How can one use simple means to investigate the visual abilities of animals? This question is being pursued by the research group of Dr. Thomas Münch at the Centre for Integrative Neuroscience at the University of Tübingen. Dr. Münch is, among other things, interested in the restoration of lost visual function. Mice can suffer from similar diseases of blindness as humans, so that new therapeutic approaches can be developed by doing research on mice.
Since the treated animals cannot tell us how well they can see, one attempts to draw conclusions about visual abilities from behavioral observations. Animals are commonly trained with food to display a certain behavior in response to color or pattern. This experimental approach, however, is very time-consuming, and training blind animals is nearly impossible. The researchers therefore take advantage of a simple reflex: the optokinetic reflex. This reflex can easily be noticed on a train ride: when observing the landscape from a moving train, the eyes periodically follow the passing landscape. This effect keeps the image of moving objects constant on the retina for a short while. This phenomenon occurs in most animals.
A new study published this week in the journal Behavioral Neuroscience is based on this effect. The visual performance of mice was examined using a chamber whose walls were made of four computer screens. The monitors showed a rotating striped pattern. This simulated movement of the environment triggered the optokinetic reflex and the mouse followed the pattern with its gaze – but only when the animal could recognize the striped pattern. This allows the visual performance of each individual animal to be determined. Just as the ophthalmologist can make the displayed pattern finer during vision testing, so too can the displayed pattern be changed until the animal is no longer able to recognize it and subsequently fails the reflex test.
The utilization of the computer monitors allows the contrast or resolution of the pattern to be changed in almost any way desired. For the study, doctoral candidate Boris Benkner has developed software that automatically evaluates the animal's behavior and can thus determine the visual ability of an animal in a short time. "In previous studies, it was necessary to tediously analyze each animal's behavior manually," said Benkner. "Our automated method is not only faster but also more objective, because the stripe pattern does also influence the observer when doing the analysis."
The senior author of the study, Thomas Münch, sees great potential in the newly developed method to evaluate new treatment strategies for blindness. "Currently, many new ways for treating blindness are being developed, ranging from dietary supplements to optogenetics to stem cell therapy" said Münch. "It is important to scrutinize these therapies from the beginning, to test if they really improve the visual abilities of the treated animals."
Explore further: Dragonflies can see by switching 'on' and 'off'
More information: Benkner, B. et al. Characterizing Visual Performance in Mice: An Objective and Automated System Based on the Optokinetic Reflex, Behavioral Neuroscience, Online First Publication, Aug. 20, 2013. DOI: 10.1037/a0033944
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How can one use simple means to investigate the visual abilities of animals? This question is being pursued by the research group of Dr. Thomas Münch at the Centre for Integrative Neuroscience at the University of Tübingen. Dr. Münch is, among other things, interested in the restoration of lost visual function. Mice can suffer from similar diseases of blindness as humans, so that new therapeutic approaches can be developed by doing research on mice.
Since the treated animals cannot tell us how well they can see, one attempts to draw conclusions about visual abilities from behavioral observations. Animals are commonly trained with food to display a certain behavior in response to color or pattern. This experimental approach, however, is very time-consuming, and training blind animals is nearly impossible. The researchers therefore take advantage of a simple reflex: the optokinetic reflex. This reflex can easily be noticed on a train ride: when observing the landscape from a moving train, the eyes periodically follow the passing landscape. This effect keeps the image of moving objects constant on the retina for a short while. This phenomenon occurs in most animals.
A new study published this week in the journal Behavioral Neuroscience is based on this effect. The visual performance of mice was examined using a chamber whose walls were made of four computer screens. The monitors showed a rotating striped pattern. This simulated movement of the environment triggered the optokinetic reflex and the mouse followed the pattern with its gaze – but only when the animal could recognize the striped pattern. This allows the visual performance of each individual animal to be determined. Just as the ophthalmologist can make the displayed pattern finer during vision testing, so too can the displayed pattern be changed until the animal is no longer able to recognize it and subsequently fails the reflex test.
The utilization of the computer monitors allows the contrast or resolution of the pattern to be changed in almost any way desired. For the study, doctoral candidate Boris Benkner has developed software that automatically evaluates the animal's behavior and can thus determine the visual ability of an animal in a short time. "In previous studies, it was necessary to tediously analyze each animal's behavior manually," said Benkner. "Our automated method is not only faster but also more objective, because the stripe pattern does also influence the observer when doing the analysis."
The senior author of the study, Thomas Münch, sees great potential in the newly developed method to evaluate new treatment strategies for blindness. "Currently, many new ways for treating blindness are being developed, ranging from dietary supplements to optogenetics to stem cell therapy" said Münch. "It is important to scrutinize these therapies from the beginning, to test if they really improve the visual abilities of the treated animals."
Explore further: Dragonflies can see by switching 'on' and 'off'
More information: Benkner, B. et al. Characterizing Visual Performance in Mice: An Objective and Automated System Based on the Optokinetic Reflex, Behavioral Neuroscience, Online First Publication, Aug. 20, 2013. DOI: 10.1037/a0033944
Medical Xpress on facebook
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Why evolutionarily ancient brain areas are important
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Structures in the midbrain that developed early in evolution can be responsible for functions in newborns which in adults are taken over by the cerebral cortex. New evidence for this theory has been found in the visual system ...
Dragonflies can see by switching 'on' and 'off'
Aug 15, 2013
(Phys.org) —Researchers at the University of Adelaide have discovered a novel and complex visual circuit in a dragonfly's brain that could one day help to improve vision systems for robots.
See spot see
Mar 02, 2013
(HealthDay)—It's a dog-see-dog world. With no sniffing involved, dogs can recognize the faces of other dogs among the faces of humans and other animal species, according to a new study.
Software that analyzes sleep patterns without human input could help improve sleep research
Aug 02, 2013
Sleep research typically involves recording electroencephalography (EEG) and electromyography (EMG) signals of brain activity over long periods of time, then painstakingly analyzing these records in a process ...
Making a beeline for the nectar
Jun 20, 2013
Bumblebees searching for nectar go for signposts on flowers rather than the bull's eye. A new study, by Levente Orbán and Catherine Plowright from the University of Ottawa in Canada, shows that the markings ...
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© Medical Xpress 2011-2013, Phys.org network
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