Effect of the bioprotectant agent trehalose on corneal epithelial healing after corneal cross-linking for keratoconus / Efeito do agente bioprotetor trealose na cicatrização epitelial da córnea após reticulação corneana para ceratocone

ABSTRACT Purpose: This study aimed to compare the effectiveness of eye drops containing a combination of sodium hyaluronate and trehalose and sodium hyaluronate for the treatment of corneal cross-linking and epithelial healing. Methods: This study included 46 eyes of 23 keratoconus patients who underwent corneal cross-linking on both eyes. Unpreserved trehalose 30 mg/mL and sodium hyaluronate 1.5 mg/mL (Thealoz Duo®; Thea, France) were applied six times a day on one eye of each patient and unpreserved sodium hyaluronate 0.15% (Eye Still®; Teka, Inc., Istanbul) was applied on the other eye. Patients were examined daily until complete re-epithelialization. Postoperative examinations to assess the measured size of epithelial defect were performed using slit-lamp biomicroscopy. Results: The study included 23 patients (13 females and 10 males) with a mean age of 20.9 ± 10.3 years. Corneal epithelial healing time after cross-linking was 2.3 ± 1.2 days for the trehalose and sodium hyaluronate group and 3.8 ± 2.9 days for the sodium hyaluronate group (p=0.03). Conclusion: The application of eye drops containing the combination of trehalose and sodium hyaluronate resulted in faster corneal re-epithelialization following corneal cross-linking than that of eye drops containing sodium hyaluronate alone.

RESUMO Objetivo: Este estudo teve como objetivo comparar a eficácia de colírios contendo uma combinação de hialurônico de sódio e hialuronato de sódio e trealose para o tratamento da cicatrização epitelial em pacientes com cross-linking corneano. Métodos: Este estudo inclui 46 olhos de 23 pacientes com ceratocone, que foram operados com cross-linking corneano em ambos os olhos. Trealose não preservada 30 mg/mL e hialuronato de sódio 1,5 mg/mL (Thealoz Duo®; Thea, França) foram aplicados seis vezes por dia em um olho de cada paciente e hialuronato de sódio não conservado, 0,15% (Eye Still®; Teka, Inc., Istambul) foi aplicada no outro olho. Os pacientes foram examinados diariamente até a completa reepitelização. Exames pós-operatórios para avaliar o tamanho medido do defeito epitelial foram realizados usando biomicroscopia com lâmpada de fenda. Resultados: O estudo incluiu 23 pacientes (13 mulheres e 10 homens) com idade média de 20,9 ± 10,3. O tempo de cicatrização epitelial da córnea após o cross-linking foi de 2,3 ± 1,2 dias para o grupo trealose e hialuronato de sódio e 3,8 ± 2,9 dias para o grupo hialurônico de sódio (p=0,03). Conclusão: A aplicação de gotas para os olhos contendo combinação de trealose e hialuronato de sódio resultou em uma re-epitelização da córnea mais rápida após o cross-linking corneano do que a de gotas contendo hialurônico de sódio apenas.

Criopreservación de células estromales derivadas del tejido adiposo: comparación de diferentes medios de criopreservación / Cryopreservation of adipose derived stromal cells: comparison of different cryopreservation media

Objetivo Obtener células estromales derivadas del tejido adiposo, medir y comparar las tasas de viabilidad antes e inmediatamente después un ciclo de criopreservación con diferentes combinaciones de criopreservantes de manera de obtener el mejor medio de criopreservación. Material y método Medición de la tasa de viabilidad poscriopreservación de células estromales derivadas del tejido adiposo obtenidas de 5 pacientes utilizando medios definidos (DMEM/Ham F12) libres de suero bovino y suplementados con una de los siguientes combinaciones de compuestos: dimetilsulfóxido (DMSO) 10%; DMSO 10% + trehalosa 7,6%; DMSO 10% + albúmina humana 10% y DMSO 10% + trehalosa 7,6% + albúmina humana 10%, mediante citometría de flujo con ioduro de propidio. Resultados No existen diferencias estadísticamente significativas en las tasas de viabilidad de las células estromales posterior a un ciclo de criopreservación. Sin embargo, se observa una tendencia a mejorar la tasa de recuperación de células vitales al agregar albúmina humana. Conclusiones No se observaron diferencias significativas entre las condiciones estudiadas, sugiriendo que ninguna es superior a las demás en cuanto a rendimiento. Es así como podemos afirmar que la criopreservación de las células estromales derivadas del tejido adiposo en un medio que combine DMEM/F12 con DMSO 10% + trehalosa 7,6% + albúmina humana 10% no logra una tasa de recuperación de células vitales significativamente mayor que las congeladas solo con DMSO 10%.

Aim To obtain stromal cells derived from adipose tissue, to measure and compare viability rates before and immediately after cryopreservation cycle, using different combinations of cryoprotective agents in order to identify the best cryopreservation medium. Material and method Viability rate after cryopreservation of stromal cells derived from adipose tissue were assessed by flow cytometry with propidium iodide. Samples of stromal cells obtained from 5 patients were kept defined, bovine serum-free media (DMEM/Ham-F12), supplemented with one of the following combinations of compounds: 10% dymethylsulfoxide (DMSO); Trehalose 10% DMSO + 7.6%; 10% DMSO + 10% human albumin and 10% DMSO + 7.6% Trehalose + 10% human albumin. Results No statistically significant differences were observed in the viability rates of stromal cells derived from adipose tissue after a cryopreservation cycle. However, we observed a tendency towards improvement of recovery rate when human albumin was added to the medium. Conclusions None of the studied conditions proved superior to others in terms of cell vitality after a cryopreservation cycle. Hence, we conclude that the cryopreservation of stromal cells derived from adipose tissue in an environment that combines DMEM/F12 with 10% DMSO + 7.6% Trehalose + human albumin 10% does not achieve a significantly higher recovery rate than only frozen solely with DMSO 10%.

