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2. The Armstrong Institute: An Academic Institute for Patient Safety and Quality Improvement, Research, Training, and Practice

Author

Pronovost, PJ, Holzmueller, CG, Molello, NE, Paine, L, Winner, L, Marsteller, JA, Berenholtz, SM, Aboumatar, HJ, Demski, R, Armstrong, CM, Alday, A, Ali, K, Austin, JM, Bailey, L, Barasch, N, Barbosa, A, Bigley, J, Brown, T, Burroughs, T, Cady-Reh, J, Callender, T, Carolan, H, Carrington, P, Chang, B, Che, X, Clay, J, Connors, C, D'Souza, Karen, DiMattina, J, Dietz, A, Edwards, K, Eggleston, P, Fawole, JO, Federowicz, M, Francis, P, Gaines, L, Ghimire, V, Giraldo-Jimenez, M, Goeschel, C, Gould, L, Gurses, A, Hadhazy, E, Hakimian, R, Halligan, C, Hanahan, E, Harden, E, Hartman, V, Hewitt, C, Hill, R, Hobson, D, Hody, R, Huang, S, Ijagbemi, O, Kasda, E, Kent, P, Khunlertkit, A, Kim, G, Kirley, E, Koroleva, E, Lee, ES, Lee, KH, Leslie, J, Leslie, M, Levering, A, Lofthus, J, Lubomski, L, Manfuso, J, Marcellino, L, Mbah, G, McNelis, D, Meiswinkel, B, Ismail, MNM, Naqibuddin, M, Nasarwanji, M, Nelson, D, Peditto, S, Pham, J, Powers, R, Ragsdale, S, Rawat, N, Rees, D, Reinhardt, E, Rosen, M, Ross, E, Sawyer, M, Shah, D, Singer, K, Singer, T, Smith, I, Speck, K, Staneva, V, Swiger, S, Sydnor, T, Tabisz, S, Taylor, K, Thompson, D, Tropello, S, Tsai, T, Tujuba, H, Turco, C, Pronovost, PJ, Holzmueller, CG, Molello, NE, Paine, L, Winner, L, Marsteller, JA, Berenholtz, SM, Aboumatar, HJ, Demski, R, Armstrong, CM, Alday, A, Ali, K, Austin, JM, Bailey, L, Barasch, N, Barbosa, A, Bigley, J, Brown, T, Burroughs, T, Cady-Reh, J, Callender, T, Carolan, H, Carrington, P, Chang, B, Che, X, Clay, J, Connors, C, D'Souza, Karen, DiMattina, J, Dietz, A, Edwards, K, Eggleston, P, Fawole, JO, Federowicz, M, Francis, P, Gaines, L, Ghimire, V, Giraldo-Jimenez, M, Goeschel, C, Gould, L, Gurses, A, Hadhazy, E, Hakimian, R, Halligan, C, Hanahan, E, Harden, E, Hartman, V, Hewitt, C, Hill, R, Hobson, D, Hody, R, Huang, S, Ijagbemi, O, Kasda, E, Kent, P, Khunlertkit, A, Kim, G, Kirley, E, Koroleva, E, Lee, ES, Lee, KH, Leslie, J, Leslie, M, Levering, A, Lofthus, J, Lubomski, L, Manfuso, J, Marcellino, L, Mbah, G, McNelis, D, Meiswinkel, B, Ismail, MNM, Naqibuddin, M, Nasarwanji, M, Nelson, D, Peditto, S, Pham, J, Powers, R, Ragsdale, S, Rawat, N, Rees, D, Reinhardt, E, Rosen, M, Ross, E, Sawyer, M, Shah, D, Singer, K, Singer, T, Smith, I, Speck, K, Staneva, V, Swiger, S, Sydnor, T, Tabisz, S, Taylor, K, Thompson, D, Tropello, S, Tsai, T, Tujuba, H, and Turco, C

Published
2015

6. Corrosion of Heat-Exchange Tubes in a Simulated Coal-Fired MHD System

Author

Bienstock, D., Demski, R. J., and Corey, R. C.

Abstract

An experimental unit was built to burn 125 lb of coal an hour at 4000 deg F in a cyclone burner with oxygen-enriched air preheated to 1500 deg F to ascertain the fireside corrosion problems that might be encountered in the coal-fired MHD generation of power. Potassium carbonate was added to the coal at seed concentrations that would be expected in an MHD combustor. Tubes having a metal composition used in conventional steam generators, and also having a range of alloy compositions that might have potential use in an MHD system, were maintained at surface temperatures of 800–1500 deg F and exposed to products of combustion at 1800–2500 deg F. The seeded flue gas was generally more corrosive than the unseeded. In tests up to 100-hr duration, Haynes 25 was slightly attacked at a wall temperature of 1500 deg F in combustion gas at 2500 deg F; the stainless steels 310, 316, and 446 were resistant at a metal temperature of 1100 deg F in gas at 2100 deg F; carbon steel was attacked at 800 deg F wall temperature and 1800 deg F flue gas.

Published
1971
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11. The Volume and Cost of Quality Metric Reporting.

