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Handbook of Clinical Electrophysiology of Vision

Handbook of Clinical Electrophysiology of Vision

 
Edition number: 1st ed. 2019
Publisher: Springer
Date of Publication:
Number of Volumes: 1 pieces, Book
 
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Product details:
ISBN13:9783030304164
ISBN10:3030304167
Binding:Hardback
No. of pages:219 pages
Size:235x155 mm
Weight:601 g
Language:English
Illustrations: 26 Illustrations, black & white; 83 Illustrations, color
214
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Short description:

This book provides an analytical and thorough review of clinical electrophysiology of vision, and the progress made in the field in the past decade. Handbook of Clinical Electrophysiology of Vision is designed to aid the readers in understanding the types of electrophysiologic tests that should be used in specific diseases, how to explain the results of these exams, and how to perform the tests of clinical electrophysiology of vision. 

Concise in format, the Handbook of Clinical Electrophysiology of Vision is divided into two sections that discuss a wide range of relevant topics, such as technology of electroretinography, electrooculography, visual evoked potential, characteristics of electroretinography in retinal diseases, and the characteristics of optic nerve diseases. Part one begins with a discussion on the basic theory of electrophysiology of vision, illustrating physiologic sources of electrophysiological responses, the techniques of the recording, and analysis of electrophysiologic signals. Part two then dives into the clinical application of electrophysiology of vision, and subsequently summarizes the characteristics of the electrophysiological signals in a number of disorders of retina and optic nerve. 

Written by experts in the field, Handbook of Clinical Electrophysiology of Vision is an invaluable resource for ophthalmologists, optometrists, electrophysiologists, residents, fellows, researchers, technicians and students in ophthalmology, optometry and vision science.

Long description:

This book provides an analytical and thorough review of clinical electrophysiology of vision, and the progress made in the field in the past decade. Handbook of Clinical Electrophysiology of Vision is designed to aid the readers in understanding the types of electrophysiologic tests that should be used in specific diseases, how to explain the results of these exams, and how to perform the tests of clinical electrophysiology of vision. 

Concise in format, the Handbook of Clinical Electrophysiology of Vision is divided into two sections that discuss a wide range of relevant topics, such as technology of electroretinography, electrooculography, visual evoked potential, characteristics of electroretinography in retinal diseases, and the characteristics of optic nerve diseases. Part one begins with a discussion on the basic theory of electrophysiology of vision, illustrating physiologic sources of electrophysiological responses, the techniques of the recording, and analysis of electrophysiologic signals. Part two then dives into the clinical application of electrophysiology of vision, and subsequently summarizes the characteristics of the electrophysiological signals in a number of disorders of retina and optic nerve. 

Written by experts in the field, Handbook of Clinical Electrophysiology of Vision is an invaluable resource for ophthalmologists, optometrists, electrophysiologists, residents, fellows, researchers, technicians and students in ophthalmology, optometry and vision science.



?This is a well-written comprehensive text for those interested in the clinical electrophysiology of vision. It will also assist in treating degenerative or toxic retinopathies, monitoring treatment effect and side effect of medicines, and guidance to all levels of practitioners.? (Etienne M. Schönbach, Marwan Abdulaal, Lalita Gupta, Lily Kim and Shree K. Kurup, Graefe's Archive for Clinical and Experimental Ophthalmology, Vol. 258, 2020)

Table of Contents:
?PART 1.  Basic Theory of Electrophysiology of Vision
Chapter 1. ELECTRORETINOGRAMS
Donnell J. Creel and Minzhong Yu
1.1 Components of ERG.
1.2 Types of ERG
1.2.1 Full-field ERG
1.2.1.1. Dark-adapted rod-driven scotopic and mixed flash ERGs.
1.2.1.2. Light-adapted cone-driven ERG
1.2.2 Pattern ERG
1.2.3 Multifocal ERG
1.2.4 Focal flash ERG  
1.3 Electrodes, stimulation and recording methods 
1.3.1 ERG electrodes
1.3.2 Stimulation
1.3.3 Recording method
1.3.3.1 Dilation, dark-adaptation and topical anesthesia
1.3.3.2 Testing infants
1.3.4 Advanced analysis of ERG data
1.3.4.1. Intensity-response function of ERG b-wave
1.3.4.2. Oscillatory Potentials (OPs) Analysis
Chapter 2. VISUALLY EVOKED POTENTIALS
Donnell J. Creel and Minzhong Yu
2.1 Origins of VEP components
2.2 Electrode placement
2.3 Amplifier and analysis
2.4 Types of VEP
2.4.1. Steady-state and transient VEP
2.4.2. Flash and pattern VEP
2.4.3. Multifocal VEP
2.5 Clinical protocol
Chapter 3. Electrooculography (EOG) 
Donnell J. Creel and Minzhong Yu
3.1 Origin of EOG
3.2 Placement of recording electrodes, parameters of amplifier and stimulation
3.3 Recording procedure
PART 2.  Clinical Application of Electrophysiology of Vision
Chapter 4: Congenital non-degenerative retinal diseases
Wajiha Kheir, MD; Roberto Gattegna, MD; Minzhong Yu, PhD; Alessandro Racioppi, BS; Alfonso Senatore, MD; Donnell Creel, PhD;  Alessandro Iannaccone, MD, MS, FARVO
 4.1 Night Blinding disorders
4.1.1. Congenital stationary night blindness
4.1.2. Oguchi disease
4.1.3. Fundus albipunctatus
4.2. Photophobia disorders
4.2.1. Achromatopsia (ACHM) and Blue Cone Monochromatism (BCM)
4.2.2. Phenotypes associated with mutations in the paired box 6 gene 
Chapter 5. Macular dystrophies
Wajiha Kheir, MD; Minzhong Yu, PhD; Alfonso Senatore, MD; Roberto Gattegna, MD; Alessandro Racioppi, BS; Donnell Creel, PhD; Alessandro Iannaccone, MD, MS, FARVO
 5.1. Stargardt?s disease/fundus flavimaculatus. 
5.2. X-linked retinoschisis
5.3. Vitelliform macular dystrophy (Best?s disease)
5.4. Pattern Dystrophies/Macular pattern dystrophy (MPD)
5.5. Doyne?s Honeycomb Macular Dystrophy (Malattia Leventinese)  
5.6. Occult Macular Dystrophy 
5.7. North Carolina Macular Dystrophy (NCMD)
Chapter 6. Degenerative night-blinding disorders and cone and cone-rod dystrophies
Wajiha Kheir, MD;  Minzhong Yu, PhD; Alfonso Senatore, MD; Alessandro Racioppi, BS; Roberto Gattegna, MD; Donnell Creel, PhD; Alessandro Iannaccone, MD, MS, FARVO 
6.1. Retinitis pigmentosa
6.2. Leber's congenital amaurosis / EORP / SECORD
6.3. Enhanced S-Cone syndrome
6.4. Choroideremia
6.5. Gyrate atrophy of choroid and retina
6.6. Late onset retinal degeneration (L-ORD) 
6.7. Bietti?s crystalline dystrophy    
6.8. Cone dystrophies
6.9. Cone-rod dystrophies
Chapter 7. Syndromic disorders 
Alfonso Senatore, MD; Wajiha Kheir, MD; Minzhong Yu, PhD; Alessandro Racioppi, BS; Roberto Gattegna, MD; Donnell Creel, PhD; Alessandro Iannaccone, MD, MS, FARVO 
7.1. Hearing loss syndromes
7.1.1. Usher syndrome 
7.1.2. Refsum disease 
7.1.3. Wolfram syndrome (DIDMOAD) 
7.2. Mitochondrial diseases
7.2.1. Kearns-Sayre syndrome
7.2.2. Neuropathy-Ataxia-Retinitis Pigmentosa syndrome
7.2.3. Maternally-Inherited Diabetes and Deafness syndrome 
7.3. Obesity syndromes and 
7.3.1. Bardet-Biedl syndrome
7.3.2. Alström syndrome  
7.3.3. Cohen syndrome
7.4. Other Syndromes 
7.4.1. Cockayne syndrome
7.4.2. Alagille syndrome (arteriohepatic dysplasia)
7.4.3. Senior-Loken Syndrome 
7.4.4. Joubert Syndrome
7.5. Metabolic disorders
7.5.1. Abetalipoproteinemia (Bassen-Kornzweig syndrome) 
7.5.2. Neuronal Ceroid Lipofuscinoses (Batten?s disease)
7.5.3. Mucopolysaccharidosis 
Chapter 8. Characteristics of Visual Electrophysiology in Inflammatory Disorders
Alessandro Iannaccone, Alfonso Senatore, Wajiha Jurdi Kheir, Donnell J. Creel and Minzhong Yu
8.1. Acute zonal occult outer retinopathy (AZOOR)
8.2. Multiple Evanescent White Dot Syndrome
8.3. Acute posterior multifocal placoid pigment epitheliopathy (APMPPE)
8.4. Birdshot chorioretinopathy 
8.5. Autoimmune retinopathy and neuroretinopathy 
Chapter 9. Characteristics of Visual Electrophysiology in Retinal Toxicities
Minzhong Yu, Alfonso Senatore, Alessandro Iannaccone, Wajiha Jurdi Kheir, and Donnell J. Creel
9.1. Vigabatrin 
9.2. Hydroxychloroquine (Plaquenil) and chloroquine
9.3. Antipsychotics 
9.4. Cis-platinum
9.5. Deferoxamine
9.6. Digoxin
9.7. Ethambutol
9.8. Indomethacin
9.9. Isotretinoin
9.10. Ocular siderosis
9.11. Phosphodiesterase type (PDE) 5 inhibitors (Erectile dysfunction medication) 
9.12. Quinine
Chapter 10. Characteristics of Visual Electrophysiology in the Diseases of Optic Nerve or Visual Pathway
Minzhong Yu and Donnell J. Creel
10.1. Multiple sclerosis
10.2. Ischemic optic neuropathy
10.3. Optic neuritis
10.4. Optic nerve hypoplasia
10.5. Traumatic optic neuropathy
10.6. Neurofibromatosis
10.7. Optic nerve toxicities
10.7.1. Ethambutol
10.7.2. Neonatal hyperbilirubinaemia
10.7.3. Radiotherapy
10.8. Leber's hereditary optic neuropathy
10.9 Amblyopia
Chapter 11. Characteristics of Visual Electrophysiology in Albinism    
Donnell J. Creel, Minzhong Yu, and Alessandro Iannaccone