in daily more than the memorization of brain anatomy and corre-
life, whether adaptive or maladaptive, can be explained sponding behavioral correlates is achieved, and an inte-
neuropsychologically. Thus, the text challenges the reader grated understanding of neuropsychology remains out of
to consider behavior from a broader biological perspec- reach.
tive. This, in turn, leads to the conceptualization of a
more neuropsychologically oriented discipline within psy- 3. An emphasis on behavioral function
chology. In this respect, the text covers the role of the We give special attention to presenting the function of
brain in behavior as simple as a reflex and as complex as specific neuroanatomic structures. Students often do not
personality. Principles of Neuropsychology stresses the fol- absorb the tremendous amount of information presented
lowing specific ideas: in similar texts because the material is presented in isola-
tion, out of a psychological context. In this text, we pres-
1. An emphasis on human neuropsychology, experi-
ent basic neurobiology as it relates specifically to behav-
mental and clinical
ior. Using such a functional approach facilitates both the
Human neuropsychology is most appealing to psychology absorption and comprehension of the material.
students, given that approximately half of all professional
psychologists identify with a clinical or counseling spe- 4. A focus on presenting real-life examples
cialty. A major focus of Principles of Neuropsychology is to To facilitate the reader’s understanding of complex mate-
integrate the relatively new field of human clinical neu- rial and to augment specific points, Principles of Neuropsy-
ropsychology and compare it with what is known about chology includes numerous examples of clinical and nor-
the normal brain. mal cases, procedures, and classic research findings at
Rather than focus on a purely cognitive organization, strategic places in the text. Like many other teachers, we
which characterizes brain functioning and behavior ac- find that didactic information is better understood when
cording to specific aspects or components such as mem- “real-life” situations are used. Many of the cases and proce-
ory, attention, or executive functioning, we chose to focus dures draw on our clinical and research experiences, which
on disorders. Because neurologic disorders are multifaceted we accumulated in a variety of settings and services in-
and usually involve overlapping and interacting cognitive cluding state psychiatric hospitals, sleep centers, psychiatry
xix
xx Preface

departments, rehabilitation hospitals, and neurology and have integrated the latest studies and research to give stu-
neurosurgery services. Throughout the text, we feature dents the most up-to-date information in this dynamic
case examples and Neuropsychology in Action boxes, and expanding field. Furthermore, this edition includes
written by prominent neuropsychologists, that focus on an increased emphasis on neuroscience coverage to pro-
interesting current issues related to brain functioning. vide empirical data in support of the discussions of neu-
ropsychology. Clinical examples throughout the text are
5. The presentation of didactic aids updated in support of the new research in the developing
Principles of Neuropsychology differs from other texts on the field of neuropsychology. This second edition also pro-
didactic dimension, because it uses unique aids to facilitate vides additional chapters and coverage on topics of So-
learning. These aids include an Instructor’s Manual, which matosensory, Chemical and Motor Systems, Vision and
provides outlines, class exercises, additional reference mate- Language, and Memory, Attention, and Executive Func-
rials, and didactic information; Web support, which in- tioning. A reorganization of the material now places as-
cludes practice examinations, exercises, and additional refer- sessment methods of the brain, both medical and psycho-
ence materials; more than 200 illustrations in the text; color logical, at the beginning of the text to introduce students
illustrations; boldfaced Key Terms throughout the text, to this area early in their studies.
which are listed at the end of each chapter and again in the In summary, the intent of Principles of Neuropsychology
Glossary at the end of the text; a Keep in Mind section at is to discuss brain functions, neurophysiology, and neu-
the beginning of each chapter and Critical Thinking Ques- roanatomy in an integrated and accessible format. An in-
tions at the end of each chapter; and annotations on Web depth discussion on the relation among neuroscience,
sites, called Web Connections, at the end of each chapter. anatomy, and behavior is emphasized. Numerous exam-
The companion Web sites for students and instructors ples of clinical and real-life examples of neuropsychology
have been updated and expanded for the new edition with are provided, as is a focus on relevant scientific and theo-
a format that is easier to navigate. Now you will find retical contributions in the field of neuropsychology.
chapter-by-chapter glossaries and interactive flash cards, Unique to the study of neuropsychology is an organiza-
plus videos and more practice exercises. To access these tion of the material from history, assessment, neu-
features and more, visit http://www.thomsonedu.com/ roanatomy, to clinical assessment that makes intuitive and
psychology/zillmer. For instructors, the Instructor’s Manual didactic sense. To facilitate a dynamic understanding of
with Test Bank has been updated for the new edition and the field, the text emphasizes theory, functional process,
contains even more sample test items. Many of the figures case examples, and research, related to what has been
and tables from the book are available for instructors as learned about normal and neuropathological functioning.
PowerPoint® electronic transparencies. Approaching the field from this perspective challenges
This second edition was revised related to the many students to examine the field of neuropsychology as a
suggestions that we have received. Specifically, the authors framework for behavior.
 ABOUT THE AUTHORS