Avaliação da trealose como crioprotetor de células-tronco hematopoiéticas de sangue de cordão umbilical e placentário / Evaluation of trehalose as a cryoprotectant natural of hematopoietic stem cells from umbilical cord blood and placental

O sangue do cordão umbilical e placentário (SCUP) tem sido usado como fonte de células-tronco hematopoiéticas (CTH) para reconstituir a função medular (hematopoiese). A maioria das vezes, esta modalidade de transplante requer a criopreservação das CTH, que permanecem congeladas até uma possível utilização futura. Na criopreservação de CTH, o reagente químico dimetilsulfóxido (DMSO) tem sido utilizado como um crioprotetor. No entanto, tem sido provado que DMSO tem efeitos tóxicos para o corpo humano. Muitos organismos na natureza possuem uma capacidade de sobreviver ao congelamento e à desidratação acumulando dissacarídeos, como a trealose e sacarose, por isso a trealose, tem sido investigada como um crioprotetor alternativo para diversos tipos celulares. Outro dano muito comum durante o congelamento é a formação de espécie reativas de oxigênio (ERO) que diminui a viabilidade celular, por isso a adição de bioantioxidantes na solução de criopreservação das células é passo muito importante. Este estudo foi dividido em duas fases na primeira foram avaliados os resultados obtidos com a adição de antioxidantes na solução de criopreservação das células de SCUP e na segunda fase avaliou-se a hipótese que a solução de criopreservação contendo trealose intracelular e extracelular melhora a recuperação e a viabilidade das células-tronco do SCUP, após a criopreservação. SCUP foi processado e submetido à criopreservação em soluções contendo na primeira fase: soluções com diferentes concentrações de DMSO (10%, 5% e 2,5%), assim como as combinações de DMSO (5%, 2,5%) com um dos dissacarídeos (60mmol/L) e ácido ascórbico e/ou catalase (10mg/mL); e na segunda fase: soluções contendo diferentes concentrações de DMSO (10% e 2,5%), assim como as combinações de DMSO (2,5%) com trealose intra (a trealose foi introduzida na célula por meio de lipossomas) e extracelular e soluções contendo trealose intra e extracelular sem DMSO, armazenados por duas semanas em N2L, e descongeladas...

The umbilical cord blood (UCB) has been used as a source of primitive hematopoietic stem cells (HSC) to reconstitute the hematopoiesis. Most often, it is required the cryopreservation of HSC, which remain frozen in banks for possible future use. For cryopreservation of HSC, the chemical reagent dimethylsulfoxide (DMSO) has been used as a cryoprotectant. Many organisms in nature have a capacity of survive freezing and dehydration by accumulating disaccharides, so the trehalose, has been actively investigated as an alternative cryoprotector, other damage which is very common during freezing is oxygen free radicals formation which decreases the cellular viability after thawing, so the addition of bioantioxidants in the solution of cryopreservation of cells is very important. This study was divided into two phases: first, we evaluated the results obtained with the addition of antioxidants in the solution for cryopreservation of cord blood cells and the second phase: evaluate the hypothesis that the cryopreservation solution containing intracellular and extracellular trehalose improves recovery and viability of cord blood stem cells after cryopreservation. UBC was processed and subjected to cryopreservation solutions containing for the first phase: solutions with different concentrations of DMSO (10%, 5% and 2.5%), as well as combinations of DMSO (5%, 2.5 %) with a disaccharide (60 mmol/L), ascorbic acid and/or catalase (10mg/mL), and for the second phase: solutions containing different concentrations of DMSO (10% and 2.5%), as well as combinations of DMSO (2.5%) with intracellular trehalose (trehalose was introduced into the cell by means of liposomes) and solutions containing extra and intracellular trehalose without DMSO, stored for two weeks in N2L, and thawed. The thawed cells were assessed by flow cytometry, MTT and colony forming units (CFU) assays. In the first phase of the study our analysis showed catalase improved the preservation CD34+ and CD123+...

The effect of some osmolytes on the activity and stability of mushroom tyrosinase.

The thermodynamical stability and remained activity of mushroom tyrosinase (MT) from Agaricus bisporus in 10 mM phosphate buffer, pH 6.8, stored at two temperatures of 4 and 40 degrees C were investigated in the presence of three different amino acids (His, Phe and Asp) and also trehalose as osmolytes, for comparing with the results obtained in the absence of any additive. Kinetics of inactivation obey the first order law. Inactivation rate constant (kinact) value is the best parameter describing effect of osmolytes on kinetic stability of the enzyme. Trehalose and His have the smallest value of kinact (0.7x10(-4) s-1) in comparison with their absence (2.5x10(-4) s-1). Moreover, to obtain effect of these four osmolytes on thermodynamical stability of the enzyme, protein denaturation by dodecyl trimethylammonium bromide (DTAB) and thermal scanning was investigated. Sigmoidal denaturation curves were analysed according to the two states model of Pace theory to find the Gibbs free energy change of denaturation process in aqueous solution at room temperature, as a very good thermodynamic criterion indicating stability of the protein. Although His, Phe and Asp induced constriction of MT tertiary structure, its secondary structure had not any change and the result was a chemical and thermal stabilization of MT. The enzyme shows a proper coincidence of thermodynamic and structural changes with the presence of trehalose. Thus, among the four osmolytes, trehalose is an exceptional protein stabilizer.