key: cord-0801205-r0sa0d8f authors: Connor, Christopher W.; Palmer, Louisa J.; Pentakota, Sujatha title: Remote Control and Monitoring of GE Aisys Anesthesia Machines Repurposed as Intensive Care Unit Ventilators date: 2020-05-11 journal: Anesthesiology DOI: 10.1097/aln.0000000000003371 sha: 3ffb918fe3a42e628dfff05b7f18baf5919abf57 doc_id: 801205 cord_uid: r0sa0d8f nan T he requirements of early intubation and prolonged mechanical ventilation in the management of patients with coronavirus disease 2019 (COVID-19) has created a shortage of intensive care unit (ICU) capacity and ventilators. Operating rooms and anesthesia machines 1 are being repurposed to care for these critically ill patients. Certain ICU ventilators, such as the Hamilton G5 (Hamilton Medical AG, Switzerland), permit their control monitor to be detached from the ventilator and extended outside the room on an umbilical electrical cable, which allows "frequent ventilator adjustments while simultaneously decreasing the risk of exposure to staff." 2 Although no studies have examined effects on clinical outcomes, the pragmatic benefits are evident: ICU staff need not be continuously present in the patient's room, nor frequently don and doff scarce personal protective equipment to perform alarm checks and setting changes. In light of this public health crisis, the U.S. Food and Drug Administration has issued guidance that anesthesia machine device modifications may be made that do not create undue risk. 3 We now describe a novel, inexpensive modification to add umbilical cabling to GE Aisys and Aisys CS2 anesthesia machines (GE Healthcare, USA), allowing the same advantageous remote control and monitoring of ventilation. The Aisys display unit control panel is anchored to a mounting plate on the boom arm by four small bolts ( fig. 1 , left). Three cables attach to the control panel, marked A, B, and C in figure 1 and inset. Loosening these bolts and cables allows the control panel to be detached. A is a DB15/ male cable, which communicates with the electronic medical record. B is an HD26/male cable, which carries ventilator signals and data. C is a DB15/female cable, which provides system power. 4 We have added and tested 50-foot Figure 1 (right) shows the remote control and monitoring of the ventilation of a mannequin within an operating room converted for ICU care. The cable extensions used were Amphenol Corporation 2 × Part #CS-DSDMDB15MF for A and C, and Part #CS-DSDHD26MF0 for B (Amphenol Cables On Demand, USA). When the anesthesia machine is returned to normal service, removing these extensions reverts the machine to its original configuration without a trace. When properly coupled with supplied locking screws, accidental cable disconnection is extremely rare. If A becomes disconnected, data will not stream to the electronic medical record, and A should be reconnected. If B becomes disconnected, the control panel will display a system malfunction screen ( fig. 2 ) and alarm audibly. If C becomes disconnected, the control panel will power down abruptly, and audible machine alarms will sound. To restart ventilator operation after disconnection of B or C, power down, reconnect the cable, and power up while manually ventilating as shown. This modification allows anesthesiologists to interpret ventilator waveforms, adjust ventilation settings, ensure lung protective ventilation, and hear alarms at all times freely from outside the operating room. Personnel exposure and use of personal protective equipment are reduced, as anesthesiologists no longer need to enter the room for these frequent tasks. This modification can be performed without special tools or skills in 5 to 10 min. Dr. Connor is a consultant for Teleflex, LLC (Wayne, Pennsylvania) on airway equipment design. This activity is Brigham and Women's Hospital American Society of Anesthesiologists: APSF/ASA Guidance on Purposing Anesthesia Machines as ICU Ventilators UpToDate (Topic 127419 Version 18.0) medical-devices/letters-health-care-providers/ventilator-supply-mitigation-strategies-letter-health-care-providers Aisys Anesthesia Machine Technical Reference Manual. Part Number M1046983 The authors acknowledge the extraordinary, professional support of the Brigham and Women's Hospital Clinical Bioengineering Service, Boston, Massachusetts. Support was provided by National Institutes of Health (Bethesda, Maryland) grant No. R01 GM121457 and from institutional and/or departmental sources.