“Put the what, where? Cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot study

“Put the what, where? Cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot study

Introduction During robot-assisted surgery (RAS), changes to the operating room configuration pose challenges to communication by limiting team members’ ability to see one another or use gesture. Referencing (the act of pointing out an object or area in order to coordinate action around it), may be...

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Main Authors: Ahmed Elsayed, Ahmed A Hussein, Antara Satchidanand, Jeff Higginbotham, Ann Bisantz, Naif Aldhaam, Iman Carr, Khurshid Guru
Format: Article
Language:English
Published: BMJ Publishing Group 2021-07-01
Series:BMJ Open
Online Access:https://bmjopen.bmj.com/content/11/7/e046132.full
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spelling doaj-5ea12e1b7e6e49d59f630339f8b928242021-08-07T16:32:32ZengBMJ Publishing GroupBMJ Open2044-60552021-07-0111710.1136/bmjopen-2020-046132“Put the what, where? Cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot studyAhmed Elsayed0Ahmed A Hussein1Antara Satchidanand2Jeff Higginbotham3Ann Bisantz4Naif Aldhaam5Iman Carr6Khurshid Guru7ATLAS Program, Roswell Park Comprehensive Cancer Center Department of Urology, Buffalo, New York, USAATLAS Program, Roswell Park Comprehensive Cancer Center Department of Urology, Buffalo, New York, USAATLAS Program, Roswell Park Comprehensive Cancer Center Department of Urology, Buffalo, New York, USAATLAS Program, Roswell Park Comprehensive Cancer Center Department of Urology, Buffalo, New York, USAATLAS Program, Roswell Park Comprehensive Cancer Center Department of Urology, Buffalo, New York, USAATLAS Program, Roswell Park Comprehensive Cancer Center Department of Urology, Buffalo, New York, USAATLAS Program, Roswell Park Comprehensive Cancer Center Department of Urology, Buffalo, New York, USAATLAS Program, Roswell Park Comprehensive Cancer Center Department of Urology, Buffalo, New York, USAIntroduction During robot-assisted surgery (RAS), changes to the operating room configuration pose challenges to communication by limiting team members’ ability to see one another or use gesture. Referencing (the act of pointing out an object or area in order to coordinate action around it), may be susceptible to miscommunication due to these constraints.Objectives Explore the use of microanalysis to describe and evaluate communicative efficiency in RAS through examination of referencing in surgical tasks.Methods All communications during ten robot-assisted pelvic surgeries (radical cystectomies and prostatectomies) were fully transcribed. Forty-six referencing events were identified within these and subjected to a process of microanalysis. Microanalysis employs detailed transcription of speech and gesture along with their relative timing/sequencing to describe and analyse interactions. A descriptive taxonomy for referencing strategies was developed with categories including references reliant exclusively on speech (anatomic terms/directional language and context dependent words (CD)); references reliant exclusively on gesture or available aspects of the environment (point/show, camera focus/movement in the visual field and functional movement); and references reliant on the integrated use of speech and gesture/environmental support (integrated communication (IC)). Frequency of utilisation and number/percent ‘miscommunication’, were collated within each category when miscommunication was defined as any reference met with incorrect or no identification of the target.Results IC and CD were the most frequently used strategies (45% and 26%, respectively, p≤0.01). Miscommunication was encountered in 22% of references. The use of IC resulted in the fewest miscommunications, while CD was associated with the most miscommunications (42%). Microanalysis provided insight into the causes and nature of successful referencing and miscommunication.Conclusions In RAS, surgeons complete referencing tasks in a variety of ways. IC may provide an effective means of referencing, while other strategies may not be adequately supported by the environment.https://bmjopen.bmj.com/content/11/7/e046132.full
collection DOAJ
language English
format Article
sources DOAJ
author Ahmed Elsayed
Ahmed A Hussein
Antara Satchidanand
Jeff Higginbotham
Ann Bisantz
Naif Aldhaam
Iman Carr
Khurshid Guru
spellingShingle Ahmed Elsayed
Ahmed A Hussein
Antara Satchidanand
Jeff Higginbotham
Ann Bisantz
Naif Aldhaam
Iman Carr
Khurshid Guru
“Put the what, where? Cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot study
BMJ Open
author_facet Ahmed Elsayed
Ahmed A Hussein
Antara Satchidanand
Jeff Higginbotham
Ann Bisantz
Naif Aldhaam
Iman Carr
Khurshid Guru
author_sort Ahmed Elsayed
title “Put the what, where? Cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot study
title_short “Put the what, where? Cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot study
title_full “Put the what, where? Cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot study
title_fullStr “Put the what, where? Cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot study
title_full_unstemmed “Put the what, where? Cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot study
title_sort “put the what, where? cut here?!” challenges to coordinating attention in robot-assisted surgery: a microanalytic pilot study
publisher BMJ Publishing Group
series BMJ Open
issn 2044-6055
publishDate 2021-07-01
description Introduction During robot-assisted surgery (RAS), changes to the operating room configuration pose challenges to communication by limiting team members’ ability to see one another or use gesture. Referencing (the act of pointing out an object or area in order to coordinate action around it), may be susceptible to miscommunication due to these constraints.Objectives Explore the use of microanalysis to describe and evaluate communicative efficiency in RAS through examination of referencing in surgical tasks.Methods All communications during ten robot-assisted pelvic surgeries (radical cystectomies and prostatectomies) were fully transcribed. Forty-six referencing events were identified within these and subjected to a process of microanalysis. Microanalysis employs detailed transcription of speech and gesture along with their relative timing/sequencing to describe and analyse interactions. A descriptive taxonomy for referencing strategies was developed with categories including references reliant exclusively on speech (anatomic terms/directional language and context dependent words (CD)); references reliant exclusively on gesture or available aspects of the environment (point/show, camera focus/movement in the visual field and functional movement); and references reliant on the integrated use of speech and gesture/environmental support (integrated communication (IC)). Frequency of utilisation and number/percent ‘miscommunication’, were collated within each category when miscommunication was defined as any reference met with incorrect or no identification of the target.Results IC and CD were the most frequently used strategies (45% and 26%, respectively, p≤0.01). Miscommunication was encountered in 22% of references. The use of IC resulted in the fewest miscommunications, while CD was associated with the most miscommunications (42%). Microanalysis provided insight into the causes and nature of successful referencing and miscommunication.Conclusions In RAS, surgeons complete referencing tasks in a variety of ways. IC may provide an effective means of referencing, while other strategies may not be adequately supported by the environment.
url https://bmjopen.bmj.com/content/11/7/e046132.full
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