Eye Segment

Abstract: We proposed a dual focus dual channel spectral domain optical coherence tomography (SD-OCT) for simultaneous imaging of the whole eye segments from cornea to the retina. By using dual channels the system solved the problem of limited imaging depth of SD-OCT. By using dual focus the system solved the problem of simultaneous light focusing on the anterior segment of the eye and the retina. Dual focusing was achieved by adjusting the collimating lenses so the divergence of the two probing beams was tuned to make them focused at different depth in the eye. We further achieved full range complex (FRC) SD-OCT in one channel to increase the depth range for anterior segment imaging. The system was successfully tested by imaging a human eye in vivo.

Abstract: We developed an improved dual band dual focus spectral domain optical coherence tomography (SD-OCT) for in vivo 2D/3D imaging of the whole eye segment, including the whole anterior segment and retina. The system featured two OCT channels with two different bands centered at 840 nm and 1050 nm, which were designed to image the retina and the anterior segments of the eye, respectively. By combing the two probe light beams for co-axial scanning and separating them for focusing at different segments of the eye with a combination of three dichroic mirrors, we not only minimized the loss of the backscattered light from the sample but also improved the imaging depth, scan range and resolution. The full resolved complex (FRC) method was applied to double the imaging depth for the whole anterior segment imaging, with which an imaging depth of 36.71 mm in air was achieved. We demonstrated that this system was capable of measuring the dynamic changes of ocular dimensions, including the asphericity of the cornea and lens, during accommodation.

Abstract: An anastomotic connector (200) for attaching two blood vessels comprising a plurality of eye segments (1604), each defining a channel and each including a part of an interlock mechanism (1600) on said channel; a plurality of hook segments (1602), each defining a tissue holding area, each adapted to pass through said channel and including a second part of said interlock mechanism (1600), wherein, said interlock mechanism (1600) engages for a hook and an eye segment when said hook segment (1602) is retracted back into said eye segment (1604) enough to attach two layers of vascular tissue between said eye segment (1604) and said hook segment (1602).

Abstract: Objective Published data on eye disorders in patients with Turner syndrome (TS) are limited. We aimed to evaluate the prevalence of eye disorders in patients with TS and assess the association with patient karyotype. Design Cross-sectional, observational study. Patients Eighty-two patients with TS. Measurements We evaluated visual acuity (distance and proximity), intraocular pressure, optic system refraction, orthoposition, frontal eye segment, the eye fundus and colour vision. For eye fundus abnormalities, we conducted ultrasound examinations, visual field evaluations and fluorescein angiography. We statistically tested the association between the prevalence of eye disorders and karyotype. Results 50 (61%) patients had monosomy X; 9 (11%) had mosaicism with a normal 46,XX line; 21 (26%) had structural aberrations; and 2 patients (2%) had other chromosomal abnormalities. Eye disorders were diagnosed in 43 (52%) patients, with 29 (35%) patients having multiple eye defects. Defects related to impaired vision were the most common (44%), followed by strabismus (21%), changes in the posterior eye segment (6%), red-green colour deficiency (5%), changes in the anterior eye segment (5%) and nystagmus (4%). Amblyopia was diagnosed in 13 patients (16%). The most common combinations of ophthalmological defects were hypermetropia and astigmatism with or without other eye problems (12 patients). We found no association between the presence of eye defects and karyotype. Conclusions Detection of eye abnormalities is necessary in all patients directly after being diagnosed with TS to prevent irreversible deterioration of eye function and permanent poor vision. All girls with TS, irrespective of their karyotype, should be referred to an ophthalmologist.