Pressure Injury Prevention and Management: A Gap Analysis Using Key Stakeholder Engagement

INTRODUCTION

Regulatory, quality, and preeminent healthcare organizations consider hospital-acquired pressure injuries (HAPIs) an important patient safety issue and view their frequency as a measure of nursing care quality. Two and a half million patients annually develop a pressure injury (PI), and 60,000 patients die as a result.1 The annual estimated cost of HAPIs is $26.8 billion, and the cost of PI care per patient ranges from $29,900 to $151,700.1 Patients who develop a HAPI are more likely to have a longer length of stay, higher 30-day readmission rates, and/or die during that admission.2–4 Despite numerous technological advancements and HAPI prevention strategies, HAPIs continue to occur. While evidence concerning prevalence is mixed, the Agency for Healthcare Research and Quality (AHRQ) reports that HAPI rates continue to rise across the United States.5 We assert that the rise of HAPI rates reported by the AHRQ indicates the complexity of PI prevention and evidence indicating that not all PIs are preventable or avoidable.3 For example, Pittman and colleagues3 reported that more than 40% of PIs in the critical care setting were unavoidable, indicating that approximately 60% were avoidable. As a result, hospitals must increase their attention to PI that can be prevented.

A level I trauma academic acute care hospital in Alabama identified PI prevention and management (PIPM) as a high priority after HAPI rates increased and incurring reimbursement penalties. High variation in PIPM practices was identified as a key challenge in this organization. Strategies to assess the current PIPM practices were identification of evidence-based practices, a gap analysis methodology, and key stakeholder engagement.

Evidence-based practices increase the likelihood of implementation when nursing care is based on a nursing theory.6 Neuman's systems model7,8 was used to guide this HAPI investigation. Neuman's model is built on evidence-based holistic nursing care provided on a continuum from prevention to resolution of the injury. A gap analysis can systematically identify the gaps by comparing current practice to evidence-based standards/guidelines through a gap analysis.9 A gap analysis is recommended to assess and improve the quality and safety of care in hospitals.10 Development of a gap analysis tool, specific to HAPIs, that is valid and reliable can be spread to other acute healthcare settings and augment nursing science.

Key stakeholder engagement that blended academic and practice leaders was a foundational component of this study. Stakeholder engagement is defined by the Patient-Centered Outcomes Research Institute (PCORI) as the meaningful involvement of patients, caregivers, clinicians, and other healthcare workers into all aspects of a research study.11 The goal of the key stakeholder engagement was to leverage their expertise promoting research that is patient-centered, relevant, and useful for greater uptake of the findings within the organization.

A mixed-methods convergent design and a participatory action research (PAR) methodology are appropriate to engage key stakeholders in a meaningful way because they support holistic and evidence-based practice including objective (quantitative) and subjective (qualitative) data collection that is then integrated and compared for confirmation of the findings.12,13 This integration is essential in the development of this gap analysis instrument as it ensures the intentional involvement of key stakeholders in research that directly affects their practice. In addition, the Donabedian Model and the STAR Model14,15 are relevant for this study. The Donabedian approach for evaluating quality of care focuses on the domains of structure, process, and outcome(s). Structure refers to the physical and organizational attributes or characteristics; process refers to the care delivery provided to the patient; and outcome refers to the effect of the healthcare on the status of the patient and measurement of the identified outcome. In the Donabedian model, the unit, clinician, and patient characteristics are an integral part of the structure of the organization14 and should be considered when undergoing quality improvement initiatives. The STAR Model emphasizes crucial steps in translating evidence across 5 stages or points: discovery of primary research, evidence summary, translation into action (guidelines), integration into practice, and process/outcome evaluation.15 This model focuses on evidence quality and guidelines to guide practice and quality improvement.15 The aims of this study were to (1) develop and examine key stakeholder engagement regarding PIPM, (2) develop a valid/reliable gap analysis instrument, and (3) conduct a gap analysis of current PIPM practices in an acute care hospital.

METHODS

Using a mixed-methods convergent design and PAR methodology,10,11 a gap analysis instrument was developed to examine the current state of PIPM in a level I trauma center academic acute care hospital in the Southeastern United States (Alabama). Study procedures were reviewed and approved by the University of South Alabama Institutional Review Board (approval June 16, 2020, no. 1588094-1).

