Add to ORKGDefinition of the force and torque boundaries during ophthalmic operations is a vital step towards design and development of robotic solutions for eye surgery. This paper describes the development of an eyeball FEA model. Unlike other eyeball FEA studies, this 3D eyeball model contains all three layers of the inner eye: retina, choroid and sclera. Furthermore the model includes six extra ocular muscles. The intraocular rotation of a needle tool using a trocar during the surgery was also considered in this study. Although variables such as the thickness of the layers and the property of the orbits and the muscles are unique for every individual, the model was developed by introducing some assumptions and constraints for an average eye. Howev...
Abstract: Scleral buckling operation is one of the surgeries that most frequently performed in clini...
The paper presents the structural design and motion simulation of the robotic eyes with the characte...
Micro-forceps are a promising minimally invasive means of grasping, peeling, pulling into the eye ba...
AbstractDefinition of the force and torque boundaries during ophthalmic operations is a vital step t...
This research presents a new biologically motivated robotic model of the human eye. The model incorp...
Studying human eye movement has significant implications for understanding the oculomotor system and...
International audienceBackground: Glaucoma mainly induced by increased intraocular pressure (IOP), i...
Currently available biomechanical models of the human eyeball focus mainly on the geometries and mat...
It has been widely accepted that the pathology of high myopic esotropia, a special form of strabismu...
Thesis: S.B., Massachusetts Institute of Technology, Department of Materials Science and Engineering...
The mathematical modeling of the physiological behavior of extraocular muscles in ocular rotation, c...
A model of the mechanics of human eye positioning has been evaluated for accuracy by comparison with...
AbstractTo reach a better understanding of the suspension of the eye in the orbit, an orbital mechan...
The human eye is suspended in the orbit, a cavity in the skull that is largely filled with fat (adip...
AIM:To investigate the performance of a newly developed three-dimensional (3D) biomechanical model i...
Abstract: Scleral buckling operation is one of the surgeries that most frequently performed in clini...
The paper presents the structural design and motion simulation of the robotic eyes with the characte...
Micro-forceps are a promising minimally invasive means of grasping, peeling, pulling into the eye ba...
AbstractDefinition of the force and torque boundaries during ophthalmic operations is a vital step t...
This research presents a new biologically motivated robotic model of the human eye. The model incorp...
Studying human eye movement has significant implications for understanding the oculomotor system and...
International audienceBackground: Glaucoma mainly induced by increased intraocular pressure (IOP), i...
Currently available biomechanical models of the human eyeball focus mainly on the geometries and mat...
It has been widely accepted that the pathology of high myopic esotropia, a special form of strabismu...
Thesis: S.B., Massachusetts Institute of Technology, Department of Materials Science and Engineering...
The mathematical modeling of the physiological behavior of extraocular muscles in ocular rotation, c...
A model of the mechanics of human eye positioning has been evaluated for accuracy by comparison with...
AbstractTo reach a better understanding of the suspension of the eye in the orbit, an orbital mechan...
The human eye is suspended in the orbit, a cavity in the skull that is largely filled with fat (adip...
AIM:To investigate the performance of a newly developed three-dimensional (3D) biomechanical model i...
Abstract: Scleral buckling operation is one of the surgeries that most frequently performed in clini...
The paper presents the structural design and motion simulation of the robotic eyes with the characte...
Micro-forceps are a promising minimally invasive means of grasping, peeling, pulling into the eye ba...