To order this title, and for more information, click here Second Edition
By William Benjamin, OD, MS, PhD, Professor of Optometry and Physiological Optics, Director of Clinical Research and Senior Scientist, Vision Science Research
Center, University of Alabama at Birmingham, School of Optometry, Birmingham, AL
Reviews
BOOK REVIEW William J. Benjamin, Editor, Irvin M. Borish, Consultant; Borish?s Clinical Refraction, second edition Butterworth-Heinemann
-Elsevier, 2006; hardbound, 1694pp, US$195, ISBN-13: 978?0?7506?7524?6 Barry Masters Received: 1 April 2008 / Accepted: 2 April
2008 # Springer-Verlag 2008 Visual acuity is taken for granted until it changes, and then it adversely affects our ability to
function. It is a supreme tribute to the clinical skills and the plethora of optoelectronic instruments that are available to optometrists
and ophthalmologists that they can determine the altered refraction that is required to restore normal visual acuity. Before
the era of photorefractive surgery, before the era of contact lenses, there were glasses (that is, two pieces of glass that are
polished in such a manner to achieve the required alteration in the light paths by the process of refraction), and they are mounted
in a frame to be worn on the bridge of the nose and the ears and thus remain stationary with respect to the visual axes of the
eyes. With eyeglasses, as compared to hand-held single lens magnifiers that were used for reading, the hands are free and the glasses
remain stationary with respect to movements of the head and the body. In the history of inventions, eyeglasses provide an example
of a simple idea that when properly implemented provides individuals with a great improvement in their quality of life. What is
the origin of high quality spectacles? In a thoroughly researched and beautifully illustrated new book, Renaissance Vision from
Spectacles to Telescopes (Philadelphia, American Philosophical Society, 2007) Vincent Ilardi provides new evidence that 15th century
Florence was the center for the production of high quality spectacles. While Venice during the same period also produced eyeglasses,
the emphasis was on items such as mirrors, vessels and similar objects that resulted in higher profits. The glass industry in Florence
existed from the early 13th century, and by the time of the middle of the 17th century it was producing high-quality glass that
even Venice could not surpass. We now jump from 15th century Florence to the present and introduce Borish?s Clinical Refraction,
Second Edition. For this edition, William J. Benjamin served as the editor, Irvin M. Borish served as consultant, and 58 clinicianscientists contributed
chapters. Both the editors and the contributors deserve acclaim for their scholarly and clearly written and superbly illustrated
chapters that comprise this one-volume tome on the principles and the clinical practice of refraction and associated subjects such
as color vision, contrast sensitivity, ocular motility, and visual fields. The extensive scope of this volume is indicated by additional chapters
on infants, toddlers, and children; patients with amblyopia and strabismus; patients with anisometropia and aniseikonia; patients
with high refractive error; patients with keratoconus and irregular astigmatism; the elderly; patients with low vision; and a final
chapter on the refractive effects of ocular disease. Borish?s Clinical Refraction provides the reader with two varieties of
information. First, the clear explanation of the science related to the relevant topic; the anatomy, the physiology, the biochemistry, the
neural pathways, the pharmacology, the optics, the materials and their optical and mechanical properties that comprise the lenses
of glasses and contact lenses. Second, the art of the appropriate clinical practice that involves the physical examination of the
eyes, clinical measurement of the optical properties of the visual system, measurements of the shape of the cornea, the aberrations
of the visual system, and the logical approach to select and fit the appropriate glasses or contact lenses, or the procedures of various
types of photorefractive surgery. The successful clinician needs to know both the basic science as well as the details of the procedures
that are required for the diagnosis and management of refractive eye conditions, and the reference book provides the principles
and the clinical procedures for the diagnosis and the management of refractive eye conditions. As expected, the bulk of the volume
is devoted to a detailed, critical and comprehensive treatment of the following topics: the examination of the visual system, the
various techniques to measure refraction, and the analysis and prescription of optical corrections. The strengths of Borish?s Clinical
Refraction include the following: (1) a single volume book that is up-to-date, clearly written, well illustrated, and comprehensive,
(2) the high quality black and white illustrations and the color illustrations and clinical photographs which provide graphical understanding
to the text, (3) the well-designed and easily read and understandable tables which summarize, compare and contrast various parameters
