I. Magnetophosphenes

1) Finding the Depth of Magnetic Brain Stimulation: A re-evaluation.
D. Rudiak and E. Marg
Electroencephalography & Clinical Neurophysiology., 93, 358-371, 1994.

2) Phosphenes induced by magnetic stimulation over the occipital brain: description and probable site of stimulation.
E. Marg and D. Rudiak
Optometry and Visual Science, 71/5, 301-311, 1994.

3) Magnetostimulation of vision: direct noninvasive stimulation of the retina and the visual brain
E. Marg
Optometry and Vision Science, 68/6, 427-440, 1991.

II. Imaging Visual Function

1) Shedding Light on Sight - Seeing Human Brain Function
E. Marg & Gary H. Glover
Optics and Photonics News, 16-22 July 1995.

2) Imaging visual function of the human brain
American Journal of Optometry and Physiological Optics, 65/10, 825-851 1988.

3) Positron-Emission Tomographic Study of Human Amblyopia With Use of Defined Visual Stimuli
Joseph L. Demer, Scott Grafton, Elwin Marg, John C. Mazziotta, Marc Nuwer
Journal of American Association for Pediatric Ophthalmology and Strabismus, 1/3, 158-171, 1997.

III. Visual Evoked Potentials and Infant Vision

1) Stimulus deprivation amblyopia in children: Sensitivity, plasticity and elasticity.
G.B. Jastrzebski, C.S. Hoyt, and E. Marg
Archives of Ophthalmology 102/7,1030-1034, July 1984.

2) Amblyopia and congenital esotropia: Visually evoked potential measurements.
C.S. Hoyt, G.B.Jastrzebski, and E. Marg.
Archives of Ophthalmology, 102, 58-68, Jan.1984.

3) Delayed visual maturation in infancy.
C.S. Hoyt, G.G. Jastrzebski, and E. Marg.
British Journal of Ophthalmology, 67, 127-130, 1983.

4) Superacuity in the spared eyes of monocular deprivation amblyopes: Visual evoked response measurements.
G.B. Jastrzebski, E. Marg, and C.S. Hoyt.
2nd International Symposium Advances in Diagnostic Visual Optics, Tucson, Arizona, Oct. 23-25, 1982, G.M. Breinin and I.M. Siegel, editors, 1983.

5) Acuity response curves to monocular occlusion: a computer simulation.
G.B. Jastrzebski, C.S. Hoyt, and E.Marg.
Proceedings XVI Annual Hawaii International Conference on System Sciences, Vol. II. 245-251, 1983.

6) Comparison of means and medians in the reduction of visual evoked potential data.
J.A. Comis, E. Marg, D.R. Brillinger, D.P. Rudiak, and E.L. Keller.
Proceedings of the XV Hawaii International Conference on System Sciences,Vol, II, 242-253, 1982.

7) Is the animal model for stimulus deprivation amblyopia in children valid or useful? Prentice Award Lecture.
American Journal of Optometry & Physiological Optics 59/6, 451-464,1982.

8) Eye patching and visual evoked potential acuity in children four months to eight years old.
J.V. Odom,C.S. Hoyt, and E. Marg.
American Journal of Optometry & Physiological Optics, 59/9, 706-717, 1982.

9) Long term visual results in bilateral congenital cataract.
S.S. Gelbart, C.S. Hoyt, G.B. Jastrzebski, and E.Marg.
American Journal of Ophthalmology 93/5, 615-621, 1982.

10) Good visual function after neonatal surgery for congential monocular cataracts.
R. Beller, C.S. Hoyt, E. Marg and J.V. Odom.
American Journal of Ophthalmology 91/5, 559-565, 1981.

11) Effect of natural deprivation and unilateral eye patching on visual acuity in infants and children: evoked potential measurements.
J.V. Odom, C.S. Hoyt, and E. Marg.
Archives of Ophthalmology, 99, 1412-1416, 1981.

12) A microprocessor-based system for visual evoked potential measurement.
R.E. Lash, C.C. Neroth, and E. Marg.
Proceedings of the XII Hawaii International Conference on System Science, Volume I, 210-213, 1979.

13) Visual evoked potentials in clinical optometry.
E. Marg and D.P. Rudiak.
California Optometrist 5, 27-28, 1979.

14) Visual acuity development in human infants: Evoked potential measurements.
E. Marg, D.N. Freeman, P.Peltzman, and P.J. Goldstein.
Investigative Ophthalmology 15/2, 150-152,1976.

