C-arm cone beam computed tomography needle path overlay for image-guided procedures of the spine and pelvis

IntroductionThe aim of this study is to report our early clinical experience using C-arm cone beam computed tomography with fluoroscopic overlay for image guidance during percutaneous needle procedures of the spine and pelvis.MethodsTwelve consecutive patients (four female and eight male patients; mean age, 64 years; range, 47–74 years; SD ± 7.6 years) who underwent percutaneous biopsy of the spine and pelvis for suspected metastasis (n = 12), spondylodiscitis (n = 6), abscess (n = 5) or bone tumour (n = 1) were prospectively included between March 2009 and November 2010. The procedures were performed on the Allura Xper FD20/20 (Philips, Best, the Netherlands) using cone beam computed tomography (XperCT) with the C-arm combined with fluoroscopic overlay for needle guidance. Based on an initial XperCT, entry and target points were defined using dedicated guidance software (XperGuide). The needle path was visualised in various reconstructed planes and could be adjusted when considered necessary. For percutaneous interventions, the entry view (overlay of entry and target point in the bull's eye fashion), the progression view (perpendicular to the entry view) as well as two additional views could automatically be piloted to with the C-arm system. Needle navigation was supported by a biopsy guidance device (Seestar, Radi, Uppsala, Sweden). Correct needle positioning was confirmed with a second XperCT acquisition. Technical success was defined as any target point reached via the planned needle trajectory with a distance of final needle tip within 5 mm of the planned target point in any direction.ResultsIn all 12 patients, target areas could be defined based on XperCT data. In 11 of 12 (92%) cases, the target point was successfully reached on the planned trajectory with a mean error of 2.8 mm (range, 0.5–9.4 mm; SD, 2.4 mm). No peri- or post-interventional complications occurred.ConclusionXperCT-guided interventions with the XperGuide system seem a safe and reliable tool for percutaneous needle interventions of the spine and pelvis. The advantage of the technique when compared to CT- or fluoroscopy-guided interventions needs to be determined in a comparative study of a larger scale.

[1]  Evon M. O. Abu-Taieh,et al.  Comparative Study , 2020, Definitions.

[2]  Drazenko Babic,et al.  Live 3D guidance in the interventional radiology suite. , 2007, AJR. American journal of roentgenology.

[3]  Marie-Odile Berger,et al.  Model of a Vascular C-Arm for 3D Augmented Fluoroscopy in Interventional Radiology , 2005, MICCAI.

[4]  M. V. van Strijen,et al.  Real-Time 3D fluoroscopy guidance during needle interventions: technique, accuracy, and feasibility. , 2010, AJR. American journal of roentgenology.

[5]  Gebhard Schmid,et al.  Effective Dose of CT- and Fluoroscopy-Guided Perineural/Epidural Injections of the Lumbar Spine: A Comparative Study , 2004, CardioVascular and Interventional Radiology.

[6]  C. S. Winalski,et al.  Use of a novel percutaneous biopsy localization device: initial musculoskeletal experience , 2006, Skeletal Radiology.

[7]  N. Oda,et al.  Radiation dose evaluation in tomosynthesis and C-arm cone-beam CT examinations with an anthropomorphic phantom. , 2010, Medical physics.

[9]  F. Verdun,et al.  Comparison of organ doses and image quality between CT and flat panel XperCT scans in wrist and inner ear examinations. , 2010, Radiation protection dosimetry.

[10]  Michael Oberst,et al.  Computer Navigation in Balloon Kyphoplasty Reduces the Intraoperative Radiation Exposure , 2009, Spine.

[11]  W A Kalender,et al.  Neuroradiologic Applications with Routine C-arm Flat Panel Detector CT: Evaluation of Patient Dose Measurements , 2008, American Journal of Neuroradiology.

[12]  Marcus Pfister,et al.  C-Arm Cone Beam Computed Tomography Needle Path Overlay for Fluoroscopic Guided Vertebroplasty , 2010, Spine.

[13]  D. Babic,et al.  Brain imaging with a flat detector C-arm , 2008, Neuroradiology.

[14]  A. Nourbakhsh,et al.  Percutaneous spine biopsy: a meta-analysis. , 2008, The Journal of bone and joint surgery. American volume.

[15]  J H Siewerdsen,et al.  Intraoperative cone-beam CT for guidance of head and neck surgery: Assessment of dose and image quality using a C-arm prototype. , 2006, Medical physics.

[16]  M. Alberghini,et al.  Percutaneous CT-guided biopsy of the spine: results of 430 biopsies , 2008, European Spine Journal.