Author

Saraswathula A, Merck SJ, Bai G, Weston CM, Skinner EA, Taylor A, Kachalia A, Demski R, Wu AW, and Berry SA

Subjects
Humans, Delivery of Health Care economics, Delivery of Health Care standards, Delivery of Health Care statistics & numerical data, Retrospective Studies, Adult, United States epidemiology, Insurance Claim Review economics, Insurance Claim Review standards, Insurance Claim Review statistics & numerical data, Patient Safety economics, Patient Safety standards, Patient Safety statistics & numerical data, Economics, Hospital statistics & numerical data, Hospitals standards, Hospitals statistics & numerical data, Hospitals supply & distribution, Quality Improvement economics, Quality Improvement standards, Quality Improvement statistics & numerical data, Quality of Health Care economics, Quality of Health Care statistics & numerical data, Public Reporting of Healthcare Data
Abstract

Importance: US hospitals report data on many health care quality metrics to government and independent health care rating organizations, but the annual cost to acute care hospitals of measuring and reporting quality metric data, independent of resources spent on quality interventions, is not well known., Objective: To evaluate externally reported inpatient quality metrics for adult patients and estimate the cost of data collection and reporting, independent of quality-improvement efforts., Design, Setting, and Participants: Retrospective time-driven activity-based costing study at the Johns Hopkins Hospital (Baltimore, Maryland) with hospital personnel involved in quality metric reporting processes interviewed between January 1, 2019, and June 30, 2019, about quality reporting activities in the 2018 calendar year., Main Outcomes and Measures: Outcomes included the number of metrics, annual person-hours per metric type, and annual personnel cost per metric type., Results: A total of 162 unique metrics were identified, of which 96 (59.3%) were claims-based, 107 (66.0%) were outcome metrics, and 101 (62.3%) were related to patient safety. Preparing and reporting data for these metrics required an estimated 108 478 person-hours, with an estimated personnel cost of $5 038 218.28 (2022 USD) plus an additional $602 730.66 in vendor fees. Claims-based (96 metrics; $37 553.58 per metric per year) and chart-abstracted (26 metrics; $33 871.30 per metric per year) metrics used the most resources per metric, while electronic metrics consumed far less (4 metrics; $1901.58 per metric per year)., Conclusions and Relevance: Significant resources are expended exclusively for quality reporting, and some methods of quality assessment are far more expensive than others. Claims-based metrics were unexpectedly found to be the most resource intensive of all metric types. Policy makers should consider reducing the number of metrics and shifting to electronic metrics, when possible, to optimize resources spent in the overall pursuit of higher quality.

Published
2023
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12. Establishing a Culture of Patient Safety, Quality, and Service in Plastic Surgery: Integrating the Fractal Model.

Author

Manahan MA, Aston JW, Bello RJ, Siotos C, Demski R, Cooney CM, Pronovost PJ, and Rosson GD

Subjects
Fractals, Humans, Patient Safety, Quality Improvement, Plastic Surgery Procedures, Surgery, Plastic
Abstract

Problem: There are obstacles to effective nationwide implementation of a culture of patient safety. Plastic surgery faces unique challenges in this area because quality measures are not as well-established as in other fields. Plastic surgery may also require emphasis on patient-reported outcomes as a quality-of-life specialty with distinct concomitant analytical methods., Approach: We devised a dynamic framework, based on our 3-year experience using a Comprehensive Unit-Based Safety Program-a formal quality improvement committee structure, literature review, and work from The Johns Hopkins Armstrong Institute for Patient Safety and Quality. This framework is specific and exportable to the field of plastic surgery. Monthly patient safety, quality, and service committee meetings encourage multilevel participation in a bottom-up fashion, while connecting with other departments and entities in Johns Hopkins Medicine. Our model focuses our work in the following four domains: (1) safety, (2) external measures, (3) patient experience, and (4) value. Our framework identifies and communicates clear goals, creates necessary infrastructure, identifies opportunities and needs, uses robust performance to develop and implement interventions, and includes analytics to track improvement plans and results., Outcomes: We have gradually implemented this quality improvement structure into the Johns Hopkins Department of Plastic and Reconstructive Surgery successfully since 2012. Outcomes have improved in externally reported measures of patient safety, quality, and service. We have demonstrated exemplary National Surgical Quality Improvement Program performance for morbidity, return to operating room, and readmission rates. Patient satisfaction surveys show improvement related to the high-level patient experience., Competing Interests: The authors disclose no conflict of interest., (Copyright © 2018 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2021
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13. Next level of board accountability in health care quality.

Author

Pronovost PJ, Armstrong CM, Demski R, Peterson RR, and Rothman PB

Subjects
Ambulatory Care Facilities organization & administration, Home Care Services organization & administration, Hospital Administration, Humans, Organizational Objectives, Patient Safety standards, Quality of Health Care standards, Governing Board organization & administration, Quality of Health Care organization & administration
Abstract

Purpose The purpose of this paper is to offer six principles that health system leaders can apply to establish a governance and management system for the quality of care and patient safety. Design/methodology/approach Leaders of a large academic health system set a goal of high reliability and formed a quality board committee in 2011 to oversee quality and patient safety everywhere care was delivered. Leaders of the health system and every entity, including inpatient hospitals, home care companies, and ambulatory services staff the committee. The committee works with the management for each entity to set and achieve quality goals. Through this work, the six principles emerged to address management structures and processes. Findings The principles are: ensure there is oversight for quality everywhere care is delivered under the health system; create a framework to organize and report the work; identify care areas where quality is ambiguous or underdeveloped (i.e. islands of quality) and work to ensure there is reporting and accountability for quality measures; create a consolidated quality statement similar to a financial statement; ensure the integrity of the data used to measure and report quality and safety performance; and transparently report performance and create an explicit accountability model. Originality/value This governance and management system for quality and safety functions similar to a finance system, with quality performance documented and reported, data integrity monitored, and accountability for performance from board to bedside. To the authors' knowledge, this is the first description of how a board has taken this type of systematic approach to oversee the quality of care.

