key: cord-0687970-p6lg06x7
authors: Sim, Wei Yow; Ooi, Chin Chin; Chen, Robert Chun; Bakar, Rafidah Abu; Tan, Chin Chong; Heng, Ai Ling; Aw, Lian Ping
title: How to safely and sustainably reorganise a large general radiography service facing the COVID-19 pandemic
date: 2020-05-15
journal: Radiography (Lond)
DOI: 10.1016/j.radi.2020.05.001
sha: de7fe1ef5399917b5b7d24f89e59eb61bf92fdc1
doc_id: 687970
cord_uid: p6lg06x7

Abstract Objectives This paper aims to share our experience in reorganising our general radiography service during the coronavirus disease (COVID-19) pandemic from the viewpoint of a large tertiary referral medical centre. Key findings Re-organization of radiographic manpower, patient segregation, and modification of routine radiographic practices are key measures to help radiographic services deal with the COVID-19 pandemic. More specifically, emphasis on deploying more mobile radiographic units, segregating equipment, developing consistent image acquisition workflows, and strict adherence to infection control protocols are paramount to minimize the possibility of in-hospital transmission and ensure a safe environment for both patients and staff. Streamlining communication channels between leadership and ground staff allows quick dissemination of information to ultimately facilitate safe provision of services. Conclusion COVID-19 has drastically altered the way general radiography teams provide services. The institution of several key measures will allow hospitals to safely and sustainably provide radiographic services. To date, there have been zero incidences of radiographer healthcare worker transmission within our institution during the course of work. Implication for practice Radiographers are facing the challenge of providing high-quality services while simultaneously minimizing pathogen exposure to staff and patients. Our experience may lend support to other radiographic services respond to the COVID-19 outbreak and serve as a blueprint for future infectious disease outbreak contingency plans.

The emergence of the coronavirus disease (COVID- 19) has caused a global outbreak; on 11 th March 2020, the WHO officially changed the classification of COVID-19 from a public health emergency of international concern to a pandemic and has called on all nations to contain the spread of the virus. Despite rigorous global containment and quarantine efforts, the incidence of the virus continues to rise rapidly. Reports on management and practice preparation in different settings are therefore critical to prepare the community for the outbreak. In Singapore, since the first locally confirmed case of COVID-19 on 23 rd of January, there have been a total of 5050 locally confirmed cases, 11 deaths and 708 recovered patients (data obtained 17 th April 2020) ( Table 1) . 1 Individuals infected with COVID-19 typically present with fever, dry cough, and dyspnoea. 2 The Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) is highly contagious, transmitted between people through close contact, droplets and fomite. 3, 4 Although there is insufficient evidence to suggest that COVID-19 is transmitted via airborne particles, infection appears possible through aerosol-generating procedures such as bronchoscopy or open suctioning of the airway. 5, 6 In Singapore, there are a total of ten public and eight private hospitals serving a population of 5.7 million. The hospital discussed in this paper is an acute tertiary referral medical centre and the largest hospital in Singapore. It has 1785 beds and staff strength of 10,000. The hospital caters to approximately 1 million patients a year. It is also a major teaching and training institution for doctors, nurses and allied health professionals. The radiology department performs approximately 500,000 imaging exams a year. The general radiography section of the hospital has approximately 100 practising radiographers and is divided into three sections, namely: the Outpatient Imaging Centre (OIC), Inpatient Imaging Centre (IIC) and Emergency Imaging Centre (EIC). From 23 rd January to 17 th of April 2020, the hospital has received a total of 319 confirmed COVID-19 cases, and 141 patients are currently admitted. Our institution has received up to 30 cases in a single day. At the time of writing, the department has performed approximately over 6500 screening cases for COVID-19. Approximately 7% of Singapore's confirmed COVID-19 cases were admitted to our hospital 1

The radiology department plays a vital role in the diagnosis and management of COVID-19. In Singapore, a chest radiograph (rather than chest CT) is the primary screening method to identify any visible lung infection. 7, 8 Therefore, general radiographers are amongst the frontline healthcare workers who have a higher incidence of exposure to COVID-19 due to close patient contact during image acquisition. We have developed a coordinated system to manage confirmed or suspected COVID-19 patients which we have found to be crucial to protect patients and staff while ensuring that the daily operations within the department can be adequately maintained. At the time of writing (26 th April 2020), we have had zero instances of radiographer infection during the course of work.

This paper aims to describe how we have safely and sustainably reorganized our radiographic service during the COVID-19 era with emphasis on segregation measures and changes in radiography workflow.

