Electromagnetic-Tracked Biopsy under Ultrasound Guidance: Preliminary Results

PurposeThis study was designed to evaluate the accuracy and safety of electromagnetic needle tracking for sonographically guided percutaneous liver biopsies.MethodsWe performed 23 consecutive ultrasound-guided liver biopsies for liver nodules with an electromagnetic tracking of the needle. A sensor placed at the tip of a sterile stylet (18G) inserted in a coaxial guiding trocar (16G) used for biopsy was localized in real time relative to the ultrasound imaging plane, thanks to an electromagnetic transmitter and two sensors on the ultrasound probe. This allows for electronic display of the needle tip location and the future needle path overlaid on the real-time ultrasound image. Distance between needle tip position and its electronic display, number of needle punctures, number of needle pull backs for redirection, technical success (needle positioned in the target), diagnostic success (correct histopathology result), procedure time, and complication were evaluated according to lesion sizes, depth and location, operator experience, and “in-plane” or “out-of-plane” needle approach.ResultsElectronic display was always within 2 mm from the real position of the needle tip. The technical success rate was 100%. A single needle puncture without repuncture was used in all patients. Pull backs were necessary in six patients (26%) to obtain correct needle placement. The overall diagnostic success rate was 91%. The overall true-positive, true-negative, false-negative, and failure rates of the biopsy were 100% (19/19) 100% (2/2), 0% (0/23), and 9% (2/23). The median total procedure time from the skin puncture to the needle in the target was 30 sec (from 5–60 s). Lesion depth and localizations, operator experience, in-plane or out-of-plane approach did not affect significantly the technical, diagnostic success, or procedure time. Even when the tumor size decreased, the procedure time did not increase.ConclusionsElectromagnetic-tracked biopsy is accurate to determine needle tip position and allows fast and accurate needle placement in targeted liver nodules.

[1]  J. Krücker,et al.  Electromagnetic tracking for thermal ablation and biopsy guidance: clinical evaluation of spatial accuracy. , 2007, Journal of vascular and interventional radiology : JVIR.

[2]  Rita Golfieri,et al.  Characterization of small nodules in cirrhosis by assessment of vascularity: The problem of hypovascular hepatocellular carcinoma , 2005, Hepatology.

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

[4]  G. Dodd,et al.  Efficacy of sonography as a guidance technique for biopsy of abdominal, pelvic, and retroperitoneal lymph nodes. , 1996, AJR. American journal of roentgenology.

[5]  J. Cardella,et al.  Quality improvement guidelines for image-guided percutaneous biopsy in adults: Society of Cardiovascular & Interventional Radiology Standards of Practice Committee. , 1996, Journal of Vascular and Interventional Radiology.

[6]  M. Kojiro Focus on dysplastic nodules and early hepatocellular carcinoma: An Eastern point of view , 2004, Liver transplantation : official publication of the American Association for the Study of Liver Diseases and the International Liver Transplantation Society.

[7]  Sanjay Gupta New Techniques in Image-Guided Percutaneous Biopsy , 2004, CardioVascular and Interventional Radiology.

[8]  R C Nelson,et al.  An electronic device for needle placement during sonographically guided percutaneous intervention. , 2001, Radiology.

[9]  M. Reiser,et al.  High-resolution MR imaging of human atherosclerotic femoral arteries in vivo: validation with intravascular ultrasound. , 2003, Journal of vascular and interventional radiology : JVIR.

[10]  M. Forsting,et al.  CT-Guided Biopsy of Small Liver Lesions: Visibility, Artifacts, and Corresponding Diagnostic Accuracy , 2007, CardioVascular and Interventional Radiology.

[11]  T. Joh,et al.  Limitations of imaging diagnosis for small hepatocellular carcinoma: Comparison with histological findings , 1999, Journal of gastroenterology and hepatology.

[12]  M. Makuuchi,et al.  Reevaluation of prognostic factors for survival after liver resection in patients with hepatocellular carcinoma in a Japanese nationwide survey , 2004, Cancer.

[13]  R C Nelson,et al.  Percutaneous liver biopsy: a cost-benefit analysis comparing sonographic and CT guidance. , 1999, AJR. American journal of roentgenology.

[14]  J. Charboneau,et al.  CT and sonographically guided needle biopsy: current techniques and new innovations. , 1990, AJR. American journal of roentgenology.

[15]  J. Cardella,et al.  Quality improvement guidelines for image-guided percutaneous biopsy in adults. , 2003, Journal of vascular and interventional radiology : JVIR.

[16]  R C Nelson,et al.  Sonography: the undiscovered jewel of interventional radiology. , 1996, Radiographics : a review publication of the Radiological Society of North America, Inc.

[17]  K. Hopper Percutaneous, radiographically guided biopsy: a history. , 1995, Radiology.

[18]  A. Andriulli,et al.  Ultrasound guided fine needle biopsy of early hepatocellular carcinoma complicating liver cirrhosis: a multicentre study , 2004, Gut.

[19]  R C Nelson,et al.  Comparison of sonographic and CT guidance techniques: does CT fluoroscopy decrease procedure time? , 2000, AJR. American journal of roentgenology.

[20]  Abdominal Percutaneous Interventional Procedures: Comparison of CT and US Guidance , 1998 .

[21]  G. Casola,et al.  Abdominal lesions: a prospective study of clinical efficacy of percutaneous fine-needle biopsy. , 1986, Radiology.

[22]  Erik K Paulson,et al.  Echogenic polymer coating: does it improve needle visualization in sonographically guided biopsy? , 2002, AJR. American journal of roentgenology.