A influência da morfina ou tramadol pela via epidural no trânsito gastrintestinal de equinos / Influence of epidural morphine or tramadol in gastrointestinal transit of horses

Os opioides são utilizados na medicina veterinária na analgesia dos animais, porém há restrição quanto ao uso desses fármacos em equinos, pois podem desencadear alterações gastrintestinais, mas a administração pela via epidural minimiza os efeitos adversos. Assim, oito equinos hígidos foram utilizados em três grupos experimentais, objetivando-se avaliar a influência no trânsito gastrintestinal da injeção epidural de morfina (0,2mg/kg), tramadol (1,0mg/kg) ou NaCl 0,9%. Para a avaliação do trânsito gastrintestinal, foi administrada a lignina purificada e enriquecida (Lipe®), pela via oral, a qual posteriormente foi analisada nas fezes. As fezes foram coletadas para investigação desse marcador, antes da epidural e em intervalos até totalizar 48 horas do início do experimento. Os dados foram submetidos à análise de variância (ANOVA) de uma via, com repetições múltiplas. As médias entre cada momento dos grupos e dos momentos dentro de cada grupo foram comparadas pelo teste de Student-Newman-Keuls (P≤0,05). A morfina ou o tramadol administrados pela via epidural não alteraram o tempo médio de retenção da fase líquida, a taxa de passagem e o tempo de trânsito do marcador utilizado. Diante de tais achados, conclui-se que a morfina ou o tramadol pela via epidural não alteram o trânsito gastrintestinal.(AU)

Opioids provide analgesia and are used in veterinary, however there is a restriction regarding the use of these drugs in horses, because may lead to ileus, but epidural opioids minimize those side effects. Eight healthy horses were used in three experimental groups, to evaluate the gastrointestinal influence after epidural morphine (0.2mg / kg), tramadol (1.0mg / kg) or NaCl 0.9%. Intestinal transit was evaluated with the administration of Lipe® (purified enriched isolated lignin) and later analyzed in the feces. Feces were collected before the epidural and at intervals up to 48 hours after the beginning of the experiment. The data were analyzed by a one-way analysis of variance or Friedman or Kruskal-Wallis and Student-Newman Keuls test as a post hoc. A value of P≤ 0.05 was considered significant. Epidural morphine or tramadol did not change the mean time for retention of the liquid phase, passage rate, and the transit time of the marker used. In conclusion, epidural morphine or tramadol does not change gastrointestinal transit.(AU)

Essential actions of melatonin in protecting the ovary from oxidative damage.

Free radicals and other reactive species are involved in normal ovarian physiology. However, they are also highly reactive with complex cellular molecules (proteins, lipids, and DNA) and alter their functions leading to oxidative stress. Oxidative damage may play a prominent role in the development of disorders that considerably influence female fertility. Melatonin, because of its amphiphilic nature that allows for crossing morphophysiological barriers, is an effective antioxidant for protecting macromolecules against oxidative stress caused by reactive species. The balance between reactive oxygen species and antioxidants within the follicle seems to be critical to the function of the oocyte and granulosa cells and evidence has accumulated showing that melatonin is involved in the protection of these cells. Melatonin appears to have varied functions at different stages of follicle development, oocyte maturation, and luteal stage. Melatonin concentration in the growing follicle may be an important factor in avoiding atresia, because melatonin in the follicular fluid reduces apoptosis of critical cells. Melatonin also has protective actions during oocyte maturation reducing intrafollicular oxidative damage. An association between melatonin concentrations in follicular fluid and oocyte quality has been reported; this would allow a preovulatory follicle to fully develop and provide a competent oocyte for fertilization. The functional role of reactive species and the cytoprotective properties of melatonin on the ovary from oxidative damage are summarized in this brief review.

The stemness phenotype model.

The identification of a fraction of cancer stem cells (CSCs) associated with resistance to chemotherapy in most solid tumors leads to the dogma that eliminating this fraction will cure cancer. Experimental data has challenged this simplistic and optimistic model. Opposite to the classical cancer stem cell model, we introduced the stemness phenotype model (SPM), which proposed that all glioma cells possess stem cell properties and that the stemness is modulated by the microenvironment. A key prediction of the SPM is that to cure gliomas all gliomas cells (CSCs and non-CSCs) should be eliminated at once. Other theories closely resembling the SPM and its predictions have recently been proposed, suggesting that the SPM may be a useful model for other type of tumors. Here, we review data from other tumors that strongly support the concepts of the SPM applied to gliomas. We include data related to: (1) the presence of a rare but constant fraction of CSCs in established cancer cell lines, (2) the clonal origin of cancer, (3) the symmetrical division, (4) the ability of "non-CSCs" to generate "CSCs," and (5) the effect of the microenvironment on cancer stemness. The aforenamed issues that decisively supported the SPM proposed for gliomas can also be applied to breast, lung, prostate cancer, and melanoma and perhaps other tumors in general. If the glioma SPM is correct and can be extrapolated to other types of cancer, it will have profound implications in the development of novel modalities for cancer treatment.

Inhibition of DNA synthesis in human gliomas by roscovitine.

The early effect of 1-100 microM roscovitine, a purine analogue and cyclin-dependent kinase inhibitor, was studied on tissue specimens from eight human malignant gliomas. The tissue was incubated immediately after resection with DMEM containing [3H]methylthymidine plus vehicle alone or the proper concentration of roscovitine for 30-90 min. The DNA synthesis rate was assessed by measurement of [3H]methylthymidine incorporation into trichloroacetic acid insoluble material/mg protein/min. In all gliomas, 100 microM roscovitine inhibited DNA synthesis by 71-97% (average 89 +/- 8%, p<0.0001). This inhibitory effect of roscovitine appeared within 30 min of incubation and was concentration dependent.