Study Procedures

The PAR methodology16 guided development of a multidisciplinary key stakeholder Council focused on development, testing, and implementation of a PI gap analysis instrument. The PCORI Stakeholder Engagement in QuEstion Development (SEED) and Prioritization method was used to develop stakeholder priorities, research question development, and review of HAPI literature.17 Together with the primary researchers, the Council guided development of the study methods, procedures, and results. In addition, key stakeholder-focused interviews further engaged, integrated, and confirmed the quantitative development of the gap analysis instrument. To evaluate Council engagement (group dynamics and partnership effectiveness), a link to Web-based survey was emailed to the Council members. The survey was developed using the work of Rawl and colleagues18 and Schulz and colleagues19; it comprised 26 quantitative items and 7 qualitative items.

A task force from the Council was convened to identify the comprehensive list of evidence-based PIPM practices. The task force comprised clinical nurse managers (intensive care unit and emergency department), a WOC nurse, clinical nurse leader, nurse educator, and 3 doctoral-prepared College of Nursing faculty. The task force completed an integrative literature search and appraisal using the 2019 International Pressure Ulcer/Injury Clinical Practice Guideline (CPG) evidence as a foundation.20

A medical librarian conducted the literature search using PubMed, CINAHL, and Scopus using publication dates of 2018-2020. These dates were chosen to search beyond the inclusion dates of the 2019 CPG, which were 2015-2019. Search criteria included adults, acute care setting, and a strong focus on systematic reviews and clinical guidelines. Key words used were pressure injury (ulcer), prevention, decubitus ulcer, pressure sore, and hospital/patient/intensive care unit. A minimum of 2 reviewers performed an independent 2-phase literature appraisal with an initial review of the title and abstract, followed by a full-text appraisal. The Rayyan systematic review tool was used to manage the database searches in a systematic, blinded, and structured format.21 The Johns Hopkins Nursing Evidence-Based Practice tools were selected to provide clarity and purpose in identifying, appraising, and synthesizing the best current evidence and translation to best practices.22 The tools were beneficial in providing explicit and operational guidance to Council members when appraising best evidence.

Using evidence-based items identified from the literature appraisal, the Council organized the items using the Donabedian domains (structure, process, and outcome)14 and developed a concept map (see Figure 1) to inform the development of the Pressure Injury Prevention Gap Analysis Instrument (PIPGAI). A concept map was used to identify essential components and to visually depict conceptual relationships23 for the Council to discuss and better understand interrelationships.

F1Figure 1.:

Concept map. ED indicates emergency department; EHR, electronic health record; HAPI, hospital-acquired pressure injury; LOS, length of stay; OR, operating room; PI, pressure injury; PIP, pressure injury prevention.

The AHRQ's Toolkit for Using the AHRQ Quality Indicators10 describes a structured evidence-based gap analysis approach that was adapted to meet the needs of this study. It identifies that AHRQ identifies 5 steps when conducting a gap analysis: (1) identify area of focus; (2) describe and identify ideal or future state—where you want to be; (3) review and identify current state; (4) compare current state with ideal or future state, identifying gaps; and (5) determine plan to address gap.

The DeVellis'24 stepwise approach for developing instruments was used in combination with the AHRQ Tookit.22 Based on DeVellis' approach, the construct to be measured is identified, items that reflect the instrument's purpose are chosen, the format for measurement is determined, and expert review of the items is obtained.24 Applying the methods described by the AHRQ and DeVellis, the PIPGAI was created using the comprehensive list of evidence-based recommendations and items from the literature appraisal and the concept map.

A panel of 8 nursing experts (7 content nursing experts from across the United States and 1 nursing research expert from Australia) participated in a Web-based survey to establish the content validity of the PIPGAI. The expert panel included a chief nurse executive from a large Magnet-accredited academic healthcare system, 3 WOC expert nurses, a certified advanced practice WOC nurse and educator, and 3 doctoral-prepared nurse researchers. Each expert electronically received an information packet that included the purpose of the survey, instructions for completion of the survey, and the PIPGAI. The content validity survey was developed using the recommendations of Wynd and colleagues along with Lynn and Sacks.25–27 The survey required each panel expert to evaluate each evidence-based item for relevance, clarity, comprehensiveness, and appropriateness. Each item was rated on a 4-point scale except for comprehensiveness where a 2-point scale was used. Content validity index (CVI) results were reviewed by the Council and appropriate revisions made.

