INTRODUCTION: Electromagnetic motion analysis is a promising method of assessing surgical skill in a skills-laboratory setting. There is a very strong correlation between movement and time data, and this study was conducted to determine whether this relationship is fixed, or whether it can vary. METHODS: : After a pilot study, four subjects were recruited. Each performed 30 trials of a simple standardized suturing task, alternating between 'normal', 'precise', and 'fast' strategies. The number of movements, and time to complete each task were recorded. RESULTS: Comparing the 'fast' to 'normal' strategies, there was a significant decrease in total number of movements per trial (P < 0.001), and time taken (P < 0.001). Regression analysis was performed to examine the relationship between the time taken and the number of movements, and revealed significant differences between both the fast (P = 0.006), and precise (P = 0.002) strategies, when compared to the normal strategy. DISCUSSION: This study confirms that the relationship between time and movements is not fixed, but varies with the operative strategy adopted for this simple suturing task.
INTRODUCTION: Electromagnetic motion analysis is a promising method of assessing surgical skill in a skills-laboratory setting. There is a very strong correlation between movement and time data, and this study was conducted to determine whether this relationship is fixed, or whether it can vary. METHODS: : After a pilot study, four subjects were recruited. Each performed 30 trials of a simple standardized suturing task, alternating between 'normal', 'precise', and 'fast' strategies. The number of movements, and time to complete each task were recorded. RESULTS: Comparing the 'fast' to 'normal' strategies, there was a significant decrease in total number of movements per trial (P < 0.001), and time taken (P < 0.001). Regression analysis was performed to examine the relationship between the time taken and the number of movements, and revealed significant differences between both the fast (P = 0.006), and precise (P = 0.002) strategies, when compared to the normal strategy. DISCUSSION: This study confirms that the relationship between time and movements is not fixed, but varies with the operative strategy adopted for this simple suturing task.
Authors: J B Pagador; J Uson; M A Sánchez; J L Moyano; J Moreno; P Bustos; J Mateos; F M Sánchez-Margallo Journal: Int J Comput Assist Radiol Surg Date: 2010-08-11 Impact factor: 2.924
Authors: Anne-Lise D D'Angelo; Drew N Rutherford; Rebecca D Ray; Shlomi Laufer; Calvin Kwan; Elaine R Cohen; Andrea Mason; Carla M Pugh Journal: Am J Surg Date: 2015-01-14 Impact factor: 2.565
Authors: Anne-Lise D D'Angelo; Drew N Rutherford; Rebecca D Ray; Shlomi Laufer; Andrea Mason; Carla M Pugh Journal: Am J Surg Date: 2015-11-11 Impact factor: 2.565
Authors: Abdullah Alkhayal; Shahla Aldhukair; Nahar Alselaim; Salah Aldekhayel; Sultan Alhabdan; Waleed Altaweel; Mohi Elden Magzoub; Mohammed Zamakhshary Journal: Adv Med Educ Pract Date: 2012-10-10