Dr. Eric A. Zillmer, a licensed Clinical Psychologist, Personality, published in 1995, has been summarized
received his Doctorate in Clinical Psychology from as the definitive psychological analysis of Third Reich
Florida Tech in 1984 and was subsequently war criminals. He is the coauthor of the d2 Test of
awarded the Outstanding Alumnus Award in 1995. Attention and the Tower of London test. Dr. Zillmer
Dr. Zillmer completed internship training at Eastern serves on the editorial boards of Journal of Personality
Virginia Medical School and a postdoctoral fellowship Assessment and Archives of Clinical Neuropsychology.
in clinical neuropsychology at the University of Vir- His most recent book is entitled Military Psychology—
ginia Medical School. A member of Drexel Univer- Clinical and Operational Applications (2006). Dr.
sity’s faculty since 1988, Dr. Zillmer is a Fellow of the Zillmer currently serves as the Director of Athletics
College of Physicians of Philadelphia, the American at Drexel University.
Psychological Association, the Society for Personality
Assessment, and the National Academy of Neuropsy- Dr. Mary V. Spiers is Associate Professor of Psychol-
chology, for which he has also served as President. He ogy in the Department of Psychology at Drexel Uni-
has written extensively in the area of sports psychol- versity and is a licensed Clinical Psychologist
ogy, neuropsychology, and psychological assessment, specializing in Neuropsychology. She earned her
having published more than 100 journal articles, book Ph.D. in Clinical Psychology from the University of
chapters, and books, and he is a frequent contributor Alabama at Birmingham, where she specialized in
to the local and national media on topics ranging medical psychology and neuropsychology. Dr. Spiers’s
from sports psychology, forensic psychology, to the research and clinical expertise is in two areas. The first
psychology of terrorism. The Quest for the Nazi area is neuropsychological assessment with a focus on
xxi
xxii About the Authors

everyday problems of memory. She has developed assessment and treatment of childhood and adolescent
tests to assess memory and cognitive problems in daily disorders, particularly those with attention-deficit/
medication taking. Recently, she has focused on the hyperactivity disorder. He received his doctorate degree
development of ecologically valid spatial memory tests from Rutgers University and completed a postdoctoral
within a virtual reality environment. Dr. Spiers’s second fellowship in neuropsychology at Drexel University.
area of focus relates to cognitive performance and strat- Dr. Culbertson’s research interests are in the assess-
egy differences related to sex and gender. She leads the ment of higher order problem-solving ability, specifi-
Women’s Cognitive Health Research Group at Drexel cally as it relates to assessing frontal lobe damage, and
University, whose aim is to investigate variation in brain executive functioning deficits. Dr. Culbertson has pub-
functioning through the influence of sex and gender, the lished in the field of neuropsychology (e.g., Assessment,
menstrual cycle, genetics/handedness, experience, and Archives of Clinical Neuropsychology) and presented at
culture. She regularly teaches Neuropsychology on both professional conferences. He is an Associate Visiting
the undergraduate and graduate levels. In addition, she Scholar at the University of Pennsylvania and has
has taught a variety of graduate courses related to clini- taught at Drexel University, both at the undergraduate
cal assessment and memory, including Neuropsycholog- and graduate level, including Counseling Psychology,
ical Assessment, Neuropsychological Case Analysis, and Developmental Psychology, Cognitive Psychology,
Models of Memory in Neuropsychology. Theories of Personality, and various Seminars in
Neuropsychology. He is a coauthor of the Tower of
Dr. William C. Culbertson is in private practice as a LondonDX, now in its second edition, which is a
Clinical Neuropsychologist who specializes in the neuropsychological measure of executive function.
 ACKNOWLEDGMENTS

