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Running head: PRONE POSITIONING IN ARDS PATIENTS 1 Increasing Utilization of Prone Positioning in ARDS Patients Rachel Bowe NURS/HCPI 552: Scholarship Integration and Application November, 22 2016 Dr. Jodie Gary
PRONE POSITIONING IN ARDS PATIENTS 2 Abstract Prone positioning is a recommended treatment for acute respiratory distress syndrome (ARDS) but is not widely utilized in the critical care setting due to its complexity. This treatment could reduce the mortality rate of ARDS patients and should be utilized in hospital protocols. The proposed plan is to have a multi-disciplinary critical care team develop a prone positioning protocol for their hospital unit. The protocol will then be taught and tested over via exam and simulation. It will be implemented for 90 days then the results reviewed for potential needed alterations. This could ultimately reduce the mortality for ARDS patients.
PRONE POSITIONING IN ARDS PATIENTS 3 Increasing Utilization of Prone Positioning in ARDS Patients ARDS is a life-threatening condition, according to Henderson, Griesdale, Dominelli, & Ronco, (2014) the “current estimates of mortality associated with ARDS range from to 22% to 44%” (p. 213). It is vital to the patient’s survival that this be diagnosed and treated promptly and effectively. One treatment recommended but underutilized is prone positioning of the patient. Henderson et al. (2014) discussed the various benefits of prone positioning in ARDS patients due to the anatomical position of the lungs and heart. This reveals that more lung tissue is available for oxygenation when the patient is prone rather than supine. This poses the clinical question, in mechanically ventilated ARDS patients, how does intermittent prone positioning compared to continuous supine positioning affect oxygenation and mortality rate? Chertoff (2016) revealed that this beneficial procedure was performed on less than 20% of ARDS patients. The severity of these patients combined with the complexity of the treatment could be a reason for underutilization. This project will help to implement an ARDS prone positioning protocol into a hospital ICU setting where it is currently not performed or not frequently performed. By doing this the ultimate goal is to decrease the mortality rate for the hospital’s ARDS patients. Synthesis of Evidence In all of the compiled evidence there were two themes that emerged, prone positioning could reduce mortality rate related to ARDS and it could improve oxygenation. The evidence discussed is summarized in an evidence grid (see Appendix A for the Evidence Grid). Literature from Melnyk and Fineou-Overholt (2015) was used to determine all levels of evidence. Various quantitative articles were reviewed to provide evidence regarding the effects of prone positioning in ARDS patients. Cornejo et al. (2013) performed a level III quantitative study that revealed prone positioning along with an increased positive end expiratory pressure
PRONE POSITIONING IN ARDS PATIENTS 4 (PEEP) used in mechanically ventilated ARDS patients led to increased lung tissue being oxygenated as well as a decrease risk for alveolar hyperinflation which leads to damage. Guerin et al. (2013) performed a level II multicenter prospective randomized control trial (RCT) that proved the 28 day mortality rate and the 90 day mortality rate both decreased with the early application of prone positioning in mechanically ventilated ARDS patients. Kimmon et al. (2015) conducted a level IV retrospective review study which determined that prone positioning for long durations (24 hours) combined with veno-venous extracorporeal membrane oxygenation (VV-ECMO) improved oxygenation and respiratory compliance. Robak et al. (2011) executed a level II prospective randomized cross-over study that revealed that when prone positioning was combined with semi-recumbent positioning oxygenation improved in mechanically ventilated ARDS patients. All four of these studies reiterate the above themes of reduced mortality rate and improved oxygenation with the use of prone positioning intermittently. One level VI descriptive qualitative study by Engstrom, Nystrom, Sundelin, & Rattray (2013) revealed the various methods that could be used by healthcare providers to help with the experience of being mechanically ventilated. This study illuminated multiple ways that physicians and nurses alike could improve the experience. Among these were improved communication methods, providing continuity among the staff providing care, allowing for patients to keep diaries, and maintaining a consistent environment. Prone positioning while being mechanically ventilated requires tedious attention to the patient and considerable confusion for the patient if they are sedated lightly enough to remember the ordeal. It is imperative that the healthcare providers be aware of these potential improvements to help keep the patient relaxed and calm so the treatments can provide the most benefit.
PRONE POSITIONING IN ARDS PATIENTS 5 A level I meta-synthesis of RCTs by Abroug, Ouanes-Besbes, Dachraoui, Ouanes, and Brochard (2011) revealed that when only considering the ARDS diagnosed patients that prone positioning reduced the mortality rate. Another level I meta-synthesis of RCTs by Hu et al. (2014) discovered that high PEEP levels along with longer duration of prone positioning improved the mortality rate. Both of these align with the theme that prone positioning can help in reducing the mortality rate of ARDS patients. The national guideline provided by Dellinger et al. (2012) reveals that when the PaO2/FiO2 ratio, or the ratio of oxygen in the blood to the oxygen that is inhaled, falls below a certain range (100 mm Hg) that prone positioning should be provided. The stipulation that the unit be proficient with this procedure is made to prevent endangering patients due to inexperienced staff performing a complicated procedure. The national guideline indicates the accepted plan of care nationally for ARDS. The implication that is made is that if the PaO2/FiO2 ratio is too low that prone positioning can increase it back to an acceptable level. This falls in line with the theme of improving oxygenation for mechanically ventilated ARDS patients. The various studies reviewed revealed that there is sufficient evidence indicating that prone positioning is beneficial to the mechanically ventilated ARDS patient. This follows the current suggested practice in the national guideline. This evidence directly applies to the proposed clinical question regarding intermittent prone positioning in ARDS patients. The major themes located within the compiled evidence correlates with the proposed outcomes of prone positioning in the research question provided which include improved oxygenation and reduced mortality rate related to ARDS. Project Plan
