Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Physiological-clinical importance of the eye.
Document related concepts
Psychoneuroimmunology wikipedia , lookup
Neuroanatomy wikipedia , lookup
Embodied cognitive science wikipedia , lookup
Optogenetics wikipedia , lookup
Development of the nervous system wikipedia , lookup
Subventricular zone wikipedia , lookup
Visual selective attention in dementia wikipedia , lookup
Time perception wikipedia , lookup
Neuroesthetics wikipedia , lookup
Neural correlates of consciousness wikipedia , lookup
Transcript
Physiologicalclinical importance of the eye. Prof James Ker MBChB, MMED, MRCP, FRCP, PhD, FESC, FACC, L.Akad.SA 12012 2 Physiological purpose of the visual system: The visual system provides a supremely efficient means for the rapid assimilation of information from the environment to aid in the guidance of behavior. 3 The act of seeing: Begins with the capture of images focused by the cornea and lens upon the retina. Retina—a light sensitive membrane in the back of the eye. Actually a part of the brain, banished to the periphery to serve as a transducer for the conversion of patterns of light energy into neuronal signals. 4 Light is absorbed by photopigment in 2 types of receptore: Rods and cones. 100 million rods 5 million cones The rods operate in dim conditions and the cones under daylight conditions 5 The cones is specialized for color perception and high spatial resolution. The majority of cones are located in the macula, the portion of the retina serving the central 10 degrees of vision. 6 The fovea: This is a small pit in the middle of the macula, packed exclusively with cones and provides the best visual acuity. Photoreceptors hyperpolarize in response to light and activates bipolar, amacrine and horizontal cells in the inner nuclear layer. 7 The flow of sensory information converges upon a final common pathway: the ganglion cells. The ganglion cells translate these into action potentials that propagates along the primary optic pathway to visual centers in the brain. 8 There are a million ganglion cells in each retina and thus a million fibers in each optic nerve. The majority of fibers synapse upon cells in the lateral geniculate body, a thalamic relay station. Cells from the lateral geniculate body then projects to the visual cortex. 9 This massive retinogeniculocortical sensory pathway provides the neural pathway for visual perception. The lateral geniculate body is the main target of the retina, however some gangion cells project to other subcortical visual nuclei , involved in different functions. 10 These include: Pupillary reflexes Circadian rhythms Visual orientation and eye movements 11 Clinical importance: Primary disease processes affecting the eye Systemic disease assessment: Hypertension and diabetes, vasculitis Cardiac disease: Infective endocarditis Morphine: miosis Optic neuritis: Toxins (ethambutol, methanol) Skew deviation Drug intoxications Arcus cornealis; Hollenhorst plaque Brainstem disorders Roth Spots Hypercholesterolemia Hypertension: hard/soft exudates Pallor of disc Optic neuritis due to MS 12 Intracranial hypertension Papilloedema Without hypertension: Hypercarbia Primary metabolic disorders, such as Wilson`s disease: Kayser-Fleischer ring Copper Circadian blind deposition around eyes rhythm implications for the Endocrinopathy: cortisol & GH hormone disturbances:
