Preliminary pneumoperitoneum facilitates transgastric access into the peritoneal cavity for natural orifice transluminal endoscopic surgery: A pilot study in a live porcine model

C.-W. Ko; E. J. Shin; J. M. Buscaglia; J. O. Clarke; P. Magno; S. A. Giday; S. S. C. Chung; P. B. Cotton; C. J. Gostout; R. H. Hawes; P. J. Pasricha; A. N. Kalloo; S. V. Kantsevoy

doi:10.1055/s-2007-966844

Endoscopy 2007; 39(10): 849-853
DOI: 10.1055/s-2007-966844

Original article

Preliminary pneumoperitoneum facilitates transgastric access into the peritoneal cavity for natural orifice transluminal endoscopic surgery: A pilot study in a live porcine model

C.-W. Ko¹ , E. J. Shin² , J. M. Buscaglia² , J. O. Clarke² , P. Magno² , S. A. Giday² , S. S. C. Chung³ , P. B. Cotton⁴ , C. J. Gostout⁵ , R. H. Hawes⁴ , P. J. Pasricha⁶ , A. N. Kalloo² , S. V. Kantsevoy²

¹Division of Gastroenterology, Taichung Veterans’ General Hospital, Taichung, and Division of Gastroenterology National Yang-Ming University, Taipei, Taiwan
²Division of Gastroenterology, Department of Medicine, Johns Hopkins Hospital, Baltimore, Maryland, USA
³Department of Surgery, Chinese University of Hong Kong, Hong Kong
⁴Medical University of South Carolina, Charleston, South Carolina, USA
⁵Mayo College of Medicine, Rochester, Minnesota, USA
⁶University of Texas Medical Branch in Galveston, Galveston, Texas, USA

Abstract

Background and study aims: Safe entrance into the peritoneal cavity through the gastric wall is paramount for the successful clinical introduction of natural orifice transluminal endoscopic surgery (NOTES). The aim of the study was to develop alternative safe transgastric access to the peritoneal cavity.

Patients and methods: We performed 11 survival experiments on 50-kg pigs. In sterile conditions, the abdominal wall was punctured with a Veress needle. The peritoneal cavity was insufflated with 2 L carbon dioxide (CO₂). A sterile endoscope was introduced into the stomach through a sterile overtube; the gastric wall was punctured with a needle-knife; after balloon dilation of the puncture site, the endoscope was advanced into the peritoneal cavity. Peritoneoscopy with biopsies from abdominal wall, liver and omentum, was performed. The endoscope was withdrawn into the stomach. The animals were kept alive for 2 weeks and repeat endoscopy was followed by necropsy.

Results: The pneumoperitoneum, easily created with the Veress needle, lifted the abdominal wall and made a CO₂-filled space between the stomach and adjacent organs, facilitating gastric wall puncture and advancement of the endoscope into the peritoneal cavity. There were no hemodynamic changes or immediate or delayed complications related to pneumoperitoneum, transgastric access, or intraperitoneal manipulations. Follow-up endoscopy and necropsy revealed no problems or complications inside the stomach or peritoneal cavity.

Conclusions: Creation of a preliminary pneumoperitoneum with a Veress needle facilitates gastric wall puncture and entrance into the peritoneal cavity without injury to adjacent organs, and can improve the safety of NOTES.

Full Text

References

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S. V. Kantsevoy , MD PhD

Johns Hopkins Hospital

Division of Gastroenterology

1830 East Monument Street, Room 423

Baltimore, MD 21205

USA

Fax: +1-410-614-2490

Email: svkan@jhmi.edu