PRONE POSITIONING IN ARDS PATIENTS 6 The project to increase the utilization of prone positioning in ARDS patients arose from attempting to determine if mechanically ventilated ARDS patients had improved oxygenation and reduced mortality rate when intermittent prone positioning was utilized rather than continuous supine positioning. Based on the complied evidence the two themes that emerged were that prone positioning reduced ARDS mortality rate and improved oxygenation. These results provide incentive for the proposed project. Lewin’s theory of change was used as the theoretical framework on which the project was designed. Shirley (2013) discussed the main components of Lewin’s theory as unfreezing, moving, and refreezing. This means there must be a stage in which the need for change is recognized and a plan is made. Next there must be a transition from status quo to the new method determined in stage one. Finally, the new methods must be accepted and embedded in the status quo. These three steps were the basis on which the plan was created. The project will include three key steps which include planning and preparation, education and implementation, and evaluation. The process will begin with an interdisciplinary critical care team coming together to create a prone positioning ARDS protocol for their unit. This will include indications, contraindications, the turning process, potential adverse effects and their interventions, and what to monitor. Once this is established the unit will be educated by the team in a didactic session that culminates in an exam on which they must score a 100 to be considered successful. If staff does not score a 100 they will be given remediation material and they must retest within 7 days. Once all staff has passed the written exam there will be a live simulation in which the unit must perform prone positioning on an intubated patient. The patient will be a standardized patient that can provide unique feedback to the team. They will be monitored by the protocol creation team and grading on specific criteria. If the team is
PRONE POSITIONING IN ARDS PATIENTS 7 unsuccessful in the simulation they will be provided with immediate remediation by staff and then allowed to retry the simulation. Due to safety concerns of patients the project cannot move forward until the whole team is successful in this simulation. Once this is determined to be a success there will be an implementation date within 14 days of the simulation to begin using the protocol. Once the protocol has begun it will be monitored for 90 days then reviewed to determine any needed alterations. The project proposal plan includes grading criteria and monitoring specifics (see Appendix B for the project proposal plan). Implementation During this project the major agents of change will be the interdisciplinary team that creates the protocol. This team will include at least one member from each discipline involved in the procedure including but not limited to physician, nursing, respiratory therapy, pharmacy, and nursing support. This will allow clinical expertise and knowledge of the unit to be involved in the creation of the new protocol. The team will not only create the protocol but will be responsible for educating the staff on the protocol and grading the simulation. Another agent of change will be the unit supervisor/director and the nursing director for the unit. The leaders will need to be willing to assist with the implementation of this change. The main barriers related to this project will be the inexperience with the procedure and the trepidation that accompanies it. To combat the trepidation there will be offered practice sessions in which the staff can practice with a mannequin or other staff to develop muscle memory and familiarity with the procedure. Another barrier related to this change could be the desire of some staff to remain with the status quo. To overcome this barrier it will be important for there to be evidence proving the effectiveness of this intervention. Also, an open door policy
PRONE POSITIONING IN ARDS PATIENTS 8 will be maintained throughout the entirety of the project to allow any and all staff to voice question and preferences about the new protocol. The staff that will be made aware of this includes the patient care staff on the unit as well as the unit supervisors and directors, hospital administration, and any quality improvement coordinators. The supervisors, administration, and coordinators will be updated in a team meeting as well as regular memos to keep them up to date. As stated before, the information will taught to the unit staff in a lecture provided by the creation team. It will then be reinforced with a live simulation. Accompanying these learning sessions, the new protocol will be added to the existing protocol resource for the staff to review and reference. All of the material used to create the protocol will be available as well to the staff for reference. Proposed Evaluation and Conclusion The new protocol will be put into place and monitored for 90 days. The data to be monitored is included in the project proposal plan. The data will be recorded in an online spreadsheet that can track the trends of the data. The data will be collected by one team member from the patient’s medical chart. After this 90 day period the same interdisciplinary team along with unit supervisors and directors and the quality improvement coordinator will come together to review the data. At this time the team will determine if the new protocol was successful in improving oxygenation and reducing the ARDS mortality rate in mechanically ventilated ARDS patients. The team will then make any necessary amendments to the new protocol based on staff feedback or the collected data. The protocol will then be included in the unit’s protocol resource permanently or until research deems it necessary to perform another change. The change in protocol will hopefully increase the utilization of an intervention that can improve oxygenation and reduce the mortality related to ARDS. Any intervention that can
PRONE POSITIONING IN ARDS PATIENTS 9 reduce the mortality rate of such a life-threatening syndrome should be implemented in every hospital that can manage it. This change will allow for the improvement of patient outcomes and satisfaction which is the ultimate goal for every healthcare professional and healthcare organization.
PRONE POSITIONING IN ARDS PATIENTS 10 References Abroug, F., Ouanes-Besbes, L., Dachraoui, F., Ouanes, I., & Brochard, L. (2011). An updated study-level meta-analysis of randomised controlled trials on proning in ARDS and acute lung injury. Critical Care, 15(1), 1-9. Chertoff, J. (2016). Should early prone positioning be a standard of care in ards with refractory hypoxemia? Wrong question. Respiratory Care, 61(11), 1564. doi:10.4187/respcare.05259 Cornejo, R. A., Díaz, J. C., Tobar, E. A., Bruhn, A. R., Ramos, C. A., González, R. A., ... & Arellano, D. H. (2013). Effects of prone positioning on lung protection in patients with acute respiratory distress syndrome. American Journal of Respiratory and Critical Care Medicine, 188(4), 440-448. Dellinger, R. P., Levy, M. M., Rhodes, A., Annane, D., Gerlach, H., Opal, S. M., … Moreno, R. (2012). Surviving sepsis campaign guidelines committee including the pediatric subgroup. Surviving Sepsis Campaign: International Guidelines for Management of Severe Sepsis and Septic Shock: 2012.41(2), 580-637. Engström, Å., Nyström, N., Sundelin, G., & Rattray, J. (2013). People's experiences of being mechanically ventilated in an ICU: a qualitative study.Intensive and Critical Care Nursing, 29(2), 88-95. Guérin, C., Reignier, J., Richard, J. C., Beuret, P., Gacouin, A., Boulain, T., ... & Clavel, M. (2013). Prone positioning in severe acute respiratory distress syndrome. New England Journal of Medicine, 368(23), 2159-2168. Henderson, W. R., Griesdale, D. E., Dominelli, P., & Ronco, J. J. (2014). Does prone positioning improve oxygenation and reduce mortality in patients with acute respiratory distress syndrome?. Canadian Respiratory Journal, 21(4), 213-215.
