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COLLABORATIVE CASE MANAGEMENT CO N T I N U I N G E D U C AT I O N C R E D I TS I N T H I S I S S U E ! A Publication for Health Care Delivery System Professionals FA L L 2 014 • VO L U M E T H E 11, I S S U E 0 6 • ISSN 2328-448X M I S S I N G P I E C E : Implementation and Impact of a Complex Discharge Team T H E O F F I C I A L P U B L I C AT I O N O F T H E A M E R I C A N C A S E M A N A G E M E N T A S S O C I AT I O N FALL 2014 • VOLUME 11 • ISSUE 06 COLLABORATIVE CASE MANAGEMENT 4 Implementation and Impact of a Complex Discharge Team Theresa Horowitz, MSW, LCSW, CTSBP Jessica Soos Pawlowski, MA, LCSW, ACM PUBLISHER L. Greg Cunningham, MHA CEO ACMA / Little Rock, AR [email protected] EDITOR Tyler Neese Director, Public Policy and Communications ACMA / Little Rock, AR [email protected] EDITORIAL BOARD Reggie Allen, MBA, RN System Director, Clinical Operations CHRISTUS Health • Irving, TX Paul Arias, RN, BSN, MIS Clinical Services Head/Site Lead ActiveHealth Management • Chantilly, VA Frank B. Bellamy, RN, MSN, ACM Interim Director, Case Management Rockford Memorial Hospital • Rockford, IL Colleen Booz Dittrich, LMSW, CCM Manager, Case Management The University of Kansas Hospital • Kansas City, KS 7 SWOT Analysis of Case Management Models at Three Hospitals Allen Gibson, LMSW Joan Brueggeman, RN, BSN, CPUM Clinical Manager, Utilization Management and Care Coordination Gundersen Health System • La Crosse, WI Dani Hackner, MD Medical Director, Case Management Cedars-Sinai Medical Center • Los Angeles, CA Timothy Morrison, LCSW, ACM Director, Clinical Support Services Stanford Hospital and Clinics • Stanford, CA 13 Form Over Substance: CMS Reconsiders Certification Requirement for All Inpatient Hospital Admissions Jessica L. Gustafson, Esq. Abby Pendleton, Esq. 16 Building the Foundation to Reduce Readmissions for Heart Failure Gail Serralta, RN, BSN, CCM, CMAC Michelle Hendricks, RN, BSN “Case management in hospital and health care systems is a collaborative practice model including patients, nurses, social workers, physicians, other practitioners, caregivers and the community. The case management process encompasses communication and facilitates care along a continuum through effective resource coordination. The goals of case management include the achievement of optimal health, access to care and appropriate utilization of resources, balanced with the patient’s right to self-determination.” Approved by ACMA membership, November 2002 Ann Scotti, LCSW, ACM Director, Care Coordination St. Peter’s University Hospital • New Brunswick, NJ Nancy Sullivan, MBA, CMAC Director, Case Management Massachusetts General Hospital • Boston, MA Collaborative Case Management is published bimonthly by the American Case Management Association (ACMA) 11701 West 36th Street, Little Rock, AR 72211 Telephone: 501-907-ACMA (2262). Subscription is a benefit of membership in ACMA. Memberships are available at $135.00 per year. Student membership is open to individuals enrolled in a full time academic program at $60.00 per year. More detail about membership categories is available at the ACMA website, www. acmaweb.org or by calling 501-907-2262. Photocopying: No part of this publication may be reproduced in any form or incorporated into any information retrieval system without the written permission of the copyright owner. For reprint permission, please contact ACMA, 11701 West 36th Street, Little Rock, AR 72211. The statements and opinions contained in the articles of Collaborative Case Management are solely those of the individual authors and contributors and not of the American Case Management Association. The Publisher and Editor disclaim responsibility for any injury to persons or property resulting from any ideas or products referred to in the articles or advertisements. Copyright © 2014 American Case Management Association. All rights reserved WWW.ACMAWEB.ORG/CMWEEK COLLABORATIVE CASE MANAGEMENT | ACMAWEB.ORG Implementation and Impact of a Complex Discharge Team Theresa Horowitz, MSW, LCSW, CTSDP; Jessica Soos Pawlowski, MA, LCSW, ACM THESE AUTHORS HAVE NO FINANCIAL RELATIONSHIPS WITH COMMERCIAL INTERESTS TO DISCLOSE. Patients who present to the hospital with complicated medical and psychosocial situations often lead to long lengths of stay, increased hospital costs, and added frustration for the patient, family, and staff. The Northwestern Memorial Hospital (NMH) Complex Discharge Team (CDT) is a new model aimed at proactively identifying and managing cases that could result in an unnecessarily long length of stay, challenging placement or complicated discharge. This article will examine the development of a multidisciplinary Complex Discharge Team, as well as the early successes in improving patient outcomes and reducing unnecessary health care costs. 4 LEARNING OBJECTIVES 1. Identify three components of a successful CDT program 2. Understand the processes and personnel involved in identifying CDT cases and designing interventions 3. Identify potential barriers to implementing a CDT program ABOUT NORTHWESTERN MEMORIAL HOSPITAL (NMH) NMH is a nationally ranked academic medical center hospital located in downtown Chicago, Illinois. It is the primary teaching hospital for Northwestern University’s Feinberg School of Medicine. Along with its Prentice Women’s Hospital and Stone Institute of Psychiatry, the hospital provides a total of 894 inpatient beds and encompasses more than 3 million square feet of medical building space. EXAMINING THE NEED The Complex Discharge Team (CDT) model began in response to a troubling and prevalent concern: In Fiscal Year 2009, Northwestern Memorial Hospital patients spent over 6,000 avoidable days in the hospital due to discharge barriers. A very few patients had long, frequent, and unnecessary hospital stays that accounted for a large percentage of these days. This pattern was causing frustration for patients and families as well as additional costs to the hospital, without necessarily helping the patient recover effectively. The leadership team set out to provide a more appropriate level of care in a more suitable setting by addressing these challenging FALL EDITION 2014 dynamics and discharge barriers. These aforementioned data led to early discussions about implementing an intervention team to help improve discharge efficiency and patient care. A Difficult Discharge Response Team (DDRT) was created and existing staff began making long length of stay rounds. The DRRT evolved, and in June 2013, hospital administrators approved a pilot for a dedicated team – the CDT, which would allow for a team separate from the floor staff focused on complex discharges. PROGRAM OVERVIEW The program aims to proactively identify and manage cases which could result in an unnecessarily long stay or a challenging transition out of hospital care. Patients who may benefit from this type of case management approach can include situations such as individuals who are undocumented and have significant medical needs; individuals who have frequent hospital visits for issues related to substance abuse or lack of resources such as food and shelter limiting their ability to care for themselves independently and individuals with complex support systems which prevent a safe discharge plan. The initial goals of the CDT implementation were threefold: 1.Create a structured process and involve key stakeholders in the development of the program. 2.Improve the patient experience by providing a continuum of care. 3.Develop a cost effective way to manage complex patients. THE STRUCTURE OF THE TEAM The team is structured to allow four dedicated hospital staff members, with support from a larger network, to comprise the core CDT. A social worker is the lead for managing each individual case and also provides clinical consultation to hospital staff regarding complex cases. The social worker is involved in interdisciplinary treatment teams, discharge planning, case management and community networking. A medical director provides consultation, helps to provide care plans and liaises with attending MDs and medical teams. A psychiatry fellow is involved in determining decision-making capacity, identifying psychiatric issues and assessing potential discharge destinations. Finally, a clinical practice manager is available to approve smaller financial commitments, liaise to the Executive Committee and help with creative problem solving. Ad hoc members of the CDT include representatives from the legal and ethics departments, who provide consultation as needed. An Executive Committee was put in place to assist the team in reviewing cases and approving larger financial commitments or other unique interventions. The Executive Committee includes the vice president of operations for nursing, the vice president of finance and revenue and the senior attorney for the office of general counsel. The caseload for dedicated CDT staff is necessarily lower than average due to the level of complexity and time-intensive situations. The social worker on the CDT generally sees about 5-10 patients per day and performs about 15-20 consults. As the hospital is a large academic medical center there are advantages when it comes to addressing complex discharges. The ability to have four dedicated staff members means if the social worker requires further assistance on a case, she has three other professionals at her immediate disposal and several others throughout the hospital who can consult in to assist with care progression. This structure, which utilizes the strengths and attention of a variety of hospital staff throughout the organization, has been critical to the success of the CDT. The ability to justify and obtain additional resources for this need could be a challenge at smaller or less connected institutions. Hard data has been valuable evidence for the NMH team to demonstrate the importance of the CDT. The data has highlighted the number of avoidable days patients were spending in the hospital, as well as the high-risk factors for these patients and situations. This provided necessary evidence to validate the risk and benefit of these interventions in working with complex cases. INTERVENTIONS There are two primary methods used at NMH to identify cases for CDT intervention. 1- The case is presented to CDT by inpatient hospital staff, which is most often characterized by the social worker assessing patients in the unit. He or she reaches out to CDT for clinical consultation on a case-by-case basis. 2- A daily report generated in the hospital’s in-house database, based on specific input criteria. CDT staff considers patients who meet any of the following criteria: • Admitted for seven or more days • Under observation for three or more days • Unusually high number of inpatient encounters in the past year • History of severe behavioral issues • No insurance or is underinsured The CDT works with patients, families and external partners to leverage options and to problem solve around complex discharges. This can involve a wide variety of interventions. For example, the CDT sometimes works to navigate legal relationships to resolve guardianship issues. They help to repatriate patients from abroad who would be better served medically and psychosocially in their home countries. They have even paid rent for patients who need a safe place to receive consistent home treatments. Although absorbing these upfront costs and dedicating so much time to a relatively small number of discharges might appear counterintuitive, the data shows marked improvement in patient outcomes and substantial financial savings to the hospital overall. EARLY SUCCESS From the beginning of the pilot in June 2013 to present, CDT has identified and managed 197 cases. During this time, the team reduced the average length of stay for these patients from 86.9 days in 2012 to 17.4 days in 2013. The average avoidable days per patient was reduced from 55 to 4.2, showing drastic reductions in unnecessary stays. Significant savings for the hospital were identified and a conservative estimate suggests with the 197 CDT cases to date, CDT has saved the hospital $996,500 and 1,993 bed-days. Not only does this improve the hospital’s financial resources, this frees-up valuable time and attention for inpatient medical staff to provide care more effectively and to more patients. To date, the total investment in CDT cases has been approximately $397,000 compared to the estimated $996,500 in savings. However, the highest costs almost always arise from the most complex and unusual cases; in fact, 80 percent of those costs were from just six cases. Despite the high investment in those cases, considerable savings still occurred. For example, weeks of daily planning combined with absorbing the cost of an international air ambulance to Central Asia saved over six 5 COLLABORATIVE CASE MANAGEMENT | ACMAWEB.ORG months of otherwise unavoidable days. Over 73 percent of CDT cases require no additional financial commitment from the hospital. In fact, only 7 percent of cases cost the hospital over $3,000. Most cases required only strategic planning and creative problem solving can resolve many challenging discharge barriers. To date, only eight cases have needed to be escalated to the Executive Committee. Early, informal feedback from patients and families has been overwhelmingly positive. Patients reported higher satisfaction with their hospital stay and discharge plan. Additionally, ongoing feedback from physicians, nurses and interdisciplinary team members has been positive. The CDT implementation has promoted teamwork and increased morale for the staff throughout the hospital who work with complex patient situations. This model has also created a more standardized method of communication and has provided resources across disciplines to keep everyone accountable for timely and appropriate discharges. The CDT has required a significant culture shift at the hospital, especially for executives in recognizing how high upfront costs provide both overall cost savings and happier, healthier patients. Investing in patient care even outside of the hospital setting provides long-term benefits and cost savings to all parties. FUTURE IMPROVEMENTS Despite excellent early outcomes, opportunities remain to improve the CDT program: 1. External partnerships. This will allow the ability to expand options and increase efficiency in providing services in the community. Several area nursing homes, home health agencies and air ambulance 6 providers have already identified an interest in expanding a partnership with the CDT in order to further meet the needs of mutual patients. 2.Data analysis and formal feedback. The team would like to develop additional metrics which can be tracked in the system. This will allow providers and the hospital to more accurately and efficiently identify dollars saved and avoidable days in the system. 3.Ongoing monitoring of patients. The team would like the ability to easily identify patients in the system who have had a CDT intervention in the past. This would further support the overall efficiency in early interventions and allow for continuity of care. 4.Expansion of program. The team would also like to expand to create long term plans for patients who have frequent readmissions to assist in improving their continuum of care plan beyond the hospitalization. SUMMARY Early intervention makes a significant difference in the ability to effectively and efficiently treat patients with potentially complex discharges and to impact what could otherwise be a lengthy stay in the hospital system. Although the CDT has only formally existed since June 2013, the early results are very promising and the buy-in from hospital administrators and inpatient medical professionals is strong. The team is encouraged by this success and looks forward to improving and expanding the role of the CDT. ABOUT THE AUTHORS Theresa Horowitz, MSW, LCSW, CTSDP, is a Social Work Clinical Leader at Northwestern Memorial Hospital. She has been the Complex Discharge Team Social Worker since the fall of 2013 and employed as an inpatient Social Worker at the hospital since 2012. She earned her MSW from Washington University in St. Louis, MO, and a BA in Psychology from Kalamazoo College in Kalamazoo, MI. She has 10 years of experience in direct practice with mental health and health care, with expertise in crisis management, solution-focused therapy, severe mental illnesses, diverse populations and trauma. She is also an Adjunct Professor of Psychology at Harrington College of Design in Chicago, IL, where she teaches undergraduate psychology courses. Jessica Soos Pawlowski, MA, LCSW, ACM, has worked at Northwestern Memorial Hospital since 1999, when she served in General Medicine and outpatient HIV/ID clinic Social Work roles. She became the Manager in the Department of Case Management in 2009 before transitioning to her current role as Social Work Practice Manager/Social Work HUB Manager in 2012. She received her BSW from Indiana University, and her MA from the School of Social Service Administration, University of Chicago. During her tenure at Northwestern Memorial Hospital, she has also held positions with the Midwest AIDS Teaching and Education Center, Loyola Medical Center, and the University of Chicago, where she has been a Field Consultant/ Seminar Instructor for the graduate Extended Evening Program since 2007. FALL EDITION 2014 SWOT Analysis of Case Management Models at Three Hospitals Allen Gibson, LMSW THIS AUTHOR HAS NO FINANCIAL RELATIONSHIPS WITH COMMERCIAL INTERESTS TO DISCLOSE. As a fellow in medical social work case management, I gained valuable experience in the design and implementation of case management delivery systems in widely varying hospitals. This article will examine the similarities and differences of the case management systems at those hospitals –Memorial Hermann Healthcare System, Cleveland Clinic, and the University of Texas MD Anderson Cancer Center – to draw conclusions about the strengths, weaknesses, opportunities, and threats to providing high-quality, efficient patient care and case management. LEARNING OBJECTIVES 1. Identify different models for case management within varying hospital settings 2. Explain how different aspects of case management implementation could benefit or hinder a particular environment 3. Identify the role of a dedicated utilization manager and the benefits and drawbacks of that approach Over the course of a nine-month hospital case management fellowship, sponsored by the American Case Management Association, I was able to work with the case management departments at three different health systems to gain experience in different areas of medical social work case management. I worked at Memorial Hermann Healthcare System – the host site for the fellowship, while also spending time at Cleveland Clinic and The University of Texas MD Anderson Cancer Center, to explore different case management delivery systems and undertake a comparative study of hospital case management models. BACKGROUND Memorial Hermann is the largest not-forprofit health system in Southeast Texas. 7 COLLABORATIVE CASE MANAGEMENT | ACMAWEB.ORG The system includes 12 acute care hospitals, seven cancer centers, and a variety of outpatient services. During my time within Memorial Hermann’s care management department I had numerous opportunities to shadow professionals from multiple service areas within the system. I began my fellowship working with the community outreach for personal empowerment (COPE) program, which is an ambulatory social work program with the goal of helping uninsured patients locate and utilize primary health care resources in the community. This program utilizes three social workers who serve each of Memorial Hermann’s nine acute care hospitals, focusing on patients who are uninsured and present to Memorial Hermann locations three or more times in one year. The COPE program helps to address the growing population of uninsured patients within the greater Houston community that numbered 1.1 million as of 2010, which is approximately the population of Dallas, TX. Through this experience I was able to learn about the community resources available in the city and acclimate to the hospital social work case management environment. By the end of this rotation I was carrying a full caseload of three acute care hospitals’. Following the COPE rotation, I spent several weeks working within The Institute for Rehabilitation and Research (TIRR), an acute inpatient rehab hospital located in the Texas Medical Center, specializing in spinal cord injury and traumatic brain injury rehabilitation and recovery. I shadowed social workers and case managers working with patients on the floor, learning more about post-acute services available to patients while gaining perspective on how case management functions at different levels in the health care continuum. I was also able to shadow case management professionals from the hospital’s System Services Case Management Team, which reviews all claim payment denials on Medicare patients from the Recovery Auditors (RACs) and the Medicare Administrative Contractors (MACs). Based on the analysis of denied claim causes, process improvement action plans are created. Through this experience I was able to gain insight into the role of utilization management and the denial management process. 8 My final rotation was spent shadowing social work professionals on the floor within Memorial Hermann’s acute care facilities. I was exposed to case management in many different settings, including Katy Hospital, a small suburban community hospital, Northwest Hospital, fast-paced and urban, and Memorial City Hospital, a large suburban medical center. Here, I continued shadowing social workers on the floor and began to carry a modified caseload, operating independently with support from the floor social workers.My first site visit occurred at Cleveland Clinic, a nonprofit health system in Cleveland, Ohio. Cleveland Clinic cares for patients from more than 100 countries and has locations in multiple states and abroad. As part of the fellowship, I was given the opportunity to spend a week shadowing and interviewing professionals within Cleveland Clinic’s case management department. I spent three days working at the main campus, shadowing professionals from multiple service areas, including cardiology, psych consult liaison, inpatient and outpatient oncology, palliative medicine, organ transplant and pediatrics. In addition to this, I was able to interview various administrators to learn more about Cleveland Clinic and its case management program. The last site that I visited was MD Anderson Cancer Center, a public nonprofit hospital. MD Anderson conducts more clinical trials for cancer treatment than any other hospital system, ranks first in total amount of grant dollars from the National Cancer Institute and is host to the largest stem cell transplant center in the world. MD Anderson works on a cost-based reimbursement system, due to its status as a public hospital. COMPARISON As part of my fellowship I was tasked with comparing the case management programs operated by Memorial Hermann, Cleveland Clinic and MD Anderson. Within these systems, the scope of case management is largely similar. In general, case managers are responsible for utilization management, care facilitation and discharge planning, while social workers are responsible for issues including complex discharge planning, psychosocial assessment and intervention, and legal issues such as custody and advance directives. There are some small differences to the models, but each system largely operates in this fashion. Fellowship Experiences Community Outreach for Personal Empowerment (COPE) • Ambulatory social work program with the goal of helping uninsured patients to locate and utilize primary healthcare resources in the community • 1.1 million uninsured patients in Greater Houston, which is approximately the population of Dallas, TX The Institute for Rehabilitation and Research (TIRR) • Acute Inpatient Rehab hospital located in the Texas Medical Center, specializing in spinal cord injury and traumatic brain injury rehabilitation and recovery • TIRR service line also includes all hospital-based comprehensive inpatient rehab units. Two weeks at Katy Hospital (C) • Small suburban communityhospital (142 beds) in Houston’s fastest growing community Three weeks at Northwest Hospital (F) • Fast-paced urban hospital (200 beds) in Houston’s oldest and most popular neighborhood • Gained exposure to med/surg and internal medicine environments Six weeks at Memorial City Hospital (K) • Large suburban medical center (375 beds), Memorial Hermann’s system headquarters • Gained exposure to ICU, IMU, Cardiology and Oncology environments One week with Memorial Hermann’s RAC review team (K) • System Services Case Management team working with the RAC/MAC to prevent loss due to Medicare claims through denial management • Shadowed case managers to gain insight into the role of utilization management and completed a few basic total joint reviews FALL EDITION 2014 DYAD MODEL Strengths TRIAD MODEL Strengths •Increases operational efficiency by consolidating roles and responsibilities • Ensures that each case management role receives sufficient attention Weaknesses Weaknesses • Forces case managers to reprioritize roles based on the patient’s needs • Could result in a fragmented care team Opportunities Opportunities • Potential for improved patient care outcomes due to a decrease in the number of hand-offs • Potential to ensure that patient needs and payer rules are adequately addressed Threats Threats • Lack of compliance with payer rules will affect reimbursement • Potential for pitfalls with patient handoffs • Lack of focus in any one role can result in readmissions, higher cost per case, and quality concerns Two primary models are used for case management within these systems. In a dyad model (used at Memorial Hermann and MD Anderson), the utilization management responsibility is retained within the role of the case manager. In a triad model (utilized at Cleveland Clinic), the utilization management responsibility is broken off into a separate professional role. In addition to this, each system had similar standards for staffing within these departments. Each system has minor differences, but all models require RN licensure and case management certification upon availability for nursing and master’s level education for social workers. One notable difference is that while both MD Anderson and Cleveland Clinic accept both social work and nursing degrees for managers and administrators in their respective departments, Memorial Hermann requires a bachelor’s degree in nursing to operate in this capacity. Another notable difference between these models of case management has to do with the implementation of the social work role within the hospital system. Within Memorial Hermann and Cleveland Clinic, the social worker role is designed with the intention of facilitating the discharge process by addressing psychosocial barriers to discharge. As such, their model follows a crisis intervention model designed around short interventions that are intended to identify and address barriers to discharge. Within these two organizations, social work has been brought under the umbrella of case management in an effort to increase operational efficiency in the assignment of roles and responsibilities between social work and case management. MD Anderson, on the other hand, maintains an independent social work department that operates on a psychosocial counseling and intervention model. Within this model, social workers follow patients in both the inpatient and outpatient settings, still assisting in complex discharge planning but with a larger focus on psychosocial counseling in a short-term, solution-focused format. Another useful comparison to be made between these models relates to how professionals are assigned to patients within the hospital system. With some exceptions, Memorial Hermann, Cleveland Clinic and MD Anderson all have a unit-based or geographybased case management model, implemented in an effort to increase operational efficiency. However, due to the complexity and acuity as well as the large outpatient focus of MD Anderson’s patient population, their social work program has been designed with a service line approach to facilitate continuity of care. In certain patient populations (such as pediatrics), social workers will actually follow patients in both the inpatient and outpatient settings. LESSONS LEARNED AND RECOMMENDATIONS This fellowship has been a rewarding opportunity for me to acclimatize myself to medical social work as a profession. When I applied for this fellowship, I did so in the hopes of becoming better prepared for the hospital environment. Following these experiences, I have a better understanding about what this work entails and how I can continue to grow as I begin to specialize in my practice. With the fellowship experience, I was exposed to a myriad of situations, both good and bad. While the pace of the fellowship was hectic at times, this allowed me more opportunities to learn about the theory and implementation of case management without the pressure of also attempting to carry a full caseload from the start. Overall, I would highly recommend this fellowship to new social workers in the field. As a new social worker “fresh out of school,” acclimating to social work in the hospital setting can be difficult, even with internship experience. The ACMA Social Work Case Management Fellowship Program provides a significant educational opportunity for social workers in this field. ABOUT THE AUTHOR Allen Gibson, LMSW, is currently a social worker at Memorial Hermann Northwest Hospital, and the 2013 ACMA Social Work Case Management Fellow. He completed his Fellowship at Memorial Hermann Health System. He earned a bachelor’s degree in psychology and his master’s degree in social work from North Carolina State University. Prior to the Fellowship, Mr. Gibson served as a social work case manager at WakeMed Health & Hospitals and a respite counselor for NC START Central Respite (Easter Seals UCP) in North Carolina. 9 S:7” ZYVOX® linezolid injection, tablets and for oral suspension Brief summary of prescribing information. INDICATIONS AND USAGE ZYVOX is indicated for the treatment of infections caused by susceptible strains of the designated microorganisms in the specific conditions listed below. ZYVOX is not indicated for the treatment of Gram-negative infections. It is critical that specific Gram-negative therapy be initiated immediately if a concomitant Gram-negative pathogen is documented or suspected [see Warnings and Precautions]. Nosocomial pneumonia caused by Staphylococcus aureus (methicillin-susceptible and -resistant isolates) or Streptococcus pneumoniae. Community-acquired pneumonia caused by Streptococcus pneumoniae, including cases with concurrent bacteremia, or Staphylococcus aureus (methicillin-susceptible isolates only). Complicated skin and skin structure infections, including diabetic foot infections, without concomitant osteomyelitis, caused by Staphylococcus aureus (methicillin-susceptible and -resistant isolates), Streptococcus pyogenes, or Streptococcus agalactiae. ZYVOX has not been studied in the treatment of decubitus ulcers. Uncomplicated skin and skin structure infections caused by Staphylococcus aureus (methicillin-susceptible isolates only) or Streptococcus pyogenes. Vancomycin-resistant Enterococcus faecium infections, including cases with concurrent bacteremia. To reduce the development of drug-resistant bacteria and maintain the effectiveness of ZYVOX and other antibacterial drugs, ZYVOX should be used only to treat or prevent infections that are proven or strongly suspected to be caused by susceptible bacteria. When culture and susceptibility information are available, they should be considered in selecting or modifying antibacterial therapy. In the absence of such data, local epidemiology and susceptibility patterns may contribute to the empiric selection of therapy. The safety and efficacy of ZYVOX formulations given for longer than 28 days have not been evaluated in controlled clinical trials. CONTRAINDICATIONS ZYVOX formulations are contraindicated for use in patients who have known hypersensitivity to linezolid or any of the other product components. Linezolid should not be used in patients taking any medicinal product which inhibits monoamine oxidases A or B (e.g., phenelzine, isocarboxazid) or within two weeks of taking any such medicinal product. ZYVX14CDNY3033_2014_7_9.75_BS_r7.indd 1 ADVERSE REACTIONS Clinical Trials Experience Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in practice. Adults The safety of ZYVOX formulations was evaluated in 2046 adult patients enrolled in seven Phase 3 comparator-controlled clinical trials, who were treated for up to 28 days. Of the patients treated for uncomplicated skin and skin structure infections (uSSSIs), 25.4% of ZYVOX-treated and 19.6% of comparatortreated patients experienced at least one drug-related adverse event. For all other indications, 20.4% of ZYVOX-treated and 14.3% of comparator-treated patients experienced at least one drug-related adverse event. The incidence (%) of treatment-emergent adverse events occurring in >1% of adult patients in a trial involving the treatment of uSSSIs comparing ZYVOX 400 mg PO q12h (n=548) to clarithromycin 250 mg PO q12h (n=537) were headache 8.8 and 8.4; diarrhea 8.2 and 6.1; nausea 5.1 and 4.5; vomiting 2.0 and 1.5; dizziness 2.6 and 3.0; rash 1.1 and 1.1; anemia 0.4 and 0; taste alteration 1.8 and 2.0; vaginal moniliasis 1.8 and 1.3; oral moniliasis 0.5 and 0; abnormal liver function tests 0.4 and 0.2; fungal infection 1.5 and 0.2; tongue discoloration 1.3 and 0; localized abdominal pain 1.3 and 0.6; and generalized abdominal pain 0.9 and 0.4, respectively. The incidence (%) of treatment-emergent adverse events occurring in >1% of adult patients in all other indications of ZYVOX 600 mg q12h (n=1498) versus all other comparators§ (n=1464) were headache 5.7 and 4.4; diarrhea 8.3 and 6.4; nausea 6.6 and 4.6; vomiting 4.3 and 2.3; dizziness 1.8 and 1.5; rash 2.3 and 2.6; anemia 2.1 and 1.4; taste alteration 1.0 and 0.3; vaginal moniliasis 1.1 and 0.5; oral moniliasis 1.7 and 1.0; abnormal liver function tests 1.6 and 0.8; fungal infection 0.3 and 0.2; tongue discoloration 0.3 and 0; localized abdominal pain 1.2 and 0.8; and generalized abdominal pain 1.2 and 1.0, respectively. Of the patients treated for uSSSIs, 3.5% of ZYVOX-treated and 2.4% of comparator-treated patients discontinued treatment due to drug-related adverse events. For all other indications, discontinuations due to drug-related adverse events occurred in 2.1% of ZYVOX-treated and 1.7% of comparator-treated patients. The most common reported drug-related adverse events leading to discontinuation of treatment were nausea, headache, diarrhea, and vomiting. Pediatric Patients The safety of ZYVOX formulations was evaluated in 215 pediatric patients ranging in age from birth through 11 years, and in 248 pediatric patients aged 5 through 17 years (146 of these 248 were age 5 through 11 and 102 were age 12 to 17). These patients were enrolled in two Phase 3 comparator-controlled clinical trials and were treated for up to 28 days. In the study of hospitalized pediatric patients (birth through 11 years) with Gram-positive infections, who were randomized 2 to 1 (linezolid:vancomycin), mortality was 6.0% (13/215) in the linezolid arm and 3.0% (3/101) in the vancomycin arm. However, given the severe underlying illness in the patient population, no causality could be established. Of the pediatric patients treated for uSSSIs, 19.2% of ZYVOX-treated and 14.1% of comparator-treated patients experienced at least one drug-related adverse event. For all other indications, 18.8% of ZYVOX-treated and 34.3% of comparator-treated patients experienced at least one drug-related adverse event. The incidence (%) of treatment-emergent adverse events occurring in >1% of pediatric patients treated for uSSSIs|| with either ZYVOX (n=248) or cefadroxil (n=251) were diarrhea 7.8 and 8.0; vomiting 2.9 and 6.4; headache 6.5 and 4.0; anemia 0 and 0; thrombocytopenia 0 and 0; nausea 3.7 and 3.2; generalized abdominal pain 2.4 and 2.8; localized abdominal pain 2.4 and 2.8; loose stools 1.6 and 0.8; eosinophilia 0.4 and 0.8; pruritus at non-application site 0.8 and 0.4; and vertigo 1.2 and 0.4, respectively. The incidence (%) of treatment-emergent adverse events occurring in >1% of pediatric patients treated for all other indications¶ with either ZYVOX (n=215) or vancomycin (n=101) were diarrhea 10.8 and 12.1; vomiting 9.4 and 9.1; headache 0.9 and 0; anemia 5.6 and 7.1; thrombocytopenia 4.7 and 2.0; nausea 1.9 and 0; generalized abdominal pain 0.9 and 2.0; localized abdominal pain 0.5 and 1.0; loose stools 2.3 and 3.0; eosinophilia 1.9 and 1.0; pruritus at non-application site 1.4 and 2.0; and vertigo 0 and 0, respectively. Of the pediatric patients treated for uSSSIs, 1.6% of ZYVOX-treated and 2.4% of comparatortreated patients discontinued treatment due to drug-related adverse events. For all other indications, discontinuations due to drug-related adverse events occurred in 0.9% of ZYVOX-treated and 6.1% of comparator-treated patients. Laboratory Abnormalities ZYVOX has been associated with thrombocytopenia when used in doses up to and including 600 mg every 12 hours for up to 28 days. In Phase 3 comparator-controlled trials, the percentage of adult patients who developed a substantially low platelet count (defined as less than 75% of lower limit of normal and/or baseline) was 2.4% (range among studies: 0.3 to 10.0%) with ZYVOX and 1.5% (range among studies: 0.4 to 7.0%) with a comparator. In a study of hospitalized pediatric patients ranging in age from birth through 11 years, the percentage of patients who developed a substantially low platelet count (defined as less than 75% of lower limit of normal and/or baseline) was 12.9% with ZYVOX and 13.4% with vancomycin. In an outpatient study of pediatric patients aged from 5 through 17 years, the percentage of patients who developed a substantially low platelet count was 0% with ZYVOX and 0.4% with cefadroxil. Thrombocytopenia associated with the use of ZYVOX appears to be dependent on duration of therapy (generally greater than 2 weeks of treatment). The platelet counts for most patients returned to the normal range/baseline during the follow-up period. No related clinical adverse events were identified in Phase 3 clinical trials in patients developing thrombocytopenia. Bleeding events were identified in thrombocytopenic patients in a compassionate use program for ZYVOX; the role of linezolid in these events cannot be determined [see Warnings and Precautions]. Changes seen in other laboratory parameters, without regard to drug relationship, revealed no substantial differences between ZYVOX and the comparators. These changes were generally not clinically significant, did not lead to discontinuation of therapy, and were reversible. The percent of adult patients with at least one substantially abnormal hematologic** value in patients treated with ZYVOX 400 mg q12h or clarithromycin 250 mg q12h for uncomplicated skin and skin structure infections were as follows: hemoglobin (g/dL) 0.9 and 0.0; platelet count (x 103/mm3) 0.7 and 0.8; WBC (x 103/ mm3) 0.2 and 0.6; neutrophils (x 103/mm3) 0.0 and 0.2 respectively. The percent of adult patients with at least one substantially abnormal hematologic** value in patients treated with ZYVOX 600 mg q12h or a comparator§ were as follows: hemoglobin (g/dL) 7.1 and 6.6; platelet count (x 103/mm3) 3.0 and 1.8; WBC (x 103/mm3) 2.2 and 1.3 and neutrophils (x 103/ mm3) 1.1 and 1.2 respectively. The percent of adult patients with at least one substantially abnormal serum chemistry†† value in patients treated with ZYVOX 400 mg q12h or clarithromycin 250 mg q12h for uncomplicated skin and skin structure infections were as follows: AST (U/L) 1.7 and 1.3; ALT (U/L) 1.7 and 1.7; LDH (U/L) 0.2 and 0.2; alkaline phosphatase (U/L) 0.2 and 0.2; lipase (U/L) 2.8 and 2.6; amylase (U/L) 0.2 and 0.2; total bilirubin (mg/dL) 0.2 and 0.0; BUN (mg/dL) 0.2 and 0.0; and creatinine (mg/dL) 0.2 and 0.0 respectively. The percent of adult patients with at least one substantially abnormal serum chemistry†† value in patients treated with ZYVOX 600 mg q12h or a comparator§ were as follows: AST (U/L) 5.0 and 6.8; ALT (U/L) 9.6 and 9.3; LDH (U/L) 1.8 and 1.5; alkaline phosphatase (U/L) 3.5 and 3.1; lipase (U/L) 4.3 and 4.2; amylase (U/L) 2.4 and 2.0; total 3/17/14 1:38 PM S:9.75” WARNINGS AND PRECAUTIONS Myelosuppression (including anemia, leukopenia, pancytopenia, and thrombocytopenia) has been reported in patients receiving linezolid. In cases where the outcome is known, when linezolid was discontinued, the affected hematologic parameters have risen toward pretreatment levels. Complete blood counts should be monitored weekly in patients who receive linezolid, particularly in those who receive linezolid for longer than two weeks, those with pre-existing myelosuppression, those receiving concomitant drugs that produce bone marrow suppression, or those with a chronic infection who have received previous or concomitant antibiotic therapy. Discontinuation of therapy with linezolid should be considered in patients who develop or have worsening myelosuppression. Peripheral and optic neuropathies have been reported in patients treated with ZYVOX, primarily in those patients treated for longer than the maximum recommended duration of 28 days. In cases of optic neuropathy that progressed to loss of vision, patients were treated for extended periods beyond the maximum recommended duration. Visual blurring has been reported in some patients treated with ZYVOX for less than 28 days. Peripheral and optic neuropathy has also been reported in children. If patients experience symptoms of visual impairment, such as changes in visual acuity, changes in color vision, blurred vision, or visual field defect, prompt ophthalmic evaluation is recommended. Visual function should be monitored in all patients taking ZYVOX for extended periods (≥ 3 months) and in all patients reporting new visual symptoms regardless of length of therapy with ZYVOX. If peripheral or optic neuropathy occurs, the continued use of ZYVOX in these patients should be weighed against the potential risks. Spontaneous reports of serotonin syndrome including fatal cases associated with the co-administration of ZYVOX and serotonergic agents, including antidepressants such as selective serotonin reuptake inhibitors (SSRIs), have been reported. Unless clinically appropriate and patients are carefully observed for signs and/ or symptoms of serotonin syndrome or neuroleptic malignant syndrome-like (NMS-like) reactions, linezolid should not be administered to patients with carcinoid syndrome and/or patients taking any of the following medications: serotonin re-uptake inhibitors, tricyclic antidepressants, serotonin 5-HT1 receptor agonists (triptans), meperidine, bupropion, or buspirone. In some cases, a patient already receiving a serotonergic antidepressant or buspirone may require urgent treatment with linezolid. If alternatives to linezolid are not available and the potential benefits of linezolid outweigh the risks of serotonin syndrome or NMS-like reactions, the serotonergic antidepressant should be stopped promptly and linezolid administered. The patient should be monitored for two weeks (five weeks if fluoxetine was taken) or until 24 hours after the last dose of linezolid, whichever comes first. Symptoms of serotonin syndrome or NMS-like reactions include hyperthermia, rigidity, myoclonus, autonomic instability, and mental status changes that include extreme agitation progressing to delirium and coma. The patient should also be monitored for discontinuation symptoms of the antidepressant. Mortality Imbalance in an Investigational Study in Patients with Catheter-Related Bloodstream Infections, including those with catheter-site infections. While causality has not been established, this observed imbalance occurred primarily in linezolid-treated patients in whom either Gram-negative pathogens, mixed Gram-negative and Gram-positive pathogens, or no pathogen were identified at baseline, but was not seen in patients with Gram-positive infections only. Linezolid is not approved and should not be used for the treatment of patients with catheter-related bloodstream infections or catheter-site infections. Linezolid has no clinical activity against Gram-negative pathogens and is not indicated for the treatment of Gram-negative infections. It is critical that specific Gramnegative therapy be initiated immediately if a concomitant Gram-negative pathogen is documented or suspected. Clostridium difficile associated diarrhea (CDAD) has been reported with use of nearly all antibacterial agents, including ZYVOX, and may range in severity from mild diarrhea to fatal colitis. Treatment with antibacterial agents alters the normal flora of the colon leading to overgrowth of C. difficile. C. difficile produces toxins A and B which contribute to the development of CDAD. Hypertoxin producing strains of C. difficile cause increased morbidity and mortality, as these infections can be refractory to antimicrobial therapy and may require colectomy. CDAD must be considered in all patients who present with diarrhea following antibiotic use. Careful medical history is necessary since CDAD has been reported to occur over two months after the administration of antibacterial agents. If CDAD is suspected or confirmed, ongoing antibiotic use not directed against C. difficile may need to be discontinued. Appropriate fluid and electrolyte management, protein supplementation, antibiotic treatment of C. difficile, and surgical evaluation should be instituted as clinically indicated. Unless patients are monitored for potential increases in blood pressure, linezolid should not be administered to patients with uncontrolled hypertension, pheochromocytoma, thyrotoxicosis and/or patients taking any of the following types of medications: directly and indirectly acting sympathomimetic agents (e.g., pseudoephedrine), vasopressive agents (e.g., epinephrine, norepinephrine), dopaminergic agents (e.g., dopamine, dobutamine). Lactic acidosis has been reported with the use of ZYVOX. In reported cases, patients experienced repeated episodes of nausea and vomiting. Patients who develop recurrent nausea or vomiting, unexplained acidosis, or a low bicarbonate level while receiving ZYVOX should receive immediate medical evaluation. Convulsions have been reported in patients when treated with linezolid. In some of these cases, a history of seizures or risk factors for seizures was reported. Postmarketing cases of symptomatic hypoglycemia have been reported in patients with diabetes mellitus receiving insulin or oral hypoglycemic agents when treated with linezolid, a reversible, nonselective MAO inhibitor. Some MAO inhibitors have been associated with hypoglycemic episodes in diabetic patients receiving insulin or hypoglycemic agents. While a causal relationship between linezolid and hypoglycemia has not been established, diabetic patients should be cautioned of potential hypoglycemic reactions when treated with linezolid. If hypoglycemia occurs, a decrease in the dose of insulin or oral hypoglycemic agent, or discontinuation of oral hypoglycemic agent, insulin, or linezolid may be required. Prescribing ZYVOX in the absence of a proven or strongly suspected bacterial infection or a prophylactic indication is unlikely to provide benefit to the patient and increases the risk of the development of drug-resistant bacteria. S:7” bilirubin (mg/dL) 0.9 and 1.1; BUN (mg/dL) 2.1 and 1.5; and creatinine (mg/dL) 0.2 and 0.6 respectively. The percent of pediatric patients with at least one substantially abnormal hematologic‡‡ value in patients treated with ZYVOX or cefadroxil for uncomplicated skin and skin structure infections|| were as follows: hemoglobin (g/dL) 0.0 and 0.0; platelet count (x 103/mm3) 0.0 and 0.4; WBC (x 103/mm3) 0.8 and 0.8; neutrophils (x 103/mm3) 1.2 and 0.8 respectively. The percent of pediatric patients with at least one substantially abnormal hematologic‡‡ value in patients treated with ZYVOX or vancomycin for any other indication¶ were as follows: hemoglobin (g/dL) 15.7 and 12.4; platelet count (x 103/mm3) 12.9 and 13.4; WBC (x 103/mm3) 12.4 and 10.3 and neutrophils (x 103/mm3) 5.9 and 4.3 respectively. The percent of pediatric patients with at least one substantially abnormal serum chemistrya value in patients treated with ZYVOX or cefadroxil for uncomplicated skin and skin structure infections|| were as follows: ALT (U/L) 0.0 and 0.0; lipase (U/L) 0.4 and 1.2; and creatinine (mg/dL) 0.4 and 0.0 respectively. The percent of pediatric patients with at least one substantially abnormal serum chemistrya value in patients treated with ZYVOX or vancomycin for any other indication¶ were as follows: ALT (U/L) 10.1 and 12.5; amylase (U/L) 0.6 and 1.3; total bilirubin (mg/dL) 6.3 and 5.2; and creatinine (mg/dL) 2.4 and 1.0 respectively. Postmarketing Experience The following adverse reactions have been identified during postapproval use of ZYVOX. Because these reactions are reported voluntarily from a population of uncertain size, it is not always possible to reliably estimate their frequency or establish a causal relationship to drug exposure. Myelosuppression (including anemia, leukopenia, pancytopenia, and thrombocytopenia) has been reported during postmarketing use of ZYVOX [see Warnings and Precautions]. Peripheral neuropathy, and optic neuropathy sometimes progressing to loss of vision, have been reported in patients treated with ZYVOX. Lactic acidosis has been reported with the use of ZYVOX [see Warnings and Precautions]. Although these reports have primarily been in patients treated for longer than the maximum recommended duration of 28 days, these events have also been reported in patients receiving shorter courses of therapy. Serotonin syndrome has been reported in patients receiving concomitant serotonergic agents, including antidepressants such as selective serotonin reuptake inhibitors (SSRIs) and ZYVOX [see Warnings and Precautions]. Convulsions have been reported with the use of ZYVOX [see Warnings and Precautions]. Anaphylaxis, angioedema, and bullous skin disorders such as those described as Stevens-Johnson syndrome have been reported. Superficial tooth discoloration and tongue discoloration have been reported with the use of linezolid. The tooth discoloration was removable with professional dental cleaning (manual descaling) in cases with known outcome. Hypoglycemia, including symptomatic episodes, has been reported [see Warnings and Precautions]. DRUG INTERACTIONS Monoamine Oxidase Inhibitors Linezolid is a reversible, nonselective inhibitor of monoamine oxidase. Adrenergic and Serotonergic Agents Linezolid has the potential for interaction with adrenergic and serotonergic agents. ZYVX14CDNY3033_2014_7_9.75_BS_r7.indd 2 PATIENT COUNSELING INFORMATION Patients should be counseled that antibacterial drugs including ZYVOX should only be used to treat bacterial infections. They do not treat viral infections (e.g., the common cold). When ZYVOX is prescribed to treat a bacterial infection, patients should be told that although it is common to feel better early in the course of therapy, the medication should be taken exactly as directed. Skipping doses or not completing the full course of therapy may (1) decrease the effectiveness of the immediate treatment and (2) increase the likelihood that bacteria will develop resistance and will not be treatable by ZYVOX or other antibacterial drugs in the future. Patients should be advised that: ZYVOX may be taken with or without food. They should inform their physician if they have a history of hypertension. Large quantities of foods or beverages with high tyramine content should be avoided while taking ZYVOX. Foods high in tyramine content include those that may have undergone protein changes by aging, fermentation, pickling, or smoking to improve flavor, such as aged cheeses, fermented or air-dried meats, sauerkraut, soy sauce, tap beers, and red wines. The tyramine content of any protein-rich food may be increased if stored for long periods or improperly refrigerated. They should inform their physician if taking medications containing pseudoephedrine HCl or phenylpropanolamine HCl, such as cold remedies and decongestants. They should inform their physician if taking serotonin re-uptake inhibitors or other antidepressants. Phenylketonurics: Each 5 mL of the 100 mg/5 mL ZYVOX for Oral Suspension contains 20 mg phenylalanine. The other ZYVOX formulations do not contain phenylalanine. Contact your physician or pharmacist. They should inform their physician if they experience changes in vision. They should inform their physician if they have a history of seizures. Diarrhea is a common problem caused by antibiotics, which usually ends when the antibiotic is discontinued. Sometimes after starting treatment with antibiotics, patients can develop watery and bloody stools (with or without stomach cramps and fever) even as late as two or more months after having taken the last dose of the antibiotic. If this occurs, patients should contact their physician as soon as possible. Inform patient, particularly those with diabetes mellitus that hypoglycemic reactions, such as diaphoresis and tremulousness, along with low blood glucose measurements may occur when treated with linezolid. If such reactions occur, patients should contact a physician or other health professional for proper treatment. § Comparators included cefpodoxime proxetil 200 mg PO q12h; ceftriaxone 1 g IV q12h; dicloxacillin 500 mg PO q6h; oxacillin 2 g IV q6h; vancomycin 1 g IV q12h. || Patients 5 through 11 years of age received ZYVOX 10 mg/kg PO q12h or cefadroxil 15 mg/kg PO q12h. Patients 12 years or older received ZYVOX 600 mg PO q12h or cefadroxil 500 mg PO q12h. ¶ Patients from birth through 11 years of age received ZYVOX 10 mg/kg IV/PO q8h or vancomycin 10 to 15 mg/kg IV q6-24h, depending on age and renal clearance. ** <75% (<50% for neutrophils) of Lower Limit of Normal (LLN) for values normal at baseline; <75% (<50% for neutrophils) of LLN and of baseline for values abnormal at baseline. †† >2 x Upper Limit of Normal (ULN) for values normal at baseline; >2 x ULN and >2 x baseline for values abnormal at baseline. ‡‡ <75% (<50% for neutrophils) of Lower Limit of Normal (LLN) for values normal at baseline; <75% (<50% for neutrophils) of LLN and <75% (<50% for neutrophils, <90% for hemoglobin if baseline <LLN) of baseline for values abnormal at baseline. a >2 x Upper Limit of Normal (ULN) for values normal at baseline; >2 x ULN and >2 (>1.5 for total bilirubin) x baseline for values abnormal at baseline. Rx only Rev. January 2014 3/17/14 1:38 PM S:9.75” USE IN SPECIFIC POPULATIONS Pregnancy Teratogenic Effects – Pregnancy Category C Linezolid was not teratogenic in mice, rats, or rabbits at exposure levels 6.5-fold (in mice), equivalent to (in rats), or 0.06-fold (in rabbits) the expected human exposure level, based on AUCs. However, embryo and fetal toxicities were seen (see Non-teratogenic Effects). There are no adequate and well-controlled studies in pregnant women. ZYVOX should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus. Non-teratogenic Effects In mice, embryo and fetal toxicities were seen only at doses that caused maternal toxicity (clinical signs and reduced body weight gain). A dose of 450 mg/kg/day (6.5-fold the estimated human exposure level based on AUCs) correlated with increased postimplantational embryo death, including total litter loss, decreased fetal body weights, and an increased incidence of costal cartilage fusion. In rats, mild fetal toxicity was observed at 15 and 50 mg/kg/day (exposure levels 0.22-fold to approximately equivalent to the estimated human exposure, respectively, based on AUCs). The effects consisted of decreased fetal body weights and reduced ossification of sternebrae, a finding often seen in association with decreased fetal body weights. Slight maternal toxicity, in the form of reduced body weight gain, was seen at 50 mg/kg/day. In rabbits, reduced fetal body weight occurred only in the presence of maternal toxicity (clinical signs, reduced body weight gain and food consumption) when administered at a dose of 15 mg/kg/day (0.06-fold the estimated human exposure based on AUCs). When female rats were treated with 50 mg/kg/day (approximately equivalent to the estimated human exposure based on AUCs) of linezolid during pregnancy and lactation, survival of pups was decreased on postnatal days 1 to 4. Male and female pups permitted to mature to reproductive age, when mated, showed an increase in preimplantation loss. Nursing Mothers Linezolid and its metabolites are excreted in the milk of lactating rats. Concentrations in milk were similar to those in maternal plasma. It is not known whether linezolid is excreted in human milk. Because many drugs are excreted in human milk, caution should be exercised when ZYVOX is administered to a nursing woman. Pediatric Use The safety and effectiveness of ZYVOX for the treatment of pediatric patients with the following infections are supported by evidence from adequate and well-controlled studies in adults, pharmacokinetic data in pediatric patients, and additional data from a comparator-controlled study of Gram-positive infections in pediatric patients ranging in age from birth through 11 years [see Indications and Usage]: nosocomial pneumonia, complicated skin and skin structure infections, community-acquired pneumonia (also supported by evidence from an uncontrolled study in patients ranging in age from 8 months through 12 years), vancomycin-resistant Enterococcus faecium infections. The safety and effectiveness of ZYVOX for the treatment of pediatric patients with the following infection have been established in a comparator-controlled study in pediatric patients ranging in age from 5 through 17 years: uncomplicated skin and skin structure infections caused by Staphylococcus aureus (methicillin-susceptible strains only) or Streptococcus pyogenes. Pharmacokinetic information generated in pediatric patients with ventriculoperitoneal shunts showed variable cerebrospinal fluid (CSF) linezolid concentrations following single and multiple dosing of linezolid; therapeutic concentrations were not consistently achieved or maintained in the CSF. Therefore, the use of linezolid for the empiric treatment of pediatric patients with central nervous system infections is not recommended. The pharmacokinetics of linezolid have been evaluated in pediatric patients from birth to 17 years of age. In general, weight-based clearance of linezolid gradually decreases with increasing age of pediatric patients. However, in preterm (gestational age < 34 weeks) neonates < 7 days of age, linezolid clearance is often lower than in full-term neonates < 7 days of age. Consequently, preterm neonates < 7 days of age may need an alternative linezolid dosing regimen of 10 mg/kg every 12 hours. In limited clinical experience, 5 out of 6 (83%) pediatric patients with infections due to Gram-positive pathogens with minimum inhibitory concentrations (MICs) of 4 mcg/mL treated with ZYVOX had clinical cures. However, pediatric patients exhibit wider variability in linezolid clearance and systemic exposure (AUC) compared with adults. In pediatric patients with a sub-optimal clinical response, particularly those with pathogens with MIC of 4 mcg/mL, lower systemic exposure, site and severity of infection, and the underlying medical condition should be considered when assessing clinical response. Geriatric Use Of the 2046 patients treated with ZYVOX in Phase 3 comparator-controlled clinical trials, 589 (29%) were 65 years or older and 253 (12%) were 75 years or older. No overall differences in safety or effectiveness were observed between these patients and younger patients, and other reported clinical experience has not identified differences in responses between the elderly and younger patients, but greater sensitivity of some older individuals cannot be ruled out. OVERDOSAGE In the event of overdosage, supportive care is advised, with maintenance of glomerular filtration. Hemodialysis may facilitate more rapid elimination of linezolid. In a Phase 1 clinical trial, approximately 30% of a dose of linezolid was removed during a 3-hour hemodialysis session beginning 3 hours after the dose of linezolid was administered. Data are not available for removal of linezolid with peritoneal dialysis or hemoperfusion. Clinical signs of acute toxicity in animals were decreased activity and ataxia in rats and vomiting and tremors in dogs treated with 3000 mg/kg/day and 2000 mg/kg/day, respectively. FALL EDITION 2014 Form Over Substance: CMS Reconsiders Certification Requirement for All Inpatient Hospital Admissions Jessica L. Gustafson, Esq.; Abby Pendleton, Esq. THESE AUTHORS HAVE NO FINANCIAL RELATIONSHIPS WITH COMMERCIAL INTERESTS TO DISCLOSE. Beginning with inpatient hospital admissions on October 1, 2013, the Centers for Medicare & Medicaid Services (“CMS”) significantly altered its Medicare Part A inpatient hospital admission criteria and documentation requirements. In particular, in its 2014 Inpatient Prospective Payment System (“IPPS”) Final Rule, CMS instituted new guidelines to establish the medical necessity of inpatient hospital admissions (i.e., creating the “2-midnight rule”) and created conditions of Medicare Part A payment related to physician inpatient admission orders and certifications.1 In the last issue of Collaborative Case Management, we reported that, “Hospitals Must Continue Implementation of Controversial 2-Midnight Rule.” However, changes may be soon coming with respect to CMS’ requirement for physician certifications of the medical necessity of all inpatient hospital admissions as a condition of Part A payment. LEARNING OBJECTIVES 1. Discuss the current status of the 2-midnight rule 2. Discuss the current status of the certification requirement for all inpatient hospital admissions 3. Gain a better understanding of the requirement and its implications for hospitals INPATIENT HOSPITAL CERTIFICATION REQUIREMENT – BACKGROUND Pursuant to Section 1814 (a) (3) of the Social Security Act (42 U.S.C. § 1395f (a) (3)), as a condition of Medicare Part A payment for inpatient hospital services (other than inpatient psychiatric hospital services), which are furnished “over a period of time,” a physician must certify (and recertify) that such services are required to be given on an inpatient basis. The statute limits the certification requirement to “such cases, with such frequency, and accompanied by such supporting material, appropriate to the cases involved, as may be provided by regulations…” The statute requires that the first certification be completed no later than the twentieth day following an inpatient hospital admission. Implementing regulations are codified at 42 C.F.R. § 424.13. Prior to publication of the 2014 IPPS Final Rule, the certification requirement was enforced only with respect to long-term hospital stays and outlier cases. In its 2014 IPPS Proposed Rule, CMS first formally articulated its position that certifications of medical necessity were required as a condition of payment for all inpatient hospital admissions.2 However, of note, prior to the publication of the 2014 IPPS Proposed Rule, certain CMS contractors unsuccessfully had argued to the Medicare Appeals Council (the “Council”) that certifications were required for all inpatient hospital admissions, including short stays.3 In the 2014 IPPS Proposed Rule, CMS classified its new position as a “clarification.”4 However, as a practical matter, prior to the effective date of the 2014 IPPS Final Rule, physicians did not necessarily complete certification statements for all inpatient hospital admissions, other than long-term hospital stays and outlier cases. 13 COLLABORATIVE CASE MANAGEMENT | ACMAWEB.ORG Commenters to the 2014 IPPS Proposed Rule argued that CMS’ stated intent to require certifications for all inpatient hospital admissions (and not just for extended hospital stays and outlier cases) was not supported by the language or the legislative history of Section 1814 (a) (3) of the Social Security Act: [I]n the Social Security Amendments of 1967, Congress amended the statutory language from requiring physician certification of hospital inpatient services to requiring a physician certification only for “inpatient hospital services… which are furnished over a period of time.” Moreover, the commenters cited congressional reports [i.e., S. Rep. No. 90-744, at 239 (1967), H.R. Rep. No. 90-544 at 149 (1967)] explaining this statutory change by stating that it “elimitate[d] the requirement for hospital insurance payments that there be a physician’s certification of medical necessity with respect to admission to hospitals which are neither psychiatric nor tuberculosis institutions” and that such a certification is required “only in cases of hospital stays of extended duration.” The commenters suggested that the House report also explains the reason for the change, stating that “admissions to general hospitals are almost always medically necessary and the requirement for a physician’s certification of this fact results in largely unnecessary paperwork” (H.R. Rep. No. 90-544, at 38 (1967)… 5 Ultimately, CMS found the commenters’ arguments unpersuasive. Effective October 1, 2014, as a condition of Medicare Part A payment, hospitals are obligated to obtain physician6 certification statements for all inpatient hospital admissions prior to every hospital inpatient’s discharge that documented the following elements: (1) that the services were provided in accordance with 42 C.F.R. § 412.3; (2) the reasons for the patient’s inpatient hospital admission (or special or unusual circumstances in cost outlier cases; (3) the estimated time the patient will require hospital care; and (4) the plans for post-hospital care.7 In its 2014 IPPS Final Rule, CMS stated that it was “not finalizing new documentation requirements”8 with respect to certification statements. Although certification statements must be documented via a separate signed statement within the medical record, a specific 14 form is not required.9 Certification statements may be present on any documentation within the patient file as long as the method chosen permits verification.10 On September 5, 2013, CMS issued its first round of sub-regulatory guidance on the topic of Hospital Inpatient Admission Order and Certification. In this document, CMS instructed medical reviewers regarding the “default methodology” for identifying compliance with the certification regulations. In particular, CMS instructed that in the absence of a specific certification form, reviewers should look within the record for the requisite elements (e.g., physician orders, diagnosis and plan, physician notes, discharge planning instructions).11 Thereafter, on January 30, 2014, CMS issued a second document entitled Hospital Admission Order and Certification, which removed the specific “default methodology” language; however, the substance of the “default methodology” remained part of the guidance.12 Following the effective date of the 2014 IPPS Final Rule, some hospitals adopted certification forms to meet the requirements of 42 C.F.R. § 424.13; others updated their electronic health record; still others counted on the physician documentation within the record to fulfill the certification requirements. Many hospitals reported difficulty complying with the new requirements. During the “probe and educate” medical review process, many hospitals experienced claim denials based on allegations of non-compliance with the certification requirements, despite the fact that each certification element was documented by a signed statement within the medical record prior to discharge. In addition, many hospitals experienced claim denials for the simple reason that hospitals were unable to obtain signed statements within the medical record prior to each patient’s discharge. INPATIENT HOSPITAL CERTIFICATION REQUIREMENT – WHAT DOES THE FUTURE HOLD? In a change of course, in its 2015 Outpatient Prospective Payment System (“OPPS”) Proposed Rule, CMS proposed the following: “[A]fter consideration of public feedback, our experience under the existing regulations, and our policy goals, we are proposing to change our interpretation of section 1814 (a) (3) of the Act to require a physician certification only for long-stay cases and outlier cases.13” Additional requirements of the 2014 IPPS Final Rule (related to physician orders and the 2-midnight rule), would remain in place unchanged under the 2015 OPPS Proposed Rule. In proposing to abandon its requirement for physician certifications of the medical necessity for inpatient hospital admissions for all admissions, CMS noted that, “In our current regulations, we have interpreted the statute’s requirement of a physician certification for inpatient hospital services furnished “over a period of time” to apply to all inpatient admissions. While this is not the only possible interpretation of the statute, we believe that it is a permissible interpretation.”14 CMS proposes to maintain the condition of payment related to inpatient hospital admission orders based on its general authority to create regulations necessary to carry out the Medicare program authorized by Section 1871 of the Social Security Act (42 U.S.C. § 1395hh), rather than as an element of certification under Section 1814 (a) (3).15 If the 2015 OPPS Proposed Rule is implemented as proposed, hospitals are not off the hook with respect to physician documentation. Under the 2015 OPPS Proposed Rule, CMS stated its belief that “the admission order, medical record, and progress notes will contain sufficient information to support the medical necessity of an inpatient admission,” but alleviated hospitals of the burden to obtain signed statements prior to each hospital inpatient’s discharge.16 In summary, in its 2015 OPPS Proposed Rule, CMS proposed to eliminate the current requirement for physician certification of the medical necessity of all inpatient hospital admissions. Rather, the certification requirements codified at 42 C.F.R. § 424.13 would be limited to admissions of 20 or more inpatient days or outlier cases as defined by 42 C.F.R. Part 412 Subpart F. Significantly, the 2015 OPPS Proposed Rule has not been finalized. Currently, hospitals must continue to abide by the certification requirements for all inpatient hospital admissions. “Probe and educate” medical reviews continue, and medical review contractors are assessing hospitals for compliance with the 2014 IPPS Final Rule (including the certification regulations). FALL EDITION 2014 ABOUT THE AUTHORS Jessica L. Gustafson, Esq. and Abby Pendleton, Esq. are founding shareholders with the health care law firm, The Health Law Partners, P.C. The firm represents hospitals, physicians, and other healthcare providers and suppliers with respect to their healthcare legal needs. Ms. Gustafson and Ms. Pendleton colead the firm’s Recovery Audit and Medicare appeals practice group, and specialize in a number of areas, including Medicare, Medicaid and other payor audit defense and appeals; healthcare regulatory matters; compliance; HIPAA privacy and security compliance matters; overpayment refunds; reimbursement and contracting matters; and payor departicipation matters. REFERENCES 1 78 Fed. Reg. 50496 et seq. (August 19, 2013). See also 42 C.F.R. § 412.3 and 42 C.F.R. § 424.13. 78 Fed. Reg. 27486 at 27645 (May 10, 2013): “During Medicare contractor review of an inpatient admission, documentation in the medical record is evaluated in conjunction with the physician order and the physician certification that is also required for payment of hospital inpatient services under section 1814(a) of the Act and 42 CFR 424.13” (emphasis added). 2 See e.g., In the case of King’s Daughters Medical Center, M-12-1231 (DAB June 26, 3 2012), in which the Medicare Appeals Council (the “Council”) found (in response to such argument), “The physician in this case could not provide ‘reasons for continued hospitalization’ because the beneficiary had just been admitted. Nor could the physician provide ‘reasons for special or unusual services for cost outlier cases.’ There is nothing in the record to indicate this was identified as a cost outlier case. Therefore section 424.13 of the regulations does not apply here.” 78 Fed. Reg. at 50938. 4 78 Fed. Reg. (emphasis added). 5 at 50938-50939 6 Authority to sign the certification statements is limited to the physician (i.e., MD, DO, DDS in certain circumstances, and podiatrists in certain circumstances) responsible for the case or another physician who has knowledge of the case and who is authorized to do so by the responsible physician or by the hospital’s medical staff. A member of the hospital’s utilization review committee would satisfy this requirement. In addition, in contrast to the admitting practitioner, the certifying physician need not have admission privileges at the hospital. See “Hospital Inpatient Admission Order and Certification,” January 30, 2014, available at http://cms.gov/Medicare/ Medicare-Fee-for-Service-Payment/ AcuteInpatientPPS/Downloads/IPCertification-and-Order-01-30-14.pdf. 7 42 C.F.R. §412.13 (a). See also See “Hospital Inpatient Admission Order and Certification,” September 5, 2013, available at http://cms.gov/Medicare/ Medicare-Fee-for-Service-Payment/ AcuteInpatientPPS/Downloads/IPCertification-and-Order-09-05-13.pdf and “Hospital Inpatient Admission Order and Certification,” January 30, 2014, available at http://cms.gov/Medicare/Medicare-Fee-forService-Payment/AcuteInpatientPPS/ Downloads/IP-Certification-andOrder-01-30-14.pdf. 78 Fed. Reg. at 50940. Id. 10 Id. 8 9 11 See “Hospital Inpatient Admission Order and Certification,” September 5, 2013, available at http://cms.gov/Medicare/Medicare-Feefor-Service-Payment/AcuteInpatientPPS/ Downloads/IP-Certification-andOrder-09-05-13.pdf. See “Hospital Inpatient Admission Order and Certification,” January 30, 2014, available at http://cms.gov/Medicare/Medicare-Feefor-Service-Payment/AcuteInpatientPPS/ Downloads/IP-Certification-andOrder-01-30-14.pdf. 12 79 Fed. Reg. 40916 at 41057 (July 14, 2014) (emphasis added). 13 14 15 79 Fed. Reg. at 41057. Id. 16 Id. 15 COLLABORATIVE CASE MANAGEMENT | ACMAWEB.ORG Building the Foundation to Reduce Readmissions for Heart Failure Gail Serralta, RN, BSN, CCM, CMAC; Michelle Hendricks, RN, BSN THESE AUTHORS HAVE NO FINANCIAL RELATIONSHIPS WITH COMMERCIAL INTERESTS TO DISCLOSE. The Centers for Medicare and Medicaid Services’ (CMS) readmission reduction initiative has sparked a nationwide push to develop and implement processes to prevent or at least reduce unplanned readmissions to the acute care setting. Like many other medical centers nationwide, Methodist Dallas Medical Center recognized opportunities to reduce the readmission rate for its heart failure patient population. LEARNING OBJECTIVES 1.Discuss a readmissions reduction initiative for the heart failure patient population 2.Explain the main elements – both inpatient and post-discharge – of MDMC’s heart failure readmissions reduction initiative ABOUT METHODIST DALLAS MEDICAL CENTER Methodist Dallas Medical Center (MDMC) has served North Texas since 1927. It is a Level II Trauma Center with medical education and 16 residency programs and transplant programs for adult liver, kidney and pancreas transplants. It is also the main teaching and referral center for Methodist Health System. MDMC is a 558bed facility, and its medical staff includes more than 250 physicians with expertise in more than 60 medical specialties. BACKGROUND From 2010 to 2012, the 30-day readmission rate at MDMC had been climbing (see Figure A). The CMS Readmission Reduction report also confirmed that this was an opportunity for improvement for MDMC (see Figure B.) FALL EDITION 2014 Figure A on improving transitions of care. Based on the team’s findings, it developed and initiated a program with a focus on increasing patient self-care management abilities. While the patient was in the hospital, the CBCM would provide self-management and disease process education and training to the patient and their caregivers. This would be followed by telephonic follow-up after discharge to provide support and encouragement as new skills and knowledge were applied. CMS Readmission Reduction Report: July 2008-June 2011 Figure B MDMCNational Crude Rate 28.4% 24.6% Risk Standardized Readmission Rate 27.3% 25.3% In Fiscal Year 2013, MDMC had 503 inpatient admissions with a primary ICD-9 diagnosis of Heart Failure (HF). For the organization’s HF patients, the average patient age is 66.2 with a payer mix shown in Figure C. Almost all of MDMC’s HF patients are managed by its hospitalist group with only 15 patients, or 2.98%, managed by a specialist. Roughly half of MDMC’s hospitalists’ patients are seen by its teaching service. Figure C Payer Type Admissions Percent Medicare 23145.92% Managed Medicare 123 24.45% Self Pay 56 11.13% Managed Medicaid 51 10.14% Private 377.36% Medicaid 50.99% At MDMC, the HF Readmission Reduction Program was led by the director of care management and a community based case manager (CBCM). The journey began with completing an extensive analysis of the organization’s HF patient population, with a focus on patients with one or more 30-day readmission. The team also performed an extensive review of the literature to determine best practice guidelines for HF patients, and recommendations related to decreasing readmissions. MDMC modeled its program development on existing readmission reduction programs, including the Better Outcomes for Older Adults through Safe Transitions (BOOST) program, Reengineered Hospital Discharge (Project RED), State Action on Avoidable Rehospitalizations (STAAR), and Dr. Eric Coleman’s Care Transitions Program. For HF, disease self-care management plays a key role in keeping patients well and out of the hospital.1,2,3 Patients with HF must have both the knowledge and ability to take their medications, eat a low sodium diet, be physically active, and identify and respond to changes in signs and symptoms of their disease.1,2,3 The American Heart Association (AHA) and the Heart Failure Society of America (HFSA) both recommend not only educating patients about their disease, but also teaching them skills to apply the knowledge.1,2,3 Routine screening for barriers to self-care and appropriate referrals to post-acute services promote self-care. The guidelines and recommendations from AHA and HFSA fit well with the increased case management/ coaching recommended by programs focused MDMC utilizes the Plan-Do-Study-Act cycle to review quality improvement programs. As the team continuously reviewed program data, they were surprised to find several opportunities to strengthen the hospital’s patient care processes in order to have the patient achieve successful self-management of their disease process. The team also needed to build a stronger foundation during the patient stay, from admission to discharge. At that point it was determined that if any meaningful impact was to occur on reducing readmission rates for this patient population, the focus had to be on the acute care processes first. The program shifted focus from transitions of care to the application of best practice guidelines for a hospitalized patient, 1 and a Heart Failure Clinical Pathway and Heart Failure Order Set were developed. Patient self-management education and training would still occur while the patient was in the hospital, but the team also worked to support adherence to the HF clinical pathway and order set. METHOD Like many hospitals, when MDMC leadership first decided to create a program to address 30-day readmissions, they began by establishing a committee. The Readmission Reduction Steering Committee was created to look at all readmissions, with HF readmissions to be the first diagnosis on focus. Hospital administration provided the strong support needed to gain multidisciplinary engagement across departments. Throughout the life of the program and as focuses shifted, committee membership changed, but initial committee members included the organization’s cardiology physician champion, a hospitalist, nurse managers from the telemetry floors, nursing leadership, pharmacy leadership, the outpatient teaching clinic administrator, the Community CBCM, a registered dietitian, and a cardiac rehab specialist There were also ad 17 COLLABORATIVE CASE MANAGEMENT | ACMAWEB.ORG hoc members from the organization’s accountable care organization (ACO), the informatics department, palliative care, quality, and the department of education (DOE). The committee was chaired by the director of care management who, with the CBCM, reported bi-monthly to the executive steering committee. The Executive Steering Committee meeting was attended by the cardiology physician champion, chief quality/medical informatics officer, director of clinical outcomes, VP of finance, VP of operations, and VP of nursing. The steering committee met on a monthly basis, initially to discuss and direct program development and later to review outcomes and opportunities for program improvement. The CBCM would run monthly readmissions data and present progress on program development and implementation. The executive committee provided guidance and support needed to resolve barriers to implementation of the recommendations from the steering committee. From the analysis of HF patients and the review of literature, the team at MDMC created an outline of what an optimal case managementdriven HF readmission reduction program would look like. Then they met with frontline staff and physicians to discuss current practices. They also received input from hospital leadership regarding how best to align the program with the hospital’s mission and goals. Taking the parts of their ideal program that fit well with the hospital’s goals and had the greatest potential for significant impact, the team then created an initial outline of a multi-phase program. The identified purpose of the program was to establish a community care approach to managing the HF patient population at MDMC. The three goals of the program were to 1) reduce the 30-day readmission rate, 2) reduce the average LOS, and 3) improve HCAPS scores for selected domains. PROGRAM SUMMARY WHILE INPATIENT: 1.CBCM review case due to referral or case finding. 2.Focus on population with diagnosis of HF 3.Use high risk screening tool to identify patient that will have greatest benefit. 4.If patient admitted to program, CBCM will implement and coordinate multidisciplinary team approach. i.e. Nutrition 18 Consult, Pharmacy Consult, Nursing, Social Work and any other discipline deemed necessary for comprehensive management of individual patient. 5.Coordinate and monitor the team approach to educating the patient / caregiver about the patient’s disease and their medications throughout the stay. 6.Arrange all post discharge aftercare with patients and families. Ensure appointments are made prior to discharge and, if patient agrees to participate in the Walgreens program, ensure all new prescriptions are filled and delivered to the patient room prior to discharge. 7.Provide ‘Transition of Care’ packet and ensure teaching with patient and caregiver complete and thorough regarding discharge plan. 8.Provide a scale to patients who do not have one. POST DISCHARGE: 9.Follow up telephonically post discharge with patient/ caregiver within 48-72 post discharge and as frequently as necessary depending on patient need. 10. Communicate and collaborate with post acute service providers until patient discharged from CBCM program. (‘Discharged’ patients will still be monitored for future readmissions) 11. Average length of time active in program anticipated to be 30-90 days. 12. Track, trend and report statistical information related to the program interventions. The committee spent several months discussing the details of how each part of the program was to be implemented. It was finally decided that the most important element was for the CBCM to start seeing patients and the other various parts of the program would be implemented in phases. The organization’s CBCM began seeing patients on January 28, 2013. The CBCM continuously gathered outcomes data and brought it to the monthly readmission reduction steering committee meeting. Three months into the program, the data suggested that there were several opportunities to strengthen patient care processes on both the nursing and physician side. There were three main areas of opportunity the steering committee identified.1) Knowledge of bedside staff, 2) Standardization of treatment, 3) Patient education. HOSPITAL STAFF EDUCATION A subcommittee was established, which included nurse managers and staff from the telemetry floors, the DOE, and the CBCM. The goals of the subcommittee were to identify specific gaps in the knowledge and skillsets of bedside staff, develop and implement training tools to address those gaps, and evaluate the effectiveness of the training. Bedside staff included patient care technicians (PCT) and nurses. PCTs were provided education and training on the consistent collection, accurate measurement and documentation of patient intake and output of fluids along with daily morning standing weights. Treatment decisions were being made based on the assessment findings and documentation results therefore it was vital that processes were consistent across all units and all shifts. In-services were conducted on the unit then competency check-offs and ongoing monitoring ensured application of the training. The CBCM did regular chart audits to review the accuracy of the documentation of I&Os and daily weights. Nursing received in-depth education on the care and management of the HF patient in an acute care setting. This included the importance of strict I&Os, patient education, and accurate cardiovascular assessments. Bedside nurses from the primary heart failure unit, who were highly engaged in the initiative, were asked to complete online CEU training courses and become heart failure subject matter experts (SME) for the facility. The SMEs were then able to be a resource of information for the rest of the unit staff and other units in the hospital. The SMEs also developed poster education boards for both nurses and for patient families that were posted on the unit. The CBCM also created binders with up-todate patient care standards and recommendations from the American Heart Association (AHA) and the American College of Cardiology (ACC) that were placed on the telemetry units. The CBCM attended staff meetings and shift changes to discuss the HF program and answer questions – this included attending shift change on the weekend and at night shift, to ensure that everyone was included in the discussion. Initially, the challenges faced with hospital staff education were identifying what the FALL EDITION 2014 educational gaps were, who was going to provide the education, and how the effectiveness of the education provided would be evaluated. Once the education began, challenges included initial buy-in from staff, the ongoing monitoring of staff compliance, and training new staff. STANDARDIZATION OF TREATMENT Standardization of patient care between physicians and residents was another opportunity identified. Review of patient charts showed significant variation in practice patterns among practitioners. Corporate leadership at Methodist Health System, a fourhospital system which includes MDMC, set a goal to standardize the care of the HF patient across the system by creating a HF clinical pathway and admission order set. The cardiology physician champion, hospitalist representative, and CBCM reviewed current best practice guidelines from the AHA and ACC to develop the pathway and order set. Both were then reviewed by bedside nursing, pharmacy, cardiology and the hospitalists at MDMC. The draft pathway and order set were then shared with other cardiologists across the Methodist system to allow opportunity for input and to increase buy-in among the cardiologists. Education was provided to the hospitalists and residents regarding the availability of the new heart failure order sets. The order sets, clinical pathways and patient teaching booklet were bundled in a blue folder and placed in the ED dictation room for the admitting physician to use. These documents were also on the telemetry floors, where most of the heart failure patients were admitted. Nursing and unit secretaries monitored the admitting diagnoses as the patients came to the floor. If the diagnosis was indicated to be heart failure, the unit staff would contact the physician to inquire if they would like to implement the new heart failure order set. Sometimes the answer was “yes” and sometimes it was “no” but the question was always asked. If the patient was actively being treated for HF exacerbation, a HF Clinical Pathway was to be placed in the chart, even if the admitting diagnosis was not HF. The HF Readmission Reduction program as a whole was initially met with skepticism from the physicians and residents. Their doubt stemmed from the potential for success of the program and a pervasive feeling that readmissions were unavoidable for this patient population. This belief led to passive resistance to the use of the HF Admission Order Set and adherence to the clinical pathway. The CBCM provided multiple in-services with the hospitalist group and residents to review best practice guidelines and statistical information on MDMC patient data. Data included anticipated length of stay based on severity of illness compared with actual length of stay, readmission rates related to course of treatment, and mortality data. Treatment goals that were seen as the biggest opportunity for improvement were stabilizing patients on their home dose of diuretic for 24 hours before discharge, diuresing patients to their “dry weight,” and appropriate discharge disposition. The health system as a whole made the conscious decision to potentially add one day to the length of stay to ensure that the patient was being discharged on the appropriate medications to prevent readmission. In order for the physicians to evaluate their treatment, they needed accurate I&Os, weights and cardiovascular assessments. This further supported the need for hospital staff education. Education was provided to hospitalists and residents regarding discharge disposition criteria for HF patients. Representatives from area post- acute providers presented at the monthly physician meetings to ensure they were aware of options available for patients. Physicians were also encouraged to address discharge planning earlier in the stay so that there would not be a delay in discharge for patients who met the criteria for post-acute services. Physicians were also encouraged to discuss treatment options with the advanced stage HF patients. There are three facilities in Dallas that provide LVAD and heart transplant as treatment options, but MDMC does not. Several patients, who readmitted repeatedly, were identified as appropriate for referral to one of those programs, but for multiple reasons, a referral had not been made. There were other patients with advanced HF who did not qualify for a LVAD or transplant, and physicians were encouraged to discuss the option of palliative care with the patient. To address concerns that following the clinical pathway might increase LOS, a physician-led daily huddle to discuss patient progression and barriers to discharge was piloted on the unit where most of the heart failure patients were admitted. The hospital’s physician advisor facilitated the Monday-Friday meeting. The meeting was attended by the CBCM, unit manager or charge nurse, case manager and social worker for the unit. The physicians would come and discuss the treatment plan and discharge plan for any patient with a LOS ≥3. During this huddle there was discussion regarding heart failure care, patient needs post-discharge, transition to oral medications for 24 hours prior to discharge, and the possible benefits to the patient of home health care evaluation. Push-back from physicians is an ongoing challenge. Although physicians are reminded of best practice guidelines throughout the patient’s stay, they may choose not to use the HF order set or adhere to the clinical pathway. The CBCM and bedside staff can have educated conversations with the physician about the plan of care, but final decisions about treatment plans are made by the physician. The key in achieving buy-in is evidence that indicates a significant impact on improved patient outcomes to result in changing their practice patterns. Like other groups, MDMC’s hospitalists believe that their patient population is terminally unique, sicker and more complicated than patients at other facilities. Presenting data from other facilities was not significant to them. Presenting the physicians with outcomes data from statistical analysis of MDMC’s own patient population was the key in gaining support from the physicians. PATIENT EDUCATION NEEDS HF is a chronic disease that has to be managed by the patient to prevent exacerbation and the need for hospital admission. Many HF patients with multiple hospital admissions are labeled “non-compliant.” As the CBCM met with patients and reviewed data, it was discovered that very few of MDMC’s HF patients were truly noncompliant. Most patients did not understand their disease process or the impact of their lifestyle on their HF. The HF patients were being educated by staff, but there was a clear gap in the transfer of knowledge. The team at MDMC started with a community literacy analysis. Most of the current teaching tools were written at an eighth grade reading level. The analysis indicated the literacy level around MDMC’s urban facility to be in the lowest 10% in the nation. A review of current literature showed the difference between “health literacy” and literacy. High literacy level does not directly correlate to high health literacy, which is why an eighth grade reading level had been 19 COLLABORATIVE CASE MANAGEMENT | ACMAWEB.ORG used previously. MDMC felt that for their patient population, using educational material at a third to fifth grade reading level would be more successful in ensuring knowledge transfer. They also felt that the educational material would need to be simplified. There was no pre-printed teaching material found that met the patient population’s needs, so a subcommittee was formed to develop a customized HF teaching booklet. after discharge, 3) Weigh yourself every morning and call your doctor if you gain 3 pounds in a day or 5 pounds in a week. There are other critical topics for heart failure patients; however, MDMC’s goal for patient education was to give the patient a “Dixie cup portion” of information to digest, instead of spraying them with a “fire hose of information,” hoping they will retain some important information. The committee was chaired by the CBCM and included a registered dietitian, cardiac rehab specialist, and leadership from the telemetry units. Over several months the committee met and created the content for the “Guide to Heart Failure” booklet. Content was reviewed and approved by the cardiology physician champion. The CBCM then took the content and worked with the public relations department to draft a booklet. A final draft was reviewed by cardiology, pharmacy, nursing, and volunteers from the older adult community outreach program. The final booklet contains basic information on HF, symptoms, daily weights, medications, diet, physical activity, and physician visits. It also engages the patient with places for them to write questions, take quizzes and record self-care activities after discharge. Patients are encouraged to bring the booklet to follow-up appointments to facilitate communication with their primary care physician (PCP). Challenges faced in developing educational material were minimal. The committee agreed easily on content and formatting based on best practice recommendations for low literacy health education. The only significant challenge was time: the time necessary to secure approval for the booklet from legal, and then the time necessary for the hospital’s public relations department to format and publish the booklet. Securing support from the public relations department leadership was instrumental in getting the booklet published. Training on use of the “teach back method” of patient education was provided to all staff in a position to teach a patient. This method of education encourages staff to have the patient “teach back” what they just learned, allowing for evaluation of the education provided. An electronic learning module was developed for nurses and another module developed for nonRN staff, both using examples of heart failure patient education. This module was required for all clinical area staff and was added to their annual core competency training. It was also added to the new hire competency training for all new clinical staff. HF is a complicated disease, usually accompanied by multiple comorbidities. Patients are often overwhelmed with information during their 2-3 day stay. Nurses were taught to review all the topics in the “Guide to Heart Failure Booklet,” but not everything could be covered in detail. The three pieces of information the committee felt were the most crucial educational needs for patients were: 1)Take your medications as prescribed by your doctor, 2)Follow-up with your doctor 20 OUTCOMES ABOUT THE AUTHORS Gail Serralta, RN, BSN, CCM, CMAC, has been Director of Care Management at Methodist Health System since 2007. She has more than 30 years of health care experience, 14 of which have been in case management. During her 19 years as a nurse, she has specialized in emergency room care and intensive care. Michelle Hendricks, RN, BSN, has been at Methodist Health System since 2011. She earned her BSN from Baylor University Louise Herrington School of Nursing and has received post graduate education from Johns Hopkins Bloomberg School of Public Health. Michelle has 10 years of combined experience in critical care/emergency nursing, nursing education, and case management. REFERENCES 1 Jessup M, Abraham WT, Casey DE, Feldman AM, Francis GS, Ganiats TG, Konstam MA, Mancini DM, Rahko PS, Silver MA, Stevenson LW, Yancy CW, writing on behalf of the 2005 Guideline Update for the Diagnosis and Management of Chronic Heart Failure in the Adult Writing Committee. 2009 Focused update: ACCF/ AHA guidelines for the diagnosis and management of heart failure in adults: a report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines. Circulation.2009;119:1977–2016. Riegel B, Moser DK, Anker SD, Appel LJ, Dunbar SB, Grady KL, Gurvitz MZ, Havranek EP, Lee CS, Lindenfeld J, Peterson PN, Pressler SJ, Schocken DD, Whellan DJ; on behalf of the American Heart Association Council on Cardiovascular Nursing, Council on Clinical Cardiology, Council on Nutrition, Physical Activity, and Metabolism, and Interdisciplinary Council on Quality of Care and Outcomes Research. State of the science: promoting self-care in persons with heart failure: a scientific statement from the American Heart Association. Circulation. 2009;120:1141–1163 3 Lindenfeld J, Albert NM, Boehmer JP, Collins SP, Ezekowitz JA, Givertz MM, Klapholz M, Moser DK, Rogers JG, Starling RC, Stevenson WG, Tang WHW, Teerlink JR, Walsh MN. Executive Summary: HFSA 2010 Comprehensive Heart Failure Practice Guideline. J Card Fail 2010;16:475e539. 2 FALL EDITION 2014 Read Collaborative Case Management, Earn CEs Free continuing education credits are available to ACMA’s nurse and social worker members who read the publication and complete the associated online quizzes with a passing score of 80%. To obtain continuing education credits, members must: by the California Board of Behavioral Sciences (CEP #4591). ACMA is a provider approved by the California Board of Registered Nursing (Provider Number CEP #15413) for 1.2 contact hours (1.0 CE in 60-minute states). •Read Collaborative Case Management • Successfully complete and submit the associated online quiz located in the Members Only section of the ACMA website. To login, go to www.acmaweb.org/login • A certificate will be available for print and download upon successful completion of the quiz • Each issue’s continuing education opportunity expires after one year (365 days) ACMA is also a provider approved by the Florida Board of Nursing for 1.2 nursing contact hours (based on 50-minute hour) and 1.0 nursing contact hour (based on 60-minute hour); and the Florida Board of Clinical Social Work, Marriage and Family Therapy and Mental Health Counseling for 1.0 hour of continuing education credit – CE Broker Course Tracking #20-430708. CE DETAILS ACMA is also a recognized CE provider for nursing and social work in multiple other states. 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