Awake Prone Positioning for Non-intubated COVID-19 Patients

Study Description

Brief Summary

The burden of coronavirus disease 2019 (COVID-19) pandemic is still on a rising course making a great stress on medical resources throughout the world. Although most of COVID-19 patients require non-invasive oxygenation and ventilation, rapid progression to hypoxemic respiratory failure and then acute respiratory distress syndrome (ARDS) can occur in some COVID19 patients due to prolonged or unaddressed hypoxia. Prone positioning is a common supportive ventilation strategy to improve oxygenation in critically ill patients with ARDS. Recent studies point out the potential benefits of using this strategy for non-intubated awake COVID 19 patients who are hypoxic. Despite several retrospective cohort studies have been conducted to identify impact of the prone positioning in awake non-intubated COVID-19 patients, experimental studies are very rare. This study therefore aims to evaluate the effects of self-prone positioning on oxygenation and physiological outcomes among awake-non intubated patients with COVID-19.

Detailed Description

A randomised controlled trial design will be adopted to achieve the aim of the current study. In this study 82 adult patients of either sex with a confirmed diagnosis of COVID-19 will be recruited from general intensive care unit of the chest hospital (affiliated to the Ministry of Health) in Damanhour city, El Beheira Governorate, Egypt. Patients will be enrolled in the current study if they meet study inclusion criteria.

The eligible patients will be randomly assigned into two groups (control and intervention group) 41 patients in each. The control group will receive the standard management of COVID-19 patients according to the Egyptian Ministry of health guidelines. The standard management includes supplemental oxygen or non-invasive continuous positive airway pressure (CPAP), antivirals, antibiotics, anticoagulants and glucocorticoids, as necessary, based on the patients' clinical condition. Patients in the control group will be subjected to the conventional positioning interventions provided by the critical care nurses, which will not include self-prone positioning.

Patients in the intervention group will receive self-prone positioning and standard management of COVID-19 patients. All patients in both groups (control and intervention) will be monitored continuously by cardiac monitoring with oxygen saturation (SpO2) during the study period. The demographic and baseline clinical data of all eligible patients will collected and recorded using the study tool.

Each patient in the intervention group will be helped into the prone position and encouraged to stay in the prone position as long as tolerated (at least 1 hour). The prone positioning consists of placing the patient on his or her stomach with the head on the side. Self-prone position will be performed 45 minutes up to 1 hour after meals to avoid gastrointestinal side effects. The patient will be maintained in prone position until the patient becomes too tired and uncomfortable to keep that position. If patients will asked to regain the supine position before the 1 hour period was complete, patient's prone position will be considered unfeasible and the reason will be reported. Patients who required invasive mechanical ventilation at any time point will be intubated and excluded from the study.

The effect of patients' positioning on oxygenation and physiological parameters will be collected and recorded. These parameters include vital signs (respiratory rate, systolic blood pressure, diastolic blood pressure and heart rate), SpO2, oxygenation index (PaO2/FiO2 ratio), ROX index (combination of the ratio of oxygen saturation measured by pulse oximetry to fraction of inspired oxygen and respiratory rate [SpO2/FiO2]/respiratory rate) and arterial blood gases parameters (pH, PaO2mmHg, PaCO2mmHg and SaO2). These parameters will be recorded before and after positioning (immediately before, after 10 minutes and after 1hour). Data of secondary outcomes of self-prone positioning will also be collected and recorded.

Study Design

Outcome Measures

Primary Outcome Measures

1. Oxygenation index [Change in the value immediately before, after 10 minutes and after 1hour of patient positioning]

   arterial oxygen pressure/fractional inspired oxygen PaO2/FiO2 ratio mmHg.

2. SpO2 [Change in the value immediately before, after 10 minutes and after 1hour of patient positioning.]

   Peripheral oxygen saturation

3. ROX index [Change in the value immediately before and after 1hour of patient positioning.]

   combination of the ratio of oxygen saturation measured by pulse oximetry to fraction of inspired ox¬ygen and respiratory rate ([SpO2/FiO2]/respiratory rate)

4. PaO2mmHg [change in the value immediately before and after 1hour of patient positioning.]

   Partial pressure of oxygen within arterial blood

5. PCO2mmHg [change in the value immediately before and after 1hour of patient positioning.]

   The partial pressure of carbon dioxide within arterial blood

6. SaO2 [change in the value immediately before and after 1hour of patient positioning.]

   Oxygen saturation (SaO2) is a measurement of the percentage of how much hemoglobin is saturated with oxygen.

7. pH [change in the value immediately before and after 1hour of patient positioning.]

   The acidity or alkalinity of blood.

8. Respiratory Rate (RR) (bpm) [change in the value immediately before, after 10 minutes and after 1hour of patient positioning.]

   the number of breaths a person takes per minute.