Published
2018
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14. Implementing a Health System-wide Patient Blood Management Program with a Clinical Community Approach.

Author

Frank SM, Thakkar RN, Podlasek SJ, Ken Lee KH, Wintermeyer TL, Yang WW, Liu J, Rotello LC, Fleury TA, Wachter PA, Ishii LE, Demski R, Pronovost PJ, and Ness PM

Subjects
Blood Transfusion methods, Clinical Decision-Making methods, Community Health Services methods, Delivery of Health Care methods, Humans, Blood Banking methods, Blood Banks standards, Blood Transfusion standards, Community Health Services standards, Delivery of Health Care standards, Hospitals standards
Abstract

Background: Patient blood management programs are gaining popularity as quality improvement and patient safety initiatives, but methods for implementing such programs across multihospital health systems are not well understood. Having recently incorporated a patient blood management program across our health system using a clinical community approach, we describe our methods and results., Methods: We formed the Johns Hopkins Health System blood management clinical community to reduce transfusion overuse across five hospitals. This physician-led, multidisciplinary, collaborative, quality-improvement team (the clinical community) worked to implement best practices for patient blood management, which we describe in detail. Changes in blood utilization and blood acquisition costs were compared for the pre- and post-patient blood management time periods., Results: Across the health system, multiunit erythrocyte transfusion orders decreased from 39.7 to 20.2% (by 49%; P < 0.0001). The percentage of patients transfused decreased for erythrocytes from 11.3 to 10.4%, for plasma from 2.9 to 2.2%, and for platelets from 3.1 to 2.7%, (P < 0.0001 for all three). The number of units transfused per 1,000 patients decreased for erythrocytes from 455 to 365 (by 19.8%; P < 0.0001), for plasma from 175 to 107 (by 38.9%; P = 0.0002), and for platelets from 167 to 141 (by 15.6%; P = 0.04). Blood acquisition cost savings were $2,120,273/yr, an approximate 400% return on investment for our patient blood management efforts., Conclusions: Implementing a health system-wide patient blood management program by using a clinical community approach substantially reduced blood utilization and blood acquisition costs.

Published
2017
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15. Use of Cascading A3s to Drive Systemwide Improvement.

Author

Winner LE, Burroughs TJ, Cady-Reh JA, Hill R, Hody RE, Powers RL, Callender T, Demski R, and Pronovost PJ

Subjects
Humans, Leadership, Outcome and Process Assessment, Health Care, Patient Safety, Safety Management, Work Engagement, Quality Improvement organization & administration, Systems Integration, Total Quality Management organization & administration
Published
2017
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16. Advancing health care quality and safety through action learning.

Author

Mathews S, Golden S, Demski R, Pronovost P, and Ishii L

Subjects
Academic Medical Centers, Health Services Research, Humans, Inservice Training, Catheter-Related Infections prevention & control, Hospital Administration, Intensive Care Units standards, Organizational Culture, Problem-Based Learning, Quality Improvement, Safety Management
Abstract

Purpose The purpose of this study is to demonstrate how action learning can be practically applied to quality and safety challenges at a large academic medical health system and become fundamentally integrated with an institution's broader approach to quality and safety. Design/methodology/approach The authors describe how the fundamental principles of action learning have been applied to advancing quality and safety in health care at a large academic medical institution. The authors provide an academic contextualization of action learning in health care and then transition to how this concept can be practically applied to quality and safety by providing detailing examples at the unit, cross-functional and executive levels. Findings The authors describe three unique approaches to applying action learning in the comprehensive unit-based safety program, clinical communities and the quality management infrastructure. These examples, individually, provide discrete ways to integrate action learning in the advancement of quality and safety. However, more importantly when combined, they represent how action learning can form the basis of a learning health system around quality and safety. Originality/value This study represents the broadest description of action learning applied to the quality and safety literature in health care and provides detailed examples of its use in a real-world context.

Published
2017
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17. Creating a Pediatric Joint Council to Promote Patient Safety and Quality, Governance, and Accountability Across Johns Hopkins Medicine.