PRONE POSITIONING IN ARDS PATIENTS 11 Hu, S. L., He, H. L., Pan, C., Liu, A. R., Liu, S. Q., Liu, L., ... & Qiu, H. B. (2014). The effect of prone positioning on mortality in patients with acute respiratory distress syndrome: a meta-analysis of randomized controlled trials. Critical care, 18(3), 1-10. Kimmoun, A., Roche, S., Bridey, C., Vanhuyse, F., Fay, R., Girerd, N., … Levy, B. (2015). Prolonged prone positioning under VV-ECMO is safe and improves oxygenation and respiratory compliance. Annals of Intensive Care, 5(35). http://doi.org.ezproxy.library.tamu.edu/10.1186/s13613-015-0078-4 Melnyk, B. M., & Fineout-Overholt, E. (2015). Evidence-based practice in nursing & healthcare: A guide to best practice (3rd ed.). Philadelphia, PA: Lippincott Williams & Wilkins. Robak, O., Schellongowski, P., Bojic, A., Laczika, K., Locker, G. J., & Staudinger, T. (2011). Short-term effects of combining upright and prone positions in patients with ARDS: a prospective randomized study. Critical Care, 15(5), 1-7. Shirey, M.R.. (2013). Lewin’s theory of planned change as a strategic resource. Journal of Nursing Administration, 43(2), 69-72. doi: 10.1097/NNA.0b013e31827f20a9
Running head: PRONE POSITIONING IN ARDS PATIENTS 12 Appendix A: Evidence Grid Complete APA Citation Hypothesis, Research Question, Problem Statement or Stated Purpose Frame work, Model, or Theoretical underpinning Sample:  size of sample  important demographics  inclusion and exclusion criteria Study Design Data Collection:  Instruments used  Variables and measurement  Procedures used Implications  Statistical results or findings  Conclusions related to practice Abroug,F., Ouanes-Besbes,L., Dachraoui, F., Ouanes, I., & Brochard, L. (2011). An updated study-level meta- analysis of randomised controlled trials on proning in ARDS and acute lung injury. Critical Care, 15(1), 1-9. Meta-analysis to determine if RCTs showreduction mortality rate trend in prone ventilation of ARDS or ALI patients Random effects model  7 RCTs with 1,675 adult patients (N=1675) total this includes 862 who were ventilated in the prone position  RCTs the compared supine versus prone positioning in ARDS patients were included  Two subgroups were formed in the resulting RCTs: those that limited the results to only ARDS patients and those that included all hypoxemic patients Meta-analysis of RCTs  Three investigators separately found and evaluated studies for outcomes relating to ARDS and prone positioning. They evaluated the study design, sample population and disease severity determined by PaO2/Fio2 ratio, prone positioning duration, and ICU mortality. Each RCT was then rated on a 0-5 scale with 5 being the best.  Regarding ICU mortality (OR=0.9, P=0.39)  Regarding ICU mortality of ARDS patients only (OR=0.71, P=0.048)  Conclusion: If only ARDS patients are considered then long periods of prone positioning reduce ICU mortality. Cornejo, R. A., Díaz, J. C., Tobar, E. A., Bruhn, A. R., Ramos, C. A., González, R. A., ... & Arellano, D. H. (2013). Effects of prone positioning on lung protection in patients with acute respiratory A study to determine if high PEEP and prone positioning have an effect on lung usage and hyperinflation Not stated  24 adult patients in one hospitalwho were mechanically ventilated for 24-72 hours,and required lung CT scan for clinical purposes were included in the study (N=24)  Excluded patients were those that were Not Stated  Patients were kept deeply sedated and underneuromuscular paralysis during the study  Volume control mode on the ventilator with tidal volume of 6 ml/kg of ideal body weight was maintained.  Patients had whole-lung CT scan with intermittent sessions of breath holding at airway pressures of5, 15, and 45 cm Increasing PEEP from 5-15 cm H2O supine  Decreased non- aerated tissue (P<0.001)  Increased tidal hyperinflation (P=0.004) Increasing PEEP from 5-15 cm H2O prone  Decreased non-
PRONE POSITIONING IN ARDS PATIENTS 13 distress syndrome. American journal of respiratory and critical care medicine, 188(4), 440-448. under 18 years of age, were pregnant, or prone positioning was contraindicated H2O  Cine-CTs on a fixed thoracic transverse slice at PEEP of 5 and 15 cm H2O  CT images were repeated in supine and prone positions  A 45 cm H2O recruitment maneuver was done before each PEEP change  Lung recruitability was defined by the change in percentage of non-aerated lung between PEEP of 5 and 45 cm H2O  Cyclic recruitment/decruitment was defined by the tidal change in percentage of non-aerated tissue  Tidal hyperinflation was defined by the tidal changes in percentage of hyperinflated tissue  Sidak’s post hoc analysis used to perform two way ANOVA  Wilcoxon Mann-Whitney test used for comparison of patients with high and low lung recruitability aerated tissue (P=0.028) High PEEP and prone positioning together  Decreased cyclic recruitment/decruitm ent (P=0.003) Prone positioning increases the amount of lung tissue utilized and decreases hyperinflation and alveolar damage with high PEEP in ARDS patients Dellinger, R. P., Levy, M. M., Rhodes, A., Annane,D., Gerlach, H., Opal, S. M., … Moreno, R. (2012). Surviving Sepsis Campaign Guidelines Committee including the Pediatric In sepsis induced ARDS prone positioning is recommended for PaO2/FiO2 ratio of <100 mm Hg if the unit is experienced with this procedure.
PRONE POSITIONING IN ARDS PATIENTS 14 Subgroup. Surviving sepsis campaign: international guidelines for management of severe sepsis and septic shock: 2012.41(2):580- 637. Engström, Å., Nyström, N., Sundelin, G., & Rattray, J. (2013). People's experiences of being mechanically ventilated in an ICU: a qualitative study.Intensive and Critical Care Nursing, 29(2), 88- 95. This study is meant to improve clinical practice for mechanically ventilated patients by reviewing personal experiences of mechanically ventilated patients. Not Stated 8 patients (N=8) who were previously mechanically ventilated in one ICU were contacted. They had to be ventilated for at least 24 hours,they had to remember parts of their stay,and had to have been cared for in the past year. Qualitative descriptive  Individual 30-60 minute interviews using a question guide were conducted and recorded. Interviews were conducted it he home, the ICU, and in other settings. The interviews were then transcribed word for word and analyzed.  The interviews were read multiple times by 3 of the authors until themes were created.  From the created themes emerged sub-categories. 2 themes emerged that were then divided into sub categories. Topics noted include communication, vulnerability/depende ncy, feeling safe, being in an unknown environment, families, perceptions of time, and diaries. The implications for care include communication methods, continuity among staff, patient diaries, and consistent environment. Guérin, C., Reignier, J., Richard, J. C., Beuret, P., Gacouin, A., Boulain, T., … & Clavel, M. (2013). Prone positioning in severe acute respiratory distress syndrome. New England Journal of This study aimed to prove that early application of prone positioning in ARDS patients can decrease the mortality rate for any cause within 28 days of intubation and after 90 days after extubation. Not Stated 466 adult severe ARDS patients (N=466)  Mechanically ventilated less than 36 hours  Severe ARDS: PaO2/FiO2 ratio <150 mm Hg, FiO2 >0.6, PEEP >5 cm H2O, and tidal volume of 6 ml/kg of ideal body weight Multicenter prospective randomized control trial  Computer randomized patients into supine or prone groups.  12-24 hour period for patient to stabilize then inclusion into the study determined. Pronation had to be initiated within first hour of randomization and remained prone for at least 16 consecutive hours.  Supine patients remained in a semi-recumbent position.  Ventilation for both groups 28 day mortality  16.0% in the prone group  32.8% in the supine group  P<0.001 90 day mortality  23.6% in the prone group  41.0% in the supine group  P<0.001