9. Heart Rate (HR) (bpm) [change in the value immediately before, after 10 minutes and after 1hour of patient positioning.]

   is the the speed of the heartbeat measured by the number of contractions (beats) of the heart per minute (bpm)

10. Blood Pressure (BP) mmHg [change in the value immediately before, after 10 minutes and after 1hour of patient positioning.]

    is the the pressure of circulating blood against the walls of blood vessels.

11. Positive response to prone positioning [Time Frame: change in the value of PaO2/FiO2 ratio or respiratory rate after 1hour of patient positioning]

    defined as a 10% increase in PaO2/FiO2 ratio or 10% decrease in respiratory rate

Secondary Outcome Measures

1. Prone position adverse events [appearance of events from 10 minutes after patient positioning up to 3hours after patient positioning..]

   respiratory distress, dyspnea, use of accessory respiratory muscles, oxygen desaturation SpO2≤70%, hypotension SBP≤90 mmHg, vomiting, aspiration, musculoskeletal pain, discomfort, facial edema, pressure ulcers and accidental withdrawal of catheters, tubes and/or drainages.

Eligibility Criteria

Criteria

Inclusion Criteria:

1. Aged 18-75 years old

2. Awake non-intubated spontaneously breathing patients

3. Confirmed diagnosis of severe COVID-19; manifesting as dyspnea with respiratory rate ≥ 30 breaths/min, pulse rate ≥ 100 beats/min, oxygen saturation ≤93%, or partial pressure of arterial oxygen (PaO2) to fraction of inspired oxygen (FiO2) ratio ≤ 150 mmHg.

4. Positive RT-PCR for SARS-CoV-2 from analysis of nasopharyngeal, oropharyngeal swab, or tracheal secretion specimens and with chest X-ray showing bilateral infiltrations or chest computerized tomographic (CT) images showing exudation or consolidation.

5. Requiring supplemental oxygen (nasal cannula, non-invasive CPAP, non-rebreathing face mask)

6. Capable of adopting a prone posture independently.

Exclusion Criteria:

The presence of any of the following will mean patients are ineligible:

1. life-threatening arrhythmias

2. Hemodynamic instability (defined as mean arterial pressure [MAP] < 65mm Hg and use of vasopressors to achieve MAP > 65 mm Hg)

3. Altered mental status, intracranial hypertension

4. Facial injuries

5. Spine or pelvic fractures

6. Recent abdominal surgery

7. Pregnancy

8. Altered mental status and patients needing invasive ventilation.

Contacts and Locations

Locations

Sponsors and Collaborators

• Damanhour University

Investigators

• Principal Investigator: Sahar Y Othman, A/P., Faculty of Nursing, Damanhour University
• Study Director: Alaa M Mohamed, Lect., Faculty of Nursing, Damanhour University
• Study Director: Ahmed M El-Menshawy, Lect., University of Alexandria

Study Documents (Full-Text)

More Information

Publications

• Binda F, Marelli F, Galazzi A, Pascuzzo R, Adamini I, Laquintana D. Nursing Management of Prone Positioning in Patients With COVID-19. Crit Care Nurse. 2021 Apr 1;41(2):27-35. doi: 10.4037/ccn2020222.
• Cotton S, Zawaydeh Q, LeBlanc S, Husain A, Malhotra A. Proning during covid-19: Challenges and solutions. Heart Lung. 2020 Nov - Dec;49(6):686-687. doi: 10.1016/j.hrtlng.2020.08.006. Epub 2020 Aug 19.
• Dubosh NM, Wong ML, Grossestreuer AV, Loo YK, Sanchez LD, Chiu D, Leventhal EL, Ilg A, Donnino MW. Early, awake proning in emergency department patients with COVID-19. Am J Emerg Med. 2021 Aug;46:640-645. doi: 10.1016/j.ajem.2020.11.074. Epub 2020 Dec 3.
• Flynn Makic MB. Prone Position of Patients With COVID-19 and Acute Respiratory Distress Syndrome. J Perianesth Nurs. 2020 Aug;35(4):437-438. doi: 10.1016/j.jopan.2020.05.008. Epub 2020 May 30.
• Solverson K, Weatherald J, Parhar KKS. Tolerability and safety of awake prone positioning COVID-19 patients with severe hypoxemic respiratory failure. Can J Anaesth. 2021 Jan;68(1):64-70. doi: 10.1007/s12630-020-01787-1. Epub 2020 Aug 14.
• Sztajnbok J, Maselli-Schoueri JH, Cunha de Resende Brasil LM, Farias de Sousa L, Cordeiro CM, Sansão Borges LM, Malaque CMSA. Prone positioning to improve oxygenation and relieve respiratory symptoms in awake, spontaneously breathing non-intubated patients with COVID-19 pneumonia. Respir Med Case Rep. 2020;30:101096. doi: 10.1016/j.rmcr.2020.101096. Epub 2020 May 19.