Author

Rosen M, Mueller BU, Milstone AM, Remus DR, Demski R, Pronovost PJ, and Miller MR

Subjects
Academic Medical Centers standards, Advisory Committees organization & administration, Documentation standards, Hospitals, Community standards, Hospitals, Pediatric standards, Humans, Infection Control organization & administration, Leadership, Patient Satisfaction, Pediatrics standards, Staff Development organization & administration, Time Factors, Academic Medical Centers organization & administration, Patient Safety standards, Pediatrics organization & administration, Quality Improvement organization & administration, Quality of Health Care organization & administration
Abstract

Background: Large multihospital health systems with multiple children's hospitals are relatively few in number. With a paucity of national pediatric measures for quality and patient safety, there are unique challenges to ensuring consistent levels of care across diverse health care delivery settings. At Johns Hopkins Medicine, a Pediatric Joint Council was created to help ensure high-quality and safe care across a health system encompassing two full-service children's hospitals and two community hospitals with significant pediatric volumes across two states., Approach: Across the health system, a governance, leadership, and management structure was developed to coordinate the quality and safety of patient care throughout the academic health system. Within the pediatric service line, the multidisciplinary Pediatric Joint Council included representation from each pediatric entity and was supported by project managers, quality improvement (QI) team leaders, QI leads from each entity, infection control, and clinical analysts. The Pediatric Joint Council was responsible for setting standards and improvement goals, as well as monitoring and improving performance of pediatric services across the health system and identifying training gaps and research opportunities., Conclusion: The Pediatric Joint Council model, as implemented, provides a focused structure for coordinated efforts across disparate pediatric entities, ensuring horizontal peer learning and entity-specific improvements, as well as vertical lines of accountability and central oversight with shared governance. This model has served to help identify areas in need of pediatric expertise and has facilitated the use of resources from across the entire health system focused on improving pediatric care., (Copyright © 2017 The Joint Commission. Published by Elsevier Inc. All rights reserved.)

Published
2017
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18. A Model for the Departmental Quality Management Infrastructure Within an Academic Health System.

Author

Mathews SC, Demski R, Hooper JE, Biddison LD, Berry SA, Petty BG, Chen AR, Hill PM, Miller MR, Witter FR, Allen L, Wick EC, Stierer TS, Paine L, Puttgen HA, Tamargo RJ, and Pronovost PJ

Subjects
Humans, Leadership, Models, Organizational, Patient Safety, Academic Medical Centers organization & administration, Delivery of Health Care organization & administration, Hospital Departments organization & administration, Quality Assurance, Health Care organization & administration, Quality Improvement organization & administration
Abstract

As quality improvement and patient safety come to play a larger role in health care, academic medical centers and health systems are poised to take a leadership role in addressing these issues. Academic medical centers can leverage their large integrated footprint and have the ability to innovate in this field. However, a robust quality management infrastructure is needed to support these efforts. In this context, quality and safety are often described at the executive level and at the unit level. Yet, the role of individual departments, which are often the dominant functional unit within a hospital, in realizing health system quality and safety goals has not been addressed. Developing a departmental quality management infrastructure is challenging because departments are diverse in composition, size, resources, and needs.In this article, the authors describe the model of departmental quality management infrastructure that has been implemented at the Johns Hopkins Hospital. This model leverages the fractal approach, linking departments horizontally to support peer and organizational learning and connecting departments vertically to support accountability to the hospital, health system, and board of trustees. This model also provides both structure and flexibility to meet individual departmental needs, recognizing that independence and interdependence are needed for large academic medical centers. The authors describe the structure, function, and support system for this model as well as the practical and essential steps for its implementation. They also provide examples of its early success.

Published
2017
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19. From Board to Bedside: How the Application of Financial Structures to Safety and Quality Can Drive Accountability in a Large Health Care System.

Author

Austin JM, Demski R, Callender T, Lee KH, Hoffman A, Allen L, Radke DA, Kim Y, Werthman RJ, Peterson RR, and Pronovost PJ

Subjects
Accounting standards, Clinical Audit, Delivery of Health Care economics, Delivery of Health Care standards, Health Care Sector economics, Health Care Sector organization & administration, Health Services Research, Hospitals standards, Humans, Maryland, Patient Safety, United States, Delivery of Health Care organization & administration, Economics, Hospital, Financial Management, Quality of Health Care
Abstract

Background: As the health care system in the United States places greater emphasis on the public reporting of quality and safety data and its use to determine payment, provider organizations must implement structures that ensure discipline and rigor regarding these data. An academic health system, as part of a performance management system, applied four key components of a financial reporting structure to support the goal of top-to-bottom accountability for improving quality and safety., Four Key Components of a Financial Reporting Structure: The four components implemented by Johns Hopkins Medicine were governance, accountability, reporting of consolidated quality performance statements, and auditing. Governance is provided by the health system's Patient Safety and Quality Board Committee, which reviews goals and strategy for patient safety and quality, reviews quarterly performance for each entity, and holds organizational leaders accountable for performance. An accountability plan includes escalating levels of review corresponding to the number of months an entity misses the defined performance target for a measure. A consolidated quality statement helps inform the Patient Safety and Quality Board Committee and leadership on key quality and safety issues. An audit evaluates the efficiency and effectiveness of processes for data collection, validation, and storage, as to ensure the accuracy and completeness of quality measure reporting., Conclusion: If hospitals and health systems truly want to prioritize improvements in safety and quality, they will need to create a performance management system that ensures data validity and supports performance accountability. Without valid data, it is difficult to know whether a performance gap is due to data quality or clinical quality., (Copyright © 2017 The Joint Commission. Published by Elsevier Inc. All rights reserved.)

Published
2017
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20. Improving healthcare value through clinical community and supply chain collaboration.

