key: cord-0912810-1an6zbw8 authors: Parhar, Ken Kuljit S.; Zuege, Danny J.; Shariff, Karen; Knight, Gwen; Bagshaw, Sean M. title: Prone positioning for ARDS patients—tips for preparation and use during the COVID-19 pandemic date: 2020-12-24 journal: Can J Anaesth DOI: 10.1007/s12630-020-01885-0 sha: cfe3f14426395aaf8cae14ce3b0bcaa4536be62b doc_id: 912810 cord_uid: 1an6zbw8 Many patients with coronavirus disease (COVID-19) will develop acute respiratory distress syndrome (ARDS). Prone positioning is an important non-pharmacologic strategy that should be considered for all invasively ventilated patients with moderate to severe ARDS (including those with COVID-19). Prone positioning offers several physiologic and clinical benefits, including improving hypoxemia, matching ventilation with perfusion, reducing regional hyperinflation, and improving survival. To safely offer prone positioning, appropriate training, simulation, and health system planning should be undertaken. In this review, we offer ten tips, based on the Alberta provincial prone positioning strategy during COVID-19, to safely implement and improve the appropriate use of prone positioning. We provide special considerations for its use during the COVID-19 pandemic or future respiratory pandemics. SUPPLEMENTARY INFORMATION: The online version of this article (10.1007/s12630-020-01885-0) contains supplementary material, which is available to authorized users. Résumé De nombreux patients atteints de la maladie du coronavirus (COVID-19) de´velopperont un syndrome de de´tresse respiratoire aigue¨(SDRA, ARDS en anglais). Le positionnement ventral est une importante strate´gie non pharmacologique qui devrait eˆtre envisage´e pour tous les patients ventile´s de manie`re invasive et souffrant d'un SDRA mode´re´a`grave (y compris ceux atteints de la COVID-19). Le positionnement ventral offre plusieurs avantages physiologiques et cliniques, notamment l'ame´lioration de l'hypoxe´mie, une ade´quation de la ventilation avec la perfusion, la re´duction de l'hyperinflation re´gionale et l'ame´lioration de la survie. Pour offrir un positionnement ventral en toute se´curite´, une formation, des simulations et une planification des ressources approprie´es devraient eˆtre entreprises. Dans le cadre de ce compte rendu, nous proposons dix conseils, fonde´s sur la strate´gie provinciale de positionnement ventral de l'Alberta au cours de la COVID-19, afin de mettre en oeuvre et d'ame´liorer en toute se´curiteĺ 'utilisation approprie´e du positionnement ventral. Nous de´crivons des conside´rations particulie`res pour son utilisation pendant la pande´mie de COVID-19 ou les futures pande´mies respiratoires. Keywords prone positioning Á acute respiratory distress syndrome (ARDS) Á COVID-19 Á mechanical ventilation Why use prone positioning in acute respiratory distress syndrome (ARDS) particularly during pandemics with respiratory pathogens such as coronavirus disease (COVID-19)? Prone positioning is an important non-pharmacologic strategy with lifesaving potential that should be considered for all invasively ventilated patients with moderate to severe ARDS. Prone positioning offers several physiologic and clinical benefits, including improved oxygenation, better matching of ventilation with perfusion, reduced risk for ventilator-induced lung injury, and improved survival (reviewed previously in detail). 1 -3 Several guidelines recommend prone positioning for patients with ARDS, 4,5 including World Health Organization guidelines for the management of COVID-19 associated ARDS. 6 Practical guidance for safely upscaling the use of prone positioning during a pandemic are limited. Given that COVID-19 could afflict large numbers of patients and overwhelm the intensive care unit (ICU) capacity of acute care hospitals, advance preparation and scale up of capacity to prone large numbers of patients is paramount. This is particularly relevant for centres with less experience with prone position ventilation, who may be compelled to undertake this therapy during a pandemic when there is no option to transfer patients to referral centres because of overwhelmed capacity. To safely prone invasively ventilated ARDS patients and mitigate the human resource impacts, appropriate training, simulation, and health system planning must be undertaken. In this article, we offer ten tips, based on work conducted by the Alberta Critical Care Strategic Clinical Network COVID-19 Prone Positioning working group, to safely implement and increase the appropriate use of prone positioning. We highlight special considerations for proning during the COVID-19 pandemic or future respiratory pandemics. Creating a guiding protocol and checklist is crucial for appropriate training and execution of prone positioning. This document should include step by step instructions on how to safely prone and unprone invasively ventilated ARDS patients ( Figure) , links to videos on how to prone (e.g., Guerin et al.), 7 and address frequently asked questions. As an adjunct, checklists can ensure consistency for all the tasks required during proning and unproning. The checklist should be readily accessible to front line clinicians. See example checklist in the Electronic Supplementary Material [ESM], eAppendix. 