key: cord-0703532-68szrds6
authors: Kugathasan, Lakshmi; Francis, Troy; Rac, Valeria E.; Wijeysundera, Harindra C.; McDonald, Michael; Ross, Heather J.; Alba, Ana Carolina
title: A 2020 Environmental Scan of Heart Failure Clinics in Ontario
date: 2021-03-26
journal: CJC Open
DOI: 10.1016/j.cjco.2021.03.010
sha: 6ad410193e653a84aa49c191bad4abc11e17d645
doc_id: 703532
cord_uid: 68szrds6

BACKGROUND: Multidisciplinary heart failure (HF) clinics decrease hospital admission rates and healthcare use, while improving patient outcomes. To understand the contemporary availability of HF clinics in Ontario, Canada, and the services provided, we performed an environmental scan of physician-led and nurse practitioner (NP)–led HF clinics. METHODS: Between November, 2019 and February 2020, we identified Ontario HF clinics led by physicians or NPs. Following an invitation, we conducted a semi-structured interview to evaluate the services offered and qualitatively compared our findings to the results of the 2010 Ontario provincial survey. RESULTS: The number of HF clinics (36 vs 34 in 2010) and physicians (157 vs 143 in 2010) have not changed since the 2010 survey. Of the 36 clinics we identified, 30 participated in our interview (22 physician-led and 8 NP-led). Twenty-five clinics (83%) were hospital-based, of which 9 (30%) were part of an academic institution. Comparisons of our findings to the 2010 study on 30 clinics show an approximately 3-fold increase (P <0.001) in both median annual and new patient visits. As previously reported, the clinics varied in services offered, but trended toward an increased availability of onsite echocardiography, exercise-stress testing, and nuclear cardiology. CONCLUSIONS: Compared to the survey performed a decade ago, the number of HF clinics and physicians have not changed, and the services provided remain heterogenous. However, the increased number of patients served suggests a greater demand for these clinics. Improving the accessibility of these clinics and standardizing the service model are critical to improving patient outcomes.

specialized HF disease management clinics have been developed to improve patient care, optimize their health outcomes, and minimize the number of hospital readmissions. Indeed, studies have shown that these physician-or nurse-led clinics with a focus on educating, empowering, and supporting patients with careful clinical follow-up are associated with decreased patient hospital readmission rates and healthcare use, and in turn, improved patient quality of life (QoL) and decreased mortality. [5] [6] [7] [8] Given the heterogeneity in the makeup of these clinics and the disparities in HF care provided, Wijeysundera et al. performed an environmental scan in 2010 to determine the availability of specialized HF clinics in Ontario and the scope of services offered. 9 In their survey, restricted to physician-led models, they identified 34 clinics, observing variation in their structure and services offered.

Over the past 10 years, although Ontario's healthcare system has undergone significant restructuring, there remains a lack of standardization in funding policies for specialized clinics and funding allocation strategies according to local needs. 10 Whether these changes have had an effect on the availability of these specialized HF clinics and the services offered is unknown. Therefore, we conducted an updated scan of HF clinics in Ontario ABSTRACT Background: Multidisciplinary heart failure (HF) clinics decrease hospital admission rates and healthcare use, while improving patient outcomes. To understand the contemporary availability of HF clinics in Ontario, Canada, and the services provided, we performed an environmental scan of physician-led and nurse practitioner (NP)−led HF clinics. Methods: Between November, 2019 and February 2020, we identified Ontario HF clinics led by physicians or NPs. Following an invitation, we conducted a semi-structured interview to evaluate the services offered and qualitatively compared our findings to the results of the 2010 Ontario provincial survey. Results: The number of HF clinics (36 vs 34 in 2010) and physicians (157 vs 143 in 2010) have not changed since the 2010 survey. Of the 36 clinics we identified, 30 participated in our interview (22 physicianled and 8 NP-led). Twenty-five clinics (83%) were hospital-based, of which 9 (30%) were part of an academic institution. 

This study was approved by the institutional research ethics board at the University Health Network. The participating physicians and NPs provided informed consent.

