BACKGROUND: Conventional percutaneous iliosacral screw placement in pelvic surgery is considered to be a highly demanding operative technique with a high rate of screw malpositions, which may be associated with the risk of neurologic damage or inefficient stability. In the conventional technique, the correct entry point for the screw and the small target corridor for the iliosacral screw may be difficult to visualize using an image intensifier. We tried to find out in this study whether the positioning of percutaneous screw implantations could be optimized by evaluating the rate and grade of malpositions and whether the needed revisions could be reduced by using computer navigation and three-dimensional (3D) image intensifier. METHODS: A group of 54 patients with 63 screws implanted using computer navigation was compared with 87 patients with 131 screws implanted using the conventional fluoroscopic technique. The exact screw position was controlled in a postoperative computed tomography scan, and the grade of malposition of every screw was investigated and compared. RESULTS: A complete intraosseous screw position was found in 42% of cases using the conventional technique and was significantly less compared with 81% using a 3D image intensifier in combination with a navigation system. Moreover, the revision rate of 1.6% was significantly less in the navigated group compared with 19% in the conventional group. CONCLUSIONS: The results indicate that 3D-computer navigation of the percutaneous iliosacral screw insertion can facilitate surgical performance in respect to reducing screw malposition and revision rates.
BACKGROUND: Conventional percutaneous iliosacral screw placement in pelvic surgery is considered to be a highly demanding operative technique with a high rate of screw malpositions, which may be associated with the risk of neurologic damage or inefficient stability. In the conventional technique, the correct entry point for the screw and the small target corridor for the iliosacral screw may be difficult to visualize using an image intensifier. We tried to find out in this study whether the positioning of percutaneous screw implantations could be optimized by evaluating the rate and grade of malpositions and whether the needed revisions could be reduced by using computer navigation and three-dimensional (3D) image intensifier. METHODS: A group of 54 patients with 63 screws implanted using computer navigation was compared with 87 patients with 131 screws implanted using the conventional fluoroscopic technique. The exact screw position was controlled in a postoperative computed tomography scan, and the grade of malposition of every screw was investigated and compared. RESULTS: A complete intraosseous screw position was found in 42% of cases using the conventional technique and was significantly less compared with 81% using a 3D image intensifier in combination with a navigation system. Moreover, the revision rate of 1.6% was significantly less in the navigated group compared with 19% in the conventional group. CONCLUSIONS: The results indicate that 3D-computer navigation of the percutaneous iliosacral screw insertion can facilitate surgical performance in respect to reducing screw malposition and revision rates.
Authors: M A König; S Hediger; J W Schmitt; T Jentzsch; K Sprengel; C M L Werner Journal: Eur J Trauma Emerg Surg Date: 2016-05-11 Impact factor: 3.693
Authors: Barbara M Dirhold; Mustafa Citak; Hesham Al-Khateeb; Carl Haasper; Daniel Kendoff; Christian Krettek; Musa Citak Journal: Curr Rev Musculoskelet Med Date: 2012-09
Authors: Philipp Kobbe; Ingrid Hockertz; Richard M Sellei; Heinrich Reilmann; Thomas Hockertz Journal: Int Orthop Date: 2011-05-31 Impact factor: 3.075
Authors: Josephine Berger-Groch; Marie Lueers; Johannes Maria Rueger; Wolfgang Lehmann; Darius Thiesen; Jan Philipp Kolb; Maximilian Johannes Hartel; Lars Gerhard Grossterlinden Journal: Eur J Trauma Emerg Surg Date: 2018-07-20 Impact factor: 3.693
Authors: Savyasachi C Thakkar; Rashmi S Thakkar; Norachart Sirisreetreerux; John A Carrino; Babar Shafiq; Erik A Hasenboehler Journal: Int J Comput Assist Radiol Surg Date: 2016-08-08 Impact factor: 2.924
Authors: Miguel Pishnamaz; Thomas Dienstknecht; Barbara Hoppe; Christina Garving; Henning Lange; Frank Hildebrand; Philipp Kobbe; Hans-Christoph Pape Journal: Int Orthop Date: 2015-08-11 Impact factor: 3.075