One of our initial steps was to segregate our radiographer workforce into multiple independently functioning subunits, so we would be able to continue general radiography services in the event of a quarantine situation to any one team. 9 The different teams are segregated based on clinical location. The emergency and inpatient locations are considered high-risk working areas where COVID-19 patients are more likely to aggregate, whereas outpatient areas are deemed lower risk. We therefore divided our manpower teams along these lines; staff are prohibited from moving between segregated teams or from high-risk areas to low-risk areas, and vice versa. Teams are not allowed to meet or swap shifts with one another. In this manner, our teams are physically isolated from one another and allow continuity of services in the event of nosocomial spread of infection.

We divided our EIC and IIC general radiography workforce into four teams of eight radiographers (Figure 1) to allow a sustainable schedule in the event of a prolonged outbreak. The four-team setup allows a rotating 12-hour day shift, 12-hour night shift, and 2 consecutive days of rest before repeating the cycle. This differs from the routine eight hour shifts prior to our COVID-19 manpower re-organization. The staffing needs for eight radiographers was decided based on the average workload of 10 cases per hour in the respective clinical areas. Each team consists of a team leader, a mobile radiography team of two radiographers for COVID-19 cases and five radiographers to cover the routine workload. Our roster pattern is fixed and is synchronised with the rosters of the nurses and radiologists in the department for ease of contact tracing.

Further, we instituted additional safe distancing measures to protect staff. 10, 11 We have reorganised staff rest areas to facilitate physical distancing and rostered a smaller group of staff for staggered breaks at any one time. For example, seating facilities in the rest areas have been rearranged to provide gaps of one to two-meter intervals between tables with a maximum of one staff to a table. During meal breaks, staff members are encouraged to leave immediately after meals and refrain from engaging in conversations with others.

To allow excess workforce capacity in the event of a surge in COVID-19 cases, there was a hospital level mandate to reduced elective clinical services by 50%. Routine non-urgent radiology examinations were reduced by 45%. Overall, total general radiography cases within the hospital were reduced by approximately 30%. (Figure 2 and 3) . However, COVID-19 related chest requests increased from an average of 30 requests per day in January and February 2020 to an average of 140 per day in March and April 2020. 1

To cope with the excess chest radiography demand, our radiology department was able to draw resources from areas that were less stressed. We planned for the lower risk OIC area to act as the reserve pool to the higher risk emergency and inpatient stations (Figure 1 ). From January until April 2020, there were five radiographers from the outpatient general radiography team who were placed on prolonged sick leave (more than five days) and told to self-isolate at home due to close contact with patients who were later found to be COVID-19 positive. All five staff were eventually ruled out for COVID-19. Our system of reallocating radiographers from our outpatient reserve team has allowed us to sufficiently staff higher risk areas. We have created a flexible and efficient workforce activation system, yet this organizational structure is more workforce intensive and is only possible with the reduction of routine clinical workload and introduction of radiographers from other subspecialties into the general radiography pool.

Our manpower status board ( Table 2 ) allows us to monitor the daily workforce status of the entire department. Based on the different staffing levels, the department is able to promptly redeploy workers from areas of excess manpower to those in need to ensure the smooth operation of daily services. Currently, we have redeployed 10 radiographers from outpatient specialised modalities such as ultrasound and breast imaging to reinforce the current pool of the general radiography workforce.

Patients are screened for relevant respiratory symptoms and epidemiological history to segregate them into COVID-19 and non-COVID-19 areas in the emergency department. Our existing fever isolation area was only able to cater up to 10 COVID-19 patients. Because of the large influx of suspected COVID-19 patients during the course of the outbreak, there was an urgent need to set up additional bed capacity. The radiology department collaborated with the Department of Emergency Medicine to free up additional bed space at the adjacent recovery area of a day surgery centre. The additional space was to house suspected patients who were waiting for reverse transcription polymerase chain reaction (RT-PCR) swab tests, chest radiograph or admission to the isolation ward (Figure 4) . The newly converted fever isolation area could house up to 38 patients. In order to provide immediate imaging services, we deployed two mobile radiography units to each fever isolation area.

At the end of March 2020, we observed an increase in the local community spread of COVID-19. The existing 38 beds at the fever isolation area were insufficient to meet the demands of the increased community outbreak. The Department of Emergency Medicine converted a nearby multi-storey car park into a temporary fever isolation area with a bed capacity of 64. Additionally, the multi-storey car park is equipped with a lead-lined room which served as the isolation chest radiography room. We observed an increased patient throughput of 50% by setting up a stationary radiography area as compared to pushing a mobile unit to each patient's cubicle for chest radiography.