This book could not have been written without the coop- efforts. Psychology undergraduate and graduate students
eration, assistance, and support of numerous individuals. who provided valuable research support on the first edi-
Many students, scholars, and friends listened to us, of- tion included Barbara Holda, Priti Panchal, Dan Rosenberg,
fered suggestions, and provided encouragement along the Holly Giordano, Stephanie Cosentino, Carrie Kennedy,
way. Many reviewers helped shape the book from begin- Melissa Lamar, and Cate Price. Drexel University students
ning to end. We are most grateful to the following review- in Dr. Spiers’s undergraduate and graduate neuropsychol-
ers for their generous contributions to this second edition: ogy classes provided valuable comments on both the
Joan Ballard, SUNY Geneseo; Jody Bain, University of structure and content of this second edition. Special
Victoria; Robert Deysach, University of South Carolina; thanks go to Karen Friedman, who coordinated reference
Kenneth Green, California State University Long Beach; updating in this second edition; to Heather McNiece,
Julian Keenan, Montclair State University; Ann Marie who coordinated the Key Terms and Glossary; and to
Leonard-Zabel, Curry College; Jim Nelson, Valparaiso Maiko Sakamoto, who assisted with the question bank.
University; Elizabeth Seebach, Saint Mary’s University of Appreciation also goes to our colleagues Sepp Zihl and
Minnesota; Pamela Stuntz, Texas Christian University; Karin Muenzel, both from the Ludwig-Maximilians
Benjamin Walker, Georgetown University; Arthur Wing- University, Institute für Neuropsychologie, in Munich,
field, Brandeis University; Nancy Zook, Purchase College Germany. Sepp and Karin allowed Dr. Zillmer to teach
SUNY. We would also like to thank those who con- neuropsychology in an international forum. Our discus-
tributed to the previous edition: Timothy Barth, Texas sions on neuropsychology have been most stimulating and
Christian University; Richard Bauer, Middle Tennessee inspiring and have provided a springboard for many issues
State University; Gary Berntson, Ohio State University; discussed in this text. We also want to acknowledge our col-
Thomas Fikes, Westmont College; Michael R. Foy, Loyola leagues Mark Chelder and Joelle Efthimiou, who have as-
Marymount University; Kenneth F. Green, California sisted us in the development of the Assessment of Impair-
State University Long Beach; Gary Hanson, Francis Marion ment Measure (AIM), which we have used extensively
University; Barbara Knowlton, University of California throughout the text to demonstrate the principles of neu-
Los Angeles; Paul Koch, St. Ambrose University; Mark ropsychological assessment.
McCourt, North Dakota State University; James Rose, Our friend Carl Pacifico played a special role in this
University of Wyomong; Lawrence Ryan, Oregon State venture. He reminded us of how important it is to think
University; Bennett Schwartz, Florida International Uni- about brain-behavior functioning within the context of
versity; Michael Selby, California Polytechnic Institute; evolution. Carl, ever the pragmatist, also shaped our
Frank Webbe, Florida Institute of Technology; and finally, thinking about the functional and applied aspects of neu-
the many reviewers who did not wish to be named. We ropsychology. We especially welcomed the occasions when
would also like to acknowledge those scholars who have we discussed neuropsychology and its relation to culture,
contributed Neuropsychology in Action boxes to this text. religion, and philosophy.
All of them are prominent neuropsychologists who have, Special recognition goes to key administrators at
going beyond the call of duty, given valuable time to make Drexel University. Former Dean of the College of Arts
Principles of Neuropsychology “come alive.” and Sciences Thomas Canavan provided encouragement
Drexel University psychology students played an im- for our doctoral program in neuropsychology at Drexel and
portant role in this project. They read initial chapters and assistance for the successful APA accreditation process. Con-
provided feedback, were willing to use early versions of stantine “Taki” Papadakis, President of Drexel University, is
the manuscript as their textbook in class, and provided acknowledged for revitalizing our university and, most
important research assistance. Simply put, this project importantly, making Drexel an exciting and fun place to
could not have been accomplished without their diligent teach and to do research.

xxiii
xxiv Acknowledgments

Our department faculty served as an important discus- daughter, Kanya, for their support. Dr. Spiers thanks
sion group, “think tank,” and sounding board; whether it her husband, Sean, for his patience and understanding.
was around the copying machine, in the hallways, or over Dr. Culbertson acknowledges his wife, Nancy, who
lunch, they allowed us to argue over the role of the brain provided countless hours of critical readings, tolerated his
and its relation to behavior. Thanks to Doug Porpora, absences during those periods when he needed to write,
David Kutzik, Tom Hewett, Elizabeth Petras, Arthur and was unwavering in her support.
Shostak, Doug Chute, Lamia Barakat, and Anthony Glas- We cannot think of having had better editors for this
cock. Dorota Kozinska, at the University of Warsaw, project. We thank the production editor, Dan Fitzgerald,
Poland, taught us the three-dimensional imaging of brains and the psychology editor, Erik Evans, assistant editor,
and provided state-of-the-art brain electrical activity map- Gina Kessler, and editorial assistant, Christina Ganim.
ping pictures. Erin D. Bigler, Professor of Psychology at They took our project seriously and forced us to focus on
Brigham Young University, and Frank Hillary, Assistant finishing a product of the highest quality. The assistance
Professor at Penn State University, generously provided of many individuals has enabled us to publish this second
three-dimensional images of the brain. Frank Ruben C. edition. We are grateful to all of them and have benefited
Gur and his research group at the Department of Psychi- from their understanding, criticism, and advice. Thank
atry, University of Pennsylvania, allowed us to use cere- you.
bral blood flow study pictures.
Any scholar with a family knows what it means to Eric A. Zillmer
write a book and attempt to maintain a normal family Mary V. Spiers
life. Dr. Zillmer is grateful to his wife, Rochelle, and his William C. Culbertson
 STRUCTURE-FUNCTION REL ATIONSHIPS

