AI Article Synopsis
- Saccadometry is an advanced test designed to evaluate the brain regions responsible for fast and precise eye movements through prosaccade and antisaccade tasks that increase in difficulty.
- The study aimed to create a simplified clinical saccadometry protocol using video oculography to establish evaluation standards for adults aged 18 to 69.
- Results showed age and gender differences in various eye movement metrics, highlighting the potential of saccadometry as an objective tool for clinicians to assess complex cognitive and motor functions.
Article Abstract
Background: Saccadometry is an advanced ocular motor test battery that allows for the functional evaluation of the varied brain regions and circuits involved in the generation of fast, purposeful, and accurate saccadic eye movements. The test battery is composed of prosaccade (PS) and antisaccade (AS) tests that progressively increase cognitive demand. Existing saccadometry protocols qualitatively describe trends across the lifespan, but have not been widely adopted by clinicians.
Purpose: The aims of this study are to design an efficient and simplified clinical saccadometry protocol using video oculography (VOG) equipment and establish associated evaluative standards across the lifespan.
Study Sample: Data were reported on 273 adults ages 18 to 69 years.
Results: Evaluative data on four measures: directional error rate (DE), latency (Lat), peak velocity (Vel), and accuracy (Acc) during PS and AS measurements were provided. Age-group differences were found in Lat ( < 0.01) and Vel ( = 0.04) during PS and age-group differences were found in DE ( = 0.04), Lat ( < 0.01) and Vel ( < 0.01) during AS. Gender differences were found in DE ( = 0.01) and Lat ( < 0.01) during AS.
Conclusions: This study established a standardized and time-efficient protocol with evaluative standards for individuals ages 18 to 69 years old to enable the use of saccadometry as an objective measure in the clinic. Saccadometry allows clinicians to look beyond the traditional saccade test and evaluate complex oculomotor and cognitive functions that will better help clinicians differentiate between peripheral and central diagnoses.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11479743 | PMC |
| http://dx.doi.org/10.1055/s-0043-1772582 | DOI Listing |
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