Our inpatient wards have been reorganised into three different risk levels that are segregated from one another: high-risk areas for suspected and confirmed COVID-19 patients, intermediaterisk areas for patients with acute respiratory symptoms but with less epidemiological risk factors, and low-risk areas (general wards) for those with no suspicious symptoms. There is one designated mobile unit stationed at the high-risk isolation wards to provide mobile imaging service for COVID-19 cases (Figure 5 ). At the time of writing, the hospital is planning for expanding our existing COVID-19 isolation wards and intensive care unit (ICU) capability as the demand for these facilities increases. This would be achieved by decanting existing wards and converting them into ICUs.

In response to the SARS outbreak in 2003, a negative pressure isolation room was set up in our outpatient radiography area. This has proven beneficial during the current outbreak to temporarily isolate and screen suspected patients when they enter the department premises. Patients who present to the outpatient setting with a positive travel history or relevant symptoms suspicious for COVID-19 are promptly isolated into our negative pressure isolation room (Figure 6 ). The patient is escorted to the isolation room by a radiographer gowned in full PPE. The radiologist on duty will be informed to screen the patient in the isolation room. 9 If necessary, the radiologist will consult the Infectious Disease (ID) physician. A chest radiograph can be requested on-site and performed immediately in the adjacent radiography room (Figure 6 ) and sent for urgent reporting. If there is a need for further investigation, arrangements will be made for urgent admission, and the patient will be escorted by security to the assigned isolation ward.

Pre-COVID-19, mobile radiography was only performed in the ward for non-ambulatory patients who were clinically unfit to be transported down to the radiology department. To reduce patient transfer and to decrease the risk of cross-infection to staff and other patients, we have converted all COVID-19 related radiography examinations to portable exams. 12 COVID-19 patients are only imaged within their isolated area. We segregated our existing mobile units into "clean" and "dirty" based on their respective clinical locations. These segregated units cannot be used interchangeably. The designated "dirty" mobile units are stationed at high-risk areas such as EIC and IIC isolation areas.

At the outset of the outbreak, we were short of DR mobile units to meet the increasing clinical demands. We therefore acquired four more mobile units to cover COVID-19 screening areas. To mitigate the shortage of equipment, we engaged existing vendors for loan of additional mobile radiography units. We created four additional mobile radiography teams designated for COVID-19 screening within the hospital. Apart from providing mobile imaging for COVID-19 patients, the current numbers of mobile radiography units also continue to cater to the routine non-COVID-19 radiography caseloads as well to ensure smooth provision of clinical services ( Table  3 ). In addition, we deployed all DR mobile units for COVID-19 purposes and kept the remaining computed radiography mobile units as reserves. The classic radiographic appearance of COVID-19 shows ground glass opacities, typically at the periphery of the lower lobes. [13] [14] [15] [16] As these radiographic findings may be subtle, it is crucial for chest radiographs to be imaged with the highest possible image quality. By using mobile DR units, there are fewer errors due to inadequate exposures as the DR detector has a higher dynamic range, and the image could be reprocessed if there was slight under or overexposure errors. Utilizing DR is also quicker and allows staff exposure to potential the COVID-19 pathogen kept to a minimum. All our DR mobile units are equipped with wireless capabilities to facilitate quick image upload for early reporting and access by radiologists and clinicians.

It is essential for staff to adhere to strict infection control guidelines while performing mobile radiography for suspected and confirmed COVID-19 cases in the isolation ward. The risk of contracting the virus is a real concern given the close contact with the patient during the procedure. Therefore, we developed a two-radiographer team during mobile radiography to minimise the risk of cross-contamination between patient, staff, and equipment. One radiographer is designated the 'contact' radiographer, who is designated to perform patient positioning while the other 'non-contact' radiographer operates the mobile unit without patient contact ( Table 3) . We have found our two person team greatly reduces patient contact time which is one of the main risks of contamination for bedside imaging of contagious patients.

The mobile radiography team works together in a pre-planned workflow ( Table 4 ) created in conjunction with the radiographers and the infection control department. As a preventive measure to ensure full compliance, an infection control nurse is tasked to evaluate the radiographer's PPE attire before entry into the isolation area. After image acquisition, both radiographers remove their PPE and perform a thorough cleaning of the mobile unit in the anteroom ( Table 5) .

