- 作者:Cedric Adelsdorfer ; MD1 ; Pilar Taura ; MD2 ; ; Aitnitze Ibarzabal ; MD1 ; Marina Vendrell ; MD2 ; Alberto Delitala ; MD1 ; Ramon Deulofeu ; MD3 ; Waldemar Adelsdorfer ; MD1 ; Salvadora Delgado ; MD ; PhD1 ; Antonio M. Lacy ; MD ; PhD1
- 关键词:Lap ; laparoscopy ; NOTES ; natural orifice transluminal endoscopic surgery
- 刊名:Gastrointestinal Endoscopy
- 出版年:2016
- 出版时间:February 2016
- 年:2016
- 卷:83
- 期:2
- 页码:427-433
- 全文大小:617 K
Methods
Twenty-one swine were randomized to the following: cholecystectomy by transgastric NOTES (n = 8), cholecystectomy by standard laparoscopy (Lap) (n = 8), and a sham group (n = 5). During NOTES, CO2 was manually insufflated with a maximum allowed pressure of 30 mm Hg. In the Lap group, intra-abdominal pressure was maintained at 14 mm Hg. Systemic hemodynamics were measured, and microcirculatory blood flow was quantified by using colored microspheres.
Results
Mean intra-abdominal pressure was lower in NOTES than in the Lap group (P = .038). In both groups, cardiac index and preload remained unchanged, whereas systemic vascular resistances increased over time, with a lesser increase in the Lap group (2-way analysis of variance; P = .041). In pneumoperitoneum groups, microcirculatory blood flow decreased similarly in the renal medulla, stomach, small bowel, colon, and mesocolon by 30%, 45%, 34%, 32%, and 37%, respectively. In NOTES, there was a greater microcirculatory blood flow decrease in the renal cortex (NOTES 41% vs Lap 35%; P = .044) and mesentery (NOTES 44% vs Lap 38%; P = .041).
Conclusions
These findings suggest that both types of pneumoperitoneum have similar physiologic effects on microcirculatory blood flow. However, on-demand pneumoperitoneum (NOTES group) caused a greater microcirculatory blood flow decrease in areas with low metabolic needs, redistributing blood flow toward metabolically active areas.