C Song1, A Alijani, T Frank, G B Hanna, A Cuschieri. 1. Department of Surgery and Molecular Oncology, Ninewells Hospital and Medical School, University of Dundee, Dundee, DD1 9SY, Scotland.
Abstract
BACKGROUND: Carbon dioxide insufflation of the peritoneal cavity for laparoscopic surgery offers a unique opportunity to measure some mechanical properties of the human abdominal wall that hitherto have been difficult to obtain. METHODS: The movement and change of the abdominal wall during insufflation to a pressure of 12 mmHg was studied in 18 patients undergoing laparoscopic surgery using a remote motion analysis system that does not compromise the sterility of the operative filed. These data together with the known abdominal wall thickness of each patient (measured by preoperative ultrasound scanning) enabled estimates of mechanical stiffness. RESULTS: The findings showed that the abdominal wall changes from a cylinder to a dome during inflation, and that its area is increased by 15%. A volume, averaging 1.27 x 10(-3)m(3), results from expansion, reshaping of the abdominal wall, and displacement of the diaphragm. The abdominal wall is stiffer in the transverse plane than in the sagittal plane (Young's modulus, 42.5 +/- 9.0 kPa vs 22.5 +/- 2.6 kPa; p = 0.03; paired t-test). CONCLUSIONS: Measurements of mechanical properties of the abdominal wall in patients undergoing laparoscopic surgery were obtained using a remote motion analysis system.
BACKGROUND:Carbon dioxide insufflation of the peritoneal cavity for laparoscopic surgery offers a unique opportunity to measure some mechanical properties of the human abdominal wall that hitherto have been difficult to obtain. METHODS: The movement and change of the abdominal wall during insufflation to a pressure of 12 mmHg was studied in 18 patients undergoing laparoscopic surgery using a remote motion analysis system that does not compromise the sterility of the operative filed. These data together with the known abdominal wall thickness of each patient (measured by preoperative ultrasound scanning) enabled estimates of mechanical stiffness. RESULTS: The findings showed that the abdominal wall changes from a cylinder to a dome during inflation, and that its area is increased by 15%. A volume, averaging 1.27 x 10(-3)m(3), results from expansion, reshaping of the abdominal wall, and displacement of the diaphragm. The abdominal wall is stiffer in the transverse plane than in the sagittal plane (Young's modulus, 42.5 +/- 9.0 kPa vs 22.5 +/- 2.6 kPa; p = 0.03; paired t-test). CONCLUSIONS: Measurements of mechanical properties of the abdominal wall in patients undergoing laparoscopic surgery were obtained using a remote motion analysis system.
Authors: Lindsey G Kahan; Spencer P Lake; Jared M McAllister; Wen Hui Tan; Jennifer Yu; Dominic Thompson; L Michael Brunt; Jeffrey A Blatnik Journal: Surg Endosc Date: 2017-07-21 Impact factor: 4.584
Authors: Jon S Heiselman; Logan W Clements; Jarrod A Collins; Jared A Weis; Amber L Simpson; Sunil K Geevarghese; T Peter Kingham; William R Jarnagin; Michael I Miga Journal: J Med Imaging (Bellingham) Date: 2017-12-14
Authors: Andrew W Kirkpatrick; Paolo Pelosi; Jan J De Waele; Manu Lng Malbrain; Chad G Ball; Maureen O Meade; Henry T Stelfox; Kevin B Laupland Journal: Crit Care Date: 2010-08-27 Impact factor: 9.097
Authors: Evelina Sturini; Andrea Saporito; Michael Sugrue; Michael J A Parr; Gillian Bishop; Antonio Braschi Journal: Intensive Care Med Date: 2008-05-24 Impact factor: 17.440