All COVID-19 related radiographs are categorised for immediate radiologist reporting, requiring a turnaround time of 1 hour or less. For suspected or confirmed COVID-19 radiographs, the radiographer manually marks each case with a special flag on our Radiology Information System (RIS) system. The visual marker allows the radiologist to see a conglomerated filtered COVID-19 worklist to facilitate a quicker reporting turnaround time for such cases. There is an assigned consultant radiologist to report all COVID-19 cases around the clock. Because of teleradiology, radiologists are able to report from various locations from within or even outside of the main hospital campus. Globally, home teleradiology is being used by multiple institutions to promote safe distancing. 17, 18 However, in our institution, we have been unable to do this on a large scale due to the infrastructure and internet security limitations. 10, 19 Radiographers are encouraged to be familiar with the radiographic appearances of COVID-19 and screen all chest radiographs for any evidence of pneumonic changes during post-processing. If there is an abnormality, our radiographers contact the radiologist for immediate reporting.

A recent study reported widespread deposition of SARS-CoV-2 in a confirmed patient's isolation room. 20 Fortunately, the virus could be eliminated by cleaning with a disinfectant such as sodium dichloroisocyanurate. 20 Therefore, medical imaging equipment and accessories such as mobile radiography units, digital radiography (DR) detectors or positioning aids should be thoroughly cleaned after every case to avoid the possibility of fomite-mediated transmission. For the mobile unit, DR detectors and lead apron, we use WIP'Anios Excel disinfectant wipes. It is non-alcohol based, and it does not degrade the surface coating of the imaging equipment.

We implemented additional cleaning protocols for radiography room surfaces twice a day: once before the start of the shift and the second after meal breaks. The surface cleaning is performed using Medipal ® Disinfectant Wipes. Apart from the routine cleaning regime, the hospital's environmental services perform terminal cleaning for all radiography rooms twice a day using Sodium hypochlorite 1000 ppm.

At the onset of the pandemic, the previous radiology management organization was too large and bulky to respond effectively to the rapid changes. A smaller radiology task force was immediately created, consisting of leaders from various sections of the division who had prior experience in managing large scale operations. The task force formally sits down together on alternate weekdays and also conducts short daily 'huddle' sessions in the morning to discuss on key updates or events that happened the day before. 17 At an even higher level, the hospital-level central command outbreak task force created and routinely updates a consolidated routine instruction (RI) which is disseminated to the entire hospital staff daily. This RI ensures staff receives the latest updates and contains information such as infection control and PPE guidelines, suspect case definition, patient management and administrative instructions. The RI serves as an official guideline to harmonise different practices across departments. Further, senior management sends out daily emails emphasizing key changes to workflow, updates on the number of cases in the hospital, and general words of encouragement to boost morale. 10 Within the radiography teams, during daily roll call before the start of each shift, we review the hospital level RI to ensure communication of key updates.

To promote safe distancing, many non-essential events were cancelled or postponed, and large group meetings were scaled down as part of heightened infection control measures. We have leveraged on technologies with the use of various web conferencing platforms such as Zoom and WebEx to host teleconference meetings in place of the large group meetings. The department leveraged on secure messaging applications such as TigerText messaging for workplace information dissemination. 10

The hospital follows the Personal Protective Equipment (PPE) requirement recommendations by WHO. 21 Even prior to the COVID-19 pandemic, all staff are required to undergo online hand hygiene and infection control courses to re-educate and train on the proper use of PPE. The hospital conducted additional N95 mask and Powered Air-purifying Respirator fitting sessions to ensure staff are fitted with the correct protective equipment.

Currently, there are no shortages in PPE supply in the hospital. The hospital draws PPE stock from the national stockpile. In view of the rising demand for PPE, the logistics section of the radiology department has created a monitoring chart for all PPE supplies. The stocks are actively monitored daily. The radiology department maintains a baseline of 10 days' worth of PPE supplies in house to ensure there are sufficient PPE stocks in the event of a large case surge.

Contact tracing for COVID-19 cases is predominately overseen by the Ministry of Health. The operation involves the hospital's infectious disease department, the police force, volunteers and other government agencies. On a larger context, contact tracing is done by phone call interviews to trace previous contacts and locations, reviewing CCTV footage and tracking mobile phone GPS. Contact tracing for hospital staff is done differently from the national protocol. Our infectious disease department will inform radiology regarding any patient of unknown COVID-19 status that eventually tested positive for COVID-19. The admin team in charge will then perform activity mapping of the patient through reviewing the audit trail records from the Radiology Informatics Systems. Staff with known COVID-19 exposure will then be interviewed via phone regarding the details of the PPE worn during the case and details of other staff members he/she had close contact with within a certain time period. Peripheral staff at risk for COVID-19 infection will also be contacted by the Infectious Disease department to monitor their body temperature twice daily and to seek urgent medical intervention if relevant symptoms develop. Depending on the risk level, some staff are required to quarantine for14 days at home.