We identified Ontario HF clinics led by physicians or NPs between November 2019 and February 2020. As was done previously, 9 specialized HF clinics were defined as those led by a physician with formal training in HF (eg, through a fellowship) or as self-identified clinics with a physician or NP who follow HF patients. We identified clinics using 4 approaches: (i) those identified in the 2010 provincial scan; 9 (ii) those listed on CorHealth Ontario's website; (iii) those identified through Google searches; and (iv) those disclosed to us via snowball-sampling -a qualitative research technique often utilized to identify "hidden populations" of participants. 9

Following an invitation to the lead physician or NP, we conducted a semi-structured interview to evaluate clinic characteristics and the services offered to patients. Supplemental Appendix S1 lists the names of the participating clinics, and Supplemental Table S1 contains the main elements enclosed in the survey. The design of the survey was informed by the quality indicators as described by the Government of Ontario 11 and based on quality statements outlined by CorHealth Ontario. 1 Supplemental Table S2 describes these quality indicators and statements and how the information was collected in the survey. All the lead NPs at NP-led clinics participated in the interview; from the physician-led clinics, either the lead physician or the attending nurse participated.

We summarized our results using descriptive statistics and compared them to the results of the 2010 Ontario provincial scan (Table 1) using a x 2 test for proportions and a Student t test for continuous data.

We identified a total of 36 HF clinics (31 clinics using the primary sources and 5 clinics via snowball sampling), of which 27 have a physician and 9 have an NP primarily attending. Fourteen clinics are in the Greater Toronto Area, 9 are in Central Ontario, 10 are in Eastern Ontario, 2 are in Northeastern Ontario, and 1 is in Northwestern Ontario. The distribution of these clinics within the regions of Ontario is presented as a heat map in Figure 1 . Five clinics from the 2010 scan had closed during the interim, with 2 merging under single leadership. We identified 13 new clinics (8 physician-led and 5 NP-led). Of the 36 clinics identified, 30 (83%) agreed to participate in the semistructured interview, and 6 (17%) declined to participate.

Of the 30 clinics participating in this study, 22 were physician-led and 8 were NP-led. Twenty-five clinics (83%) were hospital-based, of which 9 (30%) were part of an academic institution. Twenty-seven (90%) clinics were staffed with a cardiologist, and of these, 20 (67%) had at least one cardiologist who had completed formal HF fellowship training. There were a total of 157 physicians and 60 full-time equivalent nurses and NPs working at the 30 clinics.

The median estimated annual patient visit-volume in the past year was 2000 (interquartile range [IQR] 1163-3000) with 200 (IQR 105-363) new patient annual visits. The median ratio of annual visits in relation to new patients was 7 (IQR 5-15), with smaller clinics showing the smallest relative number of annual new patient visits compared to total patient visits.

Services provided differed by HF clinics (Fig. 2) . Onsite echocardiography service was available in 29 (97%) clinics, exercise stress-testing in 28 (93%), nuclear cardiology in 24 (80%), and angiography in 15 (50%). Additionally, 13 (43%) clinics had an implantable cardioverter defibrillator (ICD)/cardiac resynchronization therapy (CRT) clinic available onsite, and 3 (10%) clinics had a heart transplant or mechanical support our findings to the 2010 study on 30 clinics show an approximately 3fold increase (P <0.001) in both median annual and new patient visits. As previously reported, the clinics varied in services offered, but trended toward an increased availability of onsite echocardiography, exercise-stress testing, and nuclear cardiology. Conclusions: Compared to the survey performed a decade ago, the number of HF clinics and physicians have not changed, and the services provided remain heterogenous. However, the increased number of patients served suggests a greater demand for these clinics. Improving the accessibility of these clinics and standardizing the service model are critical to improving patient outcomes. Conclusions : Par rapport aux r esultats de l'enquête r ealis ee il y a 10 ans, le nombre de cliniques d'IC et de m edecins n'a pas chang e, et les services fournis demeurent h et erog enes. Toutefois, la hausse du nombre de patients desservis semble indiquer une hausse de la demande pour ces cliniques. Une meilleure accessibilit e a ces cliniques et une uniformisation du mod ele de services sont essentielles a l'am elioration des r esultats pour les patients.