PRONE POSITIONING IN ARDS PATIENTS 15 Medicine,368(23), 2159-2168. 26 ICUs in France, 1 ICU in France remained at the following settings:volume control mode, tidal volume 6 ml/kg of ideal body weight, and PEEP selected from the PEEP-FiO2 ratio table provided.  At admission to the ICU the following data was collected: age, sex, reason for admission, McCabe score,what setting the patient came from, ventilator settings,time from intubation to randomization, height, ideal body weight, ABGs, arterial blood lactate levels, chest radiography, and the simplified acute physiology score (SAPS), and the sepsis related organ failure assessment (SOFA)  Daily (for 28 days)the following were recorded: attempts at extubation, complications, use of ECMO, sedative and neuromuscular blocker use, administration of inhaled nitric oxide, infusion of almitrine bismesylate, the ventilator setting,ABGs, static compliance of the respiratory system, arterial blood lactate levels, and the SOFA score Early application of prone positioning can significantly decrease the 28 day and 90 day motility rate for severe ARDS patients. Hu, S. L., He, H. L., Pan, C., Liu, A. R., Liu, S. Q., Liu, L., ... & Qiu, H. B. (2014). The effect of prone positioning on mortality in patients with acute Determine if the improved mortality rate for ARDS patients with prone positioning is affected by PEEP levels and duration of positioning. Random effects model was used for cases of heterogeneity and fixed effects model was used in all other instances 9 RCTs with a total of 2,242 patients including adults and pediatric populations (N=2,242)  Inclusion criteria: clinical RCT comparing prone versus supine position Meta-analysis of RCTs  2 researchers used a 5 point scale to evaluate the trials separately. The data was then extracted (mortality rates, sample sizes, control groups,PEEP levels, PaO2/FiO2 ratios, prone positioning duration, length of stay,length of intubation, plateau pressure and tidal volume, cases  Prone 28 day mortality of ARDS patients with PaO2/FiO2 <100 mm Hg (P=0.003)  Prone 60 day mortality with PEEP >10 cm H2O (P=0.04)
PRONE POSITIONING IN ARDS PATIENTS 16 respiratory distress syndrome: a meta-analysis of randomized controlled trials. Critical care, 18(3), 1-10. in ARDS, acute respiratory failure, or acute lung injury patients. The definition of ARDS was similar. The data for 28-30 day mortality, 60 day mortality, or 90 day mortality was available, and the sample size for each group was identified  Exclusion criteria: the article was not a clinical RCT, the full text was not available, the mortality data was not provided, supine positioning was not used as the control, and there was significant additional therapies provided to individual groups. of organ dysfunction,and demographic information.  The k statistic was used to evaluate the methodological quality assessment and trial selection similarity between the two investigators.  Cochrane Collaboration’s RevMan Softward 5.2.3 was used for the recommendations of methods for the meta-analysis of the effects  Mantel-Haenszel X2 test and the I2 test were used for heterogeneity and inconsistency evaluation  Prone 90 day mortality with PEEP >10 cm H2O (P<0.0001)  28 day mortality when prone >12 hrs/day (P=0.04)  Prone positioning reduced mortality in severe ARDS patients especially when combined with high PEEP levels. Longer duration of prone positioning improve the mortality rate as well. Kimmoun, A., Roche, S., Bridey, C., Vanhuyse, F., Fay, R., Girerd, N., … Levy, B. (2015). Prolonged prone positioning under VV-ECMO is safe and improves oxygenation and respiratory compliance. Annals of Intensive Care, 5(35). Study meant to determine if prolonged prone positioning during VV-ECMO improved oxygenation and respiratory system compliance. Not Stated  17 patients (N=17) who received VV- ECMO and prone positioning  Exclusion: patients under vasopressor treatment, recent open chest cardiac surgery  Inclusion: at least one failed weaning attempt after day 7 of ECMO or refractory hypoxemia occurred. Retrospective review  All patients on volume control mode with tidal volume of 1.5-3 ml/kg of ideal body weight, respiratory rate of 8-12 breaths/minute, PEEP 10-18 for a pPlat at 25 cm H2O, and FiO2 set to maintain SpO2 88-95%  Followed PROSEVA guidelines for prone positioning  Parameters recorded before prone positioning,after 24 hours of positioning, and 24 hours after returning to supine positioning.  Recorded ABG, ventilator  After 24 hour prone positioning PaO2/FiO2 ratios increased from 111 to 173 mmHg (P<0.0001)  After 24 hour of prone positioning respiratory compliance increased form 18- 32 ml/cmH2O (P<0.0001)  24 hours after return
PRONE POSITIONING IN ARDS PATIENTS 17 Retrieved from http://doi.org.ezpro xy.library.tamu.edu /10.1186/s13613- 015-0078-4 setting,VV-ECMO parameters, and respiratory compliance (tidal volume/pPlat)  Measure pPlat with end inspiratory pause of 1 sec minus total PEEP  Measure total PEEP with expiratory pause of 5 sec  Chest CT applicable if received within 3 days prior to prone positioning. Can be analyzed to determine amount of non-aerated lung tissue. to supine tidal volume increased from 3.0 to 3.7 ml/kg (P<0.005)  24 hours after return to supine PaO2/FiO2 ratio increased by over 20% in 14/14 late sessions and 7/13 early sessions (P=0.01)  Ct scans showed high percentage of non-aerated lung tissue in 52% of patients.  Prone positioning for long durations (24 hours) improved oxygenation and respiratory compliance in combination with VV-ECMO Robak, O., Schellongowski, P., Bojic, A., Laczika, K., Locker, G. J., & Staudinger, T. (2011). Short-term effects of combining upright and prone positions in patients with ARDS: a prospective randomized study.Critical Care, 15(5), 1-7. Determine the effects on oxygenation of combining prone and semi-recumbent positioning in mechanically ventilated ARDS or ALI patients. Not Stated  20 patients with ALI/ARDS (N=20)  Exclusion: ECMO, improvement, death, diagnosis of ARDS made more than 72 hours ago, younger than 18 or older than 89 years of age, or pregnant  Inclusion: Diagnoses of ALI or ARDS, prone positioning prescribed by intensivist Prospective randomized cross-overstudy  20 patients randomized  Basal measurement of PaO2/FiO2 ratio, ABG, and analysis of lung compliance taken at supine then repeated hourly throughout the study  One group: prone position for 2 hours then prone with semi- recumbent for 6 hours.  Second group: prone with semi- recumbent positon for 2 hours then prone position for 6 hours.  Bicore measure systemused to measure compliance with the occlusion method by holding the inspiratory/expiratory hold  14 patients (70%) improved with prone positioning  17 patients (85%) responded to prone and semi-recumbent positioning combined  Combining semi- recumbent and prone positioning in mechanically ventilated ARDS patients can improve oxygenation.
PRONE POSITIONING IN ARDS PATIENTS 18 function on ventilator  All patients continuously monitored on ECG, pulse oximetry, and indwelling arterial catheter  PEEP adjusted by increments of 2 cm H2O to remain at FiO2 at 0.6 or less with SpO2 >91%  Tidal volumes at 6 ml/kg ideal body weight  Respiratory rate set to maintain PaCO2 levels to prevent respiratory acidosis and hyperinflation  Ventilator setting unchanged during study
Running head: PRONE POSITIONING IN ARDS PATIENTS 19 Appendix B: Project Proposal Guide A critical care multi-disciplinary team will utilize research to develop a prone positioning protocolfor the unit. All involved staff will take a didactic course over theprone positioning protocoltaught by the appropriatedeveloping staff. At the completion of thecourse all staff will take a comprehensive exam over the material. A score of 100 must be achieved to comlete the course. If the staff member does not achieve a score of 100 remediation material will be provided to the staff and they will be required to retest within 7 days. Once all staff has passed the written exam, there will be a patient simulation on the unit scheduled. The staff will be observed by experts on the protocoland graded. Siimulation Grading Criteria -Acknowledges indiciations and contraindiciations for prone positioning -Performs procedure without error OR self identifies errors -Recognizes adverse reactions promptly -Performs appropriate Interventions -Patient safety is never compromised If the simulation is unsuccessful there will be immediate remediation and theteam will be allowed another simulation. If unsuccessful again, there will be another simulation scheduled. For safety theproject will not move forward until this is successful. Once the simulation is deemed successful there will be a set implementation date. The protocolwill be in effect after this date. Once implemented the following will be monitored - Vital Signs - Length of intubation - Length of stay - ARDS Mortality rate After 90 days the data will be reviewed and alterations will be made to the protocolas needed.