Spinal Cord
Brain Anatomic features: Spinal nerves and internal organization of the spinal cord (gray and white matter)
C2 Function: Relays information to and from the brain; responsible for simple reflexive behavior
C5
C3 Cervical 1
2
C4 T2 3 Sensory receptor
T3 4
T2 T4
5 Dorsal root
6
T5 7
C6 T6 8
T7
T8
Thoracic 1
2
C7 T9 3
T10 4
T11 5
C8
T1 T12 6 Ventral root
L1 7
8
9
10
L2
11
12
Muscle
Lumbar 1 Frontal
L3
2
3 Parietal bone bone
4 Bregma Coronal suture
Sacral
5 c. Pterion
L4
1
2
Sphenoid bone
3
L5 4
5 Squamosal suture
Glabella
S1 b. Lambda Zygomatic bone
Nasion
Nasal bone
a. Occipital bone
Lacrimal bone
Ethmoid bone
Lambdoidal suture
spinal cord
External occipital Maxilla
ganglion meninges protuberance
nerve (protective Asterion
vertebra coverings)
Temporal bone Mandible
External acoustic
meatus Mastoid
process Styloid Zygomatic arch
process Angle
of
mandible
Skull
(location of Anatomic features: A fused connection of bony plates covering the brain
intervertebral Function: Protection of the brain
disk)
Meninges
Anatomic features: Dura mater, arachnoid
membrane, and pia mater
Function: Protective covering of the central
nervous system, location of venous drainage, and Anterior Anterior
communicating artery cerebral artery
cerebrospinal fluid absorption
Internal carotid
artery
Lateral ventricles Middle cerebral artery
Third Posterior communicating
Superior artery
ventricle
cerebellar Posterior cerebral
artery artery

Pontine Basilar artery
arteries Labyrinthine artery
Vertebral artery
Cerebral
or Sylvanian Fourth Anterior inferior Anterior
aqueduct Central canal ventricle cerebellar artery spinal artery
of spinal cord
Posterior inferior
cerebellar artery
Ventricular System
Anatomic features: Lateral (1st and 2nd), 3rd, and 4th Vascular System
ventricles, choroid plexus, cerebral aqueduct, and arachnoid Anatomic features: Arteries, veins, circle of Willis
granulations Function: Arteries: nourishment; supply of oxygen and nutrients
Function: Balancing intracranial pressure, cerebrospinal fluid Veins: carrying away waste products
production, and circulation
(continued)

xxv
 STRUCTURE-FUNCTION REL ATIONSHIPS
Optic nerve
Thalamus Pineal gland (Cranial nerve II)
Superior
colliculus Midbrain
Inferior Midbrain
colliculus
Tectum Cranial nerve
Cranial nerve III IV
Tegmentum
Cranial nerve V
Pons
Pons
Posterolateral Cranial nerve VIII Cerebellum
Medulla VII
view of VI
brainstem IX
X
XI
XII Medulla
Lower Brainstem
Anatomic features:
Hindbrain: medulla oblongata (myelencephalon), Spinal nerve Spinal cord
pons (metencephalon)
Midbrain: tectum and tegmentum, cranial nerves, reticular
activating system Cranial Nerves
Function: Relays information to and from the brain; Anatomic features: Located within the brainstem
responsible for simple reflexive behavior Function: Conducting specific motor and sensory information

Cortex

Dorsomedial
nucleus

Suprachiasmatic Ventral lateral
nucleus nucleus
Reticular formation Cerebellum Ventral
posteriolateral
Brainstem nucleus Pulvinar nucleus
Lateral geniculate
body
Reticular Formation
Anatomic features: Neural network within the lower brainstem Thalamus
connecting the medulla and the midbrain Anatomic features: Thalamic nuclei and thalamocortical
Function: Nonspecific arousal and activation, sleep and wakefulness connections
Functions: Complex relay station—major sensory and
motor inputs to and from the ipsilateral cerebral
hemisphere

