Comparative analysis of the biocompatibility of endothelial cells on surfaces treated by thermal plasma and cold atmospheric plasma.

In recent years, cold atmospheric plasma (CAP) is used for surface disinfection. However, little is known about its ability to improve biocompatibility of metallic surfaces when compared to thermal plasma methods. In this context, the study aimed to evaluate the response of human endothelial cells (Ea.hy926) on titanium surfaces treated by non-thermal plasma method and thermal plasma method under nitriding atmosphere. The wettability was characterized by the sessile drop method, the topography and roughness were evaluated by atomic force microscopy (AFM), and the microstructure by grazing angle X-ray diffraction (GIXRD). Endothelial cells were cultured and evaluated for morphology by scanning electron microscopy and viability by an MTT (3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide) assay. CAP treatment reduced the contact angle of the Ti surface (13.43° ± 1.48; p<0.05), increasing hydrophilicity. Rz roughness was higher on the nitrided surface (220.44±20.30; p< 0.001) compared to the CAP treated surfaces (83.29 ± 11.61; p< 0.001) and polished (75.98 ±34.21a); p<0.001). The different applied plasma treatments created different titanium surfaces improving the biocompatibility of endothelial cells, however CAP results demonstrate its potential for biomedical applications, considering the low cost and ease of use of the technique, allowing surface treatments before clinical procedures.

Pronephros and mesonephros characterization during the embryonic development of the giant South American river turtle, Podocnemis expansa (Podocnemididae: Testudines).

This study aimed to describe pronephros and mesonephros morphology during the embryonic development of Podocnemis expansa. Eggs were collected on an artificial beach at Balbina, Amazonas, Brazil, during the entire incubation period (mean of 59 days). The kidney-gonad complex was processed using light microscopy and the mesonephros using transmission electron microscopy. The pronephros was present for the first time on stage 4, composed of external glomeruli devoid of a capsule, protruding into the coelomic cavity, and internally composed of a capillary network. The pronephros degenerated after development stage 15. The first sign of the appearance of the mesonephros occurred around stage 8, indicated by the early formation of renal corpuscles. The mesonephros comprised an renal corpuscles, neck segment, proximal tubule, intermediate segment, distal tubule, collector tubule, and collector duct. Ultrastructural analysis of the mesonephros brush border was done in the proximal tubule, and the presence of cells with structural characters indicative of secretory activity was detected in the juxtatubular region. Renal corpuscles and proximal tubules were the main components that underwent morphological alterations during mesonephros degeneration. The pronephros is a transient kidney, and the mesonephros became the functional embryonic kidney in P. expansa. Mesonephros degeneration occurs in the cranial-caudal direction, and histologically, the degeneration is identified by changes in the morphology of the renal corpuscle and proximal tubule. However, the mesonephros is still present after hatching.

Morfologia do tubo digestório da tartaruga verde (Chelonia mydas) / Morphology of the digestive tube of the green turtle (Chelonia mydas)

Para avaliar a morfologia do tubo digestório da tartaruga verde (Chelonia mydas) 10 animais, 9 juvenis e 1 adulto, foram analisados. A retirada dos órgãos digestórios procedeu-se após abertura do plastrão. A descrição e a medida do comprimento de cada órgão [esôfago, estômago, intestino delgado (ID) e intestino grosso (IG)] foram realizadas com o tubo digestório aberto. Os resultados mostraram que tanto nos animais juvenis como no adulto, o esôfago foi marcado pela presença de papilas pontiagudas em sua mucosa interna. O estômago apresentou aspecto saculiforme com fundo cego. No ID foi observado pregas reticulares na mucosa duodenal, enquanto o jejuno e do íleo mostrou pregas retilíneas longitudinais. O IG foi marcado pela alternância de regiões abauladas (haustros ou saculações) e estreitamentos. A microscopia do tudo digestório em C. mydas revelou esôfago com mucosa pregueada revestida por epitélio estratificado pavimentoso queratinizado. O estômago mostrou-se dividido em regiões: cárdica, fúndica, pilórica, as quais diferiam quanto ao número de glândulas e disposição da camada muscular. O ID apresentou-se marcado por vilosidades, e o IG por mucosa pregueada contendo glândulas na lâmina própria. A morfologia do tubo digestório da tartaruga verde mostrou-se adaptada ao seu hábito alimentar, possuindo especializações e um longo trato digestório que promove o aumento da superfície de absorção, já que seu alimento é de difícil digestão.

The morphology of the digestive tube of the green turtle (Chelonia mydas) was evaluated. Nine young e 1 adult turtles were analyzed. The digestive organs withdrew occurred after plastron opening. The length's description and measurement from each organ [esophagus, stomach, small intestine (SI) and large intestine (LI)] were made with digestive tube opened. The results showed that in both the adult and young animals, the esophagus from all species were marked by the presence of pointed papillae on internal mucous. The stomach presented saclike shape with blind fund. In the SI, reticular pleats in the duodenal mucous membrane have been observed, while the jejune and the ileum showed rectilinear longitudinal pleats. The LI was marked by the alternation of arched areas (haustra or sacculations) and narrowings. The microscopy of digestive tube from C. mydas revealed esophagus with folded mucous covered by keratinized and stratified squamous epitheliums. The stomach was divided in regions: cardiac, fundic e pyloric which differed as to the number of glands and the muscle layer's arrangement. The SI presented marked by microvillus, and LI by folded mucous with glands the lamina propria. The morphology of the tube digestive of the green turtle showed to be adapted to your eating habits. A long the digestive tract and specializations provide greater area of absorption and more efficiency in digestion in this species.