Rectus and oblique muscles of eyeball: a morphometric study of Indian population.
10.5115/acb.2015.48.3.201
- Author:
Sunita ATHAVALE
1
;
Sheetal KOTGIRWAR
;
Rekha LALWANI
Author Information
1. Department of Anatomy, All India Institute of Medical Sciences, Bhopal, Madhya Pradesh, India. sunita.anatomy@aiimsbhopal.edu.in
- Publication Type:Original Article
- Keywords:
Muscle;
Squint;
Aponurosis;
Surgery;
Insertion
- MeSH:
Muscles*;
Orbit;
Reperfusion;
Strabismus
- From:Anatomy & Cell Biology
2015;48(3):201-204
- CountryRepublic of Korea
- Language:English
-
Abstract:
During the strengthening and weakening procedures of intraocular muscles, distance of insertion from the sclerocorneal junction is an important determinant in the identification of muscles. During repositioning of the aponeurosis of the muscles, it is desired that the width should not change in order to avoid diversion of forces. Available anatomic studies on insertions of extraocular muscles are few, date back to early twentieth century and have been conducted on mostly white population. The present study is an attempt to document the insertions of recti and oblique muscles in Indian population. Forty eyeballs were removed from orbit. Insertion of recti and obliqui were cleaned and eyeballs were perfused with normal saline to regain the volume (hence shape and size) before recording observations. Insertion of recti and obliqui muscles were observed under various study parameters. The distance of insertion of recti from the limbus were found to be 7.3 mm, 8.06 mm, 8.71 mm, and 8.74 mm for medial, inferior, lateral, and superior rectus, respectively. The superior oblique was aponeurotic and found to be more variable in mode of insertion as compared to inferior oblique which had a fleshy and relatively constant insertion. The observations on insertion of recti and obliqui as obtained in present study differ from earlier studies to the tune of 1-1.5 mm. This may be attributed to adoption of method of reperfusion of eyeball before recording observations thus maintaining size close to in vivo. The observations are expected to be closer to actual.