Paraventricular nucleus Dorsal
of hypothalamus hypothalamus

Anterior commissure Dorsomedial
Lateral hypothalamus hypothalamus
(behind plane of view)
Anterior hypothalamus Posterior hypothalamus
Preoptic area
Hypothalamus
Supraoptic nucleus Mammillary body Anatomic features: Hypothalamic nuclei, major fiber systems, and third
ventricle
Ventromedial Function: Activates, controls, and integrates the peripheral autonomic
Optic chiasm hypothalamus
mechanisms, endocrine activity, and somatic functions, including body
Anterior pituitary Posterior temperature, food intake, and the development of secondary sexual
pituitary characteristics

xxvi
 STRUCTURE-FUNCTION REL ATIONSHIPS

Putamen Caudate nucleus

Globus pallidus Thalamus
(lateral part) Subthalamic
Cerebellar nucleus
cortex Globus pallidus
(medial part) Substantia nigra
Deep cerebellar Fourth
nuclei ventricle
Pontine
nuclei
Cerebellum
Anatomic features: Cerebellar cortex, cerebellar white matter,
and glia Basal Ganglia
Function: Coordination of movements, posture, antigravity, Anatomic features: Structures of the caudate nucleus, putamen, globus
balance, and gait pallidus, substantia nigra, and subthalamic nuclei
Function: Important relay stations in motor behavior (such as the
striato–pallido–thalamic loop); connections form part of the
extrapyramidal motor system (including cerebral cortex, basal nuclei,
thalamus, and midbrain) and coordinate stereotyped postural and
reflexive motor activity

Fornix Corpus callosum
Anterior
nucleus
of thalamus
Limbic System
Anatomic features: Structures of the amygdala,
Septum hippocampus, parahippocampal gyrus, cingulate
gyrus, fornix, septum, and olfactory bulbs
Function: Closely involved in the expression of
Olfactory bulb Hippocampus emotional behavior and the integration of olfactory
information with visceral and somatic information
Amygdala
Mammillary body

Hypothalamus
Regulates basic
biological functions, Thalamus
including hunger, thirst, Switching station for
temperature, and sensory information;
sexual arousal; also also involved
involved in emotion in memory
Corpus callosum
Amygdala
Involved in memory,
emotion, and aggression Cerebellum
Controls coordinated
Hippocampus movement; also
Involved in learning, involved in language
memory, and emotion and thinking

Medulla Spinal cord
Controls vital Transmits signals
Corpus Callosum functions such as between brain
Anatomic features: A large set of myelinated breathing and heart rate and rest of body
axons connecting the right and left cerebral
hemispheres Cerebral Hemispheres
Function: Information exchange between the Anatomic features: Structures of the frontal, parietal, occipital, and temporal lobes
two hemispheres Function: Higher cognitive functioning, cerebral specialization, and cortical localization

xxvii
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 Part One

INTRODUCTION

Chapter 1 A History of Neuropsychology

Chapter 2 Methods of Investigating the Brain

Chapter 3 Neuropsychological Assessment
and Diagnosis
This page intentionally left blank
 Chapter 1

A HISTORY OF NEUROPSYCHOLOGY

I think, therefore I am.
—René Descartes, Discourse on Method
There is no ghost in the machine.
—Gilbert Ryle, The Concept of Mind

The Brain in Antiquity: Early Hypotheses
Localization Theory
Localization versus Equipotentiality
Integrated Theories of Brain Function
Modern Neuropsychology
Emerging Research Areas in Neuropsychology

Neuropsychology in Action
1.1 The Brain of a Nazi
1.2 Paul Broca: A Manner of Not Speaking
1.3 Sigmund Freud: The Neurologist
1.4 The Walter Freeman Lobotomies: Mind over Matter?
4 PART ONE | Introduction

Keep in Mind
Does our brain constitute a major aspect of who we are?
Is the brain the source of all behavior?
Where do we go when our brain dies?
What is a soul?

