Deep neuromuscular blockade during spinal surgery reduces intra-operative blood loss: A randomised clinical trial.

BACKGROUND: Spinal surgery is usually performed in the prone position using a posterior approach. However, the prone position may cause venous engorgement in the back and thus increase surgical bleeding with interruption of surgery. The prone position also affects cardiac output since large vessels are compressed decreasing venous return to the heart. OBJECTIVE: We hypothesised that deep neuromuscular blockade would be associated with less surgical bleeding during spinal surgery in the prone position. DESIGN: Randomised, single blinded trial. SETTING: University teaching hospital. PARTICIPANTS: Eighty-eight patients in two groups. INTERVENTIONS: Patients were randomly assigned to moderate neuromuscular blockade or deep neuromuscular blockade. In the moderate neuromuscular blockade group, administration of rocuronium was adjusted such that the train-of-four count was one to two. In the deep neuromuscular blockade group, rocuronium administration was adjusted such that the train-of-four count was zero with a posttetanic count 2 or less. MAIN OUTCOME MEASURES: The primary outcome was the volume of intra-operative surgical bleeding. The surgeon's satisfaction with operating conditions, haemodynamic and respiratory status, and postoperative pain scores were evaluated. RESULTS: The median [IQR] volume of intra-operative surgical bleeding was significantly less in the deep neuromuscular blockade group than in the moderate neuromuscular blockade group; 300 ml [200 to 494] vs. 415 ml [240 to 601]; difference: 117 ml (95% CI, 9 to 244; P = 0.044). The mean ±â€ŠSD surgeon's satisfaction with the intra-operative surgical conditions was greater in the deep neuromuscular blockade group than in the moderate neuromuscular blockade group; 3.5 ±â€Š1.0 vs. 2.9 ±â€Š0.9 (P = 0.004). In intergroup comparisons of respiratory variables, peak inspiratory pressure was lower in the deep neuromuscular blockade group overall (P < 0.001). The median [IQR] postoperative pain score was lower in the deep neuromuscular blockade group than the moderate neuromuscular blockade group; 50 [36 to 60] vs. 60 [50 to 70], (P = 0.023). CONCLUSION: Deep neuromuscular blockade reduced intra-operative surgical bleeding in patients undergoing spinal surgery. This may be related to greater relaxation in the back muscles and lower intra-operative peak inspiratory pressure when compared with moderate neuromuscular blockade. TRIAL REGISTRATION: KCT0001264 (http://cris.nih.go.kr).

A possible new target in lung-cancer cells: The orphan receptor, bombesin receptor subtype-3.

Human bombesin receptors, GRPR and NMBR, are two of the most frequently overexpressed G-protein-coupled-receptors by lung-cancers. Recently, GRPR/NMBR are receiving considerable attention because they act as growth factor receptors often in an autocrine manner in different lung-cancers, affect tumor angiogenesis, their inhibition increases the cytotoxic potency of tyrosine-kinase inhibitors reducing lung-cancer cellular resistance/survival and their overexpression can be used for sensitive tumor localization as well as to target cytotoxic agents to the cancer. The orphan BRS-3-receptor, because of homology is classified as a bombesin receptor but has received little attention, despite the fact that it is also reported in a number of studies in lung-cancer cells and has growth effects in these cells. To address its potential importance, in this study, we examined the frequency/relative quantitative expression of human BRS-3 compared to GRPR/NMBR and the effects of its activation on cell-signaling/growth in 13 different human lung-cancer cell-lines. Our results showed that BRS-3 receptor is expressed in 92% of the cell-lines and that it is functional in these cells, because its activation stimulates phospholipase-C with breakdown of phosphoinositides and changes in cytosolic calcium, stimulates ERK/MAPK and stimulates cell growth by EGFR transactivation in some, but not all, the lung-cancer cell-lines. These results suggest that human BRS-3, similar to GRPR/NMBR, is frequently ectopically-expressed by lung-cancer cells in which, it is functional, affecting cell signaling/growth. These results suggest that similar to GRPR/NMBR, BRS-3 should receive increased attention as possible approach for the development of novel treatments and/or diagnosis in lung-cancer.