Evaluation of the Night Vision Spectacles on patients with impaired night vision

Abstract · Background: The Night Vision Spectacles (NiViS) were developed by a consortium of European companies to assist individuals who suffer from impaired night vision. They consist of a head-mounted video camera (input) and binocular displays (output) connected to a portable computer processor, which uses an algorithm to enhance the luminance and contrast of the video image. · Methods: Eighteen patients with impaired night vision were tested, including those with retinitis pigmentosa (7), Usher syndrome (2), fundus albipunctatus (1) and complete (4) and incomplete (4) congenital stationary night blindness. Normal trichromats (3) and typical, complete achromats (2) acted as controls. A battery of tests assessed: visual acuity at 5 m (projection unit) and 1 m (chart) and at high and low contrasts; contrast sensitivity; absolute and increment threshold; the influence of glare; contrast motion detection; and hand-eye performance. The tests were performed, with and without the NiViS, at three adaptation levels: low scotopic (10–3 cd/m2), high scotopic (10–2 cd/m2) and mesopic (10–1 cd/m2). · Results: At the low and high scotopic levels, the majority of patients showed improved performance on the visual acuity, contrast sensitivity and motion contrast tests with the NiViS. At the mesopic level, the advantage with the NiViS was greatly reduced, but still present for contrast sensitivity. · Conclusion: Patients with impaired night vision can benefit from the NiViS when performing tasks involving contrast and motion perception. Those with normal visual fields and retaining good photopic vision will benefit more than those with constricted visual fields and impaired cone vision. Recommendations regarding desirable improvements of the NiViS and suitability for the individual patient are given.

[1]  J Brabyn,et al.  The SKILL Card. An acuity test of reduced luminance and contrast. Smith-Kettlewell Institute Low Luminance. , 1997, Investigative ophthalmology & visual science.

[2]  R. Carr Congenital stationary nightblindness. , 1974, Transactions of the American Ophthalmological Society.

[3]  H Ripps,et al.  Night blindness revisited: from man to molecules. Proctor lecture. , 1982, Investigative ophthalmology & visual science.

[4]  W R Uttal,et al.  Psychophysical Foundations of a Model of Amplified Night Vision in Target Detection Tasks , 1994, Human factors.

[5]  R W Massof,et al.  Obstacles encountered in the development of the low vision enhancement system. , 1992, Optometry and vision science : official publication of the American Academy of Optometry.

[6]  R. Beck,et al.  The Pelli-Robson letter chart: normative data for young adults , 1993 .

[7]  E. Aulhorn,et al.  [The mesoptometer, a device for the examination of twilight vision and susceptibility to blinding]. , 1965, Bericht uber die Zusammenkunft. Deutsche Ophthalmologische Gesellschaft.

[8]  M F Marmor,et al.  An evaluation of night vision mobility aids. , 1983, Ophthalmology.

[9]  K. Yagasaki,et al.  Congenital stationary night blindness with negative electroretinogram. A new classification. , 1986 .

[10]  Denis G. Pelli,et al.  THE DESIGN OF A NEW LETTER CHART FOR MEASURING CONTRAST SENSITIVITY , 1988 .

[11]  B. Davidson,et al.  The development of the Generation II as an aid for patients with retinitis pigmentosa and night blindness. , 1976, American journal of optometry and physiological optics.

[12]  E. Aulhorn,et al.  [The examination on fitness for driving at darkness with the mesoptometer]. , 1970, Klinische Monatsblatter fur Augenheilkunde.

[13]  G. Fishman,et al.  The loss of night vision: clinical manifestations in man and animals , 1990 .

[14]  E. Berson,et al.  A night vision pocketscope for patients with retinitis pigmentosa. Design considerations. , 1974, Archives of ophthalmology.