BACKGROUND: A non-invasive model has been developed to estimate gaze direction and relative pupil diameter, in minimally restrained rhesus monkeys, to investigate the effects of low doses of ocularly administered cholinergic compounds on visual performance. METHODS: Animals were trained to co-operate with a novel device, which enabled eye movements to be recorded using modified human eye-tracking equipment, and to perform a task which determined visual threshold contrast. Responses were made by gaze transfer under twilight conditions. 4% w/v pilocarpine nitrate was studied to demonstrate the suitability of the model. RESULTS: Pilocarpine induced marked miosis for >3 h which was accompanied by a decrement in task performance. CONCLUSIONS: The method obviates the need for invasive surgery and, as the position of point of gaze can be approximately defined, the approach may have utility in other areas of research involving non-human primates.
BACKGROUND: A non-invasive model has been developed to estimate gaze direction and relative pupil diameter, in minimally restrained rhesus monkeys, to investigate the effects of low doses of ocularly administered cholinergic compounds on visual performance. METHODS: Animals were trained to co-operate with a novel device, which enabled eye movements to be recorded using modified human eye-tracking equipment, and to perform a task which determined visual threshold contrast. Responses were made by gaze transfer under twilight conditions. 4% w/v pilocarpine nitrate was studied to demonstrate the suitability of the model. RESULTS:Pilocarpine induced marked miosis for >3 h which was accompanied by a decrement in task performance. CONCLUSIONS: The method obviates the need for invasive surgery and, as the position of point of gaze can be approximately defined, the approach may have utility in other areas of research involving non-human primates.
Authors: Amy M Ryan; Sara M Freeman; Takeshi Murai; Allison R Lau; Michelle C Palumbo; Casey E Hogrefe; Karen L Bales; Melissa D Bauman Journal: Front Behav Neurosci Date: 2019-03-05 Impact factor: 3.558
Authors: Heather Slater; Alice E Milne; Benjamin Wilson; Ross S Muers; Fabien Balezeau; David Hunter; Alexander Thiele; Timothy D Griffiths; Christopher I Petkov Journal: J Neurosci Methods Date: 2016-05-14 Impact factor: 2.390