Gianni Salvalaio scite author profile

To standardize a new evaluation technique for calculating the overall quality (OQ) of the donor cornea and validate it using a comparative study of corneas preserved in Optisol-GS and Cornea Cold®. Thirty pairs of donor corneas were selected for a 4 week in vitro comparative study using masked observers. Physiological parameters like thickness, transparency, viable endothelial cell density (VECD) and morphology were transformed to numerical range (0-4) to obtain the OQ. Microbiological examination was performed using Bactec instrument. Students t test showed statistically better results (p < 0.05) from week 3 for thickness, week 2 for transparency and week 1 for morphology and VECD; statistical significance (p < 0.05) was found for OQ from week 2 for the corneas preserved in Cornea Cold® compared to Optisol-GS. Epithelial quality was similar regardless of the medium. Microbiological examination showed absence of aerobic and anaerobic microorganisms in both media. OQ method is efficient, consistent and easy, now validated for comparative studies. Further refinement is necessary for its use at eye-banks, bio-banks and research or transplantation purposes. Cornea Cold® is a promising hypothermic corneal storage medium with preservation time ≤21 days. This permits higher flexibility, evaluation accuracy, longer duration for surgical preparation and ease of transportation.

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DMEK lenticule preparation from donor corneas using a novel ‘SubHyS’ technique followed by anterior corneal dissection

Salvalaio

Parekh

Ruzza

et al. 2014

Br J Ophthalmol

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The DEGs can be preserved in a deturgescent medium for up to 7 days. The procedure provides a standardised, pre-validated (quality assured), pre-separated, no-touch, ready-to-use tissue and also reduces the preparation time. Further, the tissues can be trephined as per the surgeon's convenience and can either be rolled or a contact lens could be used for final delivery of the DEG using a surgical glide.

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Descemet Membrane Endothelial Keratoplasty Learning Curve for Graft Preparation in an Eye Bank Using 645 Donor Corneas

Parekh

Ruzza

Romano

et al. 2018

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Bubble technique for Descemet membrane endothelial keratoplasty tissue preparation in an eye bank: air or liquid?

Ruzza

Parekh

Salvalaio

et al. 2014

Acta Ophthalmologica

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ABSTRACT.Purpose: To compare the big-bubble method using air and liquid as medium of separation for Descemet membrane endothelial keratoplasty (DMEK) lenticule preparation in an eye bank. Methods: Donor corneas (n = 20) were immersed in liquid [tissue culture medium (TCM)]. Air and liquid was injected using a 25-gauge needle in the posterior stroma or as near to the stroma-Descemet membrane (DM) phase as possible to create a complete bubble of larger diameter. The endothelial cell density and mortality were checked pre-and postbubble after deflating the tissue. Four pairs of tissues were used to analyse the intracellular tight junctions and three pairs for histological examination and DNA integrity studies, respectively. Results: The yield obtained using air was 80%, whereas that with liquid was 100%. Single injection was required in six cases; twice in two cases; three and four times in one case each with air bubble, whereas seven cases required single injection; twice in two cases; and thrice in just one case with liquid bubble. The average diameter of the final lenticule was 9.12 (AE 1.71) mm for air bubble and 9.78 (AE 1.75) mm for liquid bubble with p = 0.4362 (no statistical significance). Endothelial cell mortality postbubble preparation was 8.9 (AE 12.38) % for air and 6.25 (AE 9.57) % for liquid (p = 0.6268). Conclusions: DM and endothelium could be separated exclusively using air or liquid bubble. However, liquid bubble seems to have certain advantages over air such as the generation of yield, larger diameter and higher maintenance of endothelial cell density and integrity.

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Effect of postmortem interval on the Graft Endothelium During Preservation and After Transplantation for Keratoconus

Parekh

Salvalaio

Ferrari

et al. 2013

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