key: cord-0738497-95cx38n3 authors: Cavli, Barıs; Ozturk, Ceren; Senel, H. E.; Pekar, R. B.; Elshami, Wiam; Tekin, H. O. title: Coronavirus disease 2019 strategies, examination details and safety procedures for diagnostic radiology facilities: An extensive multi-centre experience in Istanbul, Turkey date: 2020-12-30 journal: J Radiol Nurs DOI: 10.1016/j.jradnu.2020.12.013 sha: 6fd783bf1c5763ffdc19d5179c3ffb3233468884 doc_id: 738497 cord_uid: 95cx38n3 This study aimed to share our experiences during the coronavirus disease 2019 (COVID-19) pandemic obtained in diagnostic radiology facilities of five Training Research Hospitals in the Asian part of Istanbul (North Hospitals). Accordingly, we reported the utilised examination details, allocation of radiology staff and actions and safety procedures for patients and radiology staff. As the corporate radiology team serving in these designated pandemic hospitals, examination details and safety procedures of some diagnostic radiology facilities among five training research hospitals have been identified in the current study. Our guidelines and preparedness protocol aimed to reduce patient morbidity and infection-related mortality through quick and proper diagnosis to prevent the spread of COVID-19 to our employees, patients and the general public during the COVID-19 pandemic. Results showed that teamwork is a key factor while providing medical services. In addition, continuous communication efforts and individual responsibilities of radiology staff were remarkable during the COVID-19 pandemic. The recent situation also showed that co-operation of radiology facilities with device manufacturers and applicators are quite significant especially for development of special protocols in the frame of As Low As Reasonably Achievable. The COVID-19 pandemic has tackled several challenges in radiology among radiology departments. Therefore, continuous co-operation plans and motivational actions are highly recommended not only between radiology staff but also between radiology stakeholders and service providers in the future. Technical details of recent investigation can provide useful information about the management of diagnostic radiology departments during the fight with the COVID-19 pandemic in cities with high population density such as Istanbul. seafood markets [2, 3] ; it caused animal and human diseases. [4] . In humans, several species of coronaviruses are known to cause respiratory infections, ranges from common colds to more severe diseases, such as the Middle East Respiratory Syndrome (MERS) and severe acute respiratory syndrome (SARS) [5, 6] . It is transmitted by inhaling droplets scattered in the environment through coughing and sneezing and direct contact with contaminated air or droplets [7] . In Turkey, the first COVID-19 case was officially announced by the Ministry of Health on March 10, 2020. Then, the Ministry of Health has announced that COVID-19 had spread throughout Turkey on 1 April 2020 and some public hospitals were assigned to serve patients infected with COVID-19 only [8] . Radiology imaging plays an important role in diagnosing, management and treatment of Covid-19 cases [9, 10] . Chest x-ray and CT are the common used investigation for COVID-19 [11, 12] in addition to lung ultrasound and MRI [13] . As the corporate radiology team serving in these designated pandemic hospitals, examination details and safety procedures of some diagnostic radiology facilities among five Training Research Hospitals have been identified in this study. Considering recent literature studies on the experiences of the COVID-19 pandemic, the guideline and preparedness protocol aimed to reduce patient morbidity and infection-related mortality through quick and proper diagnosis to prevent the spread of COVID-19 to our employees, patients, and public. Moreover, we also concentrated on health protection, administration of critical equipment, including personal protective equipment (PPE) and personnel allocation. In this paper, we also discuss the knowledge, services and utilised policies for the radiology community's benefits. A dynamic process and action plan have been applied during our daily experiences in the COVID-19 pandemic. As guidelines continue to evolve due to the increasing knowledge of the current pandemic, we hope that our local expertise allows other organizations to plan their COVID-19 management and for potential similar pandemics in the future. The current study reports the examination details and safety procedures of some diagnostic radiology facilities from five major Training and Research Hospitals in the Asian part of Istanbul (North Hospitals). Istanbul has been known as the most crowded city in Turkey. Places providing tertiary care services constitute the highest level of health services in cases of serious illnesses and important tests. Tertiary treatment services are provided in training and research hospitals, as well as private and university hospitals. As of March 11, when the case was first reported, public hospitals were determined as pandemic hospitals, and accordingly, inpatient admission was reduced to a minimum. In normal circumstances, a total of 20 scanners were used to perform radiological examinations (8 Computed Tomography (CT), 9 Magnetic Resonance Imaging (MRI), and 3 mammography machines) by 169 active radiographers in this field but as a result of the COVID-19 pandemic, one of the CT scanners was set up for emergency patients, whereas another one was set up for patients infected with COVID-19 only. In the current situation during the pandemic, the number of MR examinations reduced from 120 per day to [15] [16] [17] [18] [19] [20] studies, and the number of the mammographic examination was decreased from 20 to 1 examination per week. The adherence to national and international guidelines to reduce nonurgent radiology examination lead to the reduction of patient numbers in the radiology department [14, 15] . The decrease in radiology examination was global and noted in multiple countries [16, 17] . On the contract, the number of patient chest x-rays and CT scans increased; this was expected. This is because chest x-ray and CT has a great role in diagnosing COVID-19, and follow up [18, 19] . In the normal workflow, radiographers were routinely assigned among devices such as CT, MRI and mammography to provide vocational dynamism and experience sharing. For example, a radiographer working on a CT device for a certain period of time was assigned to the MR unit within the planning schedule. However, with the spread of COVID-19, the work lists were checked, and schedule prepared in such a way that changing workspaces was not allowed. In this case, radiographers responsible for a particular device are ensured to work on that device continuously by going out of the normal routine practice. Two radiographers were assigned to operate the CT device used to test patients with COVID-19. Radiographers also established a work organisation, one radiographer operates the console during the first half the working day and the other radiographer deals with patient positioning and communication, and they will exchange their role in the second half of the working day. Apart from the patient consent form and patient admission task, no other procedures were allowed. In this way, the area was restricted for the two radiographers only in order to eliminate the risk of contamination and prevent possible contamination from different devices. During COVID-19, it was essential to stop routine changes in work schedule and limit number of workers dealing with suspected or confirmed cases to minimise the risk of possible contamination among the staff [20] . Furthermore, MRI used to be done at night to serve normal patients only. Night-shift radiographers in MR facilities were provided to support the CT Department. Three shift system was introduced, and the importance of their own health and welfare was explained. The three shifts working system has been provided for radiologists (8 hours works). Moreover, radiologists must complete the report for patients diagnosed with COVID-19 as emergency reporting within two hours. Moreover, annual leaves have been provided for radiologists with chronic health issues in high-risk level without waiting for the routine vacation period. Some hospital activated the teleradiology plans to allow radiologists to report from home in case of quarantine [21] . The medical secretary was ensured to perform remote reporting and continue work from home. As the polymerase chain reaction (PCR) test was released late, the thoracic CT report was requested to be released quickly; therefore, the emergency reporting system was activated, and the working shift system was organised on a 24/7 basis. The number of personnel was reduced. Moreover, their paid annual leave has been provided without waiting for the routine vacation period. However, those who want to go on free leave were assisted. By giving administrative permission to those who do not have such leave rights, number of personnel was planned to be minimum. Accordingly, list of personnel possibly infected with COVID-19 was created. The procedures and principles followed in radiology units were shared with the cleaning staff at the beginning. In routine practice, room ventilation and chemical disinfection studies, J o u r n a l P r e -p r o o f carried out once every half an hour, were shortened to once every 10 min. cleaning of the radiology investigation room is usually performed after each patient [22] . It is worth mentioning that aforementioned cleaning staff transactions were reorganised on 7/24 basis. Due to the rapid spread of the coronavirus case in Europe and increased deaths, the importance of not engaging in some daily behaviors were announced to all personnel with the trainings provided by the chief physician and occupational health teams as of 1 March 2020. These daily behaviours mainly included many interactions such as close contact and hugging between the staff due to sincerity. As of March 1, PPE was provided, and awareness was raised through trainings for personnel protection from the first day. Trainings were provided by organising disposable gloves, patient gowns, surgical masks, glasses and food, thus protecting them from patients with COVID-19. The health personnel were not allowed in the same room with >2 or 3 people, and the personnel were kept away from each other as much as possible. The working manner of health personnel was assessed by the workplace doctor and occupational health teams. Online trainings, scientific viral updates and psychological support trainings were organised. The contact of active or healthcare professionals with elderly or those with family members with cancer conditions in their homes was not allowed. Thus, hotel or pension accommodation was provided for those working staff. Moreover, health personnel who became positive for the PCR test were followed after hospital treatment and their condition was monitored. Necessary measures were taken according to instructions from the Ministry of Health. However multiple publications reported single-phase, non-contrast chest CT [23] but the guideline on specific CT protocols for patients with suspected or known COVID-19 was not clear [24, 25] . It was recommended to reduce patients' dose and the low dose protocol was suggesting by many institution [26] and it proves its reproducibility and accuracy [27] . The application of low-dose and ultra-low-dose CT examinations were used in the region due to the fact that follow-up thoracic CT examinations were requested by clinicians, especially for most patients infected with COVID-19 and it is noted that one patient may underwent thoracic CT at least two or even three times. This situation has encouraged us to utilise an ultra-lowdose COVID-19 protocols for follow-up patients. Working with device manufacturers, ultralow-dose CT examination protocols were followed for 16 and 64 slices devices ( Table 1) . We performed examination reports and CT images (Figs. 1, 2, 3 and 4) with hospital radiologists and evaluated with their feedbacks with device applicators. As a result of discussions with radiologists, no significant difference was observed in the interpretation of the CT images obtained from the Ultra-Low Dose protocol. Moreover, the best-quality images were obtained at the lowest possible dose, namely, to apply the ALARA principle in the best way. As a result of excessive increase in the number of patients who underwent thoracic CT, we discussed with the hospital administration the necessary cleaning measures that could not be taken, and many patients were in the same environment. Therefore, special action plans were J o u r n a l P r e -p r o o f used to reduce the radiation exposure dose for patients. The utilized actions can be listed as follows: • Dose optimisations were performed. • The protocols were revised by expert teams of CT and IT manufacturers. • The protocol was approved by the radiologists • This feature was used in devices with automatic dose modulation feature. Before taking the scanogram images, the patient was positioned correctly in the CT Iso Centre. • A 1-mm volumetric thin section and high-resolution algorithms were applied to the protocols • The most appropriate rotation and pitch values have been adjusted to minimise breathing artefacts. • In devices with iterative reconstruction feature, the noise rates of low-dose images have been minimised. • Pediatric protocols were used in paediatric patients according to the age range and weight ratio, and if necessary, manual dose adjustment could be made. • Paediatric CT device scanning reserved for COVID 19 was not performed, and patients were instructed to undergo CT scanning where patients with COVID-19 were not allowed. • By meeting with device manufacturers, the infrastructure that allows remote device monitoring has been established, and any malfunction has been resolved through telephone interventions for possible malfunctions. • In reporting, while some of our radiologists read the reports with the remote reporting system from home, some of them had to be in the field for hospital cases especially in interventional radiology and made their reports to the hospital. To prepare scanning for patients, especially the abdominal region was protected with a lead apron, and scanning was carried out with the ultra-low-dose protocol. Reflections of the experiences gained during this pandemic process are very important in terms of evaluating future issues. In addition to aforementioned actions and strategies, we also analysed some of the issues experienced during the COVID-19 pandemic and that we should be more cautious in the future. For example, one of the most important experience we have from the COVID-19 pandemic is that the radiology department should have sufficient stocks for PPE such as gowns and protective masks. At the beginning of the pandemic process, we had very serious problems with the provision of these PPE. Accordingly, the absence of PPE forced us to be in contact with other sources of supply. This caused us to spend the more time and effort on issues such as procuring equipment and finding new suppliers. Of course, it will J o u r n a l P r e -p r o o f be beneficial to coordinate with suppliers that follow a fixed price policy within the framework of legal agreements in the future. Istanbul has been known as the most crowded city in Turkey. The places requiring tertiary care services are the ones that require serious tests, important examination and constitute the highest level of the health process. In this study, we reported the examination details and safety procedures of some diagnostic radiology facilities from five major Training and Research Hospitals in the Asian part of Istanbul (North Hospitals). Recent pandemic situation has showed that teamwork is a key factor while providing medical services. In addition, continuous communication efforts and individual responsibilities of radiology staff were remarkable during the COVID-19 pandemic. The recent situation also showed that cooperation of radiology facilities with device manufacturers and applicators is quite significant especially for the establishment of special protocols in the frame of As Low As Reasonably Achievable. Analyzing the Epidemiological Outbreak of COVID 19: A Visual Exploratory Data Analysis (EDA) Approach The proximal origin of SARS-CoV-2 COVID-19 Spike-host cell receptor GRP78 binding site prediction First known person-to-person transmission of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in the USA Characteristics of pediatric SARS-CoV-2 infection and potential evidence for persistent fecal viral shedding Aerosol and Surface Stability of SARS-CoV-2 as Compared with SARS-CoV-1 How can airborne transmission of COVID-19 indoors be minimised Diagnosis of the Coronavirus disease COVID-19 in the radiology department: What radiographers need to know Point of care and intensive care lung ultrasound: A reference guide for practitioners during COVID-19,Radiography EberPortable chest X-ray in coronavirus disease-19 (COVID-19): a pictorial review Clin Imag Department of HealthTemporary pause of routine screening programmes The radiology workforce's response to the COVID-19 pandemic in the Middle East, North Africa and India. Radiography Impact of the COVID-19 pandemic on radiography practice: findings from a UK radiography workforce survey BJR| Open Frequency and distribution of chest radiographic findings in COVID-19 positive patients Imaging and clinical features of patients with Rapid response of an academic surgical department to the COVID-19 pandemic: implications for patients, surgeons, and the community Déjà vu or jamais vu? How the severe acute respiratory syndrome experience influenced a Singapore radiology department's response to the Chest CT practice and protocols for COVID-19 from radiation dose management perspective Recommendation of low-dose CT in the detection and management of COVID-2019 Proposal of a low-dose, long-pitch, dual-source chest CT protocol on third-generation dual-source CT using a tin filter for spectral shaping at 100 kVp for coronavirus disease 2019 (COVID-19) patients: a feasibility study COVID-19 evaluation by low-dose high resolution CT scans protocol. Academic radiology Accuracy and reproducibility of low-dose submillisievert chest CT for the diagnosis of COVID-19. Radiology: Cardiothoracic Imaging We would like to express our appreciation to all medical staff in our hospitals for their high responsibility and efforts. J o u r n a l P r e -p r o o f