Using the validated PIPGAI, a gap analysis of PIPM practices was performed. Three trained investigators conducted a blinded data collection of the hospital's electronic medical record, facility intranet site, policies, protocols, quality/finance information, minutes of committee meetings, and nursing administrative information. Confirmation of data was tangible (written or electronic); verbal confirmation was not deemed acceptable. Gaps between evidence-based practices and current organizational practices were identified. The Council independently rated and prioritized each identified gap for action using a Web-based survey format on a Likert scale of 1 to 4 in which 1 = Item is not a priority; 2 = Item is a fair priority; 3 = Item is a priority; and 4 = Item is a top priority. Priority rating scores were compared between the Council member characteristic of direct care or non–direct care.

Data Analysis

Descriptive analysis was performed where continuous variables were summarized using means and standard deviations and categorical variables were summarized using frequencies and percentages. Council members were categorized into 2 groups: (1) direct care providers, operationally defined as staff who were in regular contact with patients, and (2) non–direct members, operationally defined as staff who did not encounter patients on a routine basis. Priority rating scores described previously were categorical; in order to determine if priorities differed between groups, a 2-sided t test was performed. All statistical analysis was conducted using JMP Pro V 15.2.0 (SAS Inc, Cary, North Carolina). Statistical significance of P value of .05 was used in the analyses.

PIPGAI Psychometric Testing

Content validity of the PIPGAI was examined by calculating the CVI for both individual item (I-CVI) and total scale (S-CVI). At the item level, I-CVI was computed as the proportion of experts who gave a rating of 3 or 4 for the relevancy of each item (ie, I-CVI = number of experts with 3 or 4 rating/total number of reviewers). The S-CVI was calculated by summing the individual-item CVI scores and dividing by the number of items, providing an average I-CVI across items.26,28–30 Based on standards advocated by Polit and colleagues,29 items with I-CVIs of 0.78 or higher and S-CVI of 0.90 or higher indicate excellent content validity.

Reliability addresses consistency when measuring the stable attributes of an instrument.31 The items in the PIPGAI are heterogeneous and diverse in character or content; thus, determining reliability using internal consistency or intraclass correlation, testing is not the best approach. However, for thoroughness and transparency, we did examine internal consistency testing using Cronbach alpha. In this study, in addition to internal consistency, we examined reliability of the PIPGAI using percentage of agreement of the items across the raters and a modified Delphi approach. This task was performed by a certified WOC advanced practice nurse, an organizational system nursing expert, and a nursing student. The student nurse data collector was included in the study intentionally to determine how easy or difficult the gap items were to identify for novice nurses. Each research team member received training on the purpose, content, and use of the instrument, and how to apply the scoring rules.

RESULTS Aim 1: Council Development and Engagement

Twenty-seven key multidisciplinary stakeholders participated in the Council; 7 were active in the initial stages, 5 joined in the final stage, and 15 were involved throughout the study. Attendance at the monthly Council meetings ranged from 8 to 18 over the 24 months of the study. The collaborative relationship across the Council was interactive, dynamic, and reciprocal, where feedback and reflection were used to achieve the desired outcomes. College of Nursing faculty members provided training to the Council regarding research study design, study procedures, evidence-based practice, and quality improvement methodologies (Strengths, Weaknesses, Opportunities, and Threats [SWOT] analysis; Gemba walk; Lean Six Sigma strategies), literature review and appraisal, and instrument design. Clinical practice members provided organizational and clinical operational guidance for implementation of evidence-based practice and nursing workflow. Characteristics of engagement were measured with quantitative and qualitative methods (Web-based survey) and were positive. In addition, the Council's engagement was demonstrated via development of 5 poster and oral abstracts presenting preliminary and final results of the study at 3 national and 2 international conferences.

Aim 2: Valid/Reliable Gap Analysis Instrument

The guideline used for the gap analysis instrument's evidence-based practices was the 2019 International Pressure Ulcer/Injury Clinical Practice Guideline (CPG).20 The integrative literature search resulted in 108 studies from 3 databases: PubMed, CINAHL, and Scopus. Following review for relevance to topic and removal of duplications, 101 unique studies remained. A review of titles and abstracts by the Council task force identified 46 articles that met inclusion criteria. Following a full-text review by the Council task force, 32 articles remained for rigorous review and appraisal using the Johns Hopkins Nursing EBP appraisal tool.22

Based on findings from 32 studies incorporated into the integrative review and 2019 CPG recommendations,20 79 evidence-based practices were identified and organized using the Donabedian domains of structure, process, and outcomes. The Council then grouped these evidence-based practices into 19 concepts, and a concept map (Figure 1) was developed. The 19 concepts of the concept map included 7 structure concepts, 7 process concepts, and 5 outcome concepts.

