The Status of Specialized Ambulatory Heart Failure Care in Canada: A Joint Canadian Heart Failure Society and Canadian Cardiovascular Society Heart Failure Guidelines Survey.

This joint Canadian Heart Failure Society and the CCS Heart Failure guidelines report has been developed to provide a pan-Canadian snapshot of the current state of clinic-based ambulatory heart failure (HF) care in Canada with specific reference to elements and processes of care associated with quality and high performing health systems. It includes the viewpoints of persons with lived experience, patient care providers, and administrators. It is imperative to build on the themes identified in this survey, through engaging all health care professionals, to develop integrated and shared care models that will allow better patient outcomes. Several patient and organizational barriers to care were identified in this survey, which must inform the development of regional care models and pragmatic solutions to improve transitions for this patient population. Unfortunately, we were unsuccessful in incorporating the perspectives of primary care providers and internal medicine specialists who provide the majority of HF care in Canada, which in turn limits our ability to comment on strategies for capacity building outside the HF clinic setting. These considerations must be taken into account when interpreting our findings. Engaging all HF care providers, to build on the themes identified in this survey, will be an important next step in developing integrated and shared care models known to improve patient outcomes.

The purpose of this report is to provide a pan-Canadian snapshot of the current state of clinic-based ambulatory heart failure (HF) care in Canada with specific reference to elements and processes of care associated with quality and high performing health systems. It includes the viewpoints of persons with lived experience, patient care providers, and administrators. Canada is uniquely poised to undertake this survey due to a strong culture of collaboration within the HF community. Herein, we present the results of a national survey informed by Canadian HF key opinion leaders including Primary and Secondary Canadian Cardiovascular Society (CCS) HF Guidelines Committee members and broader representation from Canadian HF care providers including members of the Canadian Heart Failure Society (CHFS).

This work product is intended to serve as a national source document for current practice related to HF multidisciplinary care and is developed primarily with cardiologists and specialty HF care providers in mind. It builds on the recommendations and commentary presented in the 2017 Comprehensive Update of the CCS HF Guidelines and the 2016 HF Companion, by reporting on the national landscape of HF care models. Through a better understanding of how health services are being delivered for this high-risk group of patients, we can better articulate comprehensive local, provincial, and national strategies to improve care processes and outcomes. As such, this document aims to serve as a starting point to define the desired future state for HF service delivery in Canada.

Methods

Key references and data sources include international best practice papers, high-performing provincial models of HF care (eg, CorHealth Ontario’s Spoke-Hub-Node Model, Health Quality Ontario’s Quality Based Procedures, and Cardiac Services BC’s Tiers of Service Framework),,3, 4, 5, 6, 7 and opinion obtained by polling all members of the CCS HF guidelines panel, CHFS members, and national HF leaders. The primary and secondary panel members collaboratively identified the need for the survey, participated where appropriate, and reviewed the manuscript. The writing group was responsible for analysis of the survey data and composition of manuscript. An online survey request (Supplemental Appendix S1) was sent to 45 HF clinics in Canada from September 2018 to December 2018. Unique identifiers of each program were assigned to avoid duplicate data collection. The survey respondents predominantly consisted of self-identified tertiary and quaternary perspectives. All 45 HF clinics responded; however, only 36 completed the full survey (from all Canadian provinces except PEI, and also excluding Yukon, Nunavut, and the North West Territories). Despite our attempts to engage the full spectrum of HF care providers, the primary care provider (PCP) viewpoint is not sufficiently represented in this report (Table 1). Informants were encouraged to engage with their local teams and other stakeholders, before responding to the survey, to ensure that the best data, knowledge, and perspectives were included. The survey focused on 4 broad areas of clinic-based ambulatory HF care, specifically (1) human and structural resources, (2) processes of care, (3) transitions in care, and (4) quality of care.

Table 1

Table of respondents

Descriptor											% (N)
Type of clinic	Location by province
	BC	AL	SK	MB	ON	QC	NL	NB	NS
Tertiary care outpatient clinic	4	3	1	1	8	3	1	1	1		51.1 (23)
Quaternary care outpatient clinic	1	1	–	–	3	7	–	–	1		28.8 (13)
Chronic disease management/complex care clinic	–	–	1	–	2	1	–	–	–		8.8 (4)
Primary care setting	–	1	–	–	–	–	–	1	–	4.4 (2)
Community health clinic	–	–	–	–	–	1	–	–	–		2.2 (1)
Other (hospital, cardiology clinic, solo practice)	–	–	–	1	–	1	–	–	–		4.4 (2)

Current State: Models of HF Clinic (HFC)-Based Care in Canada

The majority of respondents self-identified as tertiary (n = 24) or quaternary (n = 12) HF care) centres. Therefore, much of what we were able to ascertain about the current state of Canadian HF services reflects activity in higher intensity and more fully resourced practice settings.

HFC referrals are typically received from a variety of sources including hospital in-patient settings (most common), urgent care centres, and specialist offices. More than half of all programs surveyed (58%) will accept patient referrals from PCPs. A majority of referrals to tertiary and quaternary HF clinics are received at the time of or after hospital discharge, whereas a lesser number are triggered by an emergency department visit (Fig. 1). Notably, natriuretic peptide levels are felt to be an important or very important tool for triage and follow-up among 65% of respondents; however, 25% of HFCs do not have access to this important biomarker.

Figure 1

Accepted referral sources by clinics across Canada. The figure depicts the distribution and percentage of referral sources to heart failure clinics in Canada.

There is also heterogeneity with respect to HFC admission criteria. Although a slight majority (56%) of HFCs have well-defined criteria for patient enrolment, a significant proportion of clinics (40%) will accept referrals irrespective of baseline clinical status. The most common reasons for declining or redirecting an HFC referral is failure to meet prespecified clinical criteria at the time of referral. For patients who are not felt to be appropriate for HFC assessment, individual programs will either refer to an alternative clinic, redirect to the primary cardiologist/internist, or redirect the PCP to identify more appropriate resources to support the patient’s care needs.

Furthermore, patients newly discharged from hospital, after an HF exacerbation, had variable access to the surveyed HFCs with only 51% of respondents accepting any discharged patient. It is well established that this patient population is particularly vulnerable, with 30-day readmission rates reported in the literature as high as 25%.8, 9, 10, 11, 12, 13 Both preprinted order sets and patient-centred discharge tools were identified as important components of transitional care processes. The transition elements most frequently used as part of these local and regional pathways included follow-up appointments booked at the time of discharge (73%), medication reconciliation (68%), educational materials (51%), patient-oriented discharge tools (46%), appointment reminders (43%), interprofessional communication tools (39%), and a patient passport (32%). Many of these tools are well-identified components of HF transitional care services and broadly adopted as best practices (Table 2 and Supplemental Table S1).,

Table 2

Percentage of clinics providing services to support transitions in HF care

Support services	% (N)
Optimization of HF medical therapies before ICD/CRT referral	97.6 (40)
Medication support and counselling	95.1 (39)
Medication reconciliation	87.8 (36)
Dietary nutrition counselling	85.4 (35)
Involve patients in shared clinical decision making	80.5 (33)
Advanced care and end of life planning	78.0 (32)
Self-management services and resources	73.2 (30)
Education sessions	68.3 (28)
Exercise training and support/cardiac rehab	68.3 (28)
Smoking cessation program	36.6 (15)
Counselling services	34.1 (14)
Online tools and education	31.7 (13)
Influenza vaccinations	29.3 (12)
Patient support group	12.2 (5)
Caregiver support group	04.9 (2)

CRT, cardiac resynchronization therapy; HF, heart failure; ICD, implantable cardiac defibrillator.

A key finding of our survey is a lack of consistency in identifying the group of patients deemed to be most appropriate for HFC services. This phenomenon has been recently described in the Canadian context and relates to the following factors:

A mismatch between HFC entry criteria and a given patient’s clinical risk profile.

The perceived ability of a referred patient to benefit from HFC services and adhere to a prescribed care pathway.

The practical challenges and resource intensity of managing multimorbid frail patients.

A selection bias towards younger patients who may benefit from interventions and advanced therapies.

A perception that HFCs are not an appropriate venue for the initiation of or transition to a supportive care approach.

Owing to their clinical complexity, patients with HF may have multiple touch points with the health care system (Supplemental Fig. S1). This can contribute to fragmented care, difficulty navigating care providers, and poor patient/caregiver experiences. Patient-centred and seamless care requires integration of services and collaboration between care providers, as defined by the shared-care model., A substantial proportion of patients, attending the HFCs represented in this survey, do not have a PCP. In fact, less than half of all clinics identified a PCP for >75% of their patients. Even when a consistent PCP was identified, only 21% (9 of 43) of HFCs indicated that the majority of patients enrolled in the clinic had an established shared-care management strategy between the clinic and PCP. Shared care, when identified, was facilitated by collaborative discharge planning between care providers (36%), nursing collaborations (46%), and nurtured by interdisciplinary continuing medical education events (24%). Only 24% of HFCs surveyed identified an existing Provincial HF care pathway.

Most HFCs will discharge patients (93%) and report having well-defined HFC discharge criteria (88%); however, more than 30% of clinics do not reliably adhere to their own prespecified criteria, which is plausibly due to a combination of logistical challenges, system level inertia, limited community-based human resources, and infrastructure as well as patient and care provider preferences. Irrespective of the HFC setting, when patients are discharged, they are typically repatriated to their primary cardiologist/internist but can be referred back to the HFC as needed.

HFC Services

By definition, HFCs offer multidisciplinary care and a range of services; however, there is no consensus or standard as to the depth and breadth of services that should be available to all patients/caregivers enrolled in a tertiary or quaternary Canadian HFC.

The physician’s role in an HFC varies depending on the practice setting. According to survey respondents, direct examination and review of every patient by a physician occurs in half (51%) of HFCs, whereas in some clinics, the physician may perform direct in-person assessments only on an “as-needed” basis. In approximately 30% of HFCs, patients are assigned to a single HF physician, whereas sharing of patients by a group of HF physicians within the same clinic is the more common approach (reported by 51% of HFCs).

Figure 2 highlights the percentage of Canadian HFCs that offer key services in alignment with CCS HF Guidelines and best practices. Almost universally, HFCs offer optimization of guideline directed medical therapy (98%), medication, and dietary counselling (95% and 85%, respectively), and a majority of clinics also provide advance care planning (78%), self-management and education resources (73%), and access to cardiac rehabilitation services (68%).

Figure 2

Percentage of clinics offering specific heart failure (HF) services.

Although nearly all HFCs (98%) can offer nursing support by telephone, one-half (51%) of HFCs routinely offer remote monitoring of patients. Remote monitoring strategies are most commonly telephone-based, although a small number of clinics also leverage implantable device diagnostics (n = 6) and/or web- or app-based technologies (n = 5).

To support the critical functions of medication titration and patient education, there is considerable practice heterogeneity. In many settings, nurse clinicians assume primary responsibility after initial consultation with an HF cardiologist; in other settings, the primary cardiologist, internist, or primary care physician assumes this responsibility through a shared-care approach. Only 14% of survey respondents felt that a cardiologist in the HFC was the most appropriate person to complete medication titration and there is now a call for pharmacists to be more actively involved in medication adjustments.,, In our survey, key patient factors felt to be important in determining which health care provider should be responsible for ongoing pharmacologic management included frequency of hospitalization, symptom burden, ejection fraction, consideration for advanced therapies, and consideration for “novel” therapies.

Similarly, primary responsibility for patient education varies nationally. These services may be delivered by HFC nurses, physicians, and/or other allied health care professionals. Depending on available resources, patient education may be offered via one-on-one counselling (90%), formal group education (24%), telehealth counselling (25%), or web-based education (20%).

Among programs that perform assessments for mechanical circulatory support or transplantation, approximately two-thirds carry out this work under the broader umbrella of the HFC, whereas one-third of these programs have a separate and dedicated advanced HFC. Average self-reported transplant volumes per centre in Canada ranged from 10 to 45 transplants/year and durable left ventricular assist device implant volumes ranged from 5 to 30 implants/year. Currently, only 45% of left ventricular assist device implanting centres provide “destination therapy” for transplant ineligible patients. The findings from our survey suggest that a range of advanced HF services are, and should be, offered in tertiary/quaternary HFC programs. At a minimum, all tertiary and quaternary HF programs should be resourced to provide timely access to assessment for transplantation and mechanical circulatory support among eligible patients, per CCS HF Guidelines.

Quality of HF Care

According to survey respondents, approximately two-thirds of HF clinics were meeting CCS-recommended wait-time benchmarks. Of those who could not, the majority struggled with capacity for semiurgent to emergent patients. Table 3 lists the organization and patient-related barriers to timely access in the opinion of the survey respondents. Multiple patient level barriers were identified with the most common being physical distance and logistics related to travel. System and organizational level barriers to patient access included lack of nursing resources, administrative support, and clinic space. At least 16% of patients with HF have wait times >2 weeks for a semiurgent or urgent appointment as defined by CCS HF Guidelines, which is particularly relevant given that readmission rates approach 25% at 30 days post-HF hospitalization, underscoring the urgency for timely assessment and management.

Table 3

Barriers to clinic access

Patient-related	Organizational-related
Location (distance to clinic, transport)	Wait time
Too sick	Limited heart failure nurses
Advanced age/frailty	Lack of staff support (administrative)
Cost (parking, off-work, travel, lodging)	Unavailable clinic rooms/space
No time/not a priority	Inadequate operational funding
Prefer to be seen by cardiologist	Location/distance/transport access
Too well	No after hours
Language barrier	No electronic medical record

A systemic lack of data infrastructure is a major organizational barrier to timely access to treatment. Approximately 70% of clinics surveyed use an electronic medical record; unfortunately, regular mail or fax remains the predominant mode of communication with other care providers. Surprisingly, despite significant advances in health informatics, approximately 70% of respondents rely on a faxed discharge summary to communicate with members of the health care team at the time of clinic or hospital discharge. Electronic records enable reporting of hard outcomes such as mortality, hospitalization, and readmission rates at many centres. However, data on process of care measures, including optimization of guideline-directed medical therapy and/or device therapy, are less available. In 37% of clinics represented in this survey, there was no ability to track outcomes, highlighting the need for a comprehensive provincial and/or national HF informatics strategy.

In general, there was excellent access to cardiac support services and consultative care, which may reflect the fact that most of our respondents were from tertiary and quaternary care centres (Fig. 3). By contrast, access to noncardiac subspecialties such as endocrinology and haematology were less timely. This care gap is significant to note given the increasing focus on noncardiovascular comorbidity burden and emerging HF clinical trial data related to diabetes, iron deficiency anaemia, and amyloidosis.24, 25, 26 Expanding the care team to encompass multiple specialty services through a person-centric model will be necessary to integrate the findings of pivotal clinical trials. Despite being firmly engrained in CCS Guidelines for more than a decade, only 66% of respondents reported access to secondary prevention programs including smoking cessation. Notably, only 69% of clinics reported timely access to palliative care services and 46% to geriatric services, which should most certainly be a target for improvement given the burden of HF and its prognosis, particularly among frail older patients.

Figure 3

Patient access to specialty services. The figure demonstrates the percentage of clinics that have access to further specialty services. EP, electrophysiology.

It is reassuring that the majority of clinics represented in this survey (85%) participate in quality improvement activities, which include quality indicator audits, clinical audits, patient satisfaction surveys, and case reviews. Patient engagement in quality assurance and review occurred in only 12% of these clinics. Most clinics did not have performance targets for process of care measures and patient self-efficacy behaviours (Table 4).

Table 4

Percentage of heart failure clinics surveyed with performance targets of any kind for care and self-efficacy behaviours

Performance target	Percentage
Self-efficacy
Home weight monitoring and biometric data documentation	35.0
Patient self-management plans	44.7
Process of care
Eligible patients prescribed RAASi and β-blockers	53.6
Advanced care plans	29.0
influenza vaccination rates	34.2
Patients referred to cardiac rehab	27.8
Smoking cessation rates	25.0
Clinical outcomes
Patients visiting the emergency department since last appointment	44.7
Patients admitted to hospital since last appointment	61.0
Patient satisfaction	25.0
Patient QOL assessment, eg, MLWHF score	10.8

MLWHF, Minnesota Living with Heart Failure Questionnaire; QOL, quality of life; RAASi, Renin-Angiotensin System inhibitors.

Patient-centred system performance appears to be a significant opportunity and target for quality improvement initiatives moving forward. There is a universal lack of ethnic and culturally sensitive educational materials, and the composition of HFC staff does not subjectively reflect the diversity of its constituents (Fig. 4, B-D). Clinic staff have limited knowledge to support special populations including indigenous and LGBTQ2+ communities as well as those seeking complimentary or alternative therapies (Fig. 4A). Most clinics (90%) have some strategy in place to enable patients/caregivers to ask relevant questions and understand their care plan, which range from providing educational material in advance of a clinic visit to online support groups (Fig. 4E). There appears to be great heterogeneity in the content and quality of available educational and practice tools; given their near ubiquitous use, there would be utility in the curation of a national toolkit to ensure consistency of message and alignment with best practice. More than half of clinics did not promote or advertise patient advocacy activities (Fig. 4F). In addition, although the value and efficacy of peer-to-peer mentoring in HF populations is well established, access to patient support groups was very limited (12% in person vs 5% online).

Figure 4

Prevalence of patient-centred approaches among heart failure (HF) clinics.

Infrastructure to support the collection, reporting, and comparison of clinical, system, and patient-reported outcome measures are consistently lacking, but are absolutely required to enable evidence-based practice, to benchmark CCS quality indicators, and to monitor and evaluate the quality and effectiveness of all HFCs in Canada.

Human Resources

There has been much discussion within the HF community globally as to the ideal complement and composition of interprofessional health care providers, which forms the multidisciplinary team at the core of chronic disease management programs. Furthermore, there are no formal recommendations as to the number and type of full-time equivalents (FTEs) essential for efficient and effective operationalization of an ambulatory HFC. Our survey provides some guidance on the current state, but not the ideal state.

An international survey of advanced HF programs (81% from the United States) reported an annual average of 1641 patient visits per HFC per year. Our survey suggested higher HFC volumes in Canada with an average 2496 HFC visits per clinic per year (Fig. 5).

Figure 5

Percentage of respondent heart failure (HF) clinics according to the number of HF visits per year.

In the international survey, HF programs were grouped into tertiles (small, medium, and large) based on the number of staff employed. By these definitions, there are no large centres in Canada. Across all programs included in the international survey, the average number of physician FTEs per clinic was 2.65, which would suggest a ratio of 1 medical doctor per 619 patient visits. Accurate comparative Canadian data could not be obtained through our survey. The average number of nursing and other health care professional FTEs per clinic, in both the Canadian and international context, is shown in Table 5.

Table 5

Average Canadian nonphysician staffing by practice setting

Health care provider	Average FTEs across centres (n = 36)	Quaternary care clinic (n = 12)	Tertiary care outpatient clinic (n = 21)	Chronic management clinic (n = 3)	Reference: US average FTEs3
Average number of patients’ visits in the previous year	–	4601	2126	1233	–
Registered nurse∗	2.31	3.07	2.09	1.65	2.61
Registered practical nurse∗	1.67	2.00	1.00	NR	–
Advanced practice nurse∗	2.83	NR	3.00	2.50	–
Nurse practitioner∗	1.25	1.50	1.20	0.50	2.21
Allied health care practitioner	0.70	0.84	0.62	0.43	0.53†
Pharmacist	0.76	1.15	–	–	0.59
Registered dietitian	0.72	0.79	0.72	0.30	0.75
Any administrative support (eg, secretarial, booking, etc)	1.60	1.66	1.81	1.00	0.47‡

FTE, full time equivalent; NR, not reported.

Nursing roles are defined by scope of practice and level of education attained. For more information, including definition, please visit https://www.cna-aiic.ca.

Average FTEs of allied health care staff including registered dietitian, social worker, physical therapist, and psychologist.

Reported for financial consultants.

Among Canadian HFCs, Registered Nurses and Advance Practice Nurses are most frequently employed as a part of the nonphysician team. The average staffing complement was 2.31 Registered Nurse FTEs, and/or 1.67 Registered Practical Nurse FTEs, and/or 2.83 Advanced Practice Nurse FTEs, and/or 1.25 Nurse Practitioner FTEs, 0.70 allied health care practitioner FTEs, and 1.60 administrative support (eg, secretarial, booking clerk, etc.) FTEs. Quaternary HFCs employ Registered Nurses more frequently, whereas tertiary HFCs have a greater reliance on Advance Practice Nurses.

There was little heterogeneity among small-sized (≤4 nonphysician staff) and medium-sized programs (>4 nonphysician staff) in the number of nonphysician FTEs employed; however, medium-sized programs had overall higher staffing complements. Of note, medium-sized programs accommodated nearly 5-fold more visits than small-sized programs, but the overall human resource complement did not follow this trend. This perhaps explains why 64% of medium-sized programs were able to meet Canadian standards for wait times as compared with 73% wait-time compliance among small-sized programs.

Tables 5 and 6 stratify Canadian HFCs by size and indicate what percent of these clinics are resourced by the various provider types. In general, a similar percentage of small- and medium-sized clinics employed nurses and nurse practitioners. However, pharmacists, registered dieticians, and other allied health care providers were less frequently employed by small-sized program compared with medium-sized programs.

Table 6

Average Canadian nonphysician staffing by practice size (small program ≤4 staff, medium program 5-10 staff)

	Small program (n = 11)	Medium program (n = 22)
Total patient visits	13,276	61,610
Average FTEs
Registered nurse	1.44	2.56
Registered practical nurse	1.00	1.50
Advanced practice nurse	Insufficient data	2.80
Nurse practitioner	0.97	1.48
Allied health care professionals	1.00	0.62
Administrative support (eg, secretarial, clerk)	0.90	2.25
Percentage of programs achieving wait-time bench marks	72.70%	63.63%

The survey data demonstrate that the vast majority (95.6%) of tertiary and quaternary Canadian HFCs are staffed by cardiologists; a few clinics have linkages with other subspecialties such as internal medicine or geriatric medicine. In all cases, physicians were actively engaged in the management of patients. In 51% of cases, physicians also provided telephone support to nurses and community-based allied health providers.

Most physicians achieved HF competency through a formal or ad hoc fellowship (59.54% and 21.95%, respectively), although a paucity of providers have formal HF certification (5 of 41 respondents). Only 1 respondent was Area of Focused Competence certified by the Royal College of Canada, which clearly presents an opportunity for expanded efforts at credentialing HF experts practicing in Canada. In contrast, 34% of multidisciplinary team members have professional association certification in HF. For these individuals, competency is maintained through a variety of mechanisms including webinars, local meetings, and annual conferences. It should be noted that continuing professional development funding for nonphysician HF care providers is limited and appears to be diminishing; thus knowledge translation activities must be tailored with this in mind and strategies for enhanced funding to support ongoing learning pursued. This is particularly relevant because our survey would suggest that HFCs rely heavily on nonphysician FTEs to provide the bulk of HF care in Canada.

Conclusion

The survey results presented here are the first attempt to comprehensively describe the current status of ambulatory clinic-based HF care in Canada. These data, the questions raised, and the care gaps identified are intended to inform a national dialogue on what optimal HF care should look like and frame our understanding of how the desired future state can be realized. It is imperative that Canada remains in step with global trends and initiatives in HF care and that our HF leadership continues to advocate for new policies to support equitable access to HF services. These types of initiatives must be supported by measurement and evaluation, which will drive our approach to quality assurance and quality improvement, both of which appear to be lacking within our current HF landscape.

We would like to highlight the following key survey findings, which are early opportunities for action, and should be supported by the CCS Guidelines knowledge translation apparatus and the CHFS:

There is heterogeneity in referral and discharge criteria across clinics, which may act as a barrier to accessing specialized HF care.

ACTION: Develop and disseminate more explicit guidance, both patient- and risk-based, on who should or should not be seen in an HFC, how often and by which modality.

There is significant reliance on nurse-dependent care models, without a clear health human resource strategy to inform how the growing burden of HF will be managed.

ACTION: Strike formal collaborations with other health care professional societies engaged in the care of patients with HF, to identify solutions that can inform a comprehensive long-term approach to health human resource policy development.

There is variability in ability to measure patient and system-related quality indicators and outcomes.

ACTION: Work with the CCS Quality Indicators Initiative to provide regular report cards on outcomes that reflect all components of the Institute of Health Improvement Quadruple Aim.

Critically, access to natriuretic peptide testing in Canada is not uniform.

ACTION: Identify and educate key policy leads in each health care region regarding adherence to best medical practice.

There is a lack of regional/provincial care maps and pathways to support the patient journey including transitions in care.

ACTION: Emulate and disseminate best practices that are already available in some Canadian regions and work collectively to iterate these for local context to optimize adoption.

A small minority of health systems in Canada are capable of integrating inpatient and outpatient medical records across the care continuum.

ACTION: Partner with other national and regional agencies who have undertaken this work, to assess the impact on patient and system outcomes in HF.

There is need for a culturally sensitive and person-centric approach to care, including educational materials.

ACTION: Design, collaborate, house, and disseminate best-in-class multimodality educational materials.

The HFC staffing models and associated FTEs described in this survey provide background and a framework to inform a health human resource strategy to develop and retain a pipeline of highly qualified personnel, for a sustainable national HF action plan, and to guide local HF service delivery. Although it may be argued that drawing direct contrast with other countries is flawed due to inherent differences among health care systems, it remains true that compared with our international colleagues, HFCs in Canada are largely under-resourced by nurses, nurse practitioners, pharmacists, and physicians.

Variability in both access to HFCs and composition of the multidisciplinary team highlights the need for a standardized national approach to HF care in Canada. Several patient and organizational barriers to care were identified in this survey, which must inform the development of regional care models to improve transitions for this patient population. Unfortunately, we were unsuccessful in incorporating the perspectives of PCPs and internal medicine specialists who provide the majority of HF care in Canada, which in turn limits our ability to comment on strategies for capacity building outside the HFC setting. These considerations must be taken into account when interpreting our findings. That said, engaging all HF care providers, to build on the themes identified in this survey, will be an important next step in developing integrated and shared care models known to improve patient outcomes.

Acknowledgements

The authors thank the CHFS and CCS HF Panel members as well as our lived experience contributor Dr Sharon Bray for their participation and expertise. They also thank all of the HFCs in Canada who participated in the survey. The authors acknowledge the contributions of Dr Rohan Sanjanwala and Christianna Brooks (CCS Staff) for their assistance and expertise with survey development and analysis.

Funding Sources

There are no funding sources to disclose

Disclosures

The authors have no conflicts of interest to disclose.