key: cord-286977-330p60oh authors: Barcala-Furelos, Roberto; Szpilman, David; Abelairas-Gómez, Cristian; Calvete, Alejandra Alonso; Graña, María Domínguez; Martínez-Isasi, Santiago; Palacios-Aguilar, José; Rodríguez-Núñez, Antonio title: Plastic blanket drowning kit: A protection barrier to immediate resuscitation at the beach in the Covid-19 era. A pilot study. date: 2020-09-16 journal: Am J Emerg Med DOI: 10.1016/j.ajem.2020.08.101 sha: doc_id: 286977 cord_uid: 330p60oh OBJECTIVE: Introducing a new, simple and inexpensive portable equipment for lifeguards, consisting of a pre-assembled full-size plastic blanket with a mask and HEPA filter, which could offer significant time-saving advantages to reduce COVID-19 risk transmission in the first few minutes of CPR after water rescue, avoiding the negative impact of delayed ventilation. METHOD: A pilot study was carried out to determine the feasibility of the pre-assembled kit of face-mask and HEPA filter adapted on a pre-set plastic-blanket. The first step consisted of washing hands, putting on safety glasses and gloves as the first personal protection equipment (PPE) and then covering the victim with an assembled plastic blanket. The second step consisted of 10 min of cardiopulmonary resuscitation (CPR) with PPE and plastic blanket, following the technical recommendations for ventilation during COVID-19. RESULTS: Ten rescuers took part in the pilot study. The average time to wear PPE and place the pre-assembly kit on the victim was 82 s [IC 58–105]. After 10 min the quality of the resuscitation (QCPR) was 91% [87–94]. Quality chest compressions (CC) were 22% better than ventilations (V). Most of the rescuers (60%) thought that placing the plastic blanket on the victim on the beach was somewhat simple or very simple. CONCLUSIONS: Resuscitation techniques in COVID-19 era at the beach have added complexities for the correct use of PPE. Plastic blanket plus basic ventilations equipment resource could be a new alternative to be considered for lifeguards to keep ventilation on use while reducing risk transmission. With the emergence of COVID-19 [1] disease, there has been a drastic change in the way emergency teams deal with out-of-hospital cardiac arrest and other emergencies. New recommendations for Basic Life Support (BLS) from the European Resuscitation Council during the Covid-19 Era (ERC-COVID), [2] propose the use of protective personal equipment (PPE), which significantly delays the starting of chest compressions (CC) and ventilations (V) or do not recommend ventilation at all. Drowning is a critical time-dependent circumstance in which cardiac arrest is of an asphyxia origin, so ventilations are essential to revert systemic hypoxia [3] and achieve return of spontaneous circulation. Ensuring consistent, correct use of PPE is challenging. It requires training and additional time for donning. [4] When cardiac arrest happens in aquatic environments and lifeguards have to put on and doffing PPE: certain maneuvers are initiated just after the rescue, in which instance both the victim and the lifeguards are wet; and environmental conditions such as hypothermia or hyperthermia difficult its use. Additionally, considering that drowning kills 320,000 people worldwide every year, most of whom are in low to medium income countries (LMICs), [5] it seems unrealistic to assume that PPE will be available in most of settings. We developed a simple, cost-effective and portable barrier kit to be used in case of drowning CPR. The primary aim of the study was to test the feasibility of this CPR kit designed for the COVID pandemic. The PPE kit consists of a pre-assembled full-size transparent plastic blanket with an adaptation to a ventilation face mask with a High Efficiency Particulate Air (HEPA) filter.  Standard face mask for medical use Ambu® Mark IV adult size (Ballerup,  HEPA filter able to adapted to the face mask.  Adult size bag with oxygen reservoir. (Fig. 1) To optimize the time to deployment, the stored lifeguard backpack kit should be ready to use. It is quite easy to prepare a small opening in the drape. This opening will allow the patient and BVM on the inside of the drape to be connected to the HEPA filter, oxygen bag, and rescuer on the outside of the drape. We placed this opening 50 cm from the superior border of the drape. The fixation is be secured by placing a waterproof tape around the connection. The full kit must be placed on the unconscious drowning victim without signs of life in 5 simple steps lasting just one minute, allowing immediate full CPR. -simple‖ and only two participants (20%) considered this process as -difficult‖ or -very difficult‖ (Fig.4) . The aim of this report was to show a simple and low cost method, which can help lifeguards at the beach in various ways: as an extra protection attached to PPE, as initial protection when they are wet and cannot wear quickly or correctly PPE (gloves, glasses and plastic coat), in case they decide to provide CPR with a bag-valve mask with HEPA filter, or also in LMICs that do not have PPE (gloves, glasses and plastic coat), in case they decide to provide CPR with a bag-valve mask with HEPA filter. In the COVID-19 pandemic the risk of transmission during medical