Fixation (visual)
Fixation or visual fixation is the maintaining of the gaze on a single location. An animal can exhibit visual fixation if it possesses a fovea in the anatomy of their eye. The fovea is typically located at the center of the retina and is the point of clearest vision. The species in which fixational eye movement has been verified thus far include humans, primates, cats, rabbits, turtles, salamanders, and owls. Regular eye movement alternates between saccades and visual fixations, the notable exception being in smooth pursuit, controlled by a different neural substrate that appears to have developed for hunting prey. The term "fixation" can either be used to refer to the point in time and space of focus or the act of fixating. Fixation, in the act of fixating, is the point between any two saccades, during which the eyes are relatively stationary and virtually all visual input occurs. In the absence of retinal jitter, a laboratory condition known as retinal stabilization, perceptions tend to rapidly pass away.
To maintain visibility, the nervous system carries out a procedure called fixational eye movement, which continuously stimulates neurons in the early visual areas of the brain responding to transient stimuli. There are three categories of fixational eye movement:
microsaccades, ocular drifts, and ocular microtremor. At small amplitudes the boundaries between categories become unclear, particularly between drift and tremor.
History
In 1738, James Jurin made the first known reference to a "trembling of the eye" that was presumably caused by fixational eye movements. Robert Darwin noted in 1786 that the jiggling of color after-effects was presumably the consequence of small eye movements. Eye tracking with sufficient resolution to record fixational eye movements was developed in the 1950s. Retinal stabilization, the ability to project stabilized images on the retina, showed that retinal motion was necessary for visual perception, also in the 1950s. The field remained quiet until the 2000s, when key neurological properties of fixational eye movement were discovered and a new wave of research began.Microsaccades
A microsaccade, also known as a "flick", is a type of saccade. Microsaccades are the largest and fastest of the fixational eye movements. Like saccades in general, microsaccades are usually binocular, and conjugate movements with comparable amplitudes and directions in both eyes. However, the definition of microsaccade varies from study to study and no common definition has emerged.In the 1960s, scientists suggested the maximum amplitude for microsaccades should be 12 arcminutes to distinguish microsaccades and saccades. However, further studies have shown that microsaccades can certainly exceed this value. Newer studies have used a threshold of up to 2° to categorize microsaccades, expanding the definition by an order of magnitude. The distribution of saccade amplitudes is unimodal, giving no empirical threshold to distinguish microsaccades and saccades. Poletti et al. propose using a threshold based on the amplitude of sustained fixations and give a cutoff of 30 arcminutes or 0.5 degrees.
Another way to distinguish microsaccades from saccades is by the intention of the subject when they happen. By this definition regular saccades are produced during the active and intentional exploration of the eye, during non-fixation tasks such as free viewing or visual search. Microsaccades are defined as the "involuntary saccades that occur spontaneously during intended fixation". The subjectivity of this definition has drawn criticism.
Mechanism
Moving in a straight-line-fashion, microsaccades have the ability to carry the retinal image from several dozen to several hundred photoreceptor widths. Because they shift the retinal image, microsaccades overcome adaption and generate neural responses to stationary stimuli in visual neurons. These movements might serve the function of maintaining visibility during fixation, or might be related to attentional shifts to objects in the visual field or in memory, might help limit binocular fixation disparity, or may serve some combination of those functions.Medical application
Some neuroscientists believe that microsaccades are potentially important in neurological and ophthalmic diseases since they are strongly related to many features of visual perception, attention, and cognition. Research aimed at finding the purpose of microsaccades began in the 1990s. The development of non-invasive eye-movement-recording devices, the ability to record single-neuron activity in monkeys, and the use of computational processing power in the analysis of dynamic behavior led to advancements in microsaccade research. Today, there is growing interest in research on microsaccades. Research on microsaccades includes investigating the perceptual effects of microsaccades, recording the neural responses they induce, and tracking the mechanisms behind their oculomotor generation. It has been shown that when fixation is not explicitly enforced as it often occurs in vision research experiments, microsaccades precisely shift gaze to nearby locations of interest. This behavior compensates for non-uniform vision within the foveola.Some studies suggest the use of microsaccades as a diagnostic method for ADHD. Adults diagnosed with ADHD but with no medication treatments tend to blink more and make more microsaccades. Microsaccades are also being explored as diagnostic measures for Progressive supranuclear palsy, Alzheimer's disease, autism spectrum disorder, acute hypoxia, and other conditions.