ExtraOcular Muscles

Extraocular Muscles

            The extraocular muscles are the six muscles that control the movements of the eyes. These six muscles can be group into 3 separate pairs of muscles and can be divided into 2 different types of muscles as shown in table below.

Muscles Type	Muscles Pairs	Individual Muscles
Rectus Muscles	Vertical Rectus Muscles	Superior Rectus Muscles
		Inferior Rectus Muscles
	Horizontal Rectus Muscles	Medial Rectus Muscles
		Lateral Rectus Muscles
Oblique Muscles	Oblique Muscles	Superior Oblique Muscles
		Inferior Oblique Muscles

           
             The medial and lateral recti contract reciprocally, thus enables the eyeball from side to side. The superior and inferior recti contract reciprocally to move eyeball upward and downward. While the oblique muscles operate mainly to rotate the eyeballs for keeping the visual in the upright position.

           
             The distribution of the muscles controlling the two eyes is symmetrical as shown in figure below. Each of the these three pairs of muscles is reciprocally innervated so that one muscles of the pairs relaxes while the other contract. These three pairs of the muscles is said to be antagonistic muscles as the contraction one of the muscles will leads to the relaxation of the other muscles pairs.

             
             By making the above figure as reference, we can take a few examples. For the upward fixation, the recti muscles involve are superior and inferior recti. In order to move the eyeballs upward, the superior rectus muscle need to contract while the inferior rectus muscle become relaxes. Apart of recti muscles, the involvement of oblique muscles to rotate the eyeballs in order to keep the visual field still maintain in the upright position. In this case, the inferior oblique muscle need to contract while the superior oblique muscle become relaxes. This type of contraction and relaxation of the muscles in known as antagonistic as mentioned above.

            Same goes to downward fixation, the inferior rectus muscle need to contract while the superior rectus muscle become relaxes. Apart of recti muscles, the superior oblique muscle need to contract while the inferior oblique muscle become relaxes in order to maintain the visual field in the upright position.

            However, for the rightward fixation or leftward fixation, the contraction & relaxation of the recti muscles are reciprocal between the right eye & left eye. In case of rightward fixation, the right eyeball lateral rectus muscle contract while the medial rectus muscle relax. On the other hand, the left eyeball medial rectus muscle contract while the lateral rectus muscle relax. While for the leftward fixation, the left eyeball lateral rectus muscle contract while the medial rectus muscle relax. On the other hand, the right eyeball medial rectus muscle contract while the lateral rectus muscle relax.  

            The most important movement of the eyes are those that cause the eyes to “fix” on a discrete portion of the field of vision. The fixation mechanism is primarily controlled by the secondary visual areas of the occipital cortex. Visual fixation can lock the target on the central area of the retina. When the object images from the centre of the fovea to the fovea edge, the reflex response through the negative feedback mechanism will regulate the three pairs of ocular muscles to move the object image back to the centre of the fovea. Thus, as the image move upwards, the eyeball will move downwards; when the image moves to the left, the eyeballs will move to the right. Both action as described above will finally move the image back to the centre of fovea. Therefore, the locked object will be always kept, by means of the eye movements, on the centre of the fovea in order to obtain the clearest image.

Eye Muscles Anatomy

1 = Annulus tendineus communis
2 = Superior rectus muscle
3 = Inferior rectus muscle
4 = Medial rectus muscle
5 = Lateral rectus muscle
6 = Superior oblique muscle
7 = Trochlea of superior oblique
8 = Inferior oblique muscle
9 = Levator palpebrae superioris muscle
10 = Eyelid
11 = Eyeball
12 = Optic nerve

Eye Muscles Pictures

List of Muscles with Their Respective Functions

Muscle	Innervation	Origin	Insertion	Primary function	Secondary function	Tertiary function	Inserted into the sclera distance
Superior rectus	Superior branch of oculomotor nerve	Annulus of Zinn from tendinous ring	eye (anterior, superior surface)	Elevation	Intorsion	Adduction[1]	7.9mm
Inferior rectus	Inferior branch of oculomotor nerve	Annulus of Zinn from tendinous ring	eye (anterior, inferior surface)	Depression	Extorsion	Adduction[1]	6.6mm
Lateral rectus	Abducens nerve	Annulus of Zinn from tendinous ring	eye (anterior, lateral surface)	Abduction			7.0mm
Medial rectus	Inferior branch of oculomotor nerve	Annulus of Zinn from tendinous ring	eye (anterior, medial surface)	Adduction			5.8mm
Superior oblique	Trochlear nerve	Superior and Medial to Annulus of Zinn via the Trochlea of superior oblique which forms a 'pulley system'.	eye (posterior, superior, lateral surface)	Intorsion	Depression	Abduction[1]
Inferior oblique	Inferior branch of oculomotor nerve	Maxillary bone	eye (posterior, inferior, lateral surface)	Extorsion	Elevation	Abduction[1]

Reference

1.         Book

            a)         K & H Student Module Experiment 3 Electro – Oculargram(EOG) Measurement.

2.         Website

            a)         http://en.wikipedia.org/wiki/Extraocular_muscles

            b)         http://emedicine.medscape.com/article/1189799-overview#aw2aab6b2