Author

Ishii L, Demski R, Ken Lee KH, Mustafa Z, Frank S, Wolisnky JP, Cohen D, Khanna J, Ammerman J, Khanuja HS, Unger AS, Gould L, Wachter PA, Stearns L, Werthman R, and Pronovost P

Subjects
Cooperative Behavior, Cost-Benefit Analysis, Delivery of Health Care standards, Hospitals statistics & numerical data, Humans, Operating Rooms economics, United States, Community Networks economics, Delivery of Health Care methods, Economics, Hospital trends, Equipment and Supplies, Hospital economics
Abstract

Background: We hypothesized that integrating supply chain with clinical communities would allow for clinician-led supply cost reduction and improved value in an academic health system., Methods: Three clinical communities (spine, joint, blood management) and one clinical community-like physician led team of surgeon stakeholders partnered with the supply chain team on specific supply cost initiatives. The teams reviewed their specific utilization and cost data, and the physicians led consensus-building conversations over a series of team meetings to agree to standard supply utilization., Results: The spine and joint clinical communities each agreed upon a vendor capping model that led to cost savings of $3 million dollars and $1.5 million dollars respectively. The blood management decreased blood product utilization and achieved $1.2 million dollars savings. $5.6 million dollars in savings was achieved by a clinical community-like group of surgeon stakeholders through standardization of sutures and endomechanicals., Conclusions: Physician led clinical teams empowered to lead change achieved substantial supply chain cost savings in an academic health system. The model of combining clinical communities with supply chain offers hope for an effective, practical, and scalable approach to improving value and engaging physicians in other academic health systems., Implications: This clinician led model could benefit both private and academic health systems engaging in value optimization efforts., Level of Evidence: N/A., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2017
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21. Redefining Accountability in Quality and Safety at Academic Medical Centers.

Author

Mathews SC, Demski R, and Pronovost PJ

Subjects
Academic Medical Centers standards, Communication, Humans, Leadership, Organizational Innovation, Outcome and Process Assessment, Health Care, Patient Satisfaction, Professional Role, Quality of Health Care standards, Academic Medical Centers organization & administration, Organizational Culture, Patient Safety, Quality of Health Care organization & administration
Published
2016
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22. Relative impact of a patient blood management program on utilization of all three major blood components.

Author

Thakkar RN, Lee KH, Ness PM, Wintermeyer TL, Johnson DJ, Liu E, Rajprasad A, Knight AM, Wachter PA, Demski R, and Frank SM

Subjects
Adult, Aged, Algorithms, Blood Component Transfusion economics, Chi-Square Distribution, Erythrocyte Transfusion economics, Erythrocyte Transfusion methods, Erythrocyte Transfusion statistics & numerical data, Female, Humans, Male, Middle Aged, Platelet Transfusion economics, Platelet Transfusion methods, Platelet Transfusion statistics & numerical data, Retrospective Studies, Sex Factors, Blood Component Transfusion methods, Blood Component Transfusion statistics & numerical data
Abstract

Background: Although patient blood management (PBM) programs clearly reduce transfusion overuse, the relative impact on red blood cell (RBC), plasma, and platelet (PLT) utilization is unclear., Study Design and Methods: A retrospective analysis of electronic records was conducted at a medium-sized academic hospital to assess blood utilization for all inpatients admitted during 1-year periods before (n = 20,531) and after (n = 19,477) PBM efforts began in September 2014. Transfusion guideline compliance and overall utilization were assessed for RBCs, plasma, and PLTs. The primary PBM efforts included education on evidence-based transfusion guidelines, decision support in the computerized provider order entry system, and distribution of provider-specific reports showing comparison to peers for guideline compliance. Cost avoidance was determined by two methods (acquisition cost and activity-based cost), and clinical outcomes were compared during the two periods., Results: For RBCs, orders outside hospital guidelines decreased (from 23.9% to 17.1%, p < 0.001), and utilization decreased by 12% (p < 0.035). For plasma and PLTs, both orders outside guidelines and utilization changed minimally. Overall cost avoidance was $181,887/year by acquisition cost (and from $582,039 to $873,058/year by activity-based cost), 93% of which was attributed to reduction in RBC utilization. Length of stay, morbidity, and mortality were unchanged., Conclusions: Our findings demonstrate a greater opportunity for reducing RBC compared to plasma and PLT utilization. A properly implemented PBM program has potential to reduce unnecessary transfusions and their associated risk and costs, without compromising clinical outcomes., (© 2016 AABB.)

Published
2016
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24. Establishing an Ambulatory Medicine Quality and Safety Oversight Structure: Leveraging the Fractal Model.

Author

Kravet SJ, Bailey J, Demski R, and Pronovost P

Subjects
Academic Medical Centers organization & administration, Ambulatory Care organization & administration, Fractals, Humans, Maryland, Models, Organizational, Quality of Health Care organization & administration, Academic Medical Centers standards, Ambulatory Care standards, Patient Safety standards, Quality of Health Care standards
Abstract

Problem: Academic health systems face challenges in the governance and oversight of quality and safety efforts across their organizations. Ambulatory practices, which are growing in number, size, and complexity, face particular challenges in these areas., Approach: In February 2014, leaders at Johns Hopkins Medicine (JHM) implemented a governance, oversight, and accountability structure for quality and safety efforts across JHM ambulatory practices. This model was based on the fractal approach, which balances independence and interdependence and provides horizontal and vertical support. It set expectations of accountability at all levels from the Board of Trustees to frontline staff and featured a cascading structure that reached all units and ambulatory practices. This model leveraged an Ambulatory Quality Council led by a physician and nurse dyad to provide the infrastructure to share best practices, continuously improve, and define accountable local leaders., Outcomes: This model was incorporated into the quality and safety infrastructure across JHM. Improved outcomes in the domains of patient safety/risk reduction, externally reported quality measures, patient care/experience, and value have been demonstrated. An additional benefit was an improvement in Medicaid value-based purchasing metrics, which are linked to several million dollars of revenue., Next Steps: As this model matures, it will serve as a mechanism to align quality standards and programs across regional, national, and international partners and to provide a clear quality structure as new practices join the health system. Future efforts will link this model to JHM's academic mission, enhancing education to address Accreditation Council for Graduate Medical Education core competencies.

