Effect of pneumoperitoneum on hemodynamics and inspiratory pressures during natural orifice transluminal endoscopic surgery (NOTES): An experimental, controlled study in an acute porcine model

S. von Delius; W. Huber; H. Feussner; D. Wilhelm; A. Karagianni; J. Henke; A. Preissel; A. Schneider; R. M. Schmid; A. Meining

doi:10.1055/s-2007-966920

Endoscopy 2007; 39(10): 854-861
DOI: 10.1055/s-2007-966920

Original article

Effect of pneumoperitoneum on hemodynamics and inspiratory pressures during natural orifice transluminal endoscopic surgery (NOTES): An experimental, controlled study in an acute porcine model

S. von Delius^1, ³ , W. Huber¹ , H. Feussner^2, ³ , D. Wilhelm^2, ³ , A. Karagianni¹ , J. Henke⁴ , A. Preissel⁴ , A. Schneider³ , R. M. Schmid¹ , A. Meining^1, ³

¹2^nd Medical Department, Technical University of Munich, Klinikum rechts der Isar, Munich, Germany
²Department of Surgery, Technical University of Munich, Klinikum rechts der Isar, Munich, Germany
³Minimally Invasive Therapy and Intervention Research Group, Technical University of Munich, Klinikum rechts der Isar, Munich, Germany
⁴Center of Preclinical Research, Technical University of Munich, Klinikum rechts der Isar, Munich, Germany

Abstract

Background and study aim: Physiologic reactions during natural orifice transluminal endoscopic surgery (NOTES) may differ from those at laparoscopy. This experimental study assessed the effect of pneumoperitoneum induced by endoscope air pump on hemodynamics and inspiratory pressures during transgastric peritoneoscopy.

Methods: Transgastric peritoneoscopy was performed in 11 female pigs (35 - 50 kg) under general anesthesia. Five pigs with controlled insufflation and no endoscopic intervention served as controls. Cardiac index and global end-diastolic volume index (GEDVI; reflecting preload) were measured every 3 minutes by transpulmonary thermodilution. We also recorded: intra-abdominal pressure (IAP), heart rate, mean arterial pressure (MAP), systemic vascular resistance index (SVRI; reflecting afterload), peak inspiratory pressure (PIP), and oxygenation.

Results: One study group pig was excluded from analysis because of a major complication related to the gastric incision. In the remaining 15 animals we performed 264 paired measurements. On-demand insufflation in the study group produced wide variation in intra-abdominal pressures; the control group demonstrated minimal fluctuation around a predetermined value. In the study group, IAP and PIP correlated well (r = 0.667, P = 0.000), with maximum PIP values of 40 mbar contrasting with the control group maximum of 26.5 mbar. Hemodynamically, there was a minor decrease of cardiac index in the study group (in contrast to the control group). Relative changes in cardiac index and IAP during transgastric peritoneoscopy correlated highly significantly (r = - 0.416, P = 0.000). Neither group showed hemodynamic instability or decline in oxygen saturation.

Conclusions: On-demand insufflation with a standard endoscopic light source/insufflator resulted in a marked median increase and wide variation in IAP throughout transgastric peritoneoscopy. Hemodynamic changes were moderate. However, major increases in PIP suggest a need for stricter control of intra-abdominal hypertension during NOTES.