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552_rachel_bowe_Project Proposal Draft Final

  • 1. Running head: PRONE POSITIONING IN ARDS PATIENTS 1 Increasing Utilization of Prone Positioning in ARDS Patients Rachel Bowe NURS/HCPI 552: Scholarship Integration and Application November, 22 2016 Dr. Jodie Gary
  • 2. PRONE POSITIONING IN ARDS PATIENTS 2 Abstract Prone positioning is a recommended treatment for acute respiratory distress syndrome (ARDS) but is not widely utilized in the critical care setting due to its complexity. This treatment could reduce the mortality rate of ARDS patients and should be utilized in hospital protocols. The proposed plan is to have a multi-disciplinary critical care team develop a prone positioning protocol for their hospital unit. The protocol will then be taught and tested over via exam and simulation. It will be implemented for 90 days then the results reviewed for potential needed alterations. This could ultimately reduce the mortality for ARDS patients.
  • 3. PRONE POSITIONING IN ARDS PATIENTS 3 Increasing Utilization of Prone Positioning in ARDS Patients ARDS is a life-threatening condition, according to Henderson, Griesdale, Dominelli, & Ronco, (2014) the “current estimates of mortality associated with ARDS range from to 22% to 44%” (p. 213). It is vital to the patient’s survival that this be diagnosed and treated promptly and effectively. One treatment recommended but underutilized is prone positioning of the patient. Henderson et al. (2014) discussed the various benefits of prone positioning in ARDS patients due to the anatomical position of the lungs and heart. This reveals that more lung tissue is available for oxygenation when the patient is prone rather than supine. This poses the clinical question, in mechanically ventilated ARDS patients, how does intermittent prone positioning compared to continuous supine positioning affect oxygenation and mortality rate? Chertoff (2016) revealed that this beneficial procedure was performed on less than 20% of ARDS patients. The severity of these patients combined with the complexity of the treatment could be a reason for underutilization. This project will help to implement an ARDS prone positioning protocol into a hospital ICU setting where it is currently not performed or not frequently performed. By doing this the ultimate goal is to decrease the mortality rate for the hospital’s ARDS patients. Synthesis of Evidence In all of the compiled evidence there were two themes that emerged, prone positioning could reduce mortality rate related to ARDS and it could improve oxygenation. The evidence discussed is summarized in an evidence grid (see Appendix A for the Evidence Grid). Literature from Melnyk and Fineou-Overholt (2015) was used to determine all levels of evidence. Various quantitative articles were reviewed to provide evidence regarding the effects of prone positioning in ARDS patients. Cornejo et al. (2013) performed a level III quantitative study that revealed prone positioning along with an increased positive end expiratory pressure
  • 4. PRONE POSITIONING IN ARDS PATIENTS 4 (PEEP) used in mechanically ventilated ARDS patients led to increased lung tissue being oxygenated as well as a decrease risk for alveolar hyperinflation which leads to damage. Guerin et al. (2013) performed a level II multicenter prospective randomized control trial (RCT) that proved the 28 day mortality rate and the 90 day mortality rate both decreased with the early application of prone positioning in mechanically ventilated ARDS patients. Kimmon et al. (2015) conducted a level IV retrospective review study which determined that prone positioning for long durations (24 hours) combined with veno-venous extracorporeal membrane oxygenation (VV-ECMO) improved oxygenation and respiratory compliance. Robak et al. (2011) executed a level II prospective randomized cross-over study that revealed that when prone positioning was combined with semi-recumbent positioning oxygenation improved in mechanically ventilated ARDS patients. All four of these studies reiterate the above themes of reduced mortality rate and improved oxygenation with the use of prone positioning intermittently. One level VI descriptive qualitative study by Engstrom, Nystrom, Sundelin, & Rattray (2013) revealed the various methods that could be used by healthcare providers to help with the experience of being mechanically ventilated. This study illuminated multiple ways that physicians and nurses alike could improve the experience. Among these were improved communication methods, providing continuity among the staff providing care, allowing for patients to keep diaries, and maintaining a consistent environment. Prone positioning while being mechanically ventilated requires tedious attention to the patient and considerable confusion for the patient if they are sedated lightly enough to remember the ordeal. It is imperative that the healthcare providers be aware of these potential improvements to help keep the patient relaxed and calm so the treatments can provide the most benefit.
  • 5. PRONE POSITIONING IN ARDS PATIENTS 5 A level I meta-synthesis of RCTs by Abroug, Ouanes-Besbes, Dachraoui, Ouanes, and Brochard (2011) revealed that when only considering the ARDS diagnosed patients that prone positioning reduced the mortality rate. Another level I meta-synthesis of RCTs by Hu et al. (2014) discovered that high PEEP levels along with longer duration of prone positioning improved the mortality rate. Both of these align with the theme that prone positioning can help in reducing the mortality rate of ARDS patients. The national guideline provided by Dellinger et al. (2012) reveals that when the PaO2/FiO2 ratio, or the ratio of oxygen in the blood to the oxygen that is inhaled, falls below a certain range (100 mm Hg) that prone positioning should be provided. The stipulation that the unit be proficient with this procedure is made to prevent endangering patients due to inexperienced staff performing a complicated procedure. The national guideline indicates the accepted plan of care nationally for ARDS. The implication that is made is that if the PaO2/FiO2 ratio is too low that prone positioning can increase it back to an acceptable level. This falls in line with the theme of improving oxygenation for mechanically ventilated ARDS patients. The various studies reviewed revealed that there is sufficient evidence indicating that prone positioning is beneficial to the mechanically ventilated ARDS patient. This follows the current suggested practice in the national guideline. This evidence directly applies to the proposed clinical question regarding intermittent prone positioning in ARDS patients. The major themes located within the compiled evidence correlates with the proposed outcomes of prone positioning in the research question provided which include improved oxygenation and reduced mortality rate related to ARDS. Project Plan
  • 6. PRONE POSITIONING IN ARDS PATIENTS 6 The project to increase the utilization of prone positioning in ARDS patients arose from attempting to determine if mechanically ventilated ARDS patients had improved oxygenation and reduced mortality rate when intermittent prone positioning was utilized rather than continuous supine positioning. Based on the complied evidence the two themes that emerged were that prone positioning reduced ARDS mortality rate and improved oxygenation. These results provide incentive for the proposed project. Lewin’s theory of change was used as the theoretical framework on which the project was designed. Shirley (2013) discussed the main components of Lewin’s theory as unfreezing, moving, and refreezing. This means there must be a stage in which the need for change is recognized and a plan is made. Next there must be a transition from status quo to the new method determined in stage one. Finally, the new methods must be accepted and embedded in the status quo. These three steps were the basis on which the plan was created. The project will include three key steps which include planning and preparation, education and implementation, and evaluation. The process will begin with an interdisciplinary critical care team coming together to create a prone positioning ARDS protocol for their unit. This will include indications, contraindications, the turning process, potential adverse effects and their interventions, and what to monitor. Once this is established the unit will be educated by the team in a didactic session that culminates in an exam on which they must score a 100 to be considered successful. If staff does not score a 100 they will be given remediation material and they must retest within 7 days. Once all staff has passed the written exam there will be a live simulation in which the unit must perform prone positioning on an intubated patient. The patient will be a standardized patient that can provide unique feedback to the team. They will be monitored by the protocol creation team and grading on specific criteria. If the team is
  • 7. PRONE POSITIONING IN ARDS PATIENTS 7 unsuccessful in the simulation they will be provided with immediate remediation by staff and then allowed to retry the simulation. Due to safety concerns of patients the project cannot move forward until the whole team is successful in this simulation. Once this is determined to be a success there will be an implementation date within 14 days of the simulation to begin using the protocol. Once the protocol has begun it will be monitored for 90 days then reviewed to determine any needed alterations. The project proposal plan includes grading criteria and monitoring specifics (see Appendix B for the project proposal plan). Implementation During this project the major agents of change will be the interdisciplinary team that creates the protocol. This team will include at least one member from each discipline involved in the procedure including but not limited to physician, nursing, respiratory therapy, pharmacy, and nursing support. This will allow clinical expertise and knowledge of the unit to be involved in the creation of the new protocol. The team will not only create the protocol but will be responsible for educating the staff on the protocol and grading the simulation. Another agent of change will be the unit supervisor/director and the nursing director for the unit. The leaders will need to be willing to assist with the implementation of this change. The main barriers related to this project will be the inexperience with the procedure and the trepidation that accompanies it. To combat the trepidation there will be offered practice sessions in which the staff can practice with a mannequin or other staff to develop muscle memory and familiarity with the procedure. Another barrier related to this change could be the desire of some staff to remain with the status quo. To overcome this barrier it will be important for there to be evidence proving the effectiveness of this intervention. Also, an open door policy
  • 8. PRONE POSITIONING IN ARDS PATIENTS 8 will be maintained throughout the entirety of the project to allow any and all staff to voice question and preferences about the new protocol. The staff that will be made aware of this includes the patient care staff on the unit as well as the unit supervisors and directors, hospital administration, and any quality improvement coordinators. The supervisors, administration, and coordinators will be updated in a team meeting as well as regular memos to keep them up to date. As stated before, the information will taught to the unit staff in a lecture provided by the creation team. It will then be reinforced with a live simulation. Accompanying these learning sessions, the new protocol will be added to the existing protocol resource for the staff to review and reference. All of the material used to create the protocol will be available as well to the staff for reference. Proposed Evaluation and Conclusion The new protocol will be put into place and monitored for 90 days. The data to be monitored is included in the project proposal plan. The data will be recorded in an online spreadsheet that can track the trends of the data. The data will be collected by one team member from the patient’s medical chart. After this 90 day period the same interdisciplinary team along with unit supervisors and directors and the quality improvement coordinator will come together to review the data. At this time the team will determine if the new protocol was successful in improving oxygenation and reducing the ARDS mortality rate in mechanically ventilated ARDS patients. The team will then make any necessary amendments to the new protocol based on staff feedback or the collected data. The protocol will then be included in the unit’s protocol resource permanently or until research deems it necessary to perform another change. The change in protocol will hopefully increase the utilization of an intervention that can improve oxygenation and reduce the mortality related to ARDS. Any intervention that can
  • 9. PRONE POSITIONING IN ARDS PATIENTS 9 reduce the mortality rate of such a life-threatening syndrome should be implemented in every hospital that can manage it. This change will allow for the improvement of patient outcomes and satisfaction which is the ultimate goal for every healthcare professional and healthcare organization.
  • 10. PRONE POSITIONING IN ARDS PATIENTS 10 References Abroug, F., Ouanes-Besbes, L., Dachraoui, F., Ouanes, I., & Brochard, L. (2011). An updated study-level meta-analysis of randomised controlled trials on proning in ARDS and acute lung injury. Critical Care, 15(1), 1-9. Chertoff, J. (2016). Should early prone positioning be a standard of care in ards with refractory hypoxemia? Wrong question. Respiratory Care, 61(11), 1564. doi:10.4187/respcare.05259 Cornejo, R. A., Díaz, J. C., Tobar, E. A., Bruhn, A. R., Ramos, C. A., González, R. A., ... & Arellano, D. H. (2013). Effects of prone positioning on lung protection in patients with acute respiratory distress syndrome. American Journal of Respiratory and Critical Care Medicine, 188(4), 440-448. Dellinger, R. P., Levy, M. M., Rhodes, A., Annane, D., Gerlach, H., Opal, S. M., … Moreno, R. (2012). Surviving sepsis campaign guidelines committee including the pediatric subgroup. Surviving Sepsis Campaign: International Guidelines for Management of Severe Sepsis and Septic Shock: 2012.41(2), 580-637. Engström, Å., Nyström, N., Sundelin, G., & Rattray, J. (2013). People's experiences of being mechanically ventilated in an ICU: a qualitative study.Intensive and Critical Care Nursing, 29(2), 88-95. Guérin, C., Reignier, J., Richard, J. C., Beuret, P., Gacouin, A., Boulain, T., ... & Clavel, M. (2013). Prone positioning in severe acute respiratory distress syndrome. New England Journal of Medicine, 368(23), 2159-2168. Henderson, W. R., Griesdale, D. E., Dominelli, P., & Ronco, J. J. (2014). Does prone positioning improve oxygenation and reduce mortality in patients with acute respiratory distress syndrome?. Canadian Respiratory Journal, 21(4), 213-215.
  • 11. PRONE POSITIONING IN ARDS PATIENTS 11 Hu, S. L., He, H. L., Pan, C., Liu, A. R., Liu, S. Q., Liu, L., ... & Qiu, H. B. (2014). The effect of prone positioning on mortality in patients with acute respiratory distress syndrome: a meta-analysis of randomized controlled trials. Critical care, 18(3), 1-10. Kimmoun, A., Roche, S., Bridey, C., Vanhuyse, F., Fay, R., Girerd, N., … Levy, B. (2015). Prolonged prone positioning under VV-ECMO is safe and improves oxygenation and respiratory compliance. Annals of Intensive Care, 5(35). http://doi.org.ezproxy.library.tamu.edu/10.1186/s13613-015-0078-4 Melnyk, B. M., & Fineout-Overholt, E. (2015). Evidence-based practice in nursing & healthcare: A guide to best practice (3rd ed.). Philadelphia, PA: Lippincott Williams & Wilkins. Robak, O., Schellongowski, P., Bojic, A., Laczika, K., Locker, G. J., & Staudinger, T. (2011). Short-term effects of combining upright and prone positions in patients with ARDS: a prospective randomized study. Critical Care, 15(5), 1-7. Shirey, M.R.. (2013). Lewin’s theory of planned change as a strategic resource. Journal of Nursing Administration, 43(2), 69-72. doi: 10.1097/NNA.0b013e31827f20a9
  • 12. Running head: PRONE POSITIONING IN ARDS PATIENTS 12 Appendix A: Evidence Grid Complete APA Citation Hypothesis, Research Question, Problem Statement or Stated Purpose Frame work, Model, or Theoretical underpinning Sample:  size of sample  important demographics  inclusion and exclusion criteria Study Design Data Collection:  Instruments used  Variables and measurement  Procedures used Implications  Statistical results or findings  Conclusions related to practice Abroug,F., Ouanes-Besbes,L., Dachraoui, F., Ouanes, I., & Brochard, L. (2011). An updated study-level meta- analysis of randomised controlled trials on proning in ARDS and acute lung injury. Critical Care, 15(1), 1-9. Meta-analysis to determine if RCTs showreduction mortality rate trend in prone ventilation of ARDS or ALI patients Random effects model  7 RCTs with 1,675 adult patients (N=1675) total this includes 862 who were ventilated in the prone position  RCTs the compared supine versus prone positioning in ARDS patients were included  Two subgroups were formed in the resulting RCTs: those that limited the results to only ARDS patients and those that included all hypoxemic patients Meta-analysis of RCTs  Three investigators separately found and evaluated studies for outcomes relating to ARDS and prone positioning. They evaluated the study design, sample population and disease severity determined by PaO2/Fio2 ratio, prone positioning duration, and ICU mortality. Each RCT was then rated on a 0-5 scale with 5 being the best.  Regarding ICU mortality (OR=0.9, P=0.39)  Regarding ICU mortality of ARDS patients only (OR=0.71, P=0.048)  Conclusion: If only ARDS patients are considered then long periods of prone positioning reduce ICU mortality. Cornejo, R. A., Díaz, J. C., Tobar, E. A., Bruhn, A. R., Ramos, C. A., González, R. A., ... & Arellano, D. H. (2013). Effects of prone positioning on lung protection in patients with acute respiratory A study to determine if high PEEP and prone positioning have an effect on lung usage and hyperinflation Not stated  24 adult patients in one hospitalwho were mechanically ventilated for 24-72 hours,and required lung CT scan for clinical purposes were included in the study (N=24)  Excluded patients were those that were Not Stated  Patients were kept deeply sedated and underneuromuscular paralysis during the study  Volume control mode on the ventilator with tidal volume of 6 ml/kg of ideal body weight was maintained.  Patients had whole-lung CT scan with intermittent sessions of breath holding at airway pressures of5, 15, and 45 cm Increasing PEEP from 5-15 cm H2O supine  Decreased non- aerated tissue (P<0.001)  Increased tidal hyperinflation (P=0.004) Increasing PEEP from 5-15 cm H2O prone  Decreased non-
  • 13. PRONE POSITIONING IN ARDS PATIENTS 13 distress syndrome. American journal of respiratory and critical care medicine, 188(4), 440-448. under 18 years of age, were pregnant, or prone positioning was contraindicated H2O  Cine-CTs on a fixed thoracic transverse slice at PEEP of 5 and 15 cm H2O  CT images were repeated in supine and prone positions  A 45 cm H2O recruitment maneuver was done before each PEEP change  Lung recruitability was defined by the change in percentage of non-aerated lung between PEEP of 5 and 45 cm H2O  Cyclic recruitment/decruitment was defined by the tidal change in percentage of non-aerated tissue  Tidal hyperinflation was defined by the tidal changes in percentage of hyperinflated tissue  Sidak’s post hoc analysis used to perform two way ANOVA  Wilcoxon Mann-Whitney test used for comparison of patients with high and low lung recruitability aerated tissue (P=0.028) High PEEP and prone positioning together  Decreased cyclic recruitment/decruitm ent (P=0.003) Prone positioning increases the amount of lung tissue utilized and decreases hyperinflation and alveolar damage with high PEEP in ARDS patients Dellinger, R. P., Levy, M. M., Rhodes, A., Annane,D., Gerlach, H., Opal, S. M., … Moreno, R. (2012). Surviving Sepsis Campaign Guidelines Committee including the Pediatric In sepsis induced ARDS prone positioning is recommended for PaO2/FiO2 ratio of <100 mm Hg if the unit is experienced with this procedure.
  • 14. PRONE POSITIONING IN ARDS PATIENTS 14 Subgroup. Surviving sepsis campaign: international guidelines for management of severe sepsis and septic shock: 2012.41(2):580- 637. Engström, Å., Nyström, N., Sundelin, G., & Rattray, J. (2013). People's experiences of being mechanically ventilated in an ICU: a qualitative study.Intensive and Critical Care Nursing, 29(2), 88- 95. This study is meant to improve clinical practice for mechanically ventilated patients by reviewing personal experiences of mechanically ventilated patients. Not Stated 8 patients (N=8) who were previously mechanically ventilated in one ICU were contacted. They had to be ventilated for at least 24 hours,they had to remember parts of their stay,and had to have been cared for in the past year. Qualitative descriptive  Individual 30-60 minute interviews using a question guide were conducted and recorded. Interviews were conducted it he home, the ICU, and in other settings. The interviews were then transcribed word for word and analyzed.  The interviews were read multiple times by 3 of the authors until themes were created.  From the created themes emerged sub-categories. 2 themes emerged that were then divided into sub categories. Topics noted include communication, vulnerability/depende ncy, feeling safe, being in an unknown environment, families, perceptions of time, and diaries. The implications for care include communication methods, continuity among staff, patient diaries, and consistent environment. Guérin, C., Reignier, J., Richard, J. C., Beuret, P., Gacouin, A., Boulain, T., … & Clavel, M. (2013). Prone positioning in severe acute respiratory distress syndrome. New England Journal of This study aimed to prove that early application of prone positioning in ARDS patients can decrease the mortality rate for any cause within 28 days of intubation and after 90 days after extubation. Not Stated 466 adult severe ARDS patients (N=466)  Mechanically ventilated less than 36 hours  Severe ARDS: PaO2/FiO2 ratio <150 mm Hg, FiO2 >0.6, PEEP >5 cm H2O, and tidal volume of 6 ml/kg of ideal body weight Multicenter prospective randomized control trial  Computer randomized patients into supine or prone groups.  12-24 hour period for patient to stabilize then inclusion into the study determined. Pronation had to be initiated within first hour of randomization and remained prone for at least 16 consecutive hours.  Supine patients remained in a semi-recumbent position.  Ventilation for both groups 28 day mortality  16.0% in the prone group  32.8% in the supine group  P<0.001 90 day mortality  23.6% in the prone group  41.0% in the supine group  P<0.001
  • 15. PRONE POSITIONING IN ARDS PATIENTS 15 Medicine,368(23), 2159-2168. 26 ICUs in France, 1 ICU in France remained at the following settings:volume control mode, tidal volume 6 ml/kg of ideal body weight, and PEEP selected from the PEEP-FiO2 ratio table provided.  At admission to the ICU the following data was collected: age, sex, reason for admission, McCabe score,what setting the patient came from, ventilator settings,time from intubation to randomization, height, ideal body weight, ABGs, arterial blood lactate levels, chest radiography, and the simplified acute physiology score (SAPS), and the sepsis related organ failure assessment (SOFA)  Daily (for 28 days)the following were recorded: attempts at extubation, complications, use of ECMO, sedative and neuromuscular blocker use, administration of inhaled nitric oxide, infusion of almitrine bismesylate, the ventilator setting,ABGs, static compliance of the respiratory system, arterial blood lactate levels, and the SOFA score Early application of prone positioning can significantly decrease the 28 day and 90 day motility rate for severe ARDS patients. Hu, S. L., He, H. L., Pan, C., Liu, A. R., Liu, S. Q., Liu, L., ... & Qiu, H. B. (2014). The effect of prone positioning on mortality in patients with acute Determine if the improved mortality rate for ARDS patients with prone positioning is affected by PEEP levels and duration of positioning. Random effects model was used for cases of heterogeneity and fixed effects model was used in all other instances 9 RCTs with a total of 2,242 patients including adults and pediatric populations (N=2,242)  Inclusion criteria: clinical RCT comparing prone versus supine position Meta-analysis of RCTs  2 researchers used a 5 point scale to evaluate the trials separately. The data was then extracted (mortality rates, sample sizes, control groups,PEEP levels, PaO2/FiO2 ratios, prone positioning duration, length of stay,length of intubation, plateau pressure and tidal volume, cases  Prone 28 day mortality of ARDS patients with PaO2/FiO2 <100 mm Hg (P=0.003)  Prone 60 day mortality with PEEP >10 cm H2O (P=0.04)
  • 16. PRONE POSITIONING IN ARDS PATIENTS 16 respiratory distress syndrome: a meta-analysis of randomized controlled trials. Critical care, 18(3), 1-10. in ARDS, acute respiratory failure, or acute lung injury patients. The definition of ARDS was similar. The data for 28-30 day mortality, 60 day mortality, or 90 day mortality was available, and the sample size for each group was identified  Exclusion criteria: the article was not a clinical RCT, the full text was not available, the mortality data was not provided, supine positioning was not used as the control, and there was significant additional therapies provided to individual groups. of organ dysfunction,and demographic information.  The k statistic was used to evaluate the methodological quality assessment and trial selection similarity between the two investigators.  Cochrane Collaboration’s RevMan Softward 5.2.3 was used for the recommendations of methods for the meta-analysis of the effects  Mantel-Haenszel X2 test and the I2 test were used for heterogeneity and inconsistency evaluation  Prone 90 day mortality with PEEP >10 cm H2O (P<0.0001)  28 day mortality when prone >12 hrs/day (P=0.04)  Prone positioning reduced mortality in severe ARDS patients especially when combined with high PEEP levels. Longer duration of prone positioning improve the mortality rate as well. Kimmoun, A., Roche, S., Bridey, C., Vanhuyse, F., Fay, R., Girerd, N., … Levy, B. (2015). Prolonged prone positioning under VV-ECMO is safe and improves oxygenation and respiratory compliance. Annals of Intensive Care, 5(35). Study meant to determine if prolonged prone positioning during VV-ECMO improved oxygenation and respiratory system compliance. Not Stated  17 patients (N=17) who received VV- ECMO and prone positioning  Exclusion: patients under vasopressor treatment, recent open chest cardiac surgery  Inclusion: at least one failed weaning attempt after day 7 of ECMO or refractory hypoxemia occurred. Retrospective review  All patients on volume control mode with tidal volume of 1.5-3 ml/kg of ideal body weight, respiratory rate of 8-12 breaths/minute, PEEP 10-18 for a pPlat at 25 cm H2O, and FiO2 set to maintain SpO2 88-95%  Followed PROSEVA guidelines for prone positioning  Parameters recorded before prone positioning,after 24 hours of positioning, and 24 hours after returning to supine positioning.  Recorded ABG, ventilator  After 24 hour prone positioning PaO2/FiO2 ratios increased from 111 to 173 mmHg (P<0.0001)  After 24 hour of prone positioning respiratory compliance increased form 18- 32 ml/cmH2O (P<0.0001)  24 hours after return
  • 17. PRONE POSITIONING IN ARDS PATIENTS 17 Retrieved from http://doi.org.ezpro xy.library.tamu.edu /10.1186/s13613- 015-0078-4 setting,VV-ECMO parameters, and respiratory compliance (tidal volume/pPlat)  Measure pPlat with end inspiratory pause of 1 sec minus total PEEP  Measure total PEEP with expiratory pause of 5 sec  Chest CT applicable if received within 3 days prior to prone positioning. Can be analyzed to determine amount of non-aerated lung tissue. to supine tidal volume increased from 3.0 to 3.7 ml/kg (P<0.005)  24 hours after return to supine PaO2/FiO2 ratio increased by over 20% in 14/14 late sessions and 7/13 early sessions (P=0.01)  Ct scans showed high percentage of non-aerated lung tissue in 52% of patients.  Prone positioning for long durations (24 hours) improved oxygenation and respiratory compliance in combination with VV-ECMO Robak, O., Schellongowski, P., Bojic, A., Laczika, K., Locker, G. J., & Staudinger, T. (2011). Short-term effects of combining upright and prone positions in patients with ARDS: a prospective randomized study.Critical Care, 15(5), 1-7. Determine the effects on oxygenation of combining prone and semi-recumbent positioning in mechanically ventilated ARDS or ALI patients. Not Stated  20 patients with ALI/ARDS (N=20)  Exclusion: ECMO, improvement, death, diagnosis of ARDS made more than 72 hours ago, younger than 18 or older than 89 years of age, or pregnant  Inclusion: Diagnoses of ALI or ARDS, prone positioning prescribed by intensivist Prospective randomized cross-overstudy  20 patients randomized  Basal measurement of PaO2/FiO2 ratio, ABG, and analysis of lung compliance taken at supine then repeated hourly throughout the study  One group: prone position for 2 hours then prone with semi- recumbent for 6 hours.  Second group: prone with semi- recumbent positon for 2 hours then prone position for 6 hours.  Bicore measure systemused to measure compliance with the occlusion method by holding the inspiratory/expiratory hold  14 patients (70%) improved with prone positioning  17 patients (85%) responded to prone and semi-recumbent positioning combined  Combining semi- recumbent and prone positioning in mechanically ventilated ARDS patients can improve oxygenation.
  • 18. PRONE POSITIONING IN ARDS PATIENTS 18 function on ventilator  All patients continuously monitored on ECG, pulse oximetry, and indwelling arterial catheter  PEEP adjusted by increments of 2 cm H2O to remain at FiO2 at 0.6 or less with SpO2 >91%  Tidal volumes at 6 ml/kg ideal body weight  Respiratory rate set to maintain PaCO2 levels to prevent respiratory acidosis and hyperinflation  Ventilator setting unchanged during study
  • 19. Running head: PRONE POSITIONING IN ARDS PATIENTS 19 Appendix B: Project Proposal Guide A critical care multi-disciplinary team will utilize research to develop a prone positioning protocolfor the unit. All involved staff will take a didactic course over theprone positioning protocoltaught by the appropriatedeveloping staff. At the completion of thecourse all staff will take a comprehensive exam over the material. A score of 100 must be achieved to comlete the course. If the staff member does not achieve a score of 100 remediation material will be provided to the staff and they will be required to retest within 7 days. Once all staff has passed the written exam, there will be a patient simulation on the unit scheduled. The staff will be observed by experts on the protocoland graded. Siimulation Grading Criteria -Acknowledges indiciations and contraindiciations for prone positioning -Performs procedure without error OR self identifies errors -Recognizes adverse reactions promptly -Performs appropriate Interventions -Patient safety is never compromised If the simulation is unsuccessful there will be immediate remediation and theteam will be allowed another simulation. If unsuccessful again, there will be another simulation scheduled. For safety theproject will not move forward until this is successful. Once the simulation is deemed successful there will be a set implementation date. The protocolwill be in effect after this date. Once implemented the following will be monitored - Vital Signs - Length of intubation - Length of stay - ARDS Mortality rate After 90 days the data will be reviewed and alterations will be made to the protocolas needed.