Published
2016
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25. A Model for Integrating Ambulatory Surgery Centers Into an Academic Health System Using a Novel Ambulatory Surgery Coordinating Council.

Author

Ishii L, Pronovost PJ, Demski R, Wylie G, and Zenilman M

Subjects
Humans, Maryland, Patient Safety, Quality of Health Care organization & administration, Academic Medical Centers organization & administration, Models, Organizational, Surgicenters organization & administration
Abstract

Problem: An increasing volume of ambulatory surgeries has led to an increase in the number of ambulatory surgery centers (ASCs). Some academic health systems have aligned with ASCs to create a more integrated care delivery system. Yet, these centers are diverse in many areas, including specialty types, ownership models, management, physician employment, and regulatory oversight. Academic health systems then face challenges in integrating these ASCs into their organizations., Approach: Johns Hopkins Medicine created the Ambulatory Surgery Coordinating Council in 2014 to manage, standardize, and promote peer learning among its eight ASCs. The Armstrong Institute for Patient Safety and Quality provided support and a model for this organization through its quality management infrastructure. The physician-led council defined a mission and created goals to identify best practices, uniformly provide the highest-quality patient-centered care, and continuously improve patient outcomes and experience across ASCs., Outcomes: Council members built trust and agreed on a standardized patient safety and quality dashboard to report measures that include regulatory, care process, patient experience, and outcomes data. The council addressed unintentional outcomes and process variation across the system and agreed to standard approaches to optimize quality. Council members also developed a process for identifying future goals, standardizing care practices and electronic medical record documentation, and creating quality and safety policies., Next Steps: The early success of the council supports the continuation of the Armstrong Institute model for physician-led quality management. Other academic health systems can learn from this model as they integrate ASCs into their complex organizations.

Published
2016
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27. CLABSI Conversations: Lessons From Peer-to-Peer Assessments to Reduce Central Line-Associated Bloodstream Infections.

Author

Pham JC, Goeschel CA, Berenholtz SM, Demski R, Lubomski LH, Rosen MA, Sawyer MD, Thompson DA, Trexler P, Weaver SJ, Weeks KR, and Pronovost PJ

Subjects
Clinical Protocols, Communication, Humans, Inservice Training organization & administration, Leadership, Program Evaluation, Catheter-Related Infections prevention & control, Cross Infection prevention & control, Infection Control organization & administration, Intensive Care Units organization & administration
Abstract

A national collaborative helped many hospitals dramatically reduce central line-associated bloodstream infections (CLABSIs), but some hospitals struggled to reduce infection rates. This article describes the development of a peer-to-peer assessment process (CLABSI Conversations) and the practical, actionable practices we discovered that helped intensive care unit teams achieve a CLABSI rate of less than 1 infection per 1000 catheter-days for at least 1 year. CLABSI Conversations was designed as a learning-oriented process, in which a team of peers visited hospitals to surface barriers to infection prevention and to share best practices and insights from successful intensive care units. Common practices led to 10 recommendations: executive and board leaders communicate the goal of zero CLABSI throughout the hospital; senior and unit-level leaders hold themselves accountable for CLABSI rates; unit physicians and nurse leaders own the problem; clinical leaders and infection preventionists build infection prevention training and simulation programs; infection preventionists participate in unit-based CLABSI reduction efforts; hospital managers make compliance with best practices easy; clinical leaders standardize the hospital's catheter insertion and maintenance practices and empower nurses to stop any potentially harmful acts; unit leaders and infection preventionists investigate CLABSIs to identify root causes; and unit nurses and staff audit catheter maintenance policies and practices.

Published
2016
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28. Sustaining Reliability on Accountability Measures at The Johns Hopkins Hospital.

Author

Pronovost PJ, Holzmueller CG, Callender T, Demski R, Winner L, Day R, Austin JM, Berenholtz SM, and Miller MR

Subjects
Communication, Humans, Joint Commission on Accreditation of Healthcare Organizations, Process Assessment, Health Care, Staff Development, Total Quality Management organization & administration, United States, Hospital Administration standards, Patient Safety, Quality Improvement organization & administration, Quality Indicators, Health Care
Abstract