2) Ensure appropriate equipment is available. Appropriate supplies required to prone patients (flat sheets) and prevent pressure sores and ulcers while in the prone position (gel or foam face cushions) must be available. Anticipating times where substantial numbers of patients may proned, pandemic planning committees should quantify current supplies and the acquisition of additional equipment as needed. Prone positioning is not aerosol generating; however, team members should have appropriate personal protective equipment in the event ventilator tubing becomes disconnected and aerosol generation occurs while repositioning. 3) Identify the ideal size and membership of the proning team based on local context. Identifying team members who will participate in proning patients and defining their roles and responsibilities is important. The optimal team will depend on local context, the specific disciplines participating (e.g., nursing, respiratory therapy, physicians), their experience, and staffing availability (e.g., daytime vs afterhours). Key responsibilities include airway management, venous and arterial line management, management of bladder catheters and chest tubes, and monitoring cardiorespiratory status during the procedure. Registered respiratory therapists (RRTs) or qualified physicians should be present during position changes to manage the airway. During a pandemic, limiting members of the prone positioning team to only ICU nurses and RRTs may be challenging. Alternative members of the multidisciplinary team that can participate in proning include physiotherapists, healthcare assistants, and even patient porters or security personnel if done under appropriate supervision. Adequate training must be undertaken, ideally including group simulation. All team members must have appropriate personal protective equipment. If proning is occurring frequently during a pandemic, proning teams may be established to improve efficiency. Nurses, RRTs, and physicians should all be empowered to suggest and discuss the use of prone positioning during and outside of daily patient rounds. Educational interventions to improve familiarity should focus on all team members as opposed to primarily targeting physicians. Prone positioning should be incorporated into the daily ICU routine. Given that the survival benefit for prone positioning requires a minimum daily duration of 12 hr (ideally closer to 16 hr), 8 we suggest making a decision to prone patients by 16:00 to allow timely prone positioning while staffing is maximal during daytime hours. Patients can then be left prone positioned overnight and unproned at approximately 08:00. Using set times can facilitate high volume prone positioning during pandemic times as the same team members can prone multiple patients in succession. Patients who are acutely hypoxemic despite medical optimization can be proned in an unscheduled fashion outside of these times to avoid further deterioration. Thus, afterhours staff should be as comfortable prone positioning as daytime staff are. 6) Modify care to mitigate the risk of adverse events. Risks can be classified as those associated with the proning maneuver and those associated with managing patients while in the prone position. Complications occurring during or immediately following proning include oxygen desaturation, loss of intravascular lines, accidental extubation, and hemodynamic instability or cardiac arrest (see Table) . 1 -3 Care should be modified while the patient is in the prone position. Enteral feeding should be continued while monitoring gastric residual volumes. 