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Issues for designing marrow transplant programs
Issues For Designing Marrow Transplant Programs Joleen Kelleher
ONE MARROW transplantation (BMT) is en-
countering another evolutionary transformaB tion. Hematopoietic growth factors, gene therapy, recombinant toxins, cloning techniques, variation in stem-cell acquisition, and pharmacological breakthroughs are changing the treatment regimens and patient outcomes. 1-3 At the same time, we are challenged by the dramatic pressure on the health care delivery system to control cost, to assure quality of care, and to curb overutilization of services. These constraints are the catalysts for hospitals to integrate cancer services. Patients and insurers are shopping not only for technical expertise but also for quality, costeffective service. The emerging theme of value measured as both quality and price is a major basis of competition between marrow transplant care provider groups. 4 Presently there are over 150 autologous and/or allogeneic transplant centers in the United States. Their sizes range from 2- to 60-bed programs. More than 6,150 transplants are performed yearly. The number of autologous transplants and new programs have outpaced allogeneic transplants in the past several years. 5 Patients undergoing marrow transplantation are usually not being treated for an acute illness episode. They have already been part of a health care system and after the transplant will return to that same care system. The BMT program may be an extension of a preexisting comprehensive cancer program where the patient received care or a separate program to which the patient was referred. A center considering designing or redesigning a marrow transplant program must focus on maximizing health and functioning, not just saving or extending life. This includes creating an environment that
From the Fred Hutchison Cancer Research Center, Seattle, WA. Joleen Kelleher, RN, MS: Bone Marrow Transplantation Consultant, and former Director of Nursing, Fred Hutchison Cancer Research Center, Seattle, WA. Address reprint requests to Joleen Kelleher, RN, MS, BMT Consultant, 990 Swanson Way, Poulsbo, WA 98370. Copyright 9 1994 by W.B. Saunders Company 0749-208119411001-000855.0010
64
promotes healing and builds on the chronic care trajectory model rather than the single treatment program model. 6 This environment can be achieved by creating a unit without walls that is supported by a cancer committee, tumor board, tumor registry, multidisciplinary consultation team, cancer education resources, and skilled oncology/transplant nursing staff.7 PROGRAM DESIGN
Designing a BMT program requires considerable management skills to plan, implement, and determine the quality and suitability of the final plan. The formation of a "primary and expanded" design team may help to avoid large committees that often become dysfunctional (Table 1). s The members of the primary design team are responsible for developing the strategic plan, site visit review, developing a mechanism of continued input from the expanded design team, and implementation of the strategic plan. The expanded team members act as experts in their professional areas and develop recommendations for space and staff. These plans are submitted to the primary team for approval. This process develops commitment and investment by all groups involved. Several characteristics in the care of BMT patients require high-technology resources, skilled staff, and organizational commitment. These are the extent and duration of immunosuppression, organ-system complications, and certain unique technical issues (such as cyropreservation of stem cells and management of graft-versus-host disease). Minimum criteria for implementing a safe and successful BMT program have been approved by the American Society of Hematology and the American Society of Clinical Oncology (Table 2). 7 The purpose of the guidelines are to ensure the safe and reliable treatments of patients undergoing marrow transplantation. A recent study from the International Bone Marrow Transplantation Registry supports the American Society of Hematology/American Society of Clinical Oncology guidelines. The results of the study indicate that the number of allogeneic bone marrow transplants performed at individual insti-
Seminars in Oncology Nursing, Vol 10, No 1 (February), 1994: pp 64-71
DESIGNING BMT PROGRAMS
Table 1. Marrow Transplantation Program: Design Team Primary BMT medical director Medical hematology/oncology physician Nurse manager Oncology CNS Hospital financial administrator Chief engineer Facility planner Expanded Epidemiologist Laboratory representatives Pharmacy representative Dietary representative Social work representative Environmental service Blood bank representative Abbreviation: CNS, clinical nurse specialist.
tutions for leukemia was predictive of outcome. 3 The adjusted probability of treatment-related mortality was higher among patients having transplantation at centers in which five or fewer transplants were performed per year. Instability of health care reimbursement makes it imperative that the design team develop a comprehensive business plan that begins with a strategic analysis of the external and internal financial environments (Fig 1). 9 Based on the results of this analysis, the hospital will decide whether to be a primary center for BMT or develop a jointmanaged care contract with an already existing program. The next phase of the strategic plan is financial risk analysis to define the scope and potential financial performance of the program. Data to be obtained include information on patient population and insurance coverage mix, types of transplants to be offered, treatment protocols, 5-year projection of transplant numbers, and anticipated increase in ancillary service utilization (Table 3). Nursing unit costs are variable depending on mix of patients, patient room design, ventilation system, equipment needs such as intravenous pumps, and specialized monitoring equipment. The use of disposable supplies for BMT patients tends to be higher than for general oncology patients. 9 Planning for BMT programs must include the prediction for service utilization. The greatest services needed during the initial transplant admission are from pharmacy and laboratory. Regional differences in hospital costs have resulted in a wide
65
range of transplant costs. The average cost for types of transplant takes into consideration length of hospitalization and appropriate follow-up outpatient care (Table 4).1~ OPERATIONAL DESIGN
Traditionally, BMT units have been designed so that clinically complex activities are consolidated on a designated inpatient unit. Ancillary services have been organized in a manner that supports the cost-per-service reimbursement system. Patients are protected from airborne spread of infectious agents with a sophisticated, protective environment and stringent infection control practices. Care is provided by a highly skilled and dedicated team. A comprehensive description of this type of Table 2. Criteria for BMT Program issue
Criteria
Patient volume
Sufficient number of transplants (at least 10-20 per year) allowing for designated transplant program. New units should be in compliance within 2 years of operation.
Treatment outcome
Sufficient patient numbers in specific disease groups to be able to compare results with published data from other centers. Mechanism for reporting data to available registries (ie, IBMTR).
Data reporting Personnel
Trained BMT physicians. Consulting physicians with broad range of specialties. Full-time trained and committed nursing staff. Full-time BMT coordinators. Adequate support services (ie, social work, dietary).
Facilities
Designated transplant unit (two or more designated beds) Equipment, experience, and protocols for special handling of marrow after collection (ie, cyropreservation, ABO incompatibility). For allogeneic transplants, certified histocompatibility laboratory. Protocol and equipment for required isolation (high pressure, filtered air, laminar airflow). 24-hour laboratories and radiology support.
Abbreviations: IBMTR, International Bone Marrow Transplantation Registry. Data from American Society of Clinical OncologyJAmerican Society of Hematology. 7 Reprinted with permission. 9
JOLEEN KELLEHER
66 Internal
E~emal
Market-driven
Organization competencies (What can we do?)
Threats/'opportunities (What might we do?)
Non--marketdriven
Values of key implementations 0Nhat do we want to
Social responsibility (What should we do?)
do?)
--Review of cancer senlice utilization & ancillary services
--Demographic forecast ol cancer population charactedstics
--Admitting patterns
--Areas ol cancer service
--Cancer diagnoses treated
--Consumer demand/preference
--Hematology/oncology physician characteristics --Finarcial performance --Facility inventory --Evaluate technology resources --Organizational assessment of patient care delivery system, communication system, educational resources --Assessment of cancer research activity
--Assessment of competitive programs' strengths, weaknesses, future plans, potential for mutual areas ol shadng --BMT program trends, regional, national --Review of BMT research results --Regulatory environmental mapping, reimbursement trends, laws, and impact of laws and regulations --Labor market
facility and of support service requirements has been previously summarized. 9"12A3 There is a subtle migration of many transplant services to the outpatient and home-care settings. This is due to the improvements in infection prophylaxis, improved management of posttransplant complications, increased utilization of peripheral stem-cell transplants, use of hematopoietic growth factors to promote earlier posttransplant engraftment, and pressure to provide cost-effective care./'~'14 Some transplant programs have already begun realignment to a "unit-without-walls" system by redesigning delivery systems to promote continuity of quality care in a cost-effective manner. Patient care units, departments, and work groups are organizing to work together in new ways.16-19 This system can appear almost seamless
Fig 1. Strategic plan, phase I: Internal and external analysis components.
to the patient. The use of peripheral stem cells for transplant is consistent with this change. Selected patients can safely receive a significant portion of their care in an outpatient setting. Table 5 outlines two approaches to this change in care. 15,20 The use of standardized treatment protocols and care pathways as tools for managing care can result in greater consistency in providing clinical care. 21"22These help to sequence interventions in a predictable manner and avoid problems that may compromise patient care, lengthen hospital stay, and increase cost. 23 Outcome monitoring of clinical care, satisfaction, and cost can be accomplished by using individualized collaborative care pathways. Computerizing these tools can reduce variability in the quality of service, customize care, allow for
DESIGNING BMT PROGRAMS
67
Table 3. Strategic Analysis Phase I1: Program Planning and Financial Risk Analys~s
Table 4. Average Cost of Transplant Type Based on Type and Length of Stay DonorType
Inpatient LOS
Outpatient LOS
Cost of Transplant
Autologous Peripheral Bone marrow AIIogeneic Unrelated
8-10 14-21 40-44 44-50
Variable Variable 30-60 30-60
$70,000-$85,000 $80,000-$135,000 $185,000-$225,000 $200,000-$250,000
Areas of focus Type of transplant Percentage of transplant mix Anticipated length of stay Donor pool
Program goal
Types of services provided Environment Patient room design Storage
Space needs
Equipment needs
Capitol equipment Daily supplies
Ancillary services
Blood bank Pharmacy Central service Hematology Microbiology Pathology Radiology OR Services Environmental services Dietary Physical therapy Social work
Review of insurance payor mix
Coverage for BMT
Abbreviation: OR, operating room.
timely revisions of care, improve productivity, and allow for immediate collecting and aggregating of variance data. 24 Care pathways can also help to orient new nurses, physicians, families, and other members of the multidisciplinary team regarding treatment plans and expected outcomes. New clinicians can learn to identify key interventions and respond to variances. NURSING CONSIDERATIONS
Staffing Needs The "unit-without-walls" environment is best suited for nurse managers who can shift from task management to program facilitation and implementation. No one has more potential influence on the delivery of care than the nurse manager. 12 The nurse manager and staff must work effectively with multiple groups in order to facilitate care throughout the transplant process. Creating staffing schedules for the "unitwithout-walls" model can be challenging. Although the sequence of events in the transplant process is predictable, patients' individual responses to treatment and quality of life problems
Abbreviation: LOS, length of stay. Data from Hillner et al,~e and Welch et al. ~
are unpredictable. Changing therapies can have both an immediate and long-term influence on patient acuity.t2'2s The needs of BMT patients predominately fall within the domain of nursing and ancillary services. The transplant nurse is in an ideal position to serve as "case manager," who coordinates and collaborates with other services. Length of stay is controlled, and the staff experience a greater sense of control and satisfaction. 26 Inpatient acuity is variable depending on type and phase of transplant and will increase with the shift of many transplant services to the outpatient setting. The nursing care hours (NCH) per patient day required for BMT patients ranges from 9 to 15 hours. 2s As outpatient services are expanded and discharge criteria become less strict, only acutely ill patients may be cared for in the inpatient setting.14'27A unit with predominantly allogeneic transplant patients would require staffing to accommodate the higher acuity, whereas a unit with mainly autologous BMT requires less staff. Staff mix and job function demand ongoing critical review. Consulting other hospitals with marrow transplant programs can assist in determining predicted NCH. The decision to keep critical care patients on the transplant unit or to transfer them to an intensive care unit can have a dramatic influence on staffing patterns. Critical care needs are almost exclusively a phenomenon of patients undergoing related and unrelated allogeneic transplants. These critical care events include short-term mechanical ventilation for airway management because of severe mucositis, long-term mechanical ventilation for patients who develop adult respiratory distress syndrome or interstitial pneumonia, cardiopulmonary monitoring because of septic shock event or fluid imbalance with veno-occlusive disease, and complications associated with severe graft-versushost disease. 29 It is expensive to prepare an entire
JOLEEN KELLEHER
68
Table 5. Examples of Predominately Outpatient Department Transplant Care for Breast Cancer
Site of Service Inpatient Example 1 Conditioning treatment
Outpatient
Physician Office
8-10-day stay in hospital. Anticipate D/C to OPD 24 hours after last dose of chemotherapy. Infusion of peripheral blood stem cells in OPD infusion area. Daily clinic visit. Single daily IV antibiotic treatment, Family member educated to monitor patient in home. Close living proximity to clinic. Clear guidelines on managing complications and admitting for fever. Patient stable
X
Marrow infusion Pre-engraftment
X X
Postengraftment Example II Conditioning treatment
Marrow infusion Pre-engraftment
X
Postengraftment
Description
X X X
3-4--day treatment. Depending on chemotherapy regimen, may receive overnite hydration at home and antiernetics. Family member educated to monitor side effects of chemotherapy infusion Infusion of peripheral blood stem cells in infusion area, Admit to hospital for period of neutropania, D/C when ANC> 500tram. Patient stable.
Abbreviations: ANC, absolute neutrophil count; D/C, discharge; IV, intravenous, OPD, outpatient department.
staff to manage patients requiring variable levels of critical care, especially for only a few patients. The "unit-without-walls" concept of maintaining continuity despite physical location can be successfully extended to the intensive care unit with the use of care pathways. EDUCATION
Nursing Education and training is an empowering process. investing in a mechanism to ensure skill building and information flow are critical to nursing's ability to thrive in the fast-paced transplant environment. Marrow transplant nursing combines a unique blend of skills in the areas of oncology, critical care (even if critical care patients are not kept on the unit), and outpatient services. 9 Rehabilitative care skills are quickly becoming part of the skill mix of transplant nurses. These nurses are becoming more responsible for the planning and caring of an increasing number of survivors and for teaching these survivors to live with the consequences of cure) ~ Nurse managers are in a position to develop a cadre of highly skilled, expert nurses if there is a willingness to invest in initial orientation and ongoing nursing education (Table 6).9'~2 Establishing a mentoring program within the department provides opportunities for ongoing skill building. As the number of survivors of BMT increase, more
nurses in the system and community will have direct contact with these patients and will benefit from a comprehensive training program.
Family As Designated Caregiver The increase in ambulatory treatment for various phases of transplant has increased patient self-care requirements and has placed demands on family members to manage the treatment side effects and interventions in the home setting. This "unitwithout-walls" model clearly identifies the family member as a designated primary caregiver during selected phases of treatment. Therefore, education of the caregiver is essential (Table 7). 31'3z A well-developed resource support program is mandatory. Caregivers are not only managing the physical care and treatment interventions at home but managing the household finances, experiencing alterations in patterns of living and relationships, constantly standing vigil, experiencing expectations from the healthcare system, and still trying to anticipate the future. 3~ Information should be available on housing, transportation, respite care, child care and schooling, financial support, and all available resources. Support groups can focus on pretransplant and posttransplant care. ECONOMIC CONSIDERATIONS
Reimbursement Some critics believe BMT does not represent a cost-effective use of limited health care dollars. 2s
Table 8. BMT Nursing Education
I. CoreOdentetion Concept
Focus
A. Introduction to BMT
Role of BMT in cancer treatment Evolution of types of BMT Successes over the decades Tissue typing Conditioning therapy Immunotherepy Cancer care concepts: contrasting with BMT Criteria for treatment Pretranspiant work-up Marrow harvesting/storage Conditioning regimen Marrow reinfusion Engraftment Reducing microbial contamination Universal precautions Environment issues System review Pathophysiology Incidence Assessment Treatment Nursing management TPN Blood component administration Common transplant medications Antibacterial Antifu ngal Immunomodulators Antihypertensives Antiviral Applying assessment/monitoring skills Use of care pathways
B. Marrow transplant process
C. Infection control practices
D. Acute complications/toxicities
E. Medication/fluid management
F. Clinical decision making
II. Beyondthe BasicCore Education Concept
Focus
A. Outpatient management posttransplant
B. Patient/family coping
C. Psychosocial support for nursing staff
Discharge criteria Infusion therapies Symptom monitoring Patient/family/caregiver education Home care assessment Stages of coping Loss of control issues Anticipatory guidance Multidisciplinary care management Cultural aspects Survivorship Stressors in BMT Aggressive therapy Research Uncertainty/death Strategies for team building/support
D. Ethical issues specific to BMT E. Thriving in the BMT culture in. Secondary Education
Concept A. Care of the critical care patient
Abbreviation: TPN, total parenteral nutrition.
Focus Critical events Hernodynamic monitoring Mechanical ventilation
JOLEEN KELLEHER
70
Table 7. Patient/Caregiver Education
Concept Orientation to system
Content
Inpatient Outpatient Home-care role as designated caregiver
Process of marrow
transplantation
Chemotherapy (outpatient administration)
Preventing infections Central-line care Marrow donor
Home environment Monitoring the patient at home Medication/IV infusions
Evaluation for BMT Conditioning Transplantation Engraftment Managing complications Self-care activities Purpose of chemotherapy Administration procedures Preventing/managingside effects Resource support Rationale
Handwashing skills Site care Flushing Troubleshooting Procedure Support services Daily activities
Preventing infections Symptom monitoring AssessmenUdecision making Resource support
Emergencies Administration techniques Self-documentation Safety
There is little research to evaluate cost-effectiveness and the cost-benefit ratio. 25'29 Welch and Larsen ~ demonstrated that transplantation for acute nonlymphocytic leukemia compares favorably in outcome with conventional therapy in morbidity and mortality. However, the study failed to consider a higher performance level of the patients undergoing BMT when determining the level of health posttherapy. HiUner et al, 1~ using reasonable assumptions, found that autologous bone marrow transplant for metastatic breast cancer provides a substantial benefit but at a cost that may be untenable. This supports the need for randomized clinical trails. Some bone marrow transplants are considered standard therapy, state-of-the-art, or investigational. In this price-sensitive environment, a BMT that is recognized as a conventional therapy is more likely to be covered than ones recognized as investigational.25 Establishing an insurance liaison position to deal with reimbursement may be a cru-
cial factor in determining the viability of a BMT program. It also gives the center an opportunity to educate third-party payors about the center's treatment standards, cost, and remission and survival data. This person can help the team remain current about reimbursement trends. Many insurers are requiring pretreatment authorization and are negotiating financial capitation as in per diem or global fee. Establishing standard guidelines regulating recipient selection and better accounting of cost of service can reduce financial risk for the institution as it negotiates contracts with insurers. 33
Length of Stay There are few treatments that have an inpatient length of stay between 35 to 44 days and a need for outpatient follow-up care up to 60 days after transplant. Flowcharting the chronology of transplant patient movement through the "seamless" system provides a method of uncovering differences between program policies and actual operations and helps to identify cost-saving changes. New therapies such as use of hematopoietic colonystimulating factors and use of peripherally harvested stem cells are examples of the therapies influencing costs and providing a potential reduction in the morbidity and length of stay associated with ABMT.1'34 Shifting of care to a lower cost unit (ie, delivering conditioning chemotherapy in the clinic or training a designated family caregiver to monitor patient and give therapy in the home) can significantly reduce length of stay and cost per transplant day while still retaining quality.
CONCLUSION
Centers that design a creative and effective BMT program can be viable in this era of limited health care dollars. Ongoing evaluation of cost and outcome is of critical importance to not only the center but also to patients, insurers, and health care policy makers. The growth and survival of this specialty will be based on this information. Nurses should take a leadership role in developing and managing the clinical and financial outcomes in this chaotic and paradoxical decade.
DESIGNING BMT PROGRAMS
71
REFERENCES
1. Spitzer TR, Swain SM, Lippman ME: Reimbursement for solid tumor autologous bone marrow transplant trials: A strategy for ensuring continuation of promising therapy. Cancer Invest 9:93-97, 1991 2. Nemunaitis J, Rabinowe SN, Singer JW, et al: Recombinant granulocyte-macrophage colony-stimulating factor of autologous bone marrow transplants for lymphoid cancer. N Engl J Med 324:1773-1778, 1991 3. Bortin MM, Horowitz MM, Gale RP, et al: Changing trends in allogeneic bone marrow transplantation for leukemia in the 1980s. JAMA 268:607-612, 1992 4. Milakovich M: Creating a total quality health care environment. Health Care Manag Rev 16(2):9-20, 1991 5. Bortin MM, Horowitz MD, Rimm AA: Increasing utilization of allogeneic bone marrow transplantation. Ann Intern Med 116:505-512, 1992 6. Strasen L: Redesigning hospitals around patients and technology. Nurs Econ 9:233-238, 1991 7. American Society of Clinical Oncology, American Society of Hematology: Recommended criteria for the performance of bone marrow transplantation. Blood 75:1209, 1990 8. Fredtka J: Formulating hospital strategy: Moving beyond a market mentality. Health Care Manag Rev 17:21-26, 1992 9. Kelleher J: Developing a bone marrow transplant program: Planning environment and personnel challenges, in Whedon MB (ed): Bone Marrow Transplantation: Principles, Practices, and Nursing Insights. Boston, MA, Jones and Bartlett, 1991, pp 378-395 10. Smith TJ, Hillner B, Desch CE, et al: Efficacy and cost-effectiveness of autologous bone marrow transplantation in metastatic breast cancer. J Natl Cancer Inst 85(18):1460-1474, 1993 11. Welch HG, Larson ED: Cost effectiveness of bone marrow transplantation in acute lymphocytic leukemia. N Engl J Med 321:807-812, 1989 12. Kelleher J, Jennings M: Nursing management of marrow transplant units: A framework for practice. Semin Oncol Nurs 4:60-68, 1988 13. American Institute of Architects Committee: Guidelines for Construction and Equipment of Hospitals and Medical Facilities Washington, DC, US Department of Health and Human Resources, 1992 14. Corcoran-Buchsel P: Ambulatory care: Before and after bone marrow transplantation, in Whedon MB (ed): Bone Marrow Transplantation: Principles, Practices, and Nursing Insights. Boston, MA, Jones & Bartlett, pp 295-311, 1991 15. Lumsdon K: Innovative treatment dramatically shortens stays. Hospitals 25:10, I992 16. Hall B, Grossman J, Peterson FH: Designing a critical care unit: Description of a multidisciplinary process. Nurs Clin North Am 27:129-139, 1992 17. Creighton FA, Bernard AM, McMahon LF, Jr.: An in-
tegrated inpatient management model. Health Care Manag Rev 15:61-70, 1990 18. Lott TF, Blazey ME, West MG: Patient participation in health care: An underused resource. Nurs Clin North Am 27: 61-76, 1992 19. Spitzer-Lehmann R, Yahn KJ: Patient needs drive an integrated approach to care. Nuts Manag 23:30-32, 1992 20. Peters WP: Autologous bone marrow transplantation for breast cancer. Curt Opin Oncol 4:279-282, 1992 21. Eisenburg S, Maracich L: Bone Marrow Transplantation: Standards of Nursing Care. Seattle, WA, Fred Hutchinson Cancer Research Center, 1992 22. Ritter J, Fralic MF, Tonges MC: Redesigning nursing practice: A case management model for critical care. Nurs Clin North Am 27:119-128, 1992 23. Elwood PM: Sbattuck lecture. Outcome management: A technology of patient experience. N Engl J Med 318:15491556, 1988 24. Wujcik D: Computer technology can enhance patient care. ONS News 8(5):9, 1993 25. Bedell MK: Procedure costs and reimbursement issues, in Whedon MB (ed): Bone Marrow Transplantation: Principles, Practices and Nursing Insights. Boston MA, Jones and Bartlett, pp 378-395, 1991 26. Giuliano KK, Poirier CE: Nursing case management: Critical pathways to desirable outcomes. Nuts Manag 22:5255, 1991 27. Corcoran-Buschel P, Parchem C: Ambulatory care of bone marrow transplant patients, Semin Oncol Nurs 4:41-46, 1988 28. Oncology Nursing Society: The 1989 National Survey of Salary, Staffing, and Professional Practice Patterns in Oncology Nursing. Pittsburgh, PA, Oncology Nursing Press, 1990 29. Wujcik D, Downs, S: Bone marrow transplantation. Crit Care Nurs Clin North Am 4:149-166, 1992 30. Andrykoswski MA, Henslee PJ, Farrall MG: Physical and psychosocial functioning of adult survivors of allogeneic marrow transplantation. Bone Marrow Transplant 4:75-81, 1989 31. Stetz KM: Caregiving demands during advanced cancer: The spouse's needs. Cancer Nurs 10:260-268, 1987 32. Oberst MT, Thomas SE, Gass KA, et al: Caregiving demands and appraisal of stress among family caregivers. Cancer Nurs 12:20%215, 1989 33. Durbin M: Bone marrow transplantation: Economic, ethical and social issues. Pediatrics 82:774-783, 1988 34. Elias A, Arash L, Anderson K, et al: Hematologic support during high dose chemotherapy intensification for breast cancer: Recruitment of peripheral blood progenitor ceils by GM-CSF and chemotherapy. Blood 76:85, 1992 (suppl 1) (abstr 536A)
ONE MARROW transplantation (BMT) is en-
countering another evolutionary transformaB tion. Hematopoietic growth factors, gene therapy, recombinant toxins, cloning techniques, variation in stem-cell acquisition, and pharmacological breakthroughs are changing the treatment regimens and patient outcomes. 1-3 At the same time, we are challenged by the dramatic pressure on the health care delivery system to control cost, to assure quality of care, and to curb overutilization of services. These constraints are the catalysts for hospitals to integrate cancer services. Patients and insurers are shopping not only for technical expertise but also for quality, costeffective service. The emerging theme of value measured as both quality and price is a major basis of competition between marrow transplant care provider groups. 4 Presently there are over 150 autologous and/or allogeneic transplant centers in the United States. Their sizes range from 2- to 60-bed programs. More than 6,150 transplants are performed yearly. The number of autologous transplants and new programs have outpaced allogeneic transplants in the past several years. 5 Patients undergoing marrow transplantation are usually not being treated for an acute illness episode. They have already been part of a health care system and after the transplant will return to that same care system. The BMT program may be an extension of a preexisting comprehensive cancer program where the patient received care or a separate program to which the patient was referred. A center considering designing or redesigning a marrow transplant program must focus on maximizing health and functioning, not just saving or extending life. This includes creating an environment that
From the Fred Hutchison Cancer Research Center, Seattle, WA. Joleen Kelleher, RN, MS: Bone Marrow Transplantation Consultant, and former Director of Nursing, Fred Hutchison Cancer Research Center, Seattle, WA. Address reprint requests to Joleen Kelleher, RN, MS, BMT Consultant, 990 Swanson Way, Poulsbo, WA 98370. Copyright 9 1994 by W.B. Saunders Company 0749-208119411001-000855.0010
64
promotes healing and builds on the chronic care trajectory model rather than the single treatment program model. 6 This environment can be achieved by creating a unit without walls that is supported by a cancer committee, tumor board, tumor registry, multidisciplinary consultation team, cancer education resources, and skilled oncology/transplant nursing staff.7 PROGRAM DESIGN
Designing a BMT program requires considerable management skills to plan, implement, and determine the quality and suitability of the final plan. The formation of a "primary and expanded" design team may help to avoid large committees that often become dysfunctional (Table 1). s The members of the primary design team are responsible for developing the strategic plan, site visit review, developing a mechanism of continued input from the expanded design team, and implementation of the strategic plan. The expanded team members act as experts in their professional areas and develop recommendations for space and staff. These plans are submitted to the primary team for approval. This process develops commitment and investment by all groups involved. Several characteristics in the care of BMT patients require high-technology resources, skilled staff, and organizational commitment. These are the extent and duration of immunosuppression, organ-system complications, and certain unique technical issues (such as cyropreservation of stem cells and management of graft-versus-host disease). Minimum criteria for implementing a safe and successful BMT program have been approved by the American Society of Hematology and the American Society of Clinical Oncology (Table 2). 7 The purpose of the guidelines are to ensure the safe and reliable treatments of patients undergoing marrow transplantation. A recent study from the International Bone Marrow Transplantation Registry supports the American Society of Hematology/American Society of Clinical Oncology guidelines. The results of the study indicate that the number of allogeneic bone marrow transplants performed at individual insti-
Seminars in Oncology Nursing, Vol 10, No 1 (February), 1994: pp 64-71
DESIGNING BMT PROGRAMS
Table 1. Marrow Transplantation Program: Design Team Primary BMT medical director Medical hematology/oncology physician Nurse manager Oncology CNS Hospital financial administrator Chief engineer Facility planner Expanded Epidemiologist Laboratory representatives Pharmacy representative Dietary representative Social work representative Environmental service Blood bank representative Abbreviation: CNS, clinical nurse specialist.
tutions for leukemia was predictive of outcome. 3 The adjusted probability of treatment-related mortality was higher among patients having transplantation at centers in which five or fewer transplants were performed per year. Instability of health care reimbursement makes it imperative that the design team develop a comprehensive business plan that begins with a strategic analysis of the external and internal financial environments (Fig 1). 9 Based on the results of this analysis, the hospital will decide whether to be a primary center for BMT or develop a jointmanaged care contract with an already existing program. The next phase of the strategic plan is financial risk analysis to define the scope and potential financial performance of the program. Data to be obtained include information on patient population and insurance coverage mix, types of transplants to be offered, treatment protocols, 5-year projection of transplant numbers, and anticipated increase in ancillary service utilization (Table 3). Nursing unit costs are variable depending on mix of patients, patient room design, ventilation system, equipment needs such as intravenous pumps, and specialized monitoring equipment. The use of disposable supplies for BMT patients tends to be higher than for general oncology patients. 9 Planning for BMT programs must include the prediction for service utilization. The greatest services needed during the initial transplant admission are from pharmacy and laboratory. Regional differences in hospital costs have resulted in a wide
65
range of transplant costs. The average cost for types of transplant takes into consideration length of hospitalization and appropriate follow-up outpatient care (Table 4).1~ OPERATIONAL DESIGN
Traditionally, BMT units have been designed so that clinically complex activities are consolidated on a designated inpatient unit. Ancillary services have been organized in a manner that supports the cost-per-service reimbursement system. Patients are protected from airborne spread of infectious agents with a sophisticated, protective environment and stringent infection control practices. Care is provided by a highly skilled and dedicated team. A comprehensive description of this type of Table 2. Criteria for BMT Program issue
Criteria
Patient volume
Sufficient number of transplants (at least 10-20 per year) allowing for designated transplant program. New units should be in compliance within 2 years of operation.
Treatment outcome
Sufficient patient numbers in specific disease groups to be able to compare results with published data from other centers. Mechanism for reporting data to available registries (ie, IBMTR).
Data reporting Personnel
Trained BMT physicians. Consulting physicians with broad range of specialties. Full-time trained and committed nursing staff. Full-time BMT coordinators. Adequate support services (ie, social work, dietary).
Facilities
Designated transplant unit (two or more designated beds) Equipment, experience, and protocols for special handling of marrow after collection (ie, cyropreservation, ABO incompatibility). For allogeneic transplants, certified histocompatibility laboratory. Protocol and equipment for required isolation (high pressure, filtered air, laminar airflow). 24-hour laboratories and radiology support.
Abbreviations: IBMTR, International Bone Marrow Transplantation Registry. Data from American Society of Clinical OncologyJAmerican Society of Hematology. 7 Reprinted with permission. 9
JOLEEN KELLEHER
66 Internal
E~emal
Market-driven
Organization competencies (What can we do?)
Threats/'opportunities (What might we do?)
Non--marketdriven
Values of key implementations 0Nhat do we want to
Social responsibility (What should we do?)
do?)
--Review of cancer senlice utilization & ancillary services
--Demographic forecast ol cancer population charactedstics
--Admitting patterns
--Areas ol cancer service
--Cancer diagnoses treated
--Consumer demand/preference
--Hematology/oncology physician characteristics --Finarcial performance --Facility inventory --Evaluate technology resources --Organizational assessment of patient care delivery system, communication system, educational resources --Assessment of cancer research activity
--Assessment of competitive programs' strengths, weaknesses, future plans, potential for mutual areas ol shadng --BMT program trends, regional, national --Review of BMT research results --Regulatory environmental mapping, reimbursement trends, laws, and impact of laws and regulations --Labor market
facility and of support service requirements has been previously summarized. 9"12A3 There is a subtle migration of many transplant services to the outpatient and home-care settings. This is due to the improvements in infection prophylaxis, improved management of posttransplant complications, increased utilization of peripheral stem-cell transplants, use of hematopoietic growth factors to promote earlier posttransplant engraftment, and pressure to provide cost-effective care./'~'14 Some transplant programs have already begun realignment to a "unit-without-walls" system by redesigning delivery systems to promote continuity of quality care in a cost-effective manner. Patient care units, departments, and work groups are organizing to work together in new ways.16-19 This system can appear almost seamless
Fig 1. Strategic plan, phase I: Internal and external analysis components.
to the patient. The use of peripheral stem cells for transplant is consistent with this change. Selected patients can safely receive a significant portion of their care in an outpatient setting. Table 5 outlines two approaches to this change in care. 15,20 The use of standardized treatment protocols and care pathways as tools for managing care can result in greater consistency in providing clinical care. 21"22These help to sequence interventions in a predictable manner and avoid problems that may compromise patient care, lengthen hospital stay, and increase cost. 23 Outcome monitoring of clinical care, satisfaction, and cost can be accomplished by using individualized collaborative care pathways. Computerizing these tools can reduce variability in the quality of service, customize care, allow for
DESIGNING BMT PROGRAMS
67
Table 3. Strategic Analysis Phase I1: Program Planning and Financial Risk Analys~s
Table 4. Average Cost of Transplant Type Based on Type and Length of Stay DonorType
Inpatient LOS
Outpatient LOS
Cost of Transplant
Autologous Peripheral Bone marrow AIIogeneic Unrelated
8-10 14-21 40-44 44-50
Variable Variable 30-60 30-60
$70,000-$85,000 $80,000-$135,000 $185,000-$225,000 $200,000-$250,000
Areas of focus Type of transplant Percentage of transplant mix Anticipated length of stay Donor pool
Program goal
Types of services provided Environment Patient room design Storage
Space needs
Equipment needs
Capitol equipment Daily supplies
Ancillary services
Blood bank Pharmacy Central service Hematology Microbiology Pathology Radiology OR Services Environmental services Dietary Physical therapy Social work
Review of insurance payor mix
Coverage for BMT
Abbreviation: OR, operating room.
timely revisions of care, improve productivity, and allow for immediate collecting and aggregating of variance data. 24 Care pathways can also help to orient new nurses, physicians, families, and other members of the multidisciplinary team regarding treatment plans and expected outcomes. New clinicians can learn to identify key interventions and respond to variances. NURSING CONSIDERATIONS
Staffing Needs The "unit-without-walls" environment is best suited for nurse managers who can shift from task management to program facilitation and implementation. No one has more potential influence on the delivery of care than the nurse manager. 12 The nurse manager and staff must work effectively with multiple groups in order to facilitate care throughout the transplant process. Creating staffing schedules for the "unitwithout-walls" model can be challenging. Although the sequence of events in the transplant process is predictable, patients' individual responses to treatment and quality of life problems
Abbreviation: LOS, length of stay. Data from Hillner et al,~e and Welch et al. ~
are unpredictable. Changing therapies can have both an immediate and long-term influence on patient acuity.t2'2s The needs of BMT patients predominately fall within the domain of nursing and ancillary services. The transplant nurse is in an ideal position to serve as "case manager," who coordinates and collaborates with other services. Length of stay is controlled, and the staff experience a greater sense of control and satisfaction. 26 Inpatient acuity is variable depending on type and phase of transplant and will increase with the shift of many transplant services to the outpatient setting. The nursing care hours (NCH) per patient day required for BMT patients ranges from 9 to 15 hours. 2s As outpatient services are expanded and discharge criteria become less strict, only acutely ill patients may be cared for in the inpatient setting.14'27A unit with predominantly allogeneic transplant patients would require staffing to accommodate the higher acuity, whereas a unit with mainly autologous BMT requires less staff. Staff mix and job function demand ongoing critical review. Consulting other hospitals with marrow transplant programs can assist in determining predicted NCH. The decision to keep critical care patients on the transplant unit or to transfer them to an intensive care unit can have a dramatic influence on staffing patterns. Critical care needs are almost exclusively a phenomenon of patients undergoing related and unrelated allogeneic transplants. These critical care events include short-term mechanical ventilation for airway management because of severe mucositis, long-term mechanical ventilation for patients who develop adult respiratory distress syndrome or interstitial pneumonia, cardiopulmonary monitoring because of septic shock event or fluid imbalance with veno-occlusive disease, and complications associated with severe graft-versushost disease. 29 It is expensive to prepare an entire
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68
Table 5. Examples of Predominately Outpatient Department Transplant Care for Breast Cancer
Site of Service Inpatient Example 1 Conditioning treatment
Outpatient
Physician Office
8-10-day stay in hospital. Anticipate D/C to OPD 24 hours after last dose of chemotherapy. Infusion of peripheral blood stem cells in OPD infusion area. Daily clinic visit. Single daily IV antibiotic treatment, Family member educated to monitor patient in home. Close living proximity to clinic. Clear guidelines on managing complications and admitting for fever. Patient stable
X
Marrow infusion Pre-engraftment
X X
Postengraftment Example II Conditioning treatment
Marrow infusion Pre-engraftment
X
Postengraftment
Description
X X X
3-4--day treatment. Depending on chemotherapy regimen, may receive overnite hydration at home and antiernetics. Family member educated to monitor side effects of chemotherapy infusion Infusion of peripheral blood stem cells in infusion area, Admit to hospital for period of neutropania, D/C when ANC> 500tram. Patient stable.
Abbreviations: ANC, absolute neutrophil count; D/C, discharge; IV, intravenous, OPD, outpatient department.
staff to manage patients requiring variable levels of critical care, especially for only a few patients. The "unit-without-walls" concept of maintaining continuity despite physical location can be successfully extended to the intensive care unit with the use of care pathways. EDUCATION
Nursing Education and training is an empowering process. investing in a mechanism to ensure skill building and information flow are critical to nursing's ability to thrive in the fast-paced transplant environment. Marrow transplant nursing combines a unique blend of skills in the areas of oncology, critical care (even if critical care patients are not kept on the unit), and outpatient services. 9 Rehabilitative care skills are quickly becoming part of the skill mix of transplant nurses. These nurses are becoming more responsible for the planning and caring of an increasing number of survivors and for teaching these survivors to live with the consequences of cure) ~ Nurse managers are in a position to develop a cadre of highly skilled, expert nurses if there is a willingness to invest in initial orientation and ongoing nursing education (Table 6).9'~2 Establishing a mentoring program within the department provides opportunities for ongoing skill building. As the number of survivors of BMT increase, more
nurses in the system and community will have direct contact with these patients and will benefit from a comprehensive training program.
Family As Designated Caregiver The increase in ambulatory treatment for various phases of transplant has increased patient self-care requirements and has placed demands on family members to manage the treatment side effects and interventions in the home setting. This "unitwithout-walls" model clearly identifies the family member as a designated primary caregiver during selected phases of treatment. Therefore, education of the caregiver is essential (Table 7). 31'3z A well-developed resource support program is mandatory. Caregivers are not only managing the physical care and treatment interventions at home but managing the household finances, experiencing alterations in patterns of living and relationships, constantly standing vigil, experiencing expectations from the healthcare system, and still trying to anticipate the future. 3~ Information should be available on housing, transportation, respite care, child care and schooling, financial support, and all available resources. Support groups can focus on pretransplant and posttransplant care. ECONOMIC CONSIDERATIONS
Reimbursement Some critics believe BMT does not represent a cost-effective use of limited health care dollars. 2s
Table 8. BMT Nursing Education
I. CoreOdentetion Concept
Focus
A. Introduction to BMT
Role of BMT in cancer treatment Evolution of types of BMT Successes over the decades Tissue typing Conditioning therapy Immunotherepy Cancer care concepts: contrasting with BMT Criteria for treatment Pretranspiant work-up Marrow harvesting/storage Conditioning regimen Marrow reinfusion Engraftment Reducing microbial contamination Universal precautions Environment issues System review Pathophysiology Incidence Assessment Treatment Nursing management TPN Blood component administration Common transplant medications Antibacterial Antifu ngal Immunomodulators Antihypertensives Antiviral Applying assessment/monitoring skills Use of care pathways
B. Marrow transplant process
C. Infection control practices
D. Acute complications/toxicities
E. Medication/fluid management
F. Clinical decision making
II. Beyondthe BasicCore Education Concept
Focus
A. Outpatient management posttransplant
B. Patient/family coping
C. Psychosocial support for nursing staff
Discharge criteria Infusion therapies Symptom monitoring Patient/family/caregiver education Home care assessment Stages of coping Loss of control issues Anticipatory guidance Multidisciplinary care management Cultural aspects Survivorship Stressors in BMT Aggressive therapy Research Uncertainty/death Strategies for team building/support
D. Ethical issues specific to BMT E. Thriving in the BMT culture in. Secondary Education
Concept A. Care of the critical care patient
Abbreviation: TPN, total parenteral nutrition.
Focus Critical events Hernodynamic monitoring Mechanical ventilation
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70
Table 7. Patient/Caregiver Education
Concept Orientation to system
Content
Inpatient Outpatient Home-care role as designated caregiver
Process of marrow
transplantation
Chemotherapy (outpatient administration)
Preventing infections Central-line care Marrow donor
Home environment Monitoring the patient at home Medication/IV infusions
Evaluation for BMT Conditioning Transplantation Engraftment Managing complications Self-care activities Purpose of chemotherapy Administration procedures Preventing/managingside effects Resource support Rationale
Handwashing skills Site care Flushing Troubleshooting Procedure Support services Daily activities
Preventing infections Symptom monitoring AssessmenUdecision making Resource support
Emergencies Administration techniques Self-documentation Safety
There is little research to evaluate cost-effectiveness and the cost-benefit ratio. 25'29 Welch and Larsen ~ demonstrated that transplantation for acute nonlymphocytic leukemia compares favorably in outcome with conventional therapy in morbidity and mortality. However, the study failed to consider a higher performance level of the patients undergoing BMT when determining the level of health posttherapy. HiUner et al, 1~ using reasonable assumptions, found that autologous bone marrow transplant for metastatic breast cancer provides a substantial benefit but at a cost that may be untenable. This supports the need for randomized clinical trails. Some bone marrow transplants are considered standard therapy, state-of-the-art, or investigational. In this price-sensitive environment, a BMT that is recognized as a conventional therapy is more likely to be covered than ones recognized as investigational.25 Establishing an insurance liaison position to deal with reimbursement may be a cru-
cial factor in determining the viability of a BMT program. It also gives the center an opportunity to educate third-party payors about the center's treatment standards, cost, and remission and survival data. This person can help the team remain current about reimbursement trends. Many insurers are requiring pretreatment authorization and are negotiating financial capitation as in per diem or global fee. Establishing standard guidelines regulating recipient selection and better accounting of cost of service can reduce financial risk for the institution as it negotiates contracts with insurers. 33
Length of Stay There are few treatments that have an inpatient length of stay between 35 to 44 days and a need for outpatient follow-up care up to 60 days after transplant. Flowcharting the chronology of transplant patient movement through the "seamless" system provides a method of uncovering differences between program policies and actual operations and helps to identify cost-saving changes. New therapies such as use of hematopoietic colonystimulating factors and use of peripherally harvested stem cells are examples of the therapies influencing costs and providing a potential reduction in the morbidity and length of stay associated with ABMT.1'34 Shifting of care to a lower cost unit (ie, delivering conditioning chemotherapy in the clinic or training a designated family caregiver to monitor patient and give therapy in the home) can significantly reduce length of stay and cost per transplant day while still retaining quality.
CONCLUSION
Centers that design a creative and effective BMT program can be viable in this era of limited health care dollars. Ongoing evaluation of cost and outcome is of critical importance to not only the center but also to patients, insurers, and health care policy makers. The growth and survival of this specialty will be based on this information. Nurses should take a leadership role in developing and managing the clinical and financial outcomes in this chaotic and paradoxical decade.
DESIGNING BMT PROGRAMS
71
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