and procedures, (4) the full color clinical images which illustrate the pathology, clinical techniques, diagnostic readouts, diagnostic instruments,
and the optical principles, (5) the references which provide additional resources, and (6) a detailed index.. I now point out
the utility for clinical practice and the detailed exposition of the basic principles that are found in each chapter of Borish?s
Clinical Refraction. I will proceed by pointing out the significant features of two chapters, in order to illustrate the basis
of my evaluation of this book. Again, these examples serve as exemplars of the remaining chapters in the book. I begin with
the chapter on corneal topography. The shape of the anterior corneal surface is important for both the diagnosis and the management
of many ocular conditions. Because about two-thirds of the refractive power of the eye is located at the air/tear film interface that
is adjacent to the anterior surface of the cornea, it is important to be able to determine the shape of the cornea. If the cornea
was a portion of a sphere, the task would be simplified; of course, the human cornea is not spherical, and that is only the beginning
of the array of difficult problems that must be solved to design and calibrate an instrument that is capable of measuring the shape
of the cornea. It is of note that both Helmholtz and Gullstrand independently worked on the problem of designing an instrument
to measure the shape of the cornea. In modern times, the personal computer was used to calculate the shape of the cornea from a
target of concentric rings (Placido disk); the results depend on the assumptions and the limitations of the mathematical models
and the details of the calculation algorithm. The important points of this chapter are the discussion of the accuracy and the assumptions
that are implicit in the calculation of corneal shape. To emphasize these factors the authors have placed them in a summary box:
assumptions and limitations inherent in standard keratometry. For example, in the section on keratometer principles we learn that
the keratometer measures the radius of curvature of a small region of the central cornea. The value of this chapter is a critical
discussion of the assumptions and the limitations for each type of instrument that is used to measure corneal shape. I stress this
point, because so much of the commercial marketing literature either ignores or provides minimal discussion and evidence from peer-reviewed publications
that provide experimental data in support of the accuracy and the precision of a particular instrument. More modern instruments
use proprietary reconstruction algorithms to model the corneal surface. The Klein algorithm is presented as one solution to the
problems that are inherent in the older two-dimensional algorithms that were used in reconstruction of the corneal shape. The
highlights of the chapter on corneal topography are the critical and detailed discussions of the comparison of the various corneal-surface
descriptors, the comparison of the various videokeratoscopic instruments, the role of alignment, focus and reference planes, the
discussion of color maps and their interpretation, as well as the critical and important subject of the analysis of accuracy and repeatability.
Corneal topographical mapping is an important measurement system, and the data is presented in various color-coded forms: surface
elevation maps, dioptric corneal maps, axial curvature maps, instantaneous curvature maps and ray-tracing refractive power maps.
The authors present a critical evaluation of the various approaches for the display of topographical maps. Wavefront refraction
is the subject of another chapter that illustrates the exemplary features of Borish?s Clinical Refraction. Today it is possible
to measure optical aberrations over the entire pupil that are smaller than the wavelength of the incident light. The primary purpose
of wavefront aberrometers is to accurately measure the aberrations of the eye. This is particularly important for mitigating
the unwanted effects of spherical aberrations and coma that occur with refractive surgery. The goal of developing wavefront refraction
is to improve the precision and the accuracy of both autorefractors and subjective refraction for visible light. The wavefront
distortion is measured by the root-mean-squared wavefront error, and an eye is considered to be emmetropic if the total distortion over
the pupil is minimal. The most common form of wavefront sensor is the Shack-Hartmann wavefront sensor. This wavefront sensor measures
the slope or the spatial derivative of the wavefront; the integration of the wavefront slope yields the shape of the aberrated
wavefront. The authors provide excellent discussions of methods to interpret the wavefront aberration function, how to classify the
aberrations in terms of Zernike polynomials, and a comprehensive analysis of various metrics to access the optical quality of the
eye. Finally, they describe the challenge of using wavefront measurement to prescribe the most appropriate vision aids. In summary,
Borish?s Clinical Refraction is a modern, comprehensive, didactic approach to the principles and the clinical practice of refraction.
