Holger Lüdtke scite author profile

Spontaneous pupillary behaviour in darkness provides information about a subject's level of vigilance. To establish infrared video pupillography (IVP) as a reliable and objective test in the detection and quantification of daytime sleepiness, the definition of numerical parameters is an important precondition characterising spontaneous pupil behaviour adequately for further statistical procedures. The correct measurement of the pupil size, even if the lid or eyelashes are occluding the pupil, is of particular concern when testing vigilance. In this case many edge points of the pupil are detected and a fitting procedure is described that fits these edge points to a circle and excludes outliers. The first step of data preparation consists of a mathematical artefact management consisting of blink detection and elimination, followed by interpolation. Second, a fast Fourier transformation is carried out for frequencies from 0.0 to 0.8 Hz for each time segment of 82 s. Results are given in absolute and relative power of each frequency band per time segment and mean values over the entire record of 11 min. Third, the changes of the mean pupillary diameter per data window against time are shown graphically. An additional parameter referring to the pupil's tendency to instability, the pupillary unrest index (PUI), is defined by cumulative changes in pupil size based on mean values of consecutive data sequences. These mathematical procedures provide a high level of quality in both data collection and evaluation of IVP as an objective test of vigilance. In a pilot study, the pupillary behaviour of two groups were measured. One group rated themselves as alert (ten men), the other group as sleepy (12 men). The power and PUI were compared using the Mann-Whitney U-test. Both parameters show significant differences between the two groups.

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Daytime variations in central nervous system activation measured by a pupillographic sleepiness test

Wilhelm

Giedke

Lüdtke

et al. 2001

Journal of Sleep Research

149

112

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Pupil size is regulated exclusively by the autonomic nervous system, and in darkness is proportional to the level of central sympathetic tone. Spontaneous pupillary movements, while at rest in darkness and quiet, were recorded for a period of 11 min, using infrared video pupillography. Thirteen young adults took part in a 30‐h experiment lasting from 08.00 h to 14.00 h on the following day. Pupillographic testing and completion of a self‐rated scale for the estimate of sleepiness were repeated every two hours. Pupillary unrest index (PUI), as a measure of pupil size instability associated with daytime sleepiness, showed the lowest values at 09.00 h, when pupil size was found to be maximal, and 23.00 h. During the course of the day, amplitude spectrum ≤0.8 Hz and PUI showed increasing values during the afternoon hours, followed by a decrease during the evening. Daytime variations in the pupillary unrest index in healthy normal subjects were found to be positively correlated with the level of alertness. These findings are similar to the daytime variations found by the MSLT (multiple sleep latency test) in young adults.

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Pimecrolimus cream 1% in erosive oral lichen planus- a prospective randomized double-blind vehicle-controlled study

Volz

Caroli

Lüdtke³

et al. 2008

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Pupillographic sleepiness testing in hypersomniacs and normals

Wilhelm¹,

Lüdtke²,

Wilhelm³

1998

Graefe's Archive for Clinical and Experimental Ophthalmology

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The Prevalence of Relative Afferent Pupillary Defects in Normal Subjects

Wilhelm¹,

Peters²,

Lüdtke³

et al. 2007

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Holger Lüdtke

Mathematical procedures in data recording and processing of pupillary fatigue waves

Daytime variations in central nervous system activation measured by a pupillographic sleepiness test

Pimecrolimus cream 1% in erosive oral lichen planus- a prospective randomized double-blind vehicle-controlled study

Pupillographic sleepiness testing in hypersomniacs and normals

The Prevalence of Relative Afferent Pupillary Defects in Normal Subjects

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