Jesintha Navaratnam scite author profile

Corneal endothelium is a single layer of specialized cells that lines the posterior surface of cornea and maintains corneal hydration and corneal transparency essential for vision. Currently, transplantation is the only therapeutic option for diseases affecting the corneal endothelium. Transplantation of corneal endothelium, called endothelial keratoplasty, is widely used for corneal endothelial diseases. However, corneal transplantation is limited by global donor shortage. Therefore, there is a need to overcome the deficiency of sufficient donor corneal tissue. New approaches are being explored to engineer corneal tissues such that sufficient amount of corneal endothelium becomes available to offset the present shortage of functional cornea. Although human corneal endothelial cells have limited proliferative capacity in vivo, several laboratories have been successful in in vitro expansion of human corneal endothelial cells. Here we provide a comprehensive analysis of different substrates employed for in vitro cultivation of human corneal endothelial cells. Advances and emerging challenges with ex vivo cultured corneal endothelial layer for the ultimate goal of therapeutic replacement of dysfunctional corneal endothelium in humans with functional corneal endothelium are also presented.

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Conjunctival provocation test in diagnosis of peanut allergy in children

Lindvik

Carlsen

Mowinckel

et al. 2017

Clin Experimental Allergy

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Ultra-Widefield Autofluorescence Imaging in the Evaluation of Scleral Buckling Surgery for Retinal Detachment

Salvanos

Navaratnam²,

Ma³

et al. 2013

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Ultra‐widefield autofluorescence imaging findings in retinoschisis, rhegmatogenous retinal detachment and combined retinoschisis retinal detachment

Navaratnam

Salvanos

Vavvas

et al. 2020

Acta Ophthalmologica

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Purpose Retinoschisis (RS), rhegmatogenous retinal detachment (RRD) and combined RS retinal detachment (RSRD) may resemble clinically and pose a diagnostic challenge. This study investigates the role of the fundus autofluorescence (AF) in differentiating RS, RRD and RSRD. Methods Fundus AF changes of 34 eyes diagnosed with RRD, 30 eyes with RS and 12 eyes with RSRD were retrospectively analysed. Ultra‐widefield AF (UW‐AF) image intensities obtained with the Optomap 200Tx were interpreted as hypo‐, hyper‐ and isoautofluorescent or a mixed pattern with hypo‐ and hyperautofluorescence over and at the posterior margin (PM) of RRD, RS and RSRD. Results All RS eyes revealed isoautofluorescence over the area of RS, and nine eyes (30%) showed hypoautofluorescent PM. Among RRD, acute (≤2 weeks) and chronic (>2 weeks) RRD demonstrated distinct AF characteristics. Sixty‐two per cent of RRD eyes had acute RRD. From those, 16 eyes (76%) demonstrated hypoautofluorescence over the detached area and 19 (90%) eyes with hyperautofluorescent PM. Sixty‐two per cent of chronic RRD eyes demonstrated isoautofluorecence over the detached area. Eight RSRD eyes (67%) revealed hyperautofluorescence in the detached area. The positive predictive value (PPV) for hypoautofluorescence over the area of subretinal fluid (SRF) in RRD was 95%. The PPV for hyperautofluorescence over the area of SRF in RSRD was 100% and for isoautofluorescence for schitic area in RSRD and RS was 76%. Conclusion The UW‐AF can be a useful non‐invasive adjuvant tool to distinguish between RRD, RS and RSRD. Hypo‐ or hyperautofluorescence over the area of interest and hyperautofluorescent PM indicates the presence of SRF.

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