Methylene blue and the NO/cGMP pathway in solid organs transplants.

The nitric oxide/cyclic guanosine monophosphate (NO/cGMP) pathway has a significative influence in hemodynamic changes that occur in transplants. Classically, the ischemia-reperfusion syndrome (IRS) is characterized by hypotension and low vascular resistance, when cGMP and nitric oxide (NO) are increased, contributing to oxidative stress, within an inflammatory context. These mechanisms occur in several types of transplants, such as liver, heart, lungs, kidney, which are a therapeutic choice in several clinical conditions when conventional treatments failed. It is well known the significant relation between graft dysfunction or rejection and ischemia-reperfusion injury that is linked to inflammatory response and NO/cGMP pathway activation. This review aims to study the NO/cGMP pathway in solid organ transplants. Finally, we inquire whether physicians do not underestimate the NO/cGMP pathway.

Effects of methylene blue in acute lung injury induced by oleic acid in rats.

BACKGROUND: In acute lung injury (ALI), rupture of the alveolar-capillary barrier determines the protein-rich fluid influx into alveolar spaces. Previous studies have reported that methylene blue (MB) attenuates such injuries. This investigation was carried out to study the MB effects in pulmonary capillary permeability. METHODS: Wistar rats were divided into five groups: (I) Sham: saline bolus; (II) MB, MB infusion for 2 h; (III) oleic acid (OA), OA bolus; (IV) MB/OA, MB infusion for 2 h, and at 5 min after from the beginning, concurrently with an OA bolus; and (V) OA/MB, OA bolus, and after 2 h, MB infusion for 2 h. After 4 h, blood, bronchoalveolar lavage (BAL), and lung tissue were collected from all groups for analysis of plasma and tissue nitric oxide, calculation of the wet weight to dry weight ratio (WW/DW), and histological examination of lung tissue. Statistical analysis was performed using nonparametric test. RESULTS: Although favourable trends have been observed for permeability improvement parameters (WW/WD and protein), the results were not statistically significant. However, histological analysis of lung tissue showed reduced lesion areas in both pre- and post-treatment groups. CONCLUSIONS: The data collected using this experimental model was favourable only through macroscopic and histological analysis. These observations are valid for both MB infusions before or after induction of ALI.