10 To avoid pressure ulcers (especially forehead and anterior chest) frequent (e.g., every two hours) and careful rotation of the patient's limbs (e.g., shoulder) and head position are important. Facial edema can be prevented by placing the patient in reverse-Trendelenburg position while in the prone position. Pneumothoraces should be decompressed with chest tubes and should be reassessed to ensure continued decompression while prone. Interventions such as physiotherapy for passive range of motion and diagnostic tests should be scheduled for daytime hours while the patient is supine when possible. Even low fidelity simulations using mannequins or team members as simulated patients can be used to help build confidence, competency, and experience in prone positioning. Simulations should ideally be conducted with the interdisciplinary team to improve communication as well as the team dynamics required for the proning maneuver. (See example low fidelity simulation in eAppendix [ESM] ). Advanced simulation can incorporate transport in the prone position. positioning to improve acceptability and adherence. Formal (surveys, semi-structured interviews) or informal feedback should be sought from team members to identify barriers and facilitators to prone positioning both prior to and after the initial implementation. Feedback should be sought from all members of the multidisciplinary team participating in prone positioning. Appropriate use of prone positioning should be routinely audited. Based on this, feedback should be provided to improve implementation and adherence. Prior to the COVID-19 pandemic, a 2018 one-day international prevalence study found the overall use of prone positioning was low despite publication of supportive clinical trials and guidance for use. 11 Similarly, during the COVID-19 pandemic, the usage of prone positioning has been described as low (11-28%). 12 -14 Targeted audit and feedback should be used to improve the rates of prone positioning in appropriate patients. 10) Consider, discuss, and plan for special circumstances. Consider and plan for special circumstances that may arise while patients are prone positioned. The following are examples of challenging situations that can be feasibly managed: a. Obesity is a challenge but not a contraindication to prone positioning. Appropriate pillows and supports can be placed below the patient chest and pelvis to accommodate the abdomen safely. b. Renal replacement therapy can be provided while prone, but care must be taken to ensure vascular access is accessible and routinely assessed. This is easiest with an internal jugular dialysis catheter. c. If the patient has a cardiopulmonary arrest while in the prone position, cardiopulmonary resuscitation can be performed effectively in the prone position while awaiting help to unprone the patient. 15 Prone positioning is a lifesaving non-pharmacologic strategy that should be part of the toolbox in every ICU that manages patients with ARDS. The use of prone positioning requires an understanding of indications and risks, along with appropriate health system planning through development of protocols and procedures as well as simulation and practice to gain competence and expertise. A comprehensive review of prone position in ARDS Treatment of ARDS with prone positioning Prone positioning in acute respiratory distress syndrome Respiratory support in patients with acute respiratory distress syndrome: an expert opinion An official American Thoracic Society/European Society of Intensive Care Medicine/ Society of Critical Care Medicine Clinical Practice Guideline: Mechanical ventilation in adult patients with acute respiratory distress syndrome Clinical management of severe acute respiratory infection when novel coronavirus (nCoV) infection is suspected: interim guidance Prone positioning in severe acute respiratory distress syndrome Prone position for acute respiratory distress syndrome. A systematic review and meta-analysis How safe is the prone position in acute respiratory distress syndrome at late pregnancy? Upper digestive intolerance during enteral nutrition in critically ill patients: frequency, risk factors, and complications A prospective international observational prevalence study on prone positioning of ARDS patients: the APRONET (ARDS Prone Position Network) study Covid-19 in critically ill patients in the Seattle region -case series Baseline characteristics and outcomes of 1591 patients infected with SARS-CoV-2 Admitted to ICUs of the Lombardy region. Italy Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a single-centered, retrospective, observational study Reverse CPR: a pilot study of CPR in the prone position Acknowledgements The Alberta Critical Care Strategic Clinical Network COVID-19 Prone Positioning working group was co-chaired by authors Ken Kuljit S. Parhar, Sean M. Bagshaw, and Karen Shariff. The authors would like to thank all the members of this working group along with all the critical care nurses, respiratory therapists, and physicians in Alberta for participating in interviews, completion of surveys, as well as input to develop a provincial prone positioning strategy.Disclosures None. Editorial responsibility This submission was handled by Dr. Sangeeta Mehta, Associate Editor, Canadian Journal of Anesthesia.