Division of Gastroenterology, Department of Medicine, University of Calgary, Calgary, Alberta, Canada.
Neuromodulation. 2012 May-Jun;15(3):219-22; discussion 222-3. doi: 10.1111/j.1525-1403.2012.00428.x. Epub 2012 Feb 28.
To compare larger diameter corkscrew-tined leads with previously described intracardiac pacing leads for temporary gastric neurostimulation in a canine model.
Two mongrel dogs underwent gastroscopy under general anesthesia, with endoscopic placement of two cardiac leads (1 mm tine diameter, 4 mm depth) placed sequentially in 1) transverse configuration in the distal antrum mucosa; 2) longitudinal (1 cm apart) configuration in gastric corpus. Stomach was then stimulated with maximal parameters to induce neutrally mediated contraction. Procedures were then repeated with larger leads (5 mm tine diameter, 8 mm length). Gastric contractions were measured with serosal strain transducers.
Leads were placed endoscopically without difficulty. Neither lead type punctured through to the serosa of the stomach. Neither cardiac nor larger leads were capable of eliciting any gastric contractile activity with endoscopic placement either in the transverse or longitudinal orientations.
While successful on the serosal side, both the cardiac leads and the larger alternative leads failed to produce stomach contraction when implanted mucosally. This may be due to the elastic nature of the mucosa, which was observed to twist around both types of leads significantly, hindering proper penetration into the muscularis.
These results suggest that the current concept of temporary gastric electrical neurostimulation via a mucosal approach must be reevaluated, as the procedure most likely does not accurately mimic electrical stimulation in the muscularis.
比较大直径螺旋型导丝与之前描述的用于犬模型中心内起搏的临时胃神经刺激的导丝,以评估其效果。
两只杂种犬在全身麻醉下接受胃镜检查,将两根心脏导丝(1 毫米导丝直径,4 毫米深度)顺序放置在内镜下:1)在胃窦黏膜的横向配置;2)在胃体的纵向(1 厘米分开)配置。然后用最大参数刺激胃以诱导中性介导的收缩。然后用更大的导丝(5 毫米导丝直径,8 毫米长度)重复该程序。使用浆膜应变换能器测量胃收缩。
导丝在内镜下放置没有困难。两种导丝类型均未刺穿胃的浆膜。无论是心脏导丝还是更大的导丝,在横向或纵向放置时,都无法通过内镜在黏膜上引起任何胃收缩活动。
尽管在浆膜侧是成功的,但心脏导丝和更大的替代导丝在黏膜植入时都不能产生胃收缩。这可能是由于黏膜的弹性性质所致,观察到黏膜显著地缠绕在两种导丝周围,阻碍了它们正确地穿透肌肉层。
这些结果表明,目前通过黏膜途径进行临时胃电神经刺激的概念必须重新评估,因为该程序不太可能准确模拟肌肉层的电刺激。