Background: In 2012 Johns Hopkins Medicine leaders challenged their health system to reliably deliver best practice care linked to nationally vetted core measures and achieve The Joint Commission Top Performer on Key Quality Measures ®program recognition and the Delmarva Foundation award. Thus, the Armstrong Institute for Patient Safety and Quality implemented an initiative to ensure that ≥96% of patients received care linked to measures. Nine low-performing process measures were targeted for improvement-eight Joint Commission accountability measures and one Delmarva Foundation core measure. In the initial evaluation at The Johns Hopkins Hospital, all accountability measures for the Top Performer program reached the required ≥95% performance, gaining them recognition by The Joint Commission in 2013. Efforts were made to sustain performance of accountability measures at The Johns Hopkins Hospital., Methods: Improvements were sustained through 2014 using the following conceptual framework: declare and communicate goals, create an enabling infrastructure, engage clinicians and connect them in peer learning communities, report transparently, and create accountability systems. One part of the accountability system was for teams to create a sustainability plan, which they presented to senior leaders. To support sustained improvements, Armstrong Institute leaders added a project management office for all externally reported quality measures and concurrent reviewers to audit performance on care processes for certain measure sets., Conclusions: The Johns Hopkins Hospital sustained performance on all accountability measures, and now more than 96% of patients receive recommended care consistent with nationally vetted quality measures. The initiative methods enabled the transition of quality improvement from an isolated project to a way of leading an organization.

Published
2016
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29. The Armstrong Institute: An Academic Institute for Patient Safety and Quality Improvement, Research, Training, and Practice.

Author

Pronovost PJ, Holzmueller CG, Molello NE, Paine L, Winner L, Marsteller JA, Berenholtz SM, Aboumatar HJ, Demski R, and Armstrong CM

Subjects
Baltimore, Humans, Leadership, Academic Medical Centers, Academies and Institutes, Delivery of Health Care, Patient Safety, Quality Improvement, Quality of Health Care, Research
Abstract

Academic medical centers (AMCs) could advance the science of health care delivery, improve patient safety and quality improvement, and enhance value, but many centers have fragmented efforts with little accountability. Johns Hopkins Medicine, the AMC under which the Johns Hopkins University School of Medicine and the Johns Hopkins Health System are organized, experienced similar challenges, with operational patient safety and quality leadership separate from safety and quality-related research efforts. To unite efforts and establish accountability, the Armstrong Institute for Patient Safety and Quality was created in 2011.The authors describe the development, purpose, governance, function, and challenges of the institute to help other AMCs replicate it and accelerate safety and quality improvement. The purpose is to partner with patients, their loved ones, and all interested parties to end preventable harm, continuously improve patient outcomes and experience, and eliminate waste in health care. A governance structure was created, with care mapped into seven categories, to oversee the quality and safety of all patients treated at a Johns Hopkins Medicine entity. The governance has a Patient Safety and Quality Board Committee that sets strategic goals, and the institute communicates these goals throughout the health system and supports personnel in meeting these goals. The institute is organized into 13 functional councils reflecting their behaviors and purpose. The institute works daily to build the capacity of clinicians trained in safety and quality through established programs, advance improvement science, and implement and evaluate interventions to improve the quality of care and safety of patients.

Published
2015
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30. Initiating an Enhanced Recovery Pathway Program: An Anesthesiology Department's Perspective.

Author

Wu CL, Benson AR, Hobson DB, Roda CP, Demski R, Galante DJ, Page AJ, Pronovost PJ, and Wick EC

Subjects
Baltimore, Critical Pathways economics, Digestive System Surgical Procedures economics, Digestive System Surgical Procedures methods, Hospitals, University, Humans, Length of Stay statistics & numerical data, Pain Management methods, Patient Satisfaction, Anesthesiology organization & administration, Critical Pathways organization & administration, Perioperative Care economics, Perioperative Care methods
Abstract

Background: Enhanced recovery pathways (ERPs) for surgical patients may reduce variation in care and improve perioperative outcomes. Mainstays of ERPs are standardized perioperative pathways. At The Johns Hopkins Hospital (Baltimore), an integrated ERP was proposed to further reduce the surgical site infection rate and the longer-than-expected hospital length of stay in colorectal surgery patients., Methods: To develop the technical components of the anesthesia pathway, evidence on enhanced recovery was reviewed and the limitations of the hospital infrastructure and policies were considered. The goals of the perioperative anesthesiology pathway were achieving superior analgesia, minimizing postoperative nausea and vomiting, facilitating patient recovery, and preserving perioperative immune function. ERP was implemented in phases during a 30-day period, starting with the anesthesiology elements and followed by the pre- and postoperative surgical team processes. The perioperative anesthetic regimen was tailored to meet the goal of preservation of perioperative immune function (in an attempt to decrease surgical site infection and cancer recurrence), in part by minimizing perioperative opioid use., Results: After six months of exposure to all ERP elements, a 45% reduction in length of stay was observed among colorectal surgery patients. In addition, patient satisfaction scores for this cohort of patients improved from the 37th percentile preimplementation to >97th percentile postimplementation., Conclusions: Development of an ERP requires collaboration among surgeons, anesthesiologists, and nurses. Thoughtful, collaborative pathway development and implementation, with recognition of the strengths and weakness of the existing surgical health care delivery system, should lead to realization of early improvement in outcomes.

Published
2015
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31. Creating a high-reliability health care system: improving performance on core processes of care at Johns Hopkins Medicine.

Author

Pronovost PJ, Armstrong CM, Demski R, Callender T, Winner L, Miller MR, Austin JM, Berenholtz SM, Yang T, Peterson RR, Reitz JA, Bennett RG, Broccolino VA, Davis RO, Gragnolati BA, Green GE, and Rothman PB

Subjects
Academic Medical Centers, Adult, Asthma therapy, Child, Heart Failure therapy, Hospitalization, Hospitals, Community, Humans, Maryland, Myocardial Infarction therapy, Perioperative Care, Pneumonia therapy, Delivery of Health Care organization & administration, Process Assessment, Health Care, Quality Improvement organization & administration
Abstract

In this article, the authors describe an initiative that established an infrastructure to manage quality and safety efforts throughout a complex health care system and that improved performance on core measures for acute myocardial infarction, heart failure, pneumonia, surgical care, and children's asthma. The Johns Hopkins Medicine Board of Trustees created a governance structure to establish health care system-wide oversight and hospital accountability for quality and safety efforts throughout Johns Hopkins Medicine. The Armstrong Institute for Patient Safety and Quality was formed; institute leaders used a conceptual model nested in a fractal infrastructure to implement this initiative to improve performance at two academic medical centers and three community hospitals, starting in March 2012. The initiative aimed to achieve ≥ 96% compliance on seven inpatient process-of-care core measures and meet the requirements for the Delmarva Foundation and Joint Commission awards. The primary outcome measure was the percentage of patients at each hospital who received the recommended process of care. The authors compared health system and hospital performance before (2011) and after (2012, 2013) the initiative. The health system achieved ≥ 96% compliance on six of the seven targeted measures by 2013. Of the five hospitals, four received the Delmarva Foundation award and two received The Joint Commission award in 2013. The authors argue that, to improve quality and safety, health care systems should establish a system-wide governance structure and accountability process. They also should define and communicate goals and measures and build an infrastructure to support peer learning.

Published
2015
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32. Demonstrating high reliability on accountability measures at the Johns Hopkins Hospital.

Author

Pronovost PJ, Demski R, Callender T, Winner L, Miller MR, Austin JM, and Berenholtz SM

Subjects
Baltimore, Hospital Administration standards, Humans, Leadership, Models, Organizational, Organizational Case Studies, Organizational Culture, Organizational Innovation, Patient Safety standards, Quality Improvement, Hospitals standards, Quality of Health Care organization & administration
Abstract

Background: Patients continue to suffer preventable harm from the omission of evidence-based therapies. To remedy this, The Joint Commission developed core measures for therapies with strong evidence and, through the Top Performer on Key Quality Measures program, recognize hospitals that deliver those therapies to 95% of patients. The Johns Hopkins Medicine board of trustees committed to high reliability and to providing > or = 96% of patients with the recommended therapies., Methods: The Armstrong Institute for Patient Safety and Quality coordinated the core measures initiative, which targeted nine process measures for the 96% performance goal: eight Joint Commission accountability measures and one Delmarva Foundation core measure. A conceptual model for this initiative included communicating goals, building capacity with Lean Sigma methods, transparently reporting performance and establishing an accountability plan, and developing a sustainability plan. Clinicians and quality improvement staff formed one team for each targeted process measure, and Armstrong Institute staff supported the teams work. The primary performance measure was the percentage of patients who received the recommended process of care, as defined by the specifications for each of The Joint Commission's accountability measures., Results: The > or = 96% performance goal was achieved for 82% of the measures in 2011 and 95% of the measures in 2012., Conclusions: With support from leadership and a conceptual model to communicate goals, use robust improvement methods, and ensure accountability, The Johns Hopkins Hospital achieved high reliability for The Joint Commission accountability measures.

Published
2013
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33. Paying the piper: investing in infrastructure for patient safety.

Author

Pronovost PJ, Rosenstein BJ, Paine L, Miller MR, Haller K, Davis R, Demski R, and Garrett MR

Subjects
Baltimore, Hospitals, University standards, Humans, Organizational Case Studies, Organizational Culture, Hospitals, University organization & administration, Process Assessment, Health Care, Safety Management
Abstract

Background: Although the best allocation of resources is unknown, there is general agreement that improvements in safety require an organization-level safety culture, in which leadership humbly acknowledges safety shortcomings and allocates resources at the patient care and unit levels to identify and mitigate risks. Since 2001, the Johns Hopkins Hospital has increased its investment in human capital at the patient care, unit/team, and organization levels to improve patient safety., Patient Care Level: An inadequate infrastructure, both technical and human, has prompted health care organizations to rely on nurses to help implement new safety programs and to enforce new policies because hospital leaders often have limited ability to disseminate or enforce such changes with the medical staff., Unit or Team Level: At the team or nursing unit level, there is little or no infrastructure to develop, implement, and monitor safety projects. There is limited unit-level support for safety projects, and the resources that are allocated come from overtaxed department budgets., Organization Level: HOSPITAL LEVEL AND HEALTH SYSTEM: Infrastructure is needed to design, implement, and evaluate the following domains of work-measuring progress in patient safety, translating evidence into practice, identifying and mitigating hazards, improving culture and communication, and identifying an infrastructure in the organization for patient safety efforts., Reflections: Fulfilling a commitment to safe and high-quality care will not be possible without significant investment in patient safety infrastructure. Health care organizations will need to determine the cost-benefit ratio of various investments in patient safety. Yet, predicating safety efforts on the mistaken belief in a short-term return on investments will stall patient safety efforts.

Published
2008
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34. Childhood hearing loss.

Author

Demski RS

Subjects
Child, Humans, Music, Noise adverse effects, Hearing Loss, Noise-Induced etiology
Published
1988

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