Patient-centered care in Coronary Heart Disease: what do you want to measure? A systematic review of reviews on patient-reported outcome measures

Background The number of published articles on Patient-Reported Outcomes Measures (PROMs) in Coronary Heart Disease (CHD), a leading cause of disability-adjusted life years lost worldwide, has been growing in the last decades. The aim of this study was to identify all the disease-specific PROMs developed for or used in CHD and summarize their characteristics (regardless of the construct), to facilitate the selection of the most adequate one for each purpose. Methods A systematic review of reviews was conducted in MEDLINE, Scopus, and the Cochrane Database of Systematic Reviews. PROQOLID and BiblioPRO libraries were also checked. PROMs were classified by construct and information was extracted from different sources regarding their main characteristics such as aim, number of items, specific dimensions, original language, and metric properties that have been assessed. Results After title and abstract screening of 1224 articles, 114 publications were included for full text review. Finally, we identified 56 PROMs: 12 symptoms scales, 3 measuring functional status, 21 measuring Health-Related Quality of Life (HRQL), and 20 focused on other constructs. Three of the symptoms scales were specifically designed for a study (no metric properties evaluated), and only five have been included in a published study in the last decade. Regarding functional status, reliability and validity have been assessed for Duke Activity Index and Seattle Angina Questionnaire, which present multiple language versions. For HRQL, most of the PROMs included physical, emotional, and social domains. Responsiveness has only been evaluated for 10 out the 21 HRQL PROMs identified. Other constructs included psychological aspects, self-efficacy, attitudes, perceptions, threats and expectations about the treatment, knowledge, adjustment, or limitation for work, social support, or self-care. Conclusions There is a wide variety of instruments to assess the patients’ perspective in CHD, covering several constructs. This is the first systematic review of specific PROMs for CHD including all constructs. It has practical significance, as it summarizes relevant information that may help clinicians, researchers, and other healthcare stakeholders to choose the most adequate instrument for promoting shared decision making in a trend towards value-based healthcare. Supplementary Information The online version contains supplementary material available at 10.1007/s11136-022-03260-6.


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Background Different initiatives have converged on the importance of the patients' perspective in the improvement of healthcare. The Institute of Medicine (2001) [1] identified patientcentered care as one of the six domains of high-quality healthcare, wherein patient-centered care supports clinicians in "attending to their patients' physical and emotional needs and maintaining or improving their quality of life." The Patient-Centered Outcomes Research Institute [2] emphasizes the goal of "focusing on outcomes that people notice and care about such as survival, function, symptoms, and health-related quality of life." The American Heart Association (AHA, 2013) [3] states that Patient-Reported Outcome Measures (PROMs) implementation in clinical settings has "the potential to support clinical care, evaluate healthcare quality, quantify an important component of procedural appropriateness, identify patients for prognostic discussions and serve as a foundation for shared medical decision making." A patient-reported outcome has been defined [4] as "a measurement based on a report that comes directly from the patient (i.e., study subject) about the status of a patient's health condition without amendment or interpretation of the patient's response by a clinician or anyone else." PROMS are standardized questionnaires that collect information on health outcomes directly from patients and cover a wide variety of constructs, including symptoms, functional status, and Health-Related Quality of Life (HRQL) among others [5]. HRQL is one of the constructs most commonly associated with PROMs, and it is a term referring to the health aspects of quality of life, generally considered to reflect the impact of disease and treatment on disability and daily functioning; it has also been considered to reflect the impact of perceived health on an individual's ability to live a fulfilling life [6]. PROMs should ideally undergo psychometric validation to ensure that they accurately reflect the outcomes they purport to cover, and that they are reliable and can assess changes over time.
Coronary Heart Disease (CHD) has been the leading cause of disability-adjusted life years lost worldwide since 1990 in people over