15) Visual acuity and the sensitive period.
E. Marg and D.N. Freeman.
Information Processing in Visual System, Proceedings of the IV Symposium on Sensory Physiology, Leningrad, November 1-5, 1976. Reprinted in The Optician 172/4464, 29-32, 1976.

16) Visual assessment using the visual evoked response.
E. Marg and D.N. Freeman.
Proceedings of the San Diego Biomedical Symposium 16, 183-185, 1977.

17) Visual acuity development coincides with the sensitive period in kittens.
D.N. Freeman and E. Marg.
Nature 254/5501, 614-615, 1975.

IV. Automated (Computer) Refraction

1) Towards computer-assisted optometry. Simulated automatic visual acuity measurements for computer ophthalmic refraction.
E. Marg, G. Liberman, and E.R.F.W. Crossman.
Optometric Weekly 60/45, 17-20, 1970.

2) A computer-based automatic method for determining visual acuity.
E.R.F.W. Crossman, P.J. Goodeve, and E. Marg.
American Journal of Optometry and Archives of American Academy of Optometry 47/5, 344-355, 1970.

3) An information-theoretic analysis of clinical refraction.
E.R.F.W. Crossman, P.J. Nagarvala, and E. Marg.
American Journal of Optometry and Archives of American Academy of Optometry 48/5, 391-406, 1971.

4) An automatic, branching case-history taker for eye examination: Design and clinical evaluation.
E. Marg, E.R.F.W. Crossman, P.J. Goodeve, and H.Wakamatsu.
American Journal of Optometry and Archives of American Academy of Optometry 49/2, 105-11, 1972. Reprinted in Optometry Weekly 62, 25-30, 1971.

5) Optometrist's human and computer assistants.
E. Marg and R. Ng.
Journal of Occupational Medicine 14/5,357-362, 1972. Reprinted in Optometric Weekly 63/34, 829-837, 1972; and in the Australian Journal of Optometry 55/6, 1972.

6) Computer-assisted eye examination. I. Computer-actuated refractors. Fry Award Lecture.
American Journal of Optometry and Archives of American Academy of Optometry 50/8, 601-615,1973.

7) Computer-assisted eye examination. II. Visual evoked response meridional refractometry.
G. McCormack and E.Marg.
American Journal of Optometry and Archives of American Academy of Optometry 50/d11, 889-903, 1973.

8) Computer-assisted eye examination. III. Physiological indices for subjective refraction.
G. Hung and E. Marg.
American Journal of Optometry and Archives of American Academy of Optometry 50/12, 968-977, 1973.

9) Computer-assisted eye examination. IV. "Additive" lens systems in eye refractors.
M.M. Lang and E. Marg.
American Journal of Optometry & Physiological Optics 52/8, 533-540,1975.

10) Computer-assisted eye examination.V. Preliminary evaluation of the Refractor III system for subjective examination.
E. Marg, D.E. Johnson, K.W. Anderson, R.L. Baker, and C.C. Neroth.
American Journal of Optometry & Physiological Optics 54/1,2-18, 1977.

11) A reconsideration of visual evoked potentials for fast automated ophthalmic refractions.
C. Bostrom, E.L.Keller, and E. Marg.
Investigative Ophthalmology and Visual Science 17/2, 182-185, 1978.

12) Computer-assisted eye examination. VI. Identification and correction oferrors in the Refractor III system for subjective examination.
E. Marg, K.W. Anderson, K.O. Chung, and C.C. Neroth.
American Journal of Optometry & Phsiological Optics 55/4, 249-266, 1978.

13) Computer-assisted eye examination. VII. Final evaluation of the Refractor III system for subjective examination after reducing software and hardware errors.
E. Marg, K.W. Anderson, K.O. Chung, and C.C. Neroth.
American Journal of Optometry & Physiological Optics 55/5, 317-330, 1978.

14) Computer-assisted eye examination: Background and prospects.
With Contributions from A.G. Bennett, M.M. Lang,and R.D. Reinecke.
San Francisco Press, San Francisco, 1980.

V. Single Neural Unit Stimulation and Recording from the Human Brain and Functional Visual Prosthesis

1) A Rugged, Reliable and Sterilizable Microelectrode for Recording Single Units from the Brain
Elwin Marg
Nature, 202/4932, pp. 601-603, May 9, 1964.

