Keratin 13 immunostaining in corneal impression cytology for the diagnosis of limbal stem cell deficiency.

Purpose: The aim of this study was to develop a validated, reliable, and minimally invasive technique for diagnosing limbal stem cell deficiency (LSCD) by immunocytochemical detection of conjunctival and corneal keratins on epithelial cells collected by impression cytology (IC).

Methods: After validation of labeling techniques on a cohort of 10 healthy control patients, keratins K12, K13, and K19 were labeled on corneal IC of 10 eyes suspected of LSCD. Positive scores for the conjunctival markers K13/K19, coupled with the rarity of the corneal marker K12, were diagnostic proof of LSCD.

Cultured autologous oral mucosal epithelial cell sheet (CAOMECS) transplantation for the treatment of corneal limbal epithelial stem cell deficiency.

Purpose: Total bilateral corneal limbal epithelial stem cell deficiency (LSCD) cannot be treated with the surgical transplantation of autologous limbus or cultured autologous limbal epithelium. Transplantation of allogenic limbal epithelium is possible but requires immunosuppressive treatments. Cultured autologous oral mucosal epithelial cell sheet (CAOMECS) is a transparent, resistant, viable, and rapidly bioadhesive cell sheet, cultured with the UpCell-Insert technology (CellSeed, Inc.

Use of magnetically oriented orthogonal collagen scaffolds for hemi-corneal reconstruction and regeneration.

We recently showed that the highly organized architecture of the corneal stroma could be reproduced using scaffolds consisting of orthogonally aligned multilayers of collagen fibrils prepared using a high magnetic field. Here we show that such scaffolds permit the reconstruction in vitro of human hemi-corneas (stroma + epithelium), using primary human keratocytes and limbal stem cell derived human keratinocytes. On the surface of these hemi-corneas, a well-differentiated epithelium was formed, as determined both histologically and ultrastructurally and by the expression of characteristic markers.

Characterisation of human fibroblasts as keratinocyte feeder layer using p63 isoforms status.

Large-scale culture of primary keratinocytes allows the production of large epidermal sheet surfaces for the treatment of extensive skin burns. This method is dependent upon the capacity to establish cultures of proliferating keratinocytes in conditions compatible with their clonal expansion while maintaining their capacity to differentiate into the typical squamous pattern of human epidermis. Feeder layers are critical in this process because the fibroblasts that compose this layer serve as a source of adhesion, growth and differentiation factors.

Reconstruction of a full-thickness collagen-based human oral mucosal equivalent.

Tissue engineered human oral mucosa has the potential to be applied to the closure of surgical wounds after tissue deficits due to facial trauma, malignant lesion surgery or preposthetic procedure. It can also be used to elucidate the biology and pathology of oral mucosa and as a model alternative to animals for safety testing of oral care products. Using the technology previously developed in our laboratory for the production of a skin equivalent, we were able to reconstruct a nonkeratinized full-thickness human oral mucosal equivalent closely mimicking human native oral mucosa.

Variations in the characteristics of keratocytes in culture in relation to their location in human cornea.

To reconstruct artificial stroma close to corneal stroma, it is necessary to use keratocytes with high proliferative potential that maintain the keratocyte phenotype as characterised by CD34. To select such cells, we tested the proliferative potential and characterised the keratocytes isolated from 4 different areas of the human cornea: superior perilimbal, inferior perilimbal, superior central and inferior central. Keratocytes isolated from these different areas had significantly different growth rates (p<0.

Reconstructed corneas: effect of three-dimensional culture, epithelium, and tetracycline hydrochloride on newly synthesized extracellular matrix.

Purpose: To evaluate the influence of the 3-dimensional collagen-glycosaminogycan-chitosan (CGC 3D) scaffold, epithelialization, and the addition of tetracycline hydrochloride on the ultrastructural organization, measured by the diameter and spacing of newly synthesized collagen I fibrils.

Methods: Little is known about the role of interactions between epithelial cells and fibroblasts in controlling the extracellular matrix of the cornea. We developed a hemicornea from a CGC 3D matrix cocultured with keratocytes and human epithelial cells.

Orthogonal scaffold of magnetically aligned collagen lamellae for corneal stroma reconstruction.

The creation of 3D scaffolds that mimic the structure of physiological tissue required for normal cell function is a major bioengineering challenge. For corneal stroma reconstruction this necessitates the creation of a stroma-like scaffold consisting of a stack of orthogonally disposed sheets of aligned collagen fibrils. This study demonstrates that such a scaffold can be built up using magnetic alignment.

Supplementation with a complex of active nutrients improved dermal and epidermal characteristics in skin equivalents generated from fibroblasts from young or aged donors.

Cultured skin equivalent (SE, Mimeskin) was generated by co-culturing skin fibroblasts and keratinocytes on a collagen-glycosaminoglycan-chitosan dermal substrate. In order to examine donor age effect, fibroblasts from 19- (young) or 49- (aged) year-old females were used. Culture medium was supplemented with nutrients complex containing soy extract, tomato extract, grape seed extract, white tea extract, sodium ascorbate, tocopherol acetate, zinc gluconate and BioMarine complex.

Development of an optimised culture medium for keratocytes in monolayer.

Unlabelled: Our objective was to formulate a medium for monolayer culture optimising both keratocyte growth and preservation of the keratocyte phenotype.

Methods: An experimental matrix selected 14 media to test, using 7 components. Selection criteria were growth rates over 5 passages and expression of the CD34 marker.