A novel Veress needle mechanism that reduces overshooting after puncturing the abdominal wall

• Published in: Surgical endoscopy Vol. 35; no. 10; pp. 5857 - 5866
• Main Authors: Postema, Roelf R., Cefai, David, van Straten, Bart, Miedema, Rein, Hardjo, Latifa Lesmana, Dankelman, Jenny, Nickel, Felix, Horeman-Franse, Tim
• Format: Journal Article
• Language: English
• Published: New York Springer US 01.10.2021; Springer Nature B.V
• Subjects: Abdomen; Abdominal Surgery; Abdominal Wall - surgery; Animals; Canada; Endoscopy; Gastroenterology; Gynecology; Hepatology; Injuries; Laparoscopy; Medicine; Medicine & Public Health; Needles; New Technology; Pilot Projects; Proctology; Surgery; Swine; Canada; Safety Mechanism; Entry technique; Laparoscopy; Veress needle
• ISSN: 0930-2794; 1432-2218; 1432-2218
• DOI: 10.1007/s00464-021-08603-x

Background Complications that occur in laparoscopic surgery are often associated with the initial entry into the peritoneal cavity. The literature reported incidences of Veress needle (VN) injuries of e.g. 0.31% and 0.23%. In a 2010 national survey of laparoscopic entry techniques in the Canadian General Surgical practice, 57.3% of respondents had either experienced or witnessed a serious laparoscopic entry complication like bowel perforation and vascular injury. As those complications are potentially life threatening and should be avoided at all costs, improving safety of this initial action is paramount. Methods Based on a bare minimum design approach with focus on function expansion of existing components, a new Safety mechanism was developed for the VN that decreases the risks of VN overshooting. The mechanism works by preventing the puncturing acceleration of the tip of the VN by decoupling the surgeon’s hand from the VN immediately after entering the abdomen. Results Based on a set of requirements, a first prototype of the VN+ with force decoupling safety mechanism is presented and evaluated on an ex vivo porcine abdominal wall tissue model in a custom setup. The experiments conducted by two novices and one experienced surgeon indicated a significant difference between the attempts with a standard, conventional working VN (41.4 mm [37.5–45 mm]) and VN+ with decoupling mechanism (20.8 mm [17.5–22.5 mm]) of p  < 0.001. Conclusion A new decoupling safety mechanism was integrated successfully in a standard VN resulting in a VN+ . The results from the pilot study indicate that this new VN+ reduces overshooting with a minimum of 50% in a standardised ex vivo setting on fresh porcine abdominal wall specimens.