2) Reported Visual Percepts from Stimulation of the Human Brain with Microelecrodes during Therapeutic Surgery
E. Marg and G. Dierssen
Confinia Neurological 26/2, 57-75, 1965.

3) The value of impedance measurements to aid in the localization in stereotaxic surgery
G. Dierssen and E.Marg.
Confinia Nerological 26/2, 407-410, 1965.

4) Somato sensory Reports from Electrical Stimulation of the Brain During Therapeutic Surgery
E. Marg and G Dierssen
Nature 212/5058, 188-189, 1966.

5) Indwelling multiple micro-electrodes in the brain
E. Marg and J.E. Adams
Electroencephalography and Clinical Neurophysiology 23, 277-280, 1967.

6) Receptive Fields of Cells in the Human Visual Cortex
E. Marg, J.E. Adams, and B. Rutkin.
Experientia24/4, 313-316, 1968.

7) The Jigsaw Puzzle of Visual Neurophysiology
Elwin Marg
In: Visual Science, Proceedings of the 1968 International Symposium, J.R. Pierce and J.R. Levene, eds., Indiana University Press, Bloomington, 31-39, 1971.

8) Neurophysiology of the Accessory Optic System
Elwin Marg
In: Handbook of Sensory Physiology, Volume VII, Central Visual Information, B, Chapter 15, R. Jung, ed., Springer, Berlin, 103-111,1973.

9) Measurement of Unit Activity in Various Systems of the Brain Postoperatively.
E. Marg, R. Chow, R.K.Perkins, E. Olsen, and C.B. Wilson.
Confinia Neurologica 32, 53-62,1970.

10) Evidence for a Neurological Zoom System in Vision from Angular Changes in Some Receptive Fields of Single Neurons with Changes in Some Receptive Fields of Single Neurons with Changes in Fixation Distance in the Human Visual Cortex
E. Marg and J.E. Adams.
Experientia 26/3, 270-272, 1970.

11) A Neurologic Approach to Perceptual Problems
In: Early Experience and Visual Information Processing in Perceptual and Reading Disorders. F.A. Young and D.B. Lindsley, eds., National Academy of Sciences, Washington, D.C., 151-156, 1970.

12) Recording from Single Cells in the Human Visual Cortex
In: Handbook of Sensory Physiology, Volume VII,Central Visual Information, B., Chapter 22, R. Jung, ed., Springer, Berlin, 441-449, 1973.

13) Some design aspects of a visual prosthesis system. In: Visual Prosthesis, T.D. Sterling, E.A., Bering,S.V., Pollack, and H.G. Vaughn, Jr., eds., Academic Press, New York, 241-247, 1971.

14) Design for a phosphene visual prosthesis
E. Marg, J. Fordemwalt, and J. Miner.
Brain Research 19, 502-509, 1970.

15) Chronic, single neuron recording from deep within the human brain.
E.Marg, W.W. Alberts, and B. Feinstein.
Proceedings of Neurophysiology Studies in Man, University of Paris, G.G. Somjen, ed., Exerpta Medica, Amsterdam, 14-17, 1972.

16) Electronic Design of a Phosphene Prosthesis
M. Leonhardt, D. Hodges, and E. Marg.
Proceedings of the SanDiego Biomedical Symposium 12, 247-259, 1973.

VI. Tonometry and Other Instrumentation

1) Aircraft periscopes fornavigation and search.
Minutes, National Research Council, Armed ForcesVision Committee, 1953 (Classified).

2) Aircraft flight by an optical periscope.
C.J. Campbell, L.J. McEachern, and E. Marg.
Journal of theOptical Society of America 46/11, 944-949, 1956.

3) Fast, Automatic Ocular Pressure Measurement Based on an Exact Theory
R. Stuart Mackay and Elwin Marg.
Acta Ophthalmologica 37/5, 495-507, 1959.

4) Electronic tonometer for glaucoma diagnosis.
R.S. Mackay and E. Marg.
Electronics 33/7, 115-116, 1960.

5) Fast automatic ocular pressure measurement based on an exact theory.
R.S. Mackay and E. Marg.
IRE Transactions of Medical Electronics ME 7/2, 61-67, 1960.

6) Automatic Tonometer with Exact Theory: Various Biological Applications
R.S. Mackay, E. Marg, and R.Oechsli
Science 131/3412, 1668-1669, 1960.

7) Corneal Bending and Buckling in Tonometry
E. Marg, R.S. Mackay, and R. Oechsli.
American Medical Association Archives of Opthalmology 65/1, 67-74, 1961.

8) A Servo-Method for Producing Equal-Quanta, Equal-Energy, or Equal-Response Spectra
R.M. Hill, R.Oechsli, and E. Marg
Journal of the Optometric Society of America 51,1139-1141, 1961.

9) Trough height, pressure, and flattening in tonometry.
E. Marg, R.S. Mackay, and R. Oechslsi.
VisionResearch 1/5-6, 379-385, 1962.

10) Evaluation of the basic validity and clinical usefulness of the Mackay-Marg tonometer.
R.A. Moses, E. Marg, and R. Oechsli.
Investigative Ophthalmology 1/1, 78-84, 1962.

11) Quartz Crystal Tonometer
R.S.Mackay, E. Marg, and R. Oechsli
Institute of Radio Transactions ofBiomedical Electronics, BME 9/2, 174, 1962.

12) Arterial and Tonometric Pressure Measurements in the Eye
R.S. Mackay, E. Marg, and R. Oechsli
Nature 194/4829, 687-688, 1962.

13) Ultrasonic echo imaging in eye research.
R.S. Mackay, G. Eilers, J. Horowitz, and E. Marg.
Digest of the15th Annual Conference on Engineering in Medicine and Biology, Chicago, November 5-7, 1962.

14) A report on Mackay-Marg tonometry in optometry.
Journal of the American Optometric Association 34/14, 962-965, 1963.

VII. Visual Neurophysiology and the Accessory Optic System

1) Conductive velocities in rabbit's optic nerve and some observations on antidromic retinal spikes.
R. Granit and E. Marg.
Proceedings of the Association for Research in Ophthalmology, San Francisco, 1958. American Journal of Ophthalmology 46/5, Part II, 223-231, 1958.

2) Responses of the posterior accessory optic to photic stimulation of the retina and electrical stimulation of the optic nerve in rabbit.
E. Marg, D.Hamasaki, and R. Giolli.
XXI International Congress of PhysiologicalScience, Buenos Aires, 1959.

3) An historical review of the accessory optic tracts.
D. Hamasaki and E. Marg.
American Journal of Optometry and Archives of American Academy of Optometry 37/2, 53-66, 1960.

4) Physiological nystagmus in the cat.
F.W. Hebbard and E. Marg.
Journal of the Optical Society of America 50/2,151-155, 1960.

5) Electrophysiological study of the posterior accessory optic tract-transpenduncular tract.
D. Hamasaki and E.Marg.
American Journal of Physiology 199/3, 522-528, 1960.

6) Microelectrode study of accessory optic tract in the rabbit.
D. Hamasaki and E. Marg.
American Journal of Optometry of Physiology 202/3, 480-486, 1962.

7) Single-cell responses of the nucleusof the transpeduncular tract in rabbit to monochromatic light on the retina.
R.M. Hill and E. Marg.
Journal of Neurophysiology 26, 249-257,1963.

8) The accessory optic system.
Annals of the New York Academy of Sciences 117/1, 35-52, 1964.

9) Zoom neurons in visual cortex; receptive field enlargements with near fixation in monkey.
J.D. Smith and E. Marg.
Experientia 31/323, 1975.

10) Tranformation of Horsley-Clarke coordinate for electrode implantation experiments in stereo-taxic surgery.
C.C. Neroth, M. Simmons, and E. Marg.
Computer and Biomedical Research 8/2, 1975.

VIII. Ocular Electronystagmography and Electroretinography

1) Development of electro-oculography. Standing potential of the eye in the registration of eye movement.
Archives of Ophthalmology 45/2, 169-185, 1951.

2) The effect of the stimulus size and retinal illuminance on the human electroretinogram.
American Journal of Optometry and Archives of American Academy of Optometry 30/8, 417-433,1953.

3) Localized electro retinograms from isolated poikilothermic retinas with macroelectrodes.
E. Marg and G.G.Heath.
Science 122/3182, 1234-1235, 1955.

4) Localized electroretinograms from the isolated retina of the frog.
D. Hamasaki and E. Marg.
Journal of the Optical Society of America 48/6, 418-421, 1958.

5) An electromyographic study of asymmetric convergence.
E. Tamler, A.Jampolsky, and E. Marg.
Proceedings of the Association for Research in Ophthalmology, San Francisco, June 23-26, 1958. American Journal of Ophthalmology 46/5, Part II, 174-181, 1958.

6) Elements of human extraocular electromyography.
E. Marg, A. Jampolsky, and E. Tamler.
Archives of Ophthalmology 61/2, 258-269, 1959.

7) An electromyographic study of coactivity of human extraocular muscles in following movements.
E. Tamler, E. Marg, and A. Jampolsky.
Archives of Ophthalmology 61/2, 270-273,1959.

8) Artifacts and normal variations in human ocular electromyography.
A. Jampolsky, E. Tamler, and E. Marg.
Archives of Ophthalmology 61/3, 402-431, 1959.

9) Electromyography in strabismus.
E. Tamler, A. Jampolsky, and E. Marg.
California Medicine 90, 438-537, 1959.

10) Activity of the oculorotary muscles during tonometry and tomography.
W. Kornblueth, A. Jampolsky, and E. Marg.
Archives of Ophthalmology 62/4, 555-561, 1959.

11) Electromyography of human saccadic eye movements.
E. Tamler, E. Marg, A. Jampolsky, and I. Nawratzki.
Archives of Ophthalmology 62/4, 657-661, 1959.

12) Electromyographic study of following movements of the eye between tertiary positions.
E. Tamler, A. Jampolsky,and E. Marg.
Archive of Ophthalmology 62/5, 804-809, 1959.

13) Contraction of the oculorotary muscles and intraocular pressure.
W. Kornblueth, A. Jampolsky, E. Tamler,and E. Marg.
Archives of Ophthalmology 46/6, 1387, 1960.

14) Activity of a human oculorotary muscle unit.
E. Marg, E. Tamler, and A. Jampolsky.
Electroencephalographyand Clinical Neurophysiology 14/5, 754-757, 1962.

IX. Accommodation, Convergence and Pupil

1) The pupillary near reflex. The relation of pupillary diameter to accommodation and the various components of convergence.
E. Marg and M.W. Morgan, Jr.
American Journalof Optometry and Archives of American Academy of Optometry 26/5, 183-198, 1949.

2) Further investigation of the pupillary near reflex. The effect of accommodation fusional convergence, and the proximity factor of pupillary diameter.
E. Marg and M.W. Morgan, Jr.
American Journal of Optometry and Archives of American Academy of Optometry 27/5, 217-225, 1950.

3) The pupillary fusion reflex.
E. Marg and M.W. Morgan, Jr.
Archives of Ophthalmology 43/5, 871-878, 1950.

4) An investigation of voluntary as distinguished from reflex accommodation.
American Journal of Optometry and Archives of American Academy of Optometry 28/7, 347-356, 1951.

5) "Flashes" of clear vision and negative accommodation with reference to the Bates method of visual training.
American Journal of Optometry and Archives of American Academy of Optometry 29/4, 167-184, 1952.

6) Accommodative response of the eye to electrical stimulation of the ciliary ganglion in cats.
E. Marg, J.L.Reeves, and W.E. Wendt.
American Journal of optometry and Archives of American Academy of Optometry 31/3, 127-136, 1954.

7) Accommodative response of the eye of an aged cat to electrical stimulation of the ciliary ganglion.
E. Marg and J.L. Reeves.
Journal of the Optical Society of America 45/11, 926-928,1955.

8) Amplitude of accommodation in presbyopia.
D. Hamasaki, J. Ong, and E. Marg.
American Journal of Optometry and Archives of American Academy of Optometry 33/1, 3-14,1956.

X. Miscellaneous

1) Retinal effects of ruby laser photocoagulation: Microelectrode recordings in the rabbit.
R.D.Banyard, K.S. Noyori, C.J. Campbell, and E. Marg.
Archives of Ophthalmology 85, 107-110, 1971.

2) Hindsight and foresight: A broad view of the science and technology of optometry, past and future.
Journal of the American Optometric Association 46/5, 475-482, 1975.

3) Sight and society in the People's Republic of China.
Social Science and Medicine 11, 145-155, 1977. Reprinted in the American Journal of Optometry & Physiological Optics 54/6,351-364, 1977.

4) How to sacrifice academic quality.
Improving College and University Teaching 27/2, 54-56, 1979.

5) Contributor to Dictionary of Visual Science, Second and Third Editions, M. Schapiro, D. Cline, H.W. Hofstetter,eds., Chilton Book Company Company, Philadelphia, 1968; and new editions.

6) Book reviews. Optometry and Vision Science.