While the text emphasizes the examination of the eye and the visual system, the methods of refraction, and the prescription of
various types of spectacles and contact lens, there is also a detailed analysis and discussion of the field of refractive surgery
and prosthetic devices. The book is a useful textbook on the principles and the practice of refraction; the measurement and
analysis of refractive errors and the detailed steps to treat, manage, and prescribe spectacles or contact lenses that serve to
ameliorate the refractive errors and thus improve the quality of the patient?s lives. The second edition has many new features;
for example, an expanded chapter on patients with keratoconus and irregular astigmatism. An important section is devoted to the
special ocular conditions that are of importance to the clinician. In conclusion, I highly recommend this very practical book for
its honest, critical, comprehensive, and scholarly approach.
BOOK REVIEW-2 Borish?s Clinical Refraction,
2nd Edition William J Benjamin St Louis: Butterworth Heinemann Elsevier, 2006 1,694 pages, RPR $315.00 Reviewed by ALEXANDRA
JAWORSKI, Department of Optometry and Vision Sciences, The University of Melbourne E-mail: aaja@unimelb.edu.au I am compelled
to agree with the editor that, like many books, this second edition is better than the first. Beginning with the basics, this
book is smaller and has coloured pictures. More seriously, the extensive array of diagrams better illustrates clinical procedures,
underlying principles and clinical findings and generally makes the text more inviting. Despite the reduced thickness, the new
edition covers previously addressed topics pertaining to refractive error more comprehensively and in light of recent advances
in research and clinical optometry. You receive ?a set of steak knives? with this edition. Despite the title, more than refraction
is addressed. The book is organised into five sections: principles, adjunct examinations, the refraction, analysis and prescription
of optical corrections, and special conditions. Research and clinical optometrists will recognise many of the 45 authors who
provide the breadth of knowledge across the 37 chapters. Factors associated with refractive error, relationships between ocular
components, refractive changes in children and adulthood, progression of ametropias and control strategies are well reviewed.
These last two discussions provide a sizeable source of information to benefit patient management and serve as a good foundation for
patient advice regarding progression of ametropia. However, like most books, recent research findings are occasionally absent. Methods
of objective and subjective refraction at distance and near, including corneal topography, are particularly well discussed.
The inclusion of wavefront refraction is in keeping with advances in aberrometry that are aimed at improving vision beyond the
dioptre when correcting ametropia and which perhaps will be incorporated in more routine clinical examinations in the not too
distant future. Various forms of refractive correction are reviewed, including the optical and clinical considerations of single
vision lenses, multifocal lenses, contact lenses (including silicon hydrogels, options for presbyopes and RGPs) and surgical
strategies. Although corrective techniques and approaches are constantly changing, I found the review of surgical procedures informative.
General procedures, side effects, complications, contraindications and clinical features of marginal and good candidates are
covered; topics that are important when a patient presents with an interest in refractive surgery or we think we have identified
a suitable candidate. Chapters in the ?adjunction examinations? section cover additional clinical procedures to evaluate a patient?s
visual function, including visual field assessment, contrast sensitivity, colour vision and electrophysiology, in light of recent advances.
Ocular examination techniques of the anterior and posterior segments are detailed and compare well with books that focus solely
on general optometric procedures. These sections are particularly useful for third year to final year optometry students and
clinical instructors. Clear instructions on basic physical examination techniques are provided to identify systemic signs of
conditions that have ocular manifestations, and aid our diagnostic power. Regardless of whether systemic evaluation is actively
performed, the text and illustrations represent reminders of physical signs we may notice coincidently during the course of
an ocular examination. The final section addressing special conditions is a great concluding addition. It reiterates and
integrates important issues and clinical techniques discussed in previous chapters, which are appropriate for examining particular
patient populations, such as the elderly, children and patients with high refractive errors, low vision and keratoconus. The
final chapter on the refractive effects of ocular disease provides a nice summary, encompassing both ocular and systemic conditions,
to aid diagnosis and management of your patient, in light of their refractive error. The editor advises that this book was specifically
written for the qualified eyecare practitioner and advanced student. This pitch is achieved and as no other book covers the
breadth and depth found here, this edition qualifies as a valuable reference in our bookshelves. Students just commencing their
optometric training would find this book to be a worthwhile investment and a valuable resource for their subsequent student
and working years. The theoretical basis of many clinical procedures is provided, in addition to clear instructions on technique, expected
findings and factors that impact on these tests. The theoretical basis serves students and practitioners well, enabling both
to appreciate the rationale and application of alternative clinical tests and management.
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