Faal Penglihatan (2) PDF

Summary

This document discusses various aspects of the eye, including the light reflex, visual pathways, dark adaptation, color vision, depth perception, and eye movements in relation to different light conditions. It also looks at different eye movement disorders. The document uses illustrations and diagrams to convey the information.

Full Transcript

 Learning Objectives

 Describe the light reflex
 Describe production of nerve impulses in
the eyes & trace the visual pathways to
their destinations in the brain.
 Define and explain dark adaptation
 Explain how we are able to distinguish
colors.
 Explain how we are able to perceive
depth.
 Describe the eye movement

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 Refleks Pupil

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 Refleks Pupil

 Pupil konstriksi utk mengurangi sinar yg masuk,
pupil sebelahnya ikut konstriksi (consensual light
reflex).
 Jalur reflex pupil berbeda dg akomodasi
 Pupil Argyll-Robertson: akomodasi intact tetapi
refleks pupil hilang sebab adanya lesi di
midbrain (misalnya syphilis)
 Lengkung refleks: n opticus brachium of the
superior colliculus pretectal nucleus ipsilateral &
contralateral Edinger-Westphal nucleus ciliary
ganglion (N. III) sphincter pupilae (otot
sirkularis).
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 Lengkung Refleks Pupil

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 Phototransduction in rods & cones
Structural changes in the
Incident light
retinene of photopigment

Metarhodopsin II

Activation of transducin  Semakin kuat cahaya
semakin besar respons
Activation of photodiesterase hiperpolarisasi
 Neurotransmiter yg
Decreased intracelular cGMP dihasilkan fotoreseptor
bersifat inhibisi
Closure of Na+ channels

Hyperpolarization

Decreased released of Response in bipolar cells
synaptic transmitter & other neural elements
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 Kemampuan mata
beradaptasi terhadap cahaya
sangat tinggi (10-7 – 107 mm
Lambert) krn ada 2
fotoreseptor & ada
pengaturan pupil
 Rod vision (scotopic vision)
 Transition zone
 Cone vision: rhodopsin
terurai
 Rod vision: rhodopsin
terbentuk & dirombak
seperlunya
 Diperlukan waktu utk
menumpuk rhodopsin yg
terurai saat terang
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 Semakin byk
rhodopsin,
fotoreseptor
semakin sensitif
terhadap cahaya.

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 Buta senja (Nyctalopia)

Pada defisiensi vit. A, pembentukan rhodopsin
lambat. Mengapa disebut buta senja?
Bagaimana perubahan intensitas cahaya pada
senja hari?
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 Adaptasi Gelap & Adaptasi Terang
 Adaptasi Gelap
 Perub. terang ke gelap: retina
“buta”, perlahan
mampu/terbiasa melihat dlm
gelap. Penurunan ambang
visual “adaptasi gelap” yg
lamanya 20-30 menit.
Terdapat 2 komponen
adaptasi gelap:
 Adaptasi gelap cones: cepat,
sdkt/kecil, hanya di daerah fovea
& sekitarnya.
 Adaptasi gelap rods: lambat, lbh
besar, lbh lama, utk daerah
perifer retina.
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 Kacamata merah akan memperpendek masa
adaptasi gelap karena gelombang sinar merah
hanya sedikit merangsang rods, tetapi cones
tetap mampu berfungsi seperti biasa (studio
foto/kamar gelap, radiologist, pilot terbang
malam)
 Masa adaptasi gelap adalah masa pembentukan
rhodopsin (jika kena sinar rusak). Diperlukan
jumlah rhodopsin cukup utk mampu melihat
dalam gelap.
 Dari gelap ke terang: silau, cahaya terlalu
terang, tetapi lama kelamaan terbiasa dalam
terang, adaptasi cahaya (light adaptation)
lamanya  5 menit.

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 An object can absorb certain wavelengths of visible
light and reflect others; the object will appear the
color of the wavelength that is reflected.
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 Garden by the Bay, Singapore

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 Melihat Warna

 Teori YOUNG HELMHOLTZ:
manusia mempunyai 3 cones
 Sensasi warna ditentukan
oleh frekuensi relatif & impuls
dari tiap jenis kerucut.
 Ke-3 sel kerucut dapat
terangsang dg intensitas yg
berbeda atau hanya 1 jenis
kerucut yg terangsang
sehingga dapat melihat
berbagai kombinasi warna.
 MEJIKUHIBINIU (ROY G BIV)

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 Colorblindness (buta warna)
 Test: Ishihara charts
 Buta warna: tdk dpt membedakan
warna tertentu.
 Anomaly: thd warna tertentu lemah, tdk
cerah
 Anopia: buta warna, protanopia (buta
warna merah), deuteranopia (buta
warna hijau), trianaopia (buta warna
biru).
 Trichromat (punya 3 cones), dichromat
(2 cones), monochromat (hanya punya
1 macam cones)

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 Visual Pathway
Stimulus (ligth)

Rods & Cones
Retina Bipolar Cells
Gangglion Cells
Optic nerve

Thalamus Lateral Geniculate Nucleus

Pathway

Visual Cortex
Cortex
Visual Association Cortex

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 Pusat Penglihatan

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 Visual Fields
 The technique of
perimetry allows
precise mapping out
visual fields
 The visual fields are
determined by the
position of the orbits,
the extent and shape of
the retina in each eye
and the external
obstruction to the
incidence of light (nose
& brow).

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  Proyeksi lapang pandang dapat digunakan utk
menentukan lokasi kerusakan di jaras penglihatan
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 Ada berapa ekor binatang yang anda lihat?

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 Monocular & Binocular Vision

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Penglihatan binokular
 Melihat dg kedua mata dan
memfokuskan dua bayangan yang
diterima masing-masing mata menjadi
satu fusi bayangan.

 Memungkinkan menentukan kedalaman
benda yang dilihat (tiga dimensi) secara
akurat, kanan maupun kiri (stereoskopik)
 Depth Perception

 If you close your right eye then open it and close
your left, you will notice that the picture changes
somewhat.
 Each eye receives a slightly different image,
because their foveas are 2-3 inches apart. For
one thing, each eye provides some visual
information that is unavailable to the other
because your nose and eye socket block its view
of the opposite side.
 Each eye sees the world from a slightly different
angle. The association & integrative areas of the
cortex compare these views and use them to
provide us with depth perception.
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 Stereoscopic Vision

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 Depth Perception Test

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 Gambar apakah yang Anda lihat?

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 Otot-otot bola mata

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 Eye Movements
1. Saccades movement: melihat dg cepat &
meloncat-loncat
2. Smooth persuit movement: mengikuti
gerak objek
3. Convergence movement
4. Vestibular movement

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 Eye Movement Disorders
 Strabismus: uncoordinated extrinsic eye muscles,
primary symptom: diplopia
Diplopia (double vision), results when the contraction
of the extrinsic muscles is not coordinated. The eyes
focus on different area of the visual field & two images
are seen.

 Nystagmus: involuntary unilateral or bilateral rhytmic
movement of the eyes.
 Paralysis of extraocular muscle: ptosis: dropping of the
eyelid

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