To safely and sustainably manage a large general radiography service during the era of COVID-19, teams need to consider how to re-organize their workforce structure, adhere to patient segregation measures, and modify their current radiographic workflows and infection control protocols to protect radiographers from risk of cross-infection. Clear and open communication channels from a central command task force allow unfiltered instructions and words of encouragement to be directly disseminated to staff. During the last three months, we have treated approximately150 COVID-19 patients, and we have zero incidences of healthcare worker infections (as of 27 th April 2020). Feedback from radiographers indicates the newly implemented 12 hour shift pattern is sustainable and maintains a constant work-rest cycle. We believe our experience may lend support to the radiology community currently facing the pandemic and serve as a blueprint for future infectious disease outbreak contingency plans. 11 Perform a total cleaning of the mobile unit with antimicrobial wipes.

12 Exit the isolation room and discard the N95 mask. Table 5 .

Steps on cleaning the mobile radiography unit after isolation cases.

• Both RG1 and RG2 will clean the mobile unit together.

• Use 1 new wipe for each cleaning step.

• Discard gloves and perform hand hygiene after cleaning regime

Step 1 Remove PPE and wear a new pair of gloves.

Step 2 Clean the detector slot.

Step 3

Receive detector from RG2 and clean thoroughly. Place the detector into the slot.

Step 1 Unwrap the plastic-covered detector and hand over to RG1.

Step 4 Clean the body of the (handle, touch screen, exposure switch, slots & casing).

Step 2 Remove PPE and wear a new pair of gloves.

Step 5 Clean the base of the unit (wheels, casing).

Step 3 Clean the X-ray tube head.

End of cleaning regime for RG1, Continue with image processing.

Step 4 Clean the extendable arm.

Step 5 Clean the retractable column and cables.

Step 6 Clean the lead apron. • Fever mobile team (Radiographer 1 & 2) receives mobile radiography request of patient (P) through RIS. • Travels to Fever Isolation Area.

• Fever mobile team (Radiographer 1 & 2) receives mobile radiography request of patient (P) through RIS. • Travels to Fever Isolation Area.

• Fever mobile team (Radiographer 1 & 2) receives mobile radiography request of patient (P) through RIS. • Travels to Fever Isolation Area. 

Ministry of Health

Clinical features of patients infected with 2019 novel coronavirus in Wuhan

Early transmission dynamics in Wuhan, China, of novel coronavirus-infected pneumonia

Coronavirus infections-more than just the common cold

Modes of transmission of the virus causing COVID-19: implications for IPC precaution recommendations. World Health Organisation

Aerosol and Surface Stability of SARS-CoV-2 as Compared with SARS-CoV-1

Investigation of three clusters of COVID-19 in Singapore: implications for surveillance and response measures

ACR Appropriateness Criteria® acute respiratory illness in immunocompetent patients

Adapting to a new normal? 5 key operational principles for a radiology service facing the COVID-19 pandemic

Touch Me Not: Physical Distancing in Radiology during COVID-19

Scientific and ethical basis for social-distancing interventions against COVID-19

Déjà vu or jamais vu? How the severe acute respiratory syndrome experience influenced a Singapore radiology department's response to the coronavirus disease (COVID-19) epidemic

Radiological findings from 81 patients with COVID-19 pneumonia in Wuhan, China: a descriptive study

Imaging profile of the COVID-19 infection: radiologic findings and literature review

Frequency and distribution of chest radiographic findings in COVID-19 positive patients

Portable chest X-ray in coronavirus disease-19 (COVID-19): A pictorial review

Radiology department preparedness for COVID-19: radiology scientific expert panel

Dealing with COVID-19: initial perspectives of a small radiology department

Operational strategies to prevent coronavirus disease 2019 (COVID-19) spread in radiology: experience from a Singapore radiology department after severe acute respiratory syndrome

Air, surface environmental, and personal protective equipment contamination by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) from a symptomatic patient

Infection prevention and control during health care when novel coronavirus (nCoV) infection is suspected Interim guidance. World Health Organisation; 2020;1-5

The authors would like to thank Dr Zhuang Kun Da, Mr Li Sheng, Mr Hong Wei Liang and Ms Celine Tan Ying Yi from the Division of Radiological Sciences for their invaluable assistance and support in the preparation of the paper.

☒ The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.☐The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: