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QI Theory: Quality Improvement in the Hospital Goals for this Primer

QI Theory: Quality Improvement in the Hospital Goals for this Primer. Understand fundamental concepts in quality improvement Identify the environment and key steps for a successful quality improvement project Become familiar with several quality improvement tools and their use . Progress.

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QI Theory: Quality Improvement in the Hospital Goals for this Primer

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  1. QI Theory:Quality Improvement in the HospitalGoals for this Primer • Understand fundamental concepts in quality improvement • Identify the environment and key steps for a successful quality improvement project • Become familiar with several quality improvement tools and their use

  2. Progress Patient care Time Quality Improvement: Bridging the Implementation Gap How good is American healthcare?

  3. Progress Patient care Time Quality Improvement: Bridging the Implementation Gap We get it right 54% of the time. -Brent James, MD, MStat Executive Director, Intermountain Health Care

  4. Scientific understanding Implementation Gap Progress Patient care Time Quality Improvement: Bridging the Implementation Gap

  5. Hospitalists and Quality Improvement • Complex process problems need multidisciplinary solutions • We are at the frontlines seeing system failures, process errors, and performance gaps with our own eyes -- which is our competitive advantage • Improved quality delivers: • better patient care… • at lower costs… • with potentially higher reimbursements (pay-for-performance)… And it can make our jobs more interesting, fun, and rewarding.

  6. Section I: Quality Improvement and Change in the Hospital Atmosphere

  7. Definition of Quality • Meeting the needs and exceeding the expectations of those we serve • Delivering all and only the care that the patient and family needs

  8. “Definition” of Improvement It is NOT… • yelling at people to work harder, faster, or safer • creating order sets or protocols and then failing to monitor their use or effect • traditional Quality Assurance • research (but they can co-exist nicely)

  9. Principle #1:Improvement Requires Change Every system is perfectly designed to achieve exactly the results it gets To improve the system, change the system…

  10. Principle #2:Less is More You cannot destroy productivity When changing the system, keep it simple

  11. Illustrating Principle #2: Less Is MoreProbability of Performing Perfectly

  12. Understanding Change in the Hospital Atmosphere • Change = not just doing something different, but engineering something different • at least one step in at least one process • Hospital Atmosphere = hospitals tend to be viscous, complex systems with default levels of performance • change engineered to improve performance can be a foreign concept - or even overtly resisted

  13. Understanding Change in the Hospital Atmosphere A Common Strategy Which Commonly Fails: • Experts design a comprehensive protocol using EBM over several months • Protocol is presented as a finished, stand alone product • Customization of protocol is discouraged • Compliance depends on vigilance and hard work • Monitoring for success or failure is the exception to the rule (with failures coming to light after patients are harmed) • Flawed implementation leads to repetitive efforts down the road

  14. Understanding Change in the Hospital Atmosphere High-Reliability Strategies Commonly Succeed: • Build a “decision aide” or reminder into the system • Make the desired action the default action (not doing the desired action requires opting out) • Build redundancy into responsibilities (e.g. if one person in the chain overlooks it, someone else will catch it) • Schedule steps to occur at known intervals or events • Standardize a process so that deviation feels weird • Take advantage of work habits or reliable patterns of behavior Build at least one - if not more - of these high-reliability strategies into any changed process.

  15. Understanding Change in the Hospital Atmosphere Change engineered to drive improvement depends on… • Workplace Culture: personnel must be receptive to change • Awareness: administrative and medical staffs must care about performance and support its improvement through change • Evidence: local experts must identify which research to translate into practice • Experience: a skilled team must choose, implement, and follow up changes to ensure: 1) improvement efforts are ongoing and yielding better performance 2) productivity is preserved

  16. An Atmosphere for Change

  17. An Atmosphere for Change AWARENESS OFTHE LOCAL PERFORMANCE GAP Patient Medical Staff Hospital Administration  Patient At mercy and increasingly aware of underperforming status quo Now can access a new resource promoting transparency in hospital performance: www.hospitalcompare.hhs.gov  Hospital Administration Understands status quo is unacceptable (IOM, Leapfrog, NQF, JCAHO) Sees fiscal health tied to performance against national benchmarks, ability to reduce costs & LOS, improve margins, and competitive reputation in the community  Medical Staff Has professional responsibility to improve Knows all too well where system fails Recognizes that professional livelihood will depend on paying attention to outcomes: Pay-for-Performance

  18. An Atmosphere for Change EXPERIENCE WITHSIMILAR IMPROVEMENTEFFORTS Hospitalist Team Facilitator Multidisciplinary Team Members Successful Strategies Used By Others Hospitalist Team Facilitator Technical expert on Quality Improvement theory and tools Owns the team process, enforces ground rules, helps judge feasibility Teaches the team while doing Multidisciplinary Team Members Chosen for hands-on, fundamental knowledge of key processes Inclusive, open, & consensus seeking Impact not only the change(s) but the implementation Successful Strategies Used By Others Learn from mistakes of others Adapt successes of others (tools and methods): steal shamelessly Get specific advice in ’Ask the Expert’ forums or other consortiums that collect and share experience

  19. An Atmosphere for Change EVIDENCE TO TRANSLATE INTO PRACTICE “Bedside” Teaching Didactic Teaching Sessions Local Expertise in Disease Literature “Bedside” Teaching To an audience of residents or students To build cadre of “experts” (and to help meet ACGME requirements) Download teaching pearls from SHM resource rooms  Local Expertise in Disease Literature Decide what changes to make based on the level of evidence Establishes team’s credibility Extends team’s authority when local sub-specialists or experts participate in selecting and implementing change  Didactic Teaching Sessions To an audience of peers, administrators, nurses, or support staff To boost awareness, knowledge, enthusiasm, and support Download slide sets from SHM resource rooms 

  20. An Atmosphere for Change WORKPLACE CULTURE READY TO ACCEPT CHANGE Task Load Culture of Improvement vs. Culture of Negative Expectations Task Load Be sensitive about piling new tasks onto over-tasked personnel Use the input of personnel who will be responsibile for implementing Make it easy and desirable to do the right thing  Culture of Negative Expectations Overcome it, one person and one project at a time Attach pride to balance between performance successes and failures Consider using a ‘cultural survey’ to identify problems and address them through proper channels  Culture of Improvement Extend it, one person and one project at a time Advertise successes Use or adapt this online ‘cultural survey:’ http://www.patientsafetygroup.org/program/step1c.cfm 

  21. Section II: The Multidisciplinary Team

  22. The Driving Force for Change THEMULTIDISCIPLINARYTEAM Leverages frontline expertise and experience. Impacts not only the change/interventions, but also the implementation

  23. The Driving Force for Change: The Multidisciplinary Team A team is not the same as a committee… Committee • individuals bring representation • productive capacity = single most able member Team • individuals bring fundamental knowledge • productive capacity = synergistic (more than the sum of all individual team members together)

  24. The Driving Force for Change: The Multidisciplinary Team Features of a good team… • Safe (no ad hominem attacks) • Inclusive (values all potential contributors including diverse views; not a clique) • Open (considers all ideas fairly) • Consensus seeking

  25. The Driving Force for Change: The Multidisciplinary Team Consensus… • definition: finding a solution acceptable enough that all members can support it; no member opposes it • It is not: • A unanimous vote (consensus may not represent everyone’s first priorities) • A majority vote (in a majority vote, only the majority gets something they are happy with; people in the minority may get something they don’t want at all, which is not what consensus is all about) • Everyone totally satisfied

  26. The Driving Force for Change: The Multidisciplinary Team Three types of team members… 1) Team Leader 2) Team Facilitator 3) Process Owners (members with operational, hands-on fundamental knowledge of the process)

  27. The Driving Force for Change: The Multidisciplinary Team Team Leader… • schedules and chairs team meetings • sets the agenda (printed at each meeting) • records team activities (working documents in binder) • reports to management (Steering Team) • often a member of Steering Team

  28. The Driving Force for Change: The Multidisciplinary Team Team Facilitator… • owns the team process (enforces ground rules) • technical expert on QI theory and tools • assists Team Leader • teaches while doing, within team

  29. The Driving Force for Change: The Multidisciplinary Team Process Owners… • chosen for fundamental knowledge • will help implement • should become leaders (so choose wisely)

  30. The Driving Force for Change: The Multidisciplinary Team Team Ground Rules… • All team members and opinions are equal • Team members will speak freely and in turn • We will listen attentively to others • Each must be heard • No one may dominate • Problems will be discussed, analyzed, or attacked (not people) • All agreements are kept unless renegotiated • Once we agree, we will speak with "One Voice" (especially after leaving the meeting) • Honesty before cohesiveness • Consensus vs. democracy: each gets his say, not his way • Silence equals agreement • Members will attend regularly • Meetings will start and end on time

  31. A Brief Digression into Quality Improvement Theory

  32. Will the team target ‘all’ patients in the inpatient bell curve, or just a sub-group considered ‘at-risk’ (depicted in the outlying tail)? Is the quality of inpatient care which is not in the tail somehow ‘acceptable?’ After Defining an Approach to Change Before Quality Assurance Bell Curve: Inpatient Population Tail worse better Quality

  33. If the team can identify and define an inpatient sub-group ‘at-risk,’ then improvement efforts could conceivably focus just on these ‘at-risk’ patients - this is similar to traditional Quality Assurance. Note that even if tail events are eliminated, the quality of care for the rest of the inpatient population (depicted by the unchanged position and shape of the bell curve) does not improve at all. While the mean does move toward better care, this is due only to eliminating statistical outliers. After After Defining an Approach to Change Before Quality Assurance Quality Bell Curve: Inpatient Population worse better Quality Tail worse better Quality

  34. If the team identifies a performance gap applicable to a wider patient population, the team may design changes in processes with the potential for dramatic effect: improvement and standardization in processes reduces variation (narrows the curve) and raises quality of care for all (shifts entire curve toward better care). This radical change is what defines Quality Improvement. After After Defining an Approach to Change Before Quality Assurance Quality Bell Curve: Inpatient Population worse better Quality Tail Quality Improvement better worse better Quality Quality worse better Quality

  35. Section III: Tools for Engineering Change

  36. Engineering Change • Hospitals have two dynamic levels impacting performance: 1) Processes • tasks performed in series or in parallel, impacting patient care and potentially patient outcomes 2) Personnel • skilled people with hearts and minds, with variable levels of attention, time, and expertise

  37. Engineering Change: What Variables Impact Quality Outcomes of Care? Structure Processes Outcomes of Care Outputs Inputs Steps • Inventory Methods • Coordination • Physician orders • Nursing Care • Ancillary staff • Housekeeping • Transport • Physiologic • parameters • Functional status • Satisfaction • Cost • Patients • Equipment • Supplies • Training • Environment

  38. Personnel Engineering Change: What Variables Impact Quality Outcomes of Care? The two most dynamic levels impacting performance Processes Steps • Inventory Methods • Coordination • Physician orders • Nursing Care • Ancillary staff • Housekeeping • Transport

  39. Engineering Change • Processes • all those affecting relevant aspects of patient care • clinical decision making, order writing, admission intake, medication delivery, direct patient care, discharge planning, PCP communication, discharge follow-up, etc

  40. Engineering Change • Personnel • anybody who touches the patient or a relevant process in the system • departments, physicians, clerks, pharmacy, nursing, RT, PT/OT/ST, care technicians, phlebotomist, patient transport, administration

  41. Engineering Change: The Multidisicplinary Team Asks “What?” • What? • is the right thing to do? • will make the system more effective?

  42. Engineering Change: The Multidisicplinary Team Asks “Where?” • Where? • are the processes to improve? • Brainstorming • Multivoting & nominal group technique • Affinity grouping • do we start? (dissect and understand the processes) • Cause and effect diagrams (Ishikawa or ‘fishbone’ diagrams) • Tally sheets • Pareto charts • Flow (conceptual flow, decision flow) charts • Run charts • SPC charts • Scatter charts

  43. Tools for Engineering Change: Cause-and-Effect Diagram • sometimes also called a ‘fishbone’ or Ishikawa diagram • graphically displays list of possible factors, focused on one topic or objective • used to quickly organize and categorize ideas during a brainstorming session, often as an interactive part of the session itself (the added organization can help produce balanced ideas during a brainstorming session)

  44. Tools for Engineering Change: Cause-and-Effect Diagram Example: Adverse Drug Events (ADE) Drug Administration Errors Ordering Errors Physician Nurse Pharmacy Physician Nurse/Clerk Pharmacist Transcribing Rate Dilution Place outcome here Spelling Dosage Route Time Route Scheduling Nurse Order Missed Wrong Drug Dose ADE Age Unforeseen Weight Psychiatric Gender Expected Drug/Drug Renal Electrolyte Cognitive Pharmacokinetics Drug/Food Past Allergic Reaction Compliance Hepatic Drug/Lab Pharmacodyamics Absorption Race Patient Errors Physiologic Factors Pharmocologic Factors Pharmacist Patient Physician Patient Dietician

  45. Tools for Engineering Change: Pareto Chart • graphical display of the relative weights or frequencies of competing events, choices, or options • a bar chart, sorted from greatest to smallest, that summarizes the relative frequencies of events, choices, or options within a class • often includes a cumulative total line • used to focus within a broad category containing many choices, based on factual or opinion-based information • can combine factors that contribute to each item's practical significance

  46. 100 90 80 70 60 50 Percent 40 30 20 10 0 Causes Tools for Engineering Change: Pareto Chart Causes Contributing to Adverse Drug Events Contributing Causes

  47. Tools for Engineering Change: Sketching Processes or Flow • Macro Process Maps • Decision Flow Diagrams

  48. Tools for Engineering Change: Macro Process Map Example: Heart Failure Core Measures 2-3

  49. Tools for Engineering Change: Decision Flow Diagram Contributing layer dissected: Prevention Contributing layer dissected: Prophylactic Antibiotics For iatrogenic infections, any given type of infection can be dissected into the hierarchy of contributing layers. Calling out the contributing layers helps the team think through the steps ripest for change.

  50. Tools for Engineering Change: Run Charts • Our brains understand graphics better than tables • Tabular information doesn’t convey trends over time very well • Keep it simple • In center of horizontal axis place: baseline mean performance • In center of vertical axis place: implementation point • Can add upper and lower control limits, but usually not needed

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