Full Text

References

1 Kalloo A N, Singh V K, Jagannath S B, Niiyama H. et al . Flexible transgastric peritoneoscopy: a novel approach to diagnostic and therapeutic interventions in the peritoneal cavity. Gastrointest Endosc. 2004; 60 114-117
2 Jagannath S B, Kantsevoy S V, Vaughn C A. et al . Peroral transgastric endoscopic ligation of fallopian tubes with long-term survival in a porcine model. Gastrointest Endosc. 2005; 61 449-453
3 Park P O, Bergstrom M, Ikeda K. et al . Experimental studies of transgastric gallbladder surgery: cholecystectomy and cholecystogastric anastomosis [videos]. Gastrointest Endosc. 2005; 61 601-606
4 Kantsevoy S V, Jagannath S B, Niiyama H. et al . Endoscopic gastrojejunostomy with survival in a porcine model. Gastrointest Endosc. 2005; 62 287-292
5 Kantsevoy S V, Hu B, Jagannath S B. et al . Transgastric endoscopic splenectomy: is it possible?. Surg Endosc. 2006; 20 522-225. [Epub 2006 Jan 21]
6 Wagh M S, Merrifield B F, Thompson C C. Survival studies after endoscopic transgastric oophorectomy and tubectomy in a porcine model. Gastrointest Endosc. 2006; 63 473-478
7 Rattner D, Kalloo A. (ASGE/SAGES Working Group) . ASGE/SAGES Working Group on Natural Orifice Translumenal Endoscopic Surgery. October 2005. Surg Endosc. 2006; 20 329-333
8 Rocca G D, Costa M G, Pietropaoli P. How to measure and interpret volumetric measures of preload. Curr Opin Crit Care. 2007; 13 297-302
9 Delius S von, Karagianni A, Henke J. et al . Changes in intra-abdominal pressure, hemodynamics and peak inspiratory pressure during gastroscopy in a porcine model. Endoscopy. In press. ;
10 Yol S, Kartal A, Tavli S, Tatkan Y. Is urinary bladder pressure a sensitive indicator of intra-abdominal pressure?. Endoscopy.. 1998; 30 778-780
11 Malbrain M L, Deeren D, de Potter T J. Intra-abdominal hypertension in the critically ill: it is time to pay attention. Curr Opin Crit Care. 2005; 11 156-171
12 Delius S von, Feussner H, Wilhelm D. et al . Transgastric in vivo histology in the peritoneal cavity by miniprobe-based confocal fluorescence microscopy in an acute porcine model. Endoscopy. 2007; 39 407-411
13 Mikami O, Fujise K, Matsumoto S. et al . High intra-abdominal pressure increases plasma catecholamine concentrations during pneumoperitoneum for laparoscopic procedures. Arch Surg.. 1998; 133 39-43
14 Wilhelm D, Meining A, Delius S von. et al . An innovative, safe and sterile sigmoid access for NOTES (ISSA). Endoscopy. 2007; 39 401-406
15 de la Fuente S G, Demaria E J, Reynolds J D. et al . New developments in surgery: Natural orifice transluminal endoscopic surgery (NOTES). Arch Surg. 2007; 142 295-297
16 Delius S von, Feussner H, Wilhelm D, Meining A. Transgastric appendectomy-fiction or foresight. Z Gastroenterol. 2007; 45 209-210
17 Neudecker J, Sauerland S, Neugebauer E. et al . The European Association for Endoscopic Surgery clinical practice guideline on the pneumoperitoneum for laparoscopic surgery. Surg Endosc. 2002; 16 1121-1143
18 Shuto K, Kitano S, Yoshida T. et al . Hemodynamic and arterial blood gas changes during carbon dioxide and helium pneumoperitoneum in pigs. Surg Endosc.. 1995; 9 1173-1178
19 Kantsevoy S V, Jagannath S B, Niiyama H. et al . A novel safe approach to the peritoneal cavity for per-oral transgastric endoscopic procedures. Gastrointest Endosc. 2007; 65 497-500
20 Rao V, Tandan M, Lakhtakia S. et al . Per oral transgastric endoscopic surgery (POTES): laparoscopy interface [abstract]. Gastrointest Endosc. 2005; 61 AB237
21 Meireles O, Kantsevoy S V, Kalloo A N. et al . Comparison of intra-abdominal pressures using the gastroscope and laparoscope for transgastric surgery. Surg Endosc. 2007; 21 998-1001. (Epub 2007 Apr 3)
22 Hashizume M, Sugimachi K. Needle and trocar injury during laparoscopic surgery in Japan. Surg Endosc.. 1997; 11 1198-1201
23 Normando V M, Brito M V, de Araujo Jr. F A, Albuquerque B C. Effects of pneumoperitoneum on the amplitude of diaphragmatic excursion in pigs. J Bras Pneumol. 2006; 32 16-22
24 Campbell R S, Davis B R. Pressure-controlled versus volume-controlled ventilation: does it matter?. Respir Care. 2002; 47 416-424
25 McGee M F, Rosen M J, Marks J. et al . A reliable method for monitoring intra-abdominal pressure during natural orifice translumenal endoscopic surgery. Surg Endosc. 2007; 21 672-676
26 Bergstrom M, Swain P, Park P O. Measurements of intraperitoneal pressure and the development of a feedback control valve for regulating pressure during flexible transgastric surgery (NOTES). Gastrointest Endosc. 2007; 66 174-178

S. von Delius, MD

Technical University of Munich

Klinikum rechts der Isar

2nd Medical Department

Ismaninger Str. 22

81675 München

Germany

Fax: +49-89-41404905

Email: stefan_ruckert@yahoo.de

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