key: cord-0781308-vw7yamk9 authors: Laamrani, Fatima Zahrae; Chaibi, Aicha; Billah, Nabil Moatassim; Nassar, Ittimade; Lasri, Fatima zahrae; Alaoui, Amal Amrani; Jroundi, Laila; Madani, Naoufel title: Reorganization of the imaging units in the context of the COVID-19 pandemic: experience of the Ibn Sina University Hospital in Rabat date: 2020-05-11 journal: Pan Afr Med J DOI: 10.11604/pamj.supp.2020.35.2.23239 sha: e31772b25c1d391e2e1a3aec7b1e22b33c1b2e4f doc_id: 781308 cord_uid: vw7yamk9 The global health system is currently facing the new SARS-COV 2 pandemy. This exceptional situation requires, from our African health systems, to reorganize and readapt the usual protocols when they were carried out before the crisis and/or their urgent implementation otherwise. As imaging is one of the pillars of the diagnosis of infection with this emerging virus, it was essential to rethink the imaging department organization so as to dedicate a unit to COVID-19 activity while maintaining the usual emergency activity within the Ibn Sina university hospital in Rabat. The protection of exposed personnel and the bio-cleaning of radiology equipment and rooms also became an evidence. The active involvement of the administration, the Clinical Pharmacy Department and the Nosocomial Infections Control Committee is a key to the success of this reorganization. has 800 hospital beds. The non-urgent activity (scheduled surgery, consultations and hospitalizations except emergencies) was suspended and the hospital was geographically divided into two activities with separate circuits: a dedicated "Covid" activity located in the basement and on the ground floor which includes the emergency reception service, the emergency radiology service, a second so-called central radiology service and several hospital units; a non-Covid activity located on the floor level and reserved for urgent non-Covid activities. The imaging activity, like all hospital activity, has been divided into: a Covid activity which is taken care of by the emergency radiology service which performs computed tomography (CT) and chest x-rays for suspected or confirmed patients infected with Covid-19 arriving from the emergency reception service or other hospital units. Any respiratory symptomatology that is not clinically proven is considered suspicious; a non-Covid activity carried out in the central radiology department, which is responsible for imaging other hospital patients. A clinical information collection form has been developed to facilitate the referral of patients receiving Covid imaging to chest x-ray or CT rooms. The indications for CT have been widened due to its high sensitivity, although its specificity is discussed [4] . Bio-cleaning, disinfection and Protection of personnel: bio-cleaning and protection of caregivers (doctors, radio handlers and support staff) working in radiology were not formalized in our hospital before the health crisis. In the urgency of the situation, the clinical pharmacy department, the nosocomial infection control committee and the radiology department set to work. In addition to a review of the recent literature on the contamination and contagiousness of SARS-COV 2, the effectiveness of the implementation of the protocols was conditioned by three essential factors: 1) The involvement of the personnel; 2) The effective application of the protocols:it was possible either by simulations or by its implementation when a Covid patient arrived in radiology; The operational hygiene team of the hospital, reporting to Nosocomial Infection Control Committee (NICC) and the Nursing Service, were of undeniable contribution; 3) The total acceptance of the administrative staff and the hospital pharmacy to all our requests in terms of organization, supplies of hygiene products and protective equipment. The available data in the literature prompted us to opt for draconian disinfection measures in an imaging environment considered to be a high-risk environment, among other things because of the confined nature of the radiology rooms. Studies conclude that SARS-Cov-2 persists on different surfaces and reveals that plastic and stainless steel offer greater stability to the virus [5, 6] . As for airborne transmission, if no air sample taken from the isolation rooms of three patients with COVID-19 was positive in the study reported by Ong et al [7] , the virus was detected on the air outlets, which could suggest a possible transmission of micro-aerosols contaminated by the air flows. Besides, more and more data tend to show the viability of the virus in aerosols for several hours, especially in confined spaces [8] . SARS-COV-2 being an enveloped virus, its inactivation can be effectively carried out by surface disinfection procedures with solutions containing 62-71% ethanol, 0.5% hydrogen peroxide or 0.1% sodium hypochlorite with minimum contact time of 15 minutes [9] . The EN 14476 standard for detergents/disinfectants is recommended for enveloped viruses and would by analogy inactivate SARS-CoV-2 [10] [11] [12] . The main drawback of these protocols is the limited number of examinations that can be performed per day since the imposed airborne disinfection requires 45 minutes between each examination, to which must be added 15 minutes of bio-cleaning. The airborne disinfection does not disinfect the air in the contaminated room (only ultraviolet rays have demonstrated their effectiveness) but it makes it possible to reach areas that are not easily accessible by surface disinfection techniques and thus limit the risk of persistence of a micro-reservoir pathogenic organisms. Properly performed bio-cleaning theoretically dispenses with an airborne disinfection [13] . We still opted for an airborne after each visit to the imaging room, on the one hand for its proven effectiveness in a pandemic context, but also to calm hygiene agents having to perform a manual biocleaning after airborne disinfection. It should be noted that after more than a month of Covid activity, 260 scanners and 180 chest x-rays, no one of the emergency radiology department staff was contaminated. The protection of the radiology staff in contact with the patients is achieved by the installation of a specific kit including (gown, overblouse, FPP2 mask, charlotte, overshoes and gloves) and by a short training on its use, especially on dressing and undressing. Ultrasound in suspected or confirmed COVID-19 patients is conceived in two distinct situations: 1) Pulmonary ultrasound as part of screening or monitoring of lung lesions. It is currently in the research field and it is recommended that CT replace it whenever possible. Nevertheless, in the eventual absence of the scanner under our skies and in case of availability of expertise in pulmonary ultrasound, the latter is probably an interesting alternative. 2) Ultrasound other than pulmonary in the context for example of digestive, renal, vascular or other symptomatology associated with the classic symptomatology of Covid-19 infection or in the context of a complication. Rigorous protective measures must be implemented during an ultrasound due to an extended contact time [14] [15] [16] . The bio-cleaning protocol is carried out in the same way as in the CT or standard radiology room. We wanted to bring our experience in the reorganization of hospitals in general and of the Radiology department in particular while facing the Covid-19 pandemic. The aim is to facilitate and inspire our colleagues, brothers and sisters from the rest of our continent, for the organization of their own units if it has not already been set up. To each thing woe and good as they say. This exceptional situation forced us to improve hygiene practices in our hospitals and to implement protocols that normally should have existed before. Africa in the Path of Covid-19 Preparedness and vulnerability of African countries against importations of COVID-19: a modelling study ACR Recommandations for the use of Chest Radiography and Computed Tomography (CT) for suspected COVID-19 Infection Frequency and Distribution of Chest Radiographic Findings in COVID-19 Positive Patients Chest Computed Tomography for Detection of Coronavirus Disease2019 (COVID-19): Don't Rush the Science Persistence of coronaviruses on inanimate surfaces and its inactivation with biocidal agents Aerosol and surface stability of HCoV-19 (SARS-CoV-2) compared to SARS-CoV-1 Air, surface environmental, and personal protective equipment contamination by Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) from a symptomatic patient Visualizing speechgenerated oral fluid droplets with laser light scattering AVIS: Relatif aux conditions de désinfection des surfaces lors de la réalisation d´un scanner ou autres actes d´imagerie chez un patient COVID-19. 05 avril 2020 Disinfection of environments in healthcare and non-healthcare settings potentially contaminated with SARS-CoV-2 Recommandations de l´Agence Française de Sécurité Sanitaire des produits de santé relatives aux critères de choix des procédés de désinfection des surfaces par voie aérienne en milieu de soins World Federation for Ultrasound in Medicine and Biology Position Statement: How to Perform a Safe Ultrasound Examination and Clean Equipment in the Context of COVID-19 ISUOG Safety Committee Position Statement: safe performance of obstetric and gynecological scans and equipment cleaning in the context of COVID-19 Findings of lung ultrasonography of novel corona virus pneumonia during the 2019-2020 epidemic The authors declare no competing interests Conception and design of the work, Acquisition, Analysis and Interpretation of data was done by Fatima Zahrae Laamrani, Aicha Chaibi and Moatassim Billah Nabil. Ittimade nassar and Laila Jroundi did the revising of the work critically for important intellectual content. Fatima Zahrae Lasri and Amrani A Alaoui did the acquisition and analysis of data. Naoufel Madani did drafting of the work, revising the work critically for important intellectual content and final approval of the version to be published. All the authors have read and agreed to the final manuscript.