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100   $a20131217d2014      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
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183   $acr
200 10$aOptical devices in ophthalmology and optometry $etechnology, design principles and clinical applications /$fMichael Kaschke, Karl-Heinz Donnerhacke, and Michael Stefan Rill ; cover design, Simone Benjamin
210  1$aWeinheim, Germany :$cWiley-VCH,$d2014.
210  4$dİ2014
215   $a1 online resource (639 p.)
300   $aDescription based upon print version of record.
311 1 $a3-527-41068-6 
311 1 $a1-306-16892-9 
311 1 $a9783527648962 
320   $aIncludes bibliographical references and index.
327   $aCover; Title page; Contents; Preface; Part One; 1 Structure and Function; 1.1 Anatomy of the Human Eye; 1.2 Retina: The Optical Sensor; 1.2.1 Retinal Structure; 1.2.2 Functional Areas; 1.3 Recommended Reading; References; 2 Optics of the Human Eye; 2.1 Optical Imaging; 2.1.1 Entrance and Exit Pupils; 2.1.2 Cardinal Points; 2.1.3 Eye Axes; 2.1.4 Accommodation; 2.1.5 Resolution; 2.1.6 Adaption; 2.1.7 Stiles-Crawford Effect; 2.1.8 Depth of Field; 2.1.9 Binocular Vision; 2.1.10 Spectral Properties; 2.2 Schematic Eye Models; 2.2.1 Paraxial Model: The Gullstrand Eye; 2.2.2 Finite Wide-Angle Models
327   $a2.2.3 Applications of Eye Models2.3 Color Vision; 2.4 Recommended Reading; References; 3 Visual Disorders and Major Eye Diseases; 3.1 Refractive Errors; 3.1.1 Axial-Symmetric Ametropia: Myopia and Hyperopia; 3.1.2 Astigmatism; 3.1.3 Notations of Spherocylindric Refraction in Astigmatic Eyes; 3.1.4 Anisometropia; 3.1.5 Distribution of Refractive Errors; 3.1.6 Refractive Errors Caused by Diseases; 3.2 Cataract; 3.3 Glaucoma; 3.4 Age-Related Macular Degeneration; 3.4.1 ARM; 3.4.2 Dry AMD; 3.4.3 Wet AMD; 3.5 Diabetic Retinopathy; 3.6 Retinal Vein Occlusions; 3.7 Infective Eye Diseases
327   $a3.7.1 Trachoma3.7.2 Onchocerciasis; 3.8 Major Causes for Visual Impairment; 3.9 Major Causes of Blindness; 3.10 Socio-Economic Impact of Eye Diseases; 3.11 Recommended Reading; Problems to Chapters 1-3; References; Part Two; 4 Introduction to Ophthalmic Diagnosis and Imaging; 4.1 Determination of the Eye's Refractive Status; 4.2 Visualization, Imaging, and Structural Analysis; 4.3 Determination of the Eye's Functional Status; 4.3.1 Global Functional Status; 4.3.2 Local Functional Status; 4.4 Light Hazard Protection; References; 5 Determination of the Refractive Status of the Eye
327   $a5.1 Retinoscopy 5.1.1 Illumination Beam Path; 5.1.2 Observation Beam Path; 5.1.3 Measurement Procedure; 5.1.4 Accuracy in Retinoscopy; 5.1.5 Applications; 5.2 Automated Objective Refractometers (Autorefractors); 5.2.1 Common Characteristics of Autorefractors; 5.2.2 Measuring Methods; 5.2.3 Measurement Accuracy and Limitations of Automatic Refractometers; 5.3 Aberrometers; 5.3.1 Fundamentals of Aberrometry; 5.3.2 General Measurement Principles for Aberrometers; 5.3.3 General Remarks on Aberrometry; 5.3.4 Hartmann-Shack Wavefront Aberrometer (Outgoing Light Aberrometer)
327   $a5.3.5 Ingoing Light Aberrometers 5.3.6 Commercial Aberrometers; 5.4 Wavefront Reconstruction and Wavefront Analysis; 5.4.1 From Wavefront to Refraction (Wavefront Analysis); 5.4.2 Applications of Wavefront Analysis; 5.5 Excursus: Refractive Correction with Eye Glasses and Contact Lenses; 5.6 Recommended Reading; 5.7 Problems; References; 6 Optical Visualization, Imaging, and Structural Analysis; 6.1 Medical Magnifying Systems; 6.1.1 Optics of a Single Loupe; 6.1.2 Medical Loupes; 6.2 Surgical Microscopes; 6.2.1 Requirements for Surgical Microscopes; 6.2.2 Functional Principle
327   $a6.2.3 Modular Structure of Surgical Microscopes
330   $aMedical technology is a fast growing field. This new title gives a comprehensive review of modern optical technologies alongside their clinical deployment. It bridges the technology and clinical domains and will be suitable in both technical and clinical environments. It introduces and develops basic physical methods (in optics, photonics, and metrology) and their applications in the design of optical systems for use in medical technology with a special focus on ophthalmology. Medical applications described in detail demonstrate the advantage of utilizing optical-photonic methods. Exercises an
606   $aOftalmologia$xAparells i instruments$2lemac
606   $aOptometria$xAparells i instruments$2lemac
606   $aOphthalmology$xEquipment and supplies
606   $aOptometry$xEquipment and supplies
615  7$aOftalmologia$xAparells i instruments
615  7$aOptometria$xAparells i instruments
615  0$aOphthalmology$xEquipment and supplies.
615  0$aOptometry$xEquipment and supplies.
676   $a617.70028
700   $aKaschke$b Michael$0748042
701   $aDonnerhacke$b Karl-Heinz$0785310
701   $aRill$b Michael Stefan$0981485
701   $aBenjamin$b Simone$0961772
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910138987503321
996   $aOptical devices in ophthalmology and optometry$92240161
997   $aUNINA