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HYPERMETROPIA & PRESBYOPIA. Dr Cynthia arunachalam Professor and head Dept of Ophthalmology Yenepoya medical College Yenepoya University. Hypermetropia. The refractive state of the eye where in parallel rays of light coming from infinity are focussed behind the retina
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HYPERMETROPIA & PRESBYOPIA Dr Cynthia arunachalam Professor and head Dept of Ophthalmology Yenepoya medical College Yenepoya University
Hypermetropia The refractive state of the eye where in parallel rays of light coming from infinity are focussed behind the retina with accomodation at rest
Hypermetropia AXIAL Common 1mm short-3D increase CURVATURE Curvature of cornea /lens –flat 1mm increase in radius of curvature6D INDEX Change in RI in old age and diabetics
Hypermetropia POSITIONAL POSTERIORLY LOCATED LENS ABSENCE-LENS CONGENITAL/SURGICAL
Clinical types SIMPLE Common Variation in the normal development of the eye Axial / curvatural
Clinical types CURVATURAL-decreased curvature of outer lens fibre PATHOLOGICAL SENILE INDEX-acquired cortical sclerosis POSITIONAL Posteriorly displaced lens Congenital or acquired absence of lens APHAKIC Surgical / overcorrected myopia CONSECUTIVE
Clinical types FUNCTIONAL Paralysis of accomodation-3rd nerve palsy
Hypermetropia LATENT FACULTATIVE ABSOLUTE MANIFEST
Hypermetropia TOTAL HYPERMETROPIA total amount of hypermetropia estimated after complete cycloplegia LATENT HYPERMETROPIA Amount of hypermetropia corrected by inherent tone of ciliary muscle • high in children • decreases with age
Hypermetropia • MANIFEST Which is not corrected by inherent tone of ciliary muscle • FACULTATIVE-corrected by patients accommodative effort ABSOLUTE-cannot be corrected by patients accommodative effort
Hypermetropia Total Latent Manifest Facultative Absolute
Clinical features • Asymptomatic - small error, corrected by mild accommodative effort, young patient • Asthenopic - symptoms with normal vision tiredness of eyes, frontal head ache, watering • Defective vision - with asthenopia • Defective vision -
SIGNS • Size of the eye ball - small • Cornea - flat • AC - shallow • VA - varies with degree of hypermetropia and accommodation • Fundus • A scan - short anteroposterior length
Fundus in hypermetropia Small disc, ill defined margin, simulates papillitis Shiny retina - shot silk appearance Vessel reflexes accentuated
Complication recurrent stye, blepharitis, chalazion? accomadativeconvergent squint amblyopia predisposition to develop angle closure glaucoma
TREATMENT OPTICAL Convex lens is placed to focus the rays on the retina
TREATMENT Principles total amount of hypermetropia is corrected under complete cycloplegia error <1D, correction is given if patient is symptomatic gradual increase the correction at 6 m interval assess amblyopia - full correction with occlusion hypermetropia may decrease with child growth- 6monthly
TREATMENT • Contact lens • Surgical EXCIMER LASER PHTOKERATECTOMY LASIK NON CONTACT LASER THERMAL KERATOPLASTY
EXCIMER LASER KERATECTOMY • Reshaping the ant cornea with pulsed laser • Accurately ablate corneal tissue • Minimal disruption of surrounding tissue • In hypermetropia - periphery is ablated • Upto 2.5D • Epithelium is removed. BM and ant stroma is lasered • Heals in 48-72 hours
LASIK SUCTION RING IS APPLIED MICROKERATOME INSERTED THIN FLAP IS RAISED EXCIMER LASER APPLIED FLAP REPOSITED BACK
LASIK Advantages • absence of post operative pain - early rehabilitation Complications incomplete cutting of flap over correction decentration
Non contact laser heat thermoplasty • Laser heat is used to alter corneal stroma • Steepens the corneal curvature
OCULAR CHANGES IN ACCOMODATION • Slackening of zonules • Change in the curvature of the lens surface(anterior) • Increase in axial thickness of the lens • Pupillary constriction and convergence Ciliary ring CM
AA FP NP RA NEAR POINT NEAREST POINT AT WHICH THE SMALL OBJECTS CAN BE SEEN CLEARLY FAR POINT FARTHEST POINT AT WHICH THE SMALL OBJECTS CAN BE SEEN CLEARLY RANGE OF ACC DISTANCE BETWEEN NEAR AND FAR POINT
AMPLITUDE OF ACCOMODATION DIFFERENCE BETWEEN THE DIOPTERIC POWER NEEDED TO FOCUS THE DISTANCE AND NEAR 10 years-7cm 40years-25cm 45years -33cm Far point is infinity Near point varies with the age of the pt Amp of accommodation =100/7=14D Amp of accommodation =100/25=4D
PRESBYOPIA FAILING NEAR VISION DUE TO DECREASE IN THE AMPLITUDE OF ACCOMMODATION CAUSES Decrease in elasticity of the lens Decrease in the power of ciliary muscle
symptoms • Difficulty in near vision (start evening, later-good light) • asthenopia
TREATMENT • Convex lens • rough estimate 40 years -1D 45 years -1.5D 50 years - 2D 55 years - 2.5D • Single vision, bifocal,trifocal glasses
principles Correct refractive error for distance Find presbyopic correction needed for each eye separately Weakest convex lens which can be seen clearly is selected Presbyopic add should leave 33% of the accommodation as reserve Profession of the pt should be considered