Pressure Injury Prevention Gap Analysis Instrument

Applying the gap analysis methods described by AHRQ10 and DeVellis,24 a comprehensive list of evidence-based practice items from the literature review and concept map was used to develop the PIPGAI. A gap analysis instrument format and item characteristics of content present, level of detail, and ease of use was adapted from Pittman and colleagues'32 previous work. The list of evidence-based practice items was organized in the gap analysis instrument according to the Donabedian domains of structure, process, and outcome,14 and the 19 concepts identified by the Council. Three characteristics of each evidence-based item were measured by content present where 0 = no, 1 = yes; level of detail of the content where 0 = none, 1 = minimal, 2 = moderate, and 3 = comprehensive; and ease of use where 1 = accomplished easily, 2 = requires notable degree of effort, and 3 = difficult to accomplish.32 Each item score resulted in a score ranging from 1 to 7. Individual item scores of the items' three characteristics (content present, level of detail, and ease of use) were computed by summing the characteristic scores of each item. The PIPGAI total score was computed by summing the individual total item scores (range: 79-553). The total percentage score was calculated by dividing the actual total score by the possible total score. Higher scores on the individual items and total score indicated stronger evidence of PIPM practices. Finally, once gaps were identified, priority rating of each gap item was conducted using a Likert scale where 1 = item is not a priority for action, 2 = item is a fair priority for action, 3 = item is a priority for action, and 4 = item is a top priority for action. See Figure 2 for an excerpt of the instrument.

F2Figure 2.:

Pressure Injury Prevention Gap Analysis Instrument excerpt image. ED indicates emergency department; EBP, evidence-based practice; OR, operating room; PI, pressure injury; PIP, pressure injury prevention; POA, present on admission, QI, quality improvement; SEM, sub-epidermal moisture measurement.

Psychometric testing of the PIPGAI was conducted using a panel of 8 nursing content experts. The I-CVI results are presented by Donabedian domains in Tables 1 to 4. Two items were deleted due to CVI scoring below 0.70 (score of 0.62 each). Three items were revised due to scoring between 0.71 and 0.75, and all other items ranged from 0.875 to 1.0. Total S-CVI score was 0.95, indicating excellent content validity. Reliability was determined by research team members independently collecting data and completing the gap analysis instrument. The interrater reliability of the two expert research team members (clinical and system expert) was moderate with a Cronbach alpha of 0.53. The percentage of agreement across all 3 of the data collectors varied from 62% to 79%. Percentage of agreement for nursing student and clinical expert was 62% (48 out of 78), with no significant association between responses (Fisher exact test, P = .2657). However, percentage of agreement for the clinical expert and system expert was 77% (60 out of 78), with a significant association between responses (Fisher test, P = .0017). The highest percentage of agreement was 79% (62 out of 78) observed between the nursing student and the system expert, with a significant association between responses (Fisher test, P = .0001). Using a modified Delphi approach, the items where disagreement was present were discussed and responses of the research team members were summarized, until 100% consensus of agreement was achieved.

TABLE 1. - PIPGAI CVI by Donabedian Domains Domain Items Mean CVI Structure items 3.823 0.96 Process items 3.765 0.94 Outcome items 3.77 0.95 Total S-CVI 3.786 0.95

Abbreviations: CVI, content validity index; S-CVI, total scale—content validity index.


TABLE 2. - PIPGAI I-CVI Structure Domain Items Rated 1 0r 2 Rated 3 or 4 Item CVI Leadership health professionals are involved in oversight and implementation of PIP Program. 0 8 1.0 Evidence of clinical leadership in a QI program(s) related to PIP/treatment. 0 8 1.0 Clinical decision support tools are evident—electronic health record (EHR) supports PIP—design, reports (eg, aggregate, individual, real time). 0 8 1.0 EHR—standardized tools to support determining POA and staging accuracy. 0 8 1.0 A plan for PI education, skills training, and psychosocial support to individuals with or at risk of PI. 0 8 1.0 Assessment of pressure injury knowledge of health professionals is conducted. 1 7 0.875 A structured, tailored multifaceted PI quality improvement program is in place. 0 8 1.0 Staff receive regular education in PIP and treatment. 0 8 1.0 Clinical decision support tools are evident—electronic health record (EHR) supports PIP—design, reports (eg, aggregate, individual, real time). 0 8 1.0 Quality equipment and standards for its use are available for patients and staff (eg, support surfaces—overlay, rental bed/surface, seat cushions, heel boots, prophylactic dressings, technology—SEM, thermography, photography, pressure mapping, positioning systems). 0 8 1.0 Process to support quality equipment (OR, ED, unit): maintenance, purchase, rental. 1 7 0.875 EBP power plan (order set) on PIP and treatment is available in EHR. 0 8 1.0 Clinical support tools to promote PIP and treatment are available (eg, procedures, resources, equipment). 1 7 0.875 Assessment and maximization of workforce characteristics (expertise, knowledge) are a part of a QI plan to reduce PI. 1 7 0.875 Assessment of appropriate workforce staff workforce characteristics (staffing levels and skill mix) to ensure that quality of care is provided. 1 7 0.875 Specialized health professional(s) are available to support PIP and treatment. 0 8 1.0 PI rate (incidence and/or prevalence) is regularly conducted and reported to key stakeholders. 0 8 1.0 Assessment of workforce attitudes and cohesion to facilitate implementation of PI QI program is conducted. 3 5 0.62 Accountability is fostered through a culture of safety (ie, root cause analysis—leadership, manager, direct care RN, provider). 0 8 1.0 High-reliability strategies are incorporated into the culture of safety throughout the organization. 0 8 1.0 A tailored, structured, and multifaceted quality improvement program to reduce the incidence of PI has been developed and implemented. 0 8 1.0 Key stakeholders are engaged in oversight and implementation of the QI program to reduce PI. 0 8 1.0 Evidence-based policies, procedures and protocols, and standardized documentation systems are in place as part of a QI plan to reduce PI. 0 8 1.0

Abbreviations: CVI, content validity index; EBP, evidence-based practice; I-CVI, individual-content validity index; OR, operating room; PI, pressure injury; PIP, pressure injury prevention; POA, present on admission, QI, quality improvement; RN, registered nurse; SEM, sub-epidermal moisture measurement.


TABLE 3. - PIPGAI I-CVI Process Domain Items Rated 1 or 2 Rated 3 or 4 Item CVI A pressure injury risk assessment to conduct and document as soon as possible after admission/transfer/change in condition/and periodically thereafter. 0 8 1.0 Individuals with Braden Scale score of <18 are considered at risk for PI. Subscale scores are considered when developing preventive interventions. 1 7 0.875 Other risk factors are considered when determining risk of PI—age, history, or presence of PI, pain, diabetes mellitus, poor tissue perfusion, oxygen deficits, increased body temperature, laboratory values, mental health, prolonged surgical time, ASA score (OR), prolonged critical care LOS, mechanical ventilation, vasopressor use, APACHE II score, presence of medical devices. 0 8 1.0 Health-related quality of life (HRQOL), knowledge, and self-care skills of individuals with or at risk of PI are used to facilitate development of a patient's PI care plan and education program. 1 7 0.875 Individualized risk-based care plan is developed and documented for those with a PI. 0 8 1.0 A risk assessment is conducted—using a structured approach, including comprehensive assessment, supplement use of a risk assessment tool with assessment of additional risk factors, interpret using clinical judgment. 1 7 0.875 Education is provided to patient/caregiver regarding PIP, self-care skills training, and psychosocial support. 1 7 0.875 Skin assessment daily (q shift, or per standard). 0 8 1.0 Inspect skin of individuals at risk of PI to identify presence of integrity, erythema, temperature, edema, and change in tissue consistency. 0 8 1.0 Conduct a comprehensive skin assessment as soon as possible after admission/transfer and periodically thereafter and document. 0 8 1.0 Implement a skin-care regimen that includes skin health, ph neutral soap, moisture barriers, and moisturizer. 1 7 0.875 Use of technology for routine skin assessment is available—SEM, thermography, photography. 2 6 0.75 For darkly pigmented skin, thermography and/or SEM is available and used as adjunctive technologies. 1 7 0.875 Assess and document PI at least weekly and monitor progress. 1 7 0.875 PIP includes process for repositioning routinely, quality of the turn off sacrum, use of positioning aids to redistribute pressure/shear, preventive dressings on sacrum and heels and under medical devices, and use of support surface overlay and/or cushion. 1 7 0.875 Appropriate support surface is individualized to patient needs—weight, width, moisture. 0 8 1.0 Use high-specification reactive single layer foam mattress of overlay for those at risk of PI. 2 6 0.75 Relative benefits of using an alternating air mattress/overlay for those at risk of PI are included in the decision making of choice of surface. 1 7 0.875 Use a pressure redistribution support surface on the OR table for all those at risk of PI. 0 8 1.0 Individualized treatment plan and goal is available for those with a PI. 0 8 1.0 Positioning reminder systems are present (eg, leaf, pressure mapping, other methods). 1 7 0.875 Plan/process is in place to ensure that heels are free of bed surface—heel boots, wedges, pillows. 0 8 1.0 Prophylactic dressings are used on body locations with increased mechanical load (pressure), including heels, if they cannot be suspended off the bed. 1 7 0.875 A plan for appropriate use of repositioning devices and equipment—lifts, transfer devices, obesity patients, wedges, heel boots, and/or prophylactic dressings—is present. 1 7 0.875 Pain assessment is included for those with a PI and treatment plan if appropriate. 0 8 1.0 A plan to minimize medical device–related pressure injuries (MDRPI) is evident (eg, review risk of PI, regularly monitor tension and position of MD, assess skin under and around MD regularly, alternate type of device). 0 8 1.0 A skin-care regimen is present to promote healthy skin and prevent moisture-associated skin damage (MASD). 0 8 1.0 Skin cleansers to maintain normal skin ph are encouraged. (Avoid use of alkaline soaps and cleansers.) 0 8 1.0 Use of high-absorbency incontinence products to protect skin in individuals at risk of PI and who have urinary incontinence. 0 8 1.0 PI prevention plan includes protecting skin from moisture with a barrier product. 0 8 1.0 Nutritional screening and comprehensive assessment are initiated for those at risk of PI. 0 8 1.0 An individualized nutrition care plan for those with or at risk of PI is part of the PI program. 0 8 1.0 A plan to optimize energy intake and protein for those who are malnourished or at risk of malnourishment is part of the PI prevention program. 0 8 1.0 A plan to provide 30-35 kcal/kg/d and 1.2-1.5-g protein for those with a PI or who are malnourished or at risk of malnourishment is part of the PI prevention program. 0 8 1.0 A plan to offer high-calorie, high-protein fortified foods and/or nutritional supplements in addition to the usual diet for those at risk of PI and malnourished is part of the PI prevention program. 0 8 1.0 A plan to provide high-calorie, high-protein, arginine, zinc, and antioxidant oral nutritional supplements or enteral formula for those with stage 2 or greater PI is a part of the PI prevention program. 0 8 1.0 Goals of care are considered when choosing enteral or parenteral feeding for those who cannot meet the nutritional requirements through oral intake. 0 8 1.0 A plan to provide/encourage adequate water/fluid intake for hydration for those with or at risk of PI is part of the PI prevention program. 0 8 1.0 Conduct age-appropriate nutritional screening/assessment for neonates and children, and consideration of fortified foods, age-appropriate supplements, or enteral/parenteral nutritional support is part of the PI prevention program. 0 8 1.0 Communication strategies are present for shift change and when transferring between units at admission, surgery/procedures, and discharge. 1 7 0.875 HRQOL, knowledge, and self-care skills of individuals with or at risk of PI are used to facilitate development of a patient's PI care plan and education program. 3 5 0.62 A plan for PI education, skills training, and psychosocial support to those with or at risk of PI is present. 0 8 1.0

Abbreviations: APACHE II indicates Acute Physiology and Chronic Health Evaluation II; ASA, American Society of Anesthesiology; CVI, content validity index; EBP, evidence-based practice; LOS, length of stay; MD, medical device; OR, operating room; PI, pressure injury; PIP, pressure injury prevention; POA, present on admission, QI, quality improvement; SEM, sub-epidermal moisture measurement.


TABLE 4. - PIPGAI I-CVI Outcome Domain Items Rated 1 or 2 Rated 3 or 4 Item CVI A rigorous methodological design and consistent measurement variables are used when conducting and reporting PI. 0 8 1.0 Point prevalence conducted quarterly or monthly. 0 8 1.0 Facility-acquired rate is conducted quarterly or monthly. 0 8 1.0 Regularly monitor, analyze, and evaluate performance against quality indicators for PIP/treatment. 1 7 0.875 Communication strategies are present for shift change and when transferring between units at admission, surgery/procedures, and discharge. 0 8 1.0 Documentation process is present for appro

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