Saeed Mansouri1, Farzam Farahmand1,2, Gholamreza Vossoughi1, Alireza Alizadeh Ghavidel3, Mostafa Rezayat2. 1. Department of Mechanical Engineering, Sharif University of Technology, Tehran, Iran. 2. RCBTR, Tehran University of Medical Sciences, Tehran, Iran. 3. Heart Valve Disease Research Center, Rajaie Cardiovascular Medical and Research Center, Iran University of Medical Sciences, Tehran, Iran.
Abstract
BACKGROUND: Accurate tracking of the heart surface motion is a major requirement for robot assisted beating heart surgery. METHOD: The feasibility of a stereo infrared tracking system for measuring the free beating heart motion was investigated by experiments on a heart motion simulator, as well as model surgery on a dog. RESULTS: Simulator experiments revealed a high tracking accuracy (81 μm root mean square error) when the capturing times were synchronized and the tracker pointed at the target from a 100 cm distance. The animal experiment revealed the applicability of the infrared tracker with passive markers in practical heart surgery conditions. CONCLUSION: With the current technology, infrared tracking with passive markers might be the optimal solution for accurate, fast, and reliable tracking of heart motion during robot assisted beating heart surgery.
BACKGROUND: Accurate tracking of the heart surface motion is a major requirement for robot assisted beating heart surgery. METHOD: The feasibility of a stereo infrared tracking system for measuring the free beating heart motion was investigated by experiments on a heart motion simulator, as well as model surgery on a dog. RESULTS: Simulator experiments revealed a high tracking accuracy (81 μm root mean square error) when the capturing times were synchronized and the tracker pointed at the target from a 100 cm distance. The animal experiment revealed the applicability of the infrared tracker with passive markers in practical heart surgery conditions. CONCLUSION: With the current technology, infrared tracking with passive markers might be the optimal solution for accurate, fast, and reliable tracking of heart motion during robot assisted beating heart surgery.