attendance is high. This occurs in techniques or procedures that generate aerosols, such as intubation [7] or any invasive or non-invasive ventilation technique, including the use of bag-valve mask. [8, 9] Chan et al showed, how the use of bag-valve mask even with HEPA filter, does not prevent 100% air leakage, and how this air leak could reach the rescuer performing CC. [8] . For this reason the use of plastic drapes/patient covering, begins to be explored, to add extra protection during airway interventions[7,10], protecting the laryngoscopist during airway interventions [11] , or covering the patient during prehospital cardiopulmonary resuscitation. [12] These studies and our previous experience in lifesaving have inspired the authors to bring it to an environment with a higher more uncertainty and less control, like a beach. An inadequate lifeguard evaluationvictim is not in cardio-pulmonary arrestmay pose a theoretical limitation if victim is fully covered by interfering with the victim spontaneous breathing. This implies an extra lifeguard training to detect signs of life on the victim and be able to quickly remove the plastic cover. In other circumstances, rescuers may need to remove the blanket: usufoam is generated in drownings of all severity [3] , so the face mask may have to be removed for cleaning up and this may pose a difficulty while using the plastic blanket; foam and water may be need to be aspirated; Automatic External Defibrillation (AED) may be need as part of BLS or the patient may need to be ECG monitored at some point. In addition, some authors have warned of possible risks, such as the permanence of aerosols under the plastic, with the risk of dispersion upon removal [9] . Matava et al has suggested the careful removal of the drape plastic to avoid the dispersion of J o u r n a l P r e -p r o o f aerosols. [7] An alternative to aerosol control could include a suction circuit under the drape, [13] but this is not possible in an emergency on the beach. We suggest, in case of use, remove it in an upwind direction, using the plastic as a shield between the patient and the lifeguards. The Sea Breeze would likely disperse the aerosols in the opposite direction of the lifeguard situation. Transport and easy use: the plastic blanket with the HEPA filter and mask can be folded and carried in an airtight bag, inside the lifeguard's backpack (rescue bag) along with other rescue material including PPE for CPR. The Bag-valve mask should now be a permanent tool for the lifeguard, just like the fins, rescue tube or rescue buoy. Suitable for environmental conditions: wind, extreme heat, wet and/or hypothermia after rescue it is a handicap for a correct use/wear PPE, but not for use a blanket plastic. Quality CPR maneuvers are possible (at least in this pilot study). Both V and CC exceeded an average of 70%, an arbitrary value attributed to quality CPR. [14] An important fact is its low cost. Plastic blanket is cheap (less than € 1), which can give access to rescuers without resources or without training in PPE use who want to have extra protection. The need to use PPE during resuscitation of the drowning patient during the COVID pandemic has added difficulty to the resuscitation techniques on the beach. Plastic blanket could be an alternative to consider for lifeguards when the environment, training or resources require infection transmission protection. The method described here is not intended to replace materials specifically designed for virus transmission prevention. The results of this proposal must be interpreted with the limitations of an experimental model without tests in real patients. We encourage research groups with more resources and Emergency Medical/Lifeguards teams with real experiences using blanket-plastic to report their outcomes. None of the authors has a conflict of interest. This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors. None of J o u r n a l P r e -p r o o f Naming the coronavirus disease (COVID-2019) and the virus that causes it European Resuscitation Council COVID-19 Guidelines Executive Summary Cognitive load and performance of health care professionals in donning and doffing PPE before and after a simulation-based educational intervention and its implications during the COVID-19 pandemic for biosafety World Health Organization. Violence and Injury Prevention-Drowning. World Health Organization European Resuscitation Council Guidelines for Resuscitation 2015: Section 4. Cardiac arrest in special circumstances Mask Ventilation and Dispersion of Exhaled Air Possible SARS coronavirus transmission during cardiopulmonary resuscitation Tracheostomy during COVID-19 pandemic-Novel approach Barrier System for Airway Management of COVID-19 Patients Use of drape/patient covering during potentially aerosolizing procedures Clear plastic drapes for aerosol-generating medical procedures in COVID-19 patients: questions still remain ABC of resuscitation Journal Pre-proof the authors manufactures medical devices. All authors work for government institutions (hospitals and universities) or non-profit organizations. Plastic blanket drowning kit: a protection barrier to immediate resuscitation at the beach in the Covid-19 era. A pilot study.