Saccadous is actively researching and developing solutions for early detection of Parkinson's Disease.  

During attempted visual fixation, saccades of a range of sizes occur. These “fixational saccades” include microsaccades, which are not apparent in regular clinical tests, and “saccadic intrusions”, predominantly horizontal saccades that interrupt accurate fixation. Square-wave jerks (SWJs), the most common type of saccadic intrusion, consist of an initial saccade away from the target followed, after a short delay, by a “return saccade” that brings the eye back onto target. SWJs are present in most human subjects, but are prominent by their increased frequency and size in certain parkinsonian disorders and in recessive, hereditary spinocerebellar ataxias. Here we asked whether fixational saccades showed distinctive features in various parkinsonian disorders and in recessive ataxia. Although some saccadic properties differed between patient groups, in all conditions larger saccades were more likely to form SWJs, and the intervals between the first and second saccade of SWJs were similar. These findings support the proposal of a common oculomotor mechanism that generates all fixational saccades, including microsaccades and SWJs. The same mechanism also explains how the return saccade in SWJs is triggered by the position error that occurs when the first saccadic component is large, both in the healthy brain and in neurological disease.

For details on this discovery, please check out the articles below:

J.   Otero-Millan,   R.   Schneider,   R.   J.   Leigh,   S.   L.   Macknik,   and   S.   Martinez-Conde, “Saccades   during   attempted   fixation   in   parkinsonian   disorders   and   recessive   ataxia: from   microsaccades   to   square-wave   jerks.,”    PLoS   One ,   vol.   8,   no.   3,   p.   e58535,   Jan. 2013.

J.   Otero-Millan,   A.   Serra,   R.   J.   Leigh,   X.   G.   Troncoso,   S.   L.   Macknik,   and   S. Martinez-Conde,   “Distinctive   features   of   saccadic   intrusions   and   microsaccades   in progressive   supranuclear   palsy.,”    J.   Neurosci. ,   vol.   31,   no.   12,   pp.   4379–87,   Mar. 2011.