key: cord-0864346-qnetgt10 authors: Zeidan, Ahed; Abdelgelil, Hany Tallat; Edwin, Edward; Alqarni, Dhafer title: Apple Siri as communication conduit during COVID-19: between inside and outside the OR date: 2020-11-12 journal: BMJ Simul Technol Enhanc Learn DOI: 10.1136/bmjstel-2020-000740 sha: b10702e9924e58fe6906deb2ef9cf5c3e921c062 doc_id: 864346 cord_uid: qnetgt10 nan It is essential for healthcare workers (HCWs) to become innovative in identifying means to reduce exposure to suspected or confirmed COVID-19 patients who require intervention whether inside and outside the operating room (OR). Prior to entering the theatre, OR staff are required to remove personal items (PI) including phones, watches, rings, hospital ID before donning full personal protective equipment (PPE). 1 Though the role of PI is yet to be defined, it can be considered an unintentional source of take-home viral transmission. Improved communication between staff located inside and outside the theatre will minimise unnecessary traffic, door opening and number of individuals exposed. 2 Furthermore, it will reduce PPE consumption and disruption of the pressure gradient in negative pressure rooms. 2 3 Communication through PPE can be challenging and the use of smartphones requires phone handling including personal identification and typing, a risky manoeuvre, given disinfecting the device has not been studied. Moreover, landline phones are not easily connected to outside runners and helpers (figure 1). Glass hatches are rarely available, and may not provide good communication. We describe effective communication using the wireless Apple Siri protocol in simulation training. In the donning area, the anaesthesiologist wears a single in-ear headphone (Apple Airpods Pro) (figure 1A) while the iPhone is left outside the theatre and involved staff wear appropriate PPE. 1 During the training session, the anaesthesiologist uses Apple Siri to communicate with the iPhone to call the outside runner ( figure 1B and 1C) , or other physicians in different stations on their mobile devices. Incoming calls are easily received by Airpods ear-phone if the autoanswering mode is set to activate ( figure 1D ). Free-hand wireless communication is a superior and independent method to communicate with outside helpers and runners. It facilitates delivery of needed equipment, blood products, drugs and specimen; call for help; and sign out to receiving team inside the hospital. Movement of OR personnel has a statistically significant correlation with the microbial load in the OR. 3 4 We have used this protocol successfully in suspected or confirmed COVID-19 patients undergoing emergency surgery or procedures when communication was difficult with outside helpers. The adoption of smart technology has improved sharing information, delivering proficient care during the COVID-19 pandemic and minimised the exposure risk to HCWs. Indeed, the utilisation of smartphone-based technology and applications to streamline patient care has been used successfully in emergency department, neurosurgical referral service and orthopaedic surgery to improve the team communication efficiency. 5 Potentially, ear phones could reduce hearing ability inside the OR, but the use of a single ear piece set up to a transparency mode will provide balance between inside and outside voices, a new feature of the Airpods Pro (figure 1E). A strong network signal must cover the entire OR area. In conclusion, free-hand wireless communication by HCWs dressed in full PPE can facilitate communication, improve response time across the OR during surgery on COVID-19 patients and reduce exposure risk. Anaesthesia simulation training during coronavirus pandemic: an experience to share Surgical infection society guidance for operative and peri-operative care of adult patients infected by the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) Operating room foot traffic: a risk factor for surgical site infections The influence of traffic, area location, and other factors on operating room microbial load Secure smartphone application-based text messaging in emergency department, a system implementation and review of literature Competing interests None declared.Provenance and peer review Not commissioned; internally peer reviewed.This article is made freely available for use in accordance with BMJ's website terms and conditions for the duration of the COVID-19 pandemic or until otherwise determined by BMJ. You may use, download and print the article for any lawful, non-commercial purpose (including text and data mining) provided that all copyright notices and trade marks are retained.To cite Zeidan A, Abdelgelil HTallat, Edwin E, et al.