(ventricular assist device) clinic available onsite. All clinics reported providing a welcoming of phone calls from patients to discuss any health concerns, with 15 (50%) clinics providing remote monitoring via telemedicine, and 20 (67%) providing routine follow-ups via telephone calls. In addition, home visits, whether mediated through clinic staff or a community partner, were provided by 12 (40%) clinics. In-clinic availability of allied health professionals was limited, with 9 (30%) of the clinics having access to dieticians, 8 (27%) to pharmacists, 2 (7%) to physiotherapists, and 2 (7%) to counsellors (social workers). As well, 25 (83%) clinics reported discussing advanced care and end-oflife planning, with 17 (57%) clinics able to provide on-site consultation with palliative care consultants. Twenty-five (83%) clinics were affiliated with cardiac-rehabilitation programs, and 20 (67%) were involved with other chronic disease-management programs, such as diabetes, pulmonary disease, infectious disease, cancer, cardio-oncology, vascular disease, endocrinology, or general internal medicine rapid-assessment clinics.

The types of patients served at the clinics varied, with 9 (30%) clinics filtering referrals based on disease severity (eg, serving only those who had had 2 HF emergency department (ED) visits in the past year, or with a left ventricular ejection fraction <30%). The majority of clinics did not impose any restrictions in accepting referrals; however, 4 (13%) clinics accepted referrals only from specialists, of which 3 (10%) accepted referrals only from cardiologists at their institutions.

All clinics reported educating patients on signs and symptoms of HF, medication adherence, healthy diet, and exercise; however, only 19 (63%) clinics counselled all patients on self-titration of diuretics, with 11 (37%) selectively educating only those patients whom they felt would be able to self-titrate. The weights of patients were also reportedly measured routinely at every visit by 26 (87%) clinics. Education was tailored according to the patient's needs and level of understanding, and reinforcement was provided at subsequent visits. Twenty-eight (93%) clinics supplemented the in-clinic education with pamphlets/booklets, 13 (43%) referred patients to web-based resources, and 3 (10%) reported conducting separate group educational sessions. As well, all clinics (100%) indicated that caregivers accompanying patients are also provided with the same education.

All clinics reported that medication optimization was individualized based on patient tolerability of any side effects experienced. An appointment frequency of every 1-2 weeks for medication optimization was reported by 14 (47%) clinics, and every 2-4 weeks by 9 (30%) clinics. One (3%) clinic reported an appointment frequency of every 1-2 months, and 6 (20%) reported variable frequency.

One clinic (3%) stated that prognosis discussion occurred at every clinic visit, whereas the others stated that prognosis was only discussed during specific events, such as after a visit to the ED, hospital admission, defibrillator discharge, or change in markers or symptoms.

The purpose of this survey was to determine whether the number of HF clinics in Ontario, as well as the services offered, have changed since the original scan in 2010. 9 We report that the number of clinics and physicians have not changed substantially (have increased by~6% and 8%, respectively); however, the number of patients served by contemporary clinics and diagnostic tests provided by these clinics have increased significantly over time.

Although 5 of the originally identified physician-led clinics have closed, and 2 have merged, in the interim, 8 new ones have been identified. Compared to the previous survey, there has been a significant increase in the total number of annual patient visits and annual new patient visits. This increase is likely a reflection of the increase in the aging population 12 and those living with HF. 13 Tu et al. previously showed that general practitioners/family physicians, rather than cardiologists, were the physicians primarily responsible for managing~50% of the patients discharged from the hospital after being admitted with HF. 14 Given that there are~250,000 HF patients in Ontario, and that an estimated number of 20,000 patients may be followed annually by the 30 clinics surveyed, it is clear that the number of available clinics and their capacity need to increase to close this gap. Indeed, in evaluating the effectiveness of multidisciplinary HF clinics in Ontario, Wijeysundera et al. reported that only~10% of patients with a HF hospitalization were seen at a specialized HF clinic within a year of discharge. 7 Moreover, based on the available evidence, it appears that only a small minority (approximately 15%) of patients with HF are being referred to a HF clinic, after a hospitalization. 15 Thus, by understanding the referral practices of primary care physicians and providing them with the tools and support needed to identify high-risk patients for HF clinic referral, this care gap may be further narrowed. One such tool is CorHealth Ontario's Integrating Heart Failure Care Implementation Support Toolkit, designed to foster a collaborative partnership among primary care physicians, specialists, and allied health professionals. By championing efforts to integrate various resources and stakeholders, a more efficient system with standardized processes can be implemented to ensure that patients most in need of specialized HF care not only have access to these clinics, but also are able to benefit from comprehensive management of their disease. Although the 2010 survey reported considerable ranges in the intensity of the education program provided to patients, with some focusing on treatment adherence only and others including surveillance, management, and evaluation of symptoms, we observed that all clinics in our survey emphasized the importance of educating not only patients, but also their caregivers, on all these aspects of care. Timely detection of volume overload through weight gain is crucial in preventing HF disease progression and rehospitalizations. Although all clinics provided education on the importance of weight monitoring, 87% reported measuring patient weight at each clinic visit. Similarly, education on self-managing diuretic titration was not uniformly provided across clinics. Although most clinics provided education to all patients on how to self-titrate diuretics, a third stated that they individualized the education to include only those who they felt would be able to self-titrate. Uncertainty exists as to whether patient diuretic self-titration could be beneficial. A randomized controlled trial 16 examining the effects of a diuretic titration protocol in patients with stable HF reported a significant improvement in exercise tolerance and health-related QoL, as well as that patients experienced fewer HF-related ED visits at 3 months compared to those receiving usual care. However, the number of patients who had a level of education less than grade 12 was disproportionately higher in the group receiving usual care. Thus, further research is warranted to determine the benefits of self-managing diuretic titration in a more diverse group of patients with varying severities of HF.

In 2010, it was noted that remote monitoring and a homebased component were absent in the majority of clinics surveyed, and that half the clinics contacted patients via telephone between in-person evaluations. Currently, there appears to be an increase in these services. Various remote-monitoring platforms have been utilized in the proactive management of HF patients, aiming to improve patient symptoms and QoL, and to help reduce the economic burden of HF on the healthcare system. 17 Ware et al. have demonstrated that telemonitoring, implemented as the standard-of-care, reduced HF and all-cause hospitalization while improving patients' HF-related QoL and self-care management abilities. 18 Furthermore, recent systemic reviews have reported that similar home telemonitoring interventions in HF patients reduced mortality, HF hospitalization, and all-cause hospitalization, while improving QoL. 19, 20 Given that the survey was conducted prior to the coronavirus disease 2019 pandemic, and that there has since been a spike in telehealth use, 21 it remains to be determined whether telehealth technologies will be a more uniform mainstay in the practice patterns of these HF clinics, allowing these clinics to become more accessible to those in rural areas.

A recent national Canadian survey 22 of 45 selected HF clinics (13 from Ontario) demonstrated, similar to our findings, that the majority of clinics provided educational resources, telephone nursing support, and access to cardiac rehabilitation services, followed guideline-directed medication optimization, and counselled on medication adherence, diet, and advanced care planning. Similar to our provincial survey, the criteria for referral acceptance were significantly heterogenous at the national level, an issue leading to inequality in patient care, difficulty in access, and potentially poorer patient outcomes and experience. The reported national annual average visit volume was 25% higher than that at the provincial level (~2500 visits in comparison to 2000 at the provincial level). This difference may be related to the higher representation of non-academic and non-hospitalbased smaller clinics (~20%) at the provincial level. These observations were also summarized by Abrahamyan et al. 23 in their narrative review of accessibility and referral practices to HF clinics in Canada, highlighting the lack of standardization governing HF healthcare policies across Canadian provinces. They too underscored the need for specific patient-referral criteria in order to unify practice patterns and holistically inform future planning to ensure the optimal distribution, number, and structure of HF clinics. However, these concerns are not uniquely Canadian, as discussed in the realist review by Fowokan et al. 24 In their comprehensive review of 29 studies from 5 countries, the authors noted that, regardless of the significant differences in healthcare infrastructures, the lack of clear, consensus guidelines on referral criteria was an underlying theme impacting appropriate HF clinic accessibility in various countries.

Given the large population of ethnically diverse individuals in Ontario, it would be imperative for physicians and NPs to develop a more patient-centred practice model to help patients overcome any perceived cultural or language barriers. However, we had not assessed the availability of culturally diverse staff or those able to support special populations (for example, indigenous communities), the ability for patients to access services offered in other languages, or the use of culturally sensitive educational tools. By ensuring that local hospitals and clinics are staffed with individuals whose cultural backgrounds reflect those of the patients, by providing educational material in relevant languages, creating a position for a community-based HF educator, and organizing patient support groups, these cultural or language barriers may be removed, thereby improving patient access to quality care.