Overview
All the preceding questions concern the functions of the brain. The brain has evolved to play a particularly
significant role in the human body, not only in sustaining life, but also in all thought, behavior, and reason-
ing. It is the only organ completely enclosed by protective bony tissue, the skull, and it is the only organ that
cannot be transplanted and still maintain the person’s self. But how exactly does brain tissue generate and
constrain mental events?
Efforts to understand mind–body relationships and their relative contributions to health and well-being
extend back at least to the philosophies of Plato, Descartes, and Kant. Like many other sciences, neuropsy-
chology has evolved from related fields, most notably psychology, neurology, neuroscience, biology, and
philosophy. Psychology is the study of behavior; specifically, it seeks to describe, explain, modify, and pre-
dict human and animal behavior. Neuropsychology, a subspecialty of psychology, is the study of how com-
plex properties of the brain allow behavior to occur. Neuropsychologists study relationships between brain
functions and behavior; specifically, changes in thought and behavior that relate to the brain’s structural or
cognitive integrity. Thus, neuropsychology is one way to study the brain by examining the behavior it pro-
duces.
Humans read and write, compose music, and play sports. You would expect an organ that coordinates
and mediates all activity to have a huge number of components. And, in fact, the brain contains billions of
cells, or neurons, and an infinite number of possible connections among individual neurons, allowing us to
exchange complex information. This amazing pattern of connections determines how and what the brain
does. Understanding this network of neurons is the central focus of neuropsychology.
Neuropsychology has grown tremendously since the 1970s, and in the 1990s, it was the fastest grow-
ing subspecialty within psychology. Neuropsychologists lead the study of brain–behavior relationships and
are involved in the design and development of technologies to treat diseases of the brain. They are involved
in patient care and research on the brain and work in universities, research institutes, medical and psychi-
atric hospitals, correctional facilities, the armed forces, and private practice.
The study of neuropsychology currently is shaping our understanding of all behavior. But this has not
always been true. Many previous ideas about how the brain functions did not derive from scientific
evidence. In general, two doctrines have emerged. The first doctrine, vitalism, suggests that many behav-
iors, such as thinking, are only partly controlled by mechanical or logical forces—they are also partially self-
determined and are separate from chemical and physical determinants. Extreme proponents of vitalism
argue that spirits or psychic phenomena account for much observable behavior. Sigmund Freud’s psycho-
analysis would be a good example of this doctrine. The second doctrine, materialism, suggests that logical
forces, such as matter in motion, determine brain–behavior functions. Materialism, in its simplest form,
favors a mechanistic view of the brain (as a machine). Walter Freeman’s lobotomies embraced this idea.
The history of neuropsychology is shaped by these two opposing principles.
This introductory chapter provides grounding in the historical, theoretical, and philosophical aspects of
neuropsychology. By charting the work of noted scholars, this chapter traces the development of neuropsy-
chology from antiquity to the present.
 CHAPTER 1 | A History of Neuropsychology 5

The Brain in Antiquity: Why did our ancestors perform trephination (Figure 1.1)?
Did they have a reasonable understanding of the brain
Early Hypotheses and its relationship to behavior? Did they use this proce-
dure for medical reasons, such as trauma with swelling, or
Evidence from as long ago as the time of cave draw- for other reasons? Did practitioners avoid certain areas of
ings shows that people have long been aware of brain-be- the brain because they knew that permanent behavioral
havior relationships. The earliest neuropsychological in- problems or death were likely to follow?
vestigations recognized how diseases and blows to the Much debate focuses on the reason for trephinations.
brain affect behavior. For example, trephination is an an- Researchers have suggested that some cases may have in-
cient surgical operation that involves cutting, scraping, volved a medical reason, such as a skull fracture. Such in-
chiseling, or drilling a pluglike piece of bone from the juries presumably occurred during hand-to-hand fighting
skull. This procedure relieves pressure related to brain with stone-headed war clubs or perhaps as a result of a fall
swelling. Archaeologists have recovered several thousand unconnected with warfare. On some skulls, however, trephi-
such skulls worldwide. Many who underwent trephina- nation was performed on intact crania with no sign of vio-
tion clearly survived the operation, because many of the lence. Thus, some investigators suggest that trephination
skulls show evidence of healing (new callus tissue); other was a “magical” form of healing, perhaps for displays of
skulls show no signs of healing, so the patients died dur- bizarre behaviors, including what we would now recognize
ing or shortly after the operation. In some cases, the same as epilepsy or schizophrenia (Lisowski, 1967) (Figure 1.2).
skull was trephined more than once. One recovered skull Similar operations are important in modern neuro-
was found with seven boreholes, at least some of which surgery (Figure 1.3). Surgeons widely use two procedures.
were made on separate occasions. The first procedure, similar to the ancient Peruvian

Figure 1.1 Trephination scene in Peru. (Image reprinted with permission from Department of Anthropology, National
Museum of Natural History, Smithsonian Institution, Washington, D.C. Photo courtesy of the San Diego Museum of Man.)
6 PART ONE | Introduction

That surgeons today use an ancient surgical technique
that even modern doctors once thought controversial
underscores that people have often misinterpreted the his-
torical context in which ancient scientists proposed certain
ideas about the brain or performed specific procedures.
Most ideas about the brain make more sense when consid-
ered within the societal and cultural context in which they
were originally developed.

ANCIENT GREEK PERSPECTIVES
Classical Greeks wrote the first accounts of brain–behavior
relationships. Heraclitus, a philosopher of the sixth cen-
tury B. C., called the mind an enormous space with
boundaries that we could never reach. A group of schol-
ars, including the geometer Pythagoras (about 580–
500 B.C.), was the first to suggest that the brain is at the
Figure 1.2 Adult male skull showing multiple trephina- center of human reasoning and plays a crucial role in the
tions by the scraping method. Evidence of inflammation
indicates temporary survival. (Courtesy Mütter Museum, soul’s life. They described what is now called the brain
College of Physicians of Philadelphia.) hypothesis: the idea that the brain is the source of all
behavior.
technique of drilling a number of small holes, involves Hippocrates (460–377 B.C.), a Greek physician hon-
drilling a hole next to a depressed skull fracture to facili- ored as the founder of modern medicine (Figure 1.4), also
tate the elevation and removal of depressed bone frag- believed the brain controls all senses and movements. He
ments. Incidentally, modern neurosurgeons still use man- was the first to recognize that paralysis occurs on the side
ual drills, which allow them more control during the of the body opposite the side of a head injury, following
operation. The second surgical procedure drains internal the areas governed by the right and left hemispheres of
bleeding after a blow to the head. With a special drill bit, the brain. Hippocrates suggested that pleasure, merri-
the surgeon makes a hole over the site of the bleed. Then ment, laughter, and amusement, as well as grief, pain,
the surgeon screws a precisely machined bolt into the skull, anxiety, and tears, all arise from the brain (Haeger, 1988).
allowing excessive blood to drain from within the cranium. Furthermore, Hippocrates argued that epilepsy, once con-
This procedure reduces the intracranial pressure that is a sidered the “sacred disease” (because people thought the
major cause of death after a head injury (see Chapter 13). patient was possessed by gods or spirits), is, in fact, no
more divine or sacred than any other disease, but has spe-
cific characteristics and a definite medical cause. These
were bold propositions at a time when people thought
behavior was mostly under divine control. Hippocrates
and his associates could not, however, discuss exactly how
such brain–behavior relationships arose, perhaps because it
was then sacrilegious to dissect the human body, especially
the brain.
Plato (420–347 B.C.) suggested in The Republic that
the soul has three parts: appetite, reason, and temper. This
may have served as the model for Freud’s psychoanalytic
subdivision of the psyche into the id, ego, and superego
(see later discussion). Plato believed the rational part of
the tripartite soul lay in the brain, because it is the organ
closest to the heavens. Plato also discussed the idea that
Figure 1.3 Modern trephination. A surgical hole is
opened in the skull to relieve the intracranial pressure often health is related to harmony between body and mind.
associated with consequences of head trauma. (Courtesy Thus, historians credit Plato as being the first to propose
Jeffrey T. Barth, PhD, University of Virginia.) the concept of mental health.
 CHAPTER 1 | A History of Neuropsychology 7

THE CELL DOCTRINE
In Egypt, during the third and fourth centuries B.C., the
so-called Alexandrian school reached its height. Well-
known scientists worked in physiology and anatomy. They
gained considerable knowledge of the nervous system and
neuroanatomy from performing public dissections, which
the Ptolemaic rulers encouraged. Reports exist of scientists
actually vivisecting subjects—condemned criminals were at
the scientists’ disposal. These dissections allowed scientists
to notice different anatomic details, and they hypothesized
that specific parts of the brain control different behaviors.
Furthermore, they broke new ground by distinguishing
between ascending (sensory) and descending (motor)
nerves, and demonstrating that all nerves connect with the
central nervous system.
An interesting development during this time was the
erroneous suggestion that ventricular cavities within the
brain control mental abilities and movement. The ven-
tricular localization hypothesis postulated that mental
as well as spiritual processes reside in the ventricular
chambers of the brain. Indeed, gross dissection of the
brain shows that the lateral ventricles are the most strik-
ing features. Thus, brain autopsies might have led investi-
gators to conclude that these cavities contain animal spir-
its and are in large part responsible for mental faculties.
This hypothesis subsequently became known as the cell
doctrine (“cell” meaning a small compartment or ventri-
Figure 1.4 Hippocrates suggested that all thoughts and cle), a notion that endured for 2000 years. Leonardo da
emotions originated in the brain, not the heart, as Aristotle Vinci (1452–1519), an Italian painter, sculptor, architect,
had believed. Here, the ancient Greek physician opens his
and scientist, was a keen observer of anatomy. However,
book to one of his favorite axioms, “Life is short, and the art
is long.” (© Snark/Art Resource, NY.) many of his early drawings were not guided by his keen
scientific acumen, but instead by the inaccurate medieval
conventions of his times. For example, Figure 1.5 shows
one of his drawings based on a common, but inaccurate
Not all ancient philosophers believed in the impor- belief about spherical ventricles. According to the cell doc-
tance of the brain to behavior. Aristotle (384–322 B.C.), trine, foremost was the cell of common sense, where peo-
a disciple of Plato, was a creative thinker in fields as var- ple thought the soul resided and that connected to nerves
ied as ethics, logic, psychology, poetry, and politics, and leading to the eyes and ears.
he founded comparative anatomy. Aristotle, however, er- Today, people know that the cell doctrine is entirely in-
roneously believed the heart to be the source of all mental accurate. The ventricles are actually the anatomic site
processes. He reasoned that because the heart is warm and through which cerebrospinal fluid passes. This fluid pro-
active, it is the locus of the soul. Aristotle argued that be- tects the brain and facilitates the disposal of waste material.
cause the brain is bloodless, it functions as a “radiator,” It plays no role in thinking; in fact, a neurosurgeon friend
cooling hot blood that ascends from the heart. The influ- of ours conceptualizes it poetically as “the urine of the
ence of Aristotle’s so-called cardiac hypothesis proposing brain.” The cell doctrine was scientifically important pre-
the heart as the seat of such emotions as love and anger cisely because it was in error, and thus presented an obsta-
can still be seen in words such as heartbroken. Neverthe- cle to further inquiry that people did not overcome until
less, Aristotle’s view of nature and his anatomic findings centuries later. However, it did focus the medical commu-
dominated medical thinking and methods for the next nity on the brain and stimulated discussion of how behav-
500 years. ior, thought processes, and brain anatomy may be related.
8 PART ONE | Introduction

technologic achievement of his time, the Roman system
of aqueducts, which relied on hydraulic principles. Al-
though Galen believed the frontal lobes (Figure 1.7) are
the location of the soul, he supported the ventricular lo-
calization hypothesis, describing in detail how he imag-
ined human ventricles to look and function, based on his
studies of the pig and the ox. Galen believed that all phys-
ical function, including the brain, as well as the rest of the
body, depends on the balance of bodily fluids or humors,
specifically blood, mucus, and yellow and black bile,
which he related to the four basic elements—air, water,
fire, and earth, respectively. Given that people thought
the agent that causes sickness resides in blood, doctors
often bled patients as a curative procedure. Galen’s view
of humors became so ingrained in Western thought that
physicians barely elaborated on the role of the brain and
other organs, which remained largely unquestioned for
nearly the next thousand years. We still say “good humor”
or “bad humor” to describe someone’s mental disposition.
Terms such as melancholic (having frequent spells of sad-
ness) and choleric (having a low threshold for angry out-
bursts) also remain in our vocabulary (Figure 1.8).

ANATOMIC DISCOVERIES AND THE ROLE
Figure 1.5 Drawing by Leonardo da Vinci demonstrating, OF THE SPIRITUAL SOUL
inaccurately, the placement of three spherical ventricles in
accordance with the cell doctrine. (The Royal Collection During the thirteenth century, scientists began to take
© 2007, Her Majesty Queen Elizabeth II.) initial steps away from the ventricular theory. For exam-
ple, Albertus Magnus, a German Dominican monk, the-
orized that behavior results from a combination of brain
Together with Hippocrates, Galen (A.D. 130–201), a structures that includes the cortex, midbrain, and cerebel-
Roman anatomist and physician, stands out as a supreme lum (Figure 1.9).
figure in ancient medicine (Figure 1.6). Galen was un- Not until scientific inquiry by Andreas Vesalius
doubtedly the greatest physician of his time. By signifi- (1514–1564), however, were Galen’s anatomic mistakes
cantly advancing the anatomic knowledge of the brain, corrected, particularly those related to the role of the ven-
Galen distinguished himself as the first experimental tricles and their effect on behavior. Galen had initially
physiologist and physician. He identified many of the demonstrated the similar relative size of the ventricles in
major brain structures and described behavioral changes animals and humans, whereas Vesalius placed more em-
as a function of brain trauma. It was Galen’s misfortune, phasis on the relatively larger overall brain mass of hu-
however, that during his life the Roman authorities for- mans as responsible for mediating mental processes.
bade autopsies. He therefore based much of his clinical Through continual dissections and careful sci