Perspectives on Preparedness for Chemical, Biological, Radiological, and Nuclear Threats in the Middle East and North Africa Region: Application of Artificial Intelligence Techniques.

Over the past 3 decades, the diversity of ethnic, religious, and political backgrounds worldwide, particularly in countries of the Middle East and North Africa (MENA), has led to an increase in the number of intercountry conflicts and terrorist attacks, sometimes involving chemical and biological agents. This warrants moving toward a collaborative approach to strengthening preparedness in the region. In disaster medicine, artificial intelligence techniques have been increasingly utilized to allow a thorough analysis by revealing unseen patterns. In this study, the authors used text mining and machine learning techniques to analyze open-ended feedback from multidisciplinary experts in disaster medicine regarding the MENA region's preparedness for chemical, biological, radiological, and nuclear (CBRN) risks. Open-ended feedback from 29 international experts in disaster medicine, selected based on their organizational roles and contributions to the academic field, was collected using a modified interview method between October and December 2022. Machine learning clustering algorithms, natural language processing, and sentiment analysis were used to analyze the data gathered using R language accessed through the RStudio environment. Findings revealed negative and fearful sentiments about a lack of accessibility to preparedness information, as well as positive sentiments toward CBRN preparedness concepts raised by the modified interview method. The artificial intelligence analysis techniques revealed a common consensus among experts about the importance of having accessible and effective plans and improved health sector preparedness in MENA, especially for potential chemical and biological incidents. Findings from this study can inform policymakers in the region to converge their efforts to build collaborative initiatives to strengthen CBRN preparedness capabilities in the healthcare sector.

FIFA World Cup Qatar 2022TM stadium patient evacuation: A system testing simulation-based exercise.

BACKGROUND: As the State of Qatar is soon to host the Federation International of Football Associations (FIFA) 2022 World Cup tournament, the health sector has also been preparing for the event to increase its capacity to meet the expected additional health demand. The readiness of the health sector is being tested and improved through a number of simulation-based exercises. In this case, it relates to testing in a realistic manner the complete evacuation process of a patient using two very different modes of transportation, from a distant FIFA stadium up to the handover phase in the main trauma center in the State of Qatar. METHOD: In this controlled simulation-based pilot study, the total evacuation time of a patient from the 60,000-fan capacity Al Bayt Stadium (ABS), situated in a rural northern part of Qatar, to Hamad General Hospital (HGH) Trauma Resuscitation Unit (TRU) situated approximately 50 km away, was compared when transported by helicopter and by ambulance. The Scenario for the simulation was based on a player who sustained a fractured lower leg and a concussion during a football match and needed urgent evacuation from the ABS Players' Medical Clinic near Al Khor to HGH in Doha. The same Scenario was enacted twice, the first time with a ground Hamad Medical Corporation Ambulance Service (HMCAS) ambulance and the second time with an HMCAS LifeFlight helicopter. RESULTS: The transportation phase for Scenario 2 (LifeFlight helicopter) was 63% faster than for Scenario 1 (ground ambulance). However, upon arrival at HGH, the patient arrived sooner at the TRU in Scenario 1 compared with Scenario 2. The overall mission time was thus only 6 minutes and 22 seconds faster by LifeFlight helicopter as compared with the ground ambulance. CONCLUSIONS: According to this simulation-based pilot study, using a helicopter to transport patients 50 km from the ABS 2022 FIFA World Cup stadium to the HGH TRU was only marginally faster by helicopter than using a ground-based ambulance. In addition, the ambulance was not using emergency driving operations, which when used would have further reduced the time taken for the ambulance to reach HGH TRU. Therefore, having a helicopter on standby there would not significantly improve the transport time of a critically ill/injured patient's access to definitive care and will not be available during the FIFA World Cup Qatar 2022TM unless it is called upon to respond to a mass casualty incident or bring additional Critical Care Paramedic resources to the stadium.

Setting up a temporary isolation tent site for asymptomatic COVID-19 positive male migrant workers in Qatar.

BACKGROUND: Qatar has a unique demographic composition, involving hundreds of thousands of male blue-collar workers living in places where physical distancing measures are difficult to implement. This study aimed to describe the rapid development and operations of a temporary isolation facility, which was composed of tents, for asymptomatic COVID-19 positive migrant workers. DESIGN: The government established several temporary isolation facilities to house this important group of the community. This was achieved through daily meetings over a short period, thanks to the collaboration of government and private partners, in parallel to the facility being built and required resources procured. RESULTS: A 3,726-patient capacity isolation facility composed of large tents was constructed in 1 month and was kept operational from April 16 to June 20, 2020. Over that period, it received a total of 18,900 patients. It took 10 days from the decision to set up the first part of the isolation facility to admitting its first occupants. CONCLUSIONS: The COVID-19 pandemic necessitated the implementation of unprecedented global public health and physical distancing measures to contain the spread of the virus among the population. Rapidly opening a temporary COVID-19 isolation facility bought the healthcare sector time to set up more permanent solutions to contain the spread of the virus.

Implementation of a drive-through testing clinic in Qatar for residents having recently returned from a country with a COVID-19 travel warning.

INTRODUCTION: The spread of the SARS-CoV-2 virus has caused chaos around the world. At the onset of the virus' detection in the State of Qatar, a free-testing system was rapidly established to invite individuals who had recently returned from countries with a COVID-19 disease travel warning to avoid putting other people at risk. The testing site needed to be accessible to individuals without requiring them to enter the hospital and congregate in a waiting area. The aim of this article is to share our experience with the early implementation of a drive-through testing clinic using the invited person's vehicle as an isolation compartment during screening to minimize person-to-person contamination. METHODS: A Hamad Medical Corporation site was selected to stage a drive-through testing facility to avoid congestion and offer space to facilitate the process. A process was rapidly agreed upon, and staff received the required training regarding infection control measures and documentation. At the testing site, individuals were subjected to the following steps: registration and history taking, temperature measurement, swabbing, and receipt of a sick leave certificate and a flyer about self-quarantine. RESULTS: Over the first six days of implementation, the relevant authorities determined that 687 individuals had to be contacted, 103 attended their testing appointment in that period, and an additional 327 people (close relations of the individuals contacted or individuals contacted but without a health card) also subjected themselves to the testing process, which took a median time of 11 minutes 39 seconds. No individual exhibited symptoms that warranted immediate isolation while they were at the drive-through testing clinic. However, four individuals were diagnosed with COVID-19 following laboratory analysis of the swab taken and followed up. The median time between swab collection and laboratory testing was 13 hours 41 minutes 59 seconds. CONCLUSIONS: Collaboration among various key health, governmental, and travel industry partners was essential to the successful and rapid implementation of a COVID-19 drive-through testing clinic in the early days of the pandemic in Qatar. The general public reacted well to this process. Communication, coordination, and planning were identified as critical factors at every step of the process. It started from the initial call to the travelers who had recently returned from a country with a newly instituted travel warning and concluded by them leaving with their sick leave certificate and an information flyer with reminders about preventative infection control measures and encouraging them to self-quarantine after having been swabbed.