The "Connecting Care to Home" program (currently available only in the Southwest Local Health Integration Network) allows for a multidisciplinary healthcare approach to be taken to integrate patient care between the hospital and the home. Through this program, patients are supported by a 24-hour helpline and a dedicated home care team, providing patients with the knowledge and tools to self-manage. Expanding the availability of a similar program across Ontario may provide patients-especially those with socioeconomic barriers, who face challenges in accessing HF clinics, or those living in areas where telemonitoring is not viable-with the opportunity to remain connected with their caregivers and improve their outcomes. Services to underrepresented populations may also be improved by leveraging other healthcare workers, such as dieticians/paramedics, who may be able to provide more routine follow-up care for patients at their homes. In addition, by partnering with local pharmacies and equipping them with computers or laptops for telemonitoring, patients may be able to access HF physicians or NPs in a timelier manner. Certainly, a thorough appraisal of these potential opportunities to create equitable access needs to be evaluated to develop a high-quality healthcare system.

In this study, we collected qualitative information on whether a clinic is able to provide a certain service. We did not assess the extent to which the services are offered and did not collect individual patient data to qualitatively determine if an adequate number of patients are being offered the services. Unlike the previous provincial environmental scan, we did not utilize the HF Disease Management Scoring Instrument and concept-mapping technique to rank clinics according to the intensity and complexity of their service models; rather, we chose to report on the primary data. Although our study was designed only to identify currently available HF clinics in Ontario and broadly evaluate their service components, it would be of interest to investigate whether rehospitalization and mortality rates varied, based on the scope of services provided by the clinics. As well, our study highlights opportunities for future research, including, but not limited to, assessing the benefits of integrated HF care, patient-managed diuretic titration, and accessible telemonitoring. With this knowledge, perhaps a more effective healthcare delivery model may be designed to improve health outcomes.

There has been an increased demand reflected by increasing visit-volume in HF clinics in Ontario, despite the stable number of clinics and attending staff. A lack of uniformity in several service components, as highlighted in the Ontario survey 10 years ago, continues to be a topic of concern as presented in the recent pan-Canadian survey, and as mirrored in our contemporary provincial survey. By engaging policymakers so that more dedicated funding may be designated for improving HF clinic accessibility and developing a more standardized service model, the burden of HF on the healthcare system can be minimized, while improving patient outcomes.

Heart failure: care in the community for adults

Assessing the burden of hospitalized and community-care heart failure in Canada

The Hospital for Sick Children

report on the health of Canadians: The burden of heart failure

Nurse-led heart failure clinics improve survival and self-care behaviour in patients with heart failure: results from a prospective, randomised trial

Multidisciplinary heart failure clinics are associated with lower heart failure hospitalization and mortality: systematic review and meta-analysis

A population-based study to evaluate the effectiveness of multidisciplinary heart failure clinics and identify important service components

Impact of specialist follow-up in outpatients with congestive heart failure

Specialized multidisciplinary heart failure clinics in Ontario, Canada: an environmental scan

The need for heart failure advocacy in Canada

Health Quality Ontario & Ministry of Health and Long-Term Care. Quality-based procedures: clinical handbook for heart failure (acute and postacute)

Government of Canada. Canadian chronic disease surveillance system

Canadian Cardiovascular Outcomes Research Team. An overview of the types of physicians treating acute cardiac conditions in Canada

Referral and use of heart failure clinics: What factors are related to use?

The effects of a sliding scale diuretic titration protocol in patients with heart failure

Remote monitoring in heart failure: the current state

Outcomes of a heart failure telemonitoring program implemented as the standard of care in an outpatient heart function clinic: pretest-posttest pragmatic study

Effects of home telemonitoring interventions on patients with chronic heart failure: an overview of systematic reviews

Remote monitoring of patients with heart failure: an overview of systematic reviews

Discussing serious news remotely: navigating difficult conversations during a pandemic

The status of specialized ambulatory heart failure care in Canada: a joint Canadian Heart Failure Society and Canadian Cardiovascular Society heart failure guidelines survey

Access and referral to heart failure clinics in Canada: a narrative review

Referral and access to heart function clinics: a realist review

Statistics Canada. Map of Ontario census divisions

Ontario population projections update

We are grateful for the contributions of all administrators, nurses, and physicians from the participating HF clinics.

The authors have no funding sources to declare.

The authors have no conflicts of interest to disclose.

To access the supplementary material accompanying this article, visit CJC Open at https://www.cjcopen.ca/ and at https://doi.org/10.1016/j.cjco.2021.03.010.