Juan A Juanes1, Pablo Alonso2, Felipe Hernández2, Pablo Ruisoto3,4, Clemente Muriel2. 1. Department of Human Anatomy, Faculty of Medicine, University of Salamanca, Salamanca, Spain. 2. Department of Anesthesia and Pain Therapy, Universitary Hospital, Salamanca, Spain. 3. VisualMed System Research Group, University of Salamanca, Avda. De la Merced, 109/131, Salamanca, Spain. pablo.ruisoto@universidadeuropea.es. 4. European University of Madrid, calle Tajo, s/n. Villaviciosa de Odon, Madrid, Spain. pablo.ruisoto@universidadeuropea.es.
Abstract
INTRODUCTION: Regions considered optimal for performing peripheral nerve blocking have been well documented. However identify and perform regional anesthesia in those regions from ultrasound images remains a challenge. AIM: This study aims to develop a virtual environment for the simulation of ultrasound exploration of the neck nerves and both the upper and lower limbs for regional anesthesia. METHOD: Cross-sectional images were obtained from Magnetic Resonance Imaging for puncture regions involved in ultrasound-guided nerve block. RESULTS: A three-dimensional digital viewer was developed for the anatomical and ultrasound identification of key structures involved in peripheral nerve block in neck, upper and lower limbs. CONCLUSION: This study provides a virtual environment software used to simulate ultrasound exploration of nerve neck and upper and lower limbs for regional anesthesia. DISCUSSION: Potential implications of this tool for improving the ultrasound exploration for regional anesthesia and acquisition of anatomical knowledge are further discussed.
INTRODUCTION: Regions considered optimal for performing peripheral nerve blocking have been well documented. However identify and perform regional anesthesia in those regions from ultrasound images remains a challenge. AIM: This study aims to develop a virtual environment for the simulation of ultrasound exploration of the neck nerves and both the upper and lower limbs for regional anesthesia. METHOD: Cross-sectional images were obtained from Magnetic Resonance Imaging for puncture regions involved in ultrasound-guided nerve block. RESULTS: A three-dimensional digital viewer was developed for the anatomical and ultrasound identification of key structures involved in peripheral nerve block in neck, upper and lower limbs. CONCLUSION: This study provides a virtual environment software used to simulate ultrasound exploration of nerve neck and upper and lower limbs for regional anesthesia. DISCUSSION: Potential implications of this tool for improving the ultrasound exploration for regional anesthesia and acquisition of anatomical knowledge are further discussed.
Entities:
Keywords:
Anatomy; Anesthesia; Medical training; Software; Ultrasonography
Authors: Brian D Sites; Vincent W Chan; Joseph M Neal; Robert Weller; Thomas Grau; Zbigniew J Koscielniak-Nielsen; Giorgio Ivani Journal: Reg Anesth Pain Med Date: 2009 Jan-Feb Impact factor: 6.288