Pupillometry: Difference between revisions
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Latest revision as of 01:03, 18 February 2025
Pupillometry is the scientific measurement of the pupil's size and reactivity. This technique is used in various fields such as psychology, neurology, and ophthalmology to study the functioning of the autonomic nervous system, visual perception, and cognitive load, among other things.
History[edit]
The study of pupil size and reactivity dates back to ancient times, with the earliest recorded observations made by Hippocrates. However, the term "pupillometry" was not coined until the 20th century, when technological advancements allowed for more precise and objective measurements.
Methodology[edit]
Pupillometry involves the use of a pupilometer, a device that measures the diameter of the pupil in millimeters. The measurement is typically taken under controlled lighting conditions, and the subject's gaze is directed at a fixed point to minimize variations due to accommodation or convergence.
Applications[edit]
Pupillometry has a wide range of applications in both clinical and research settings. In neurology, it is used to assess the integrity of the brainstem and cranial nerves. In psychology, it is used to study attention, emotion, and cognitive load. In ophthalmology, it is used to evaluate eye health and to plan refractive surgery.
Limitations[edit]
While pupillometry provides valuable information, it also has limitations. The size and reactivity of the pupil can be influenced by a variety of factors, including age, lighting conditions, drug use, and certain medical conditions. Therefore, it is important to control for these factors when interpreting pupillometry data.
Future Directions[edit]
With advancements in technology, pupillometry is becoming increasingly precise and accessible. Future research is likely to explore new applications of pupillometry, such as its use in telemedicine and artificial intelligence.
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Pupillometer Neurolight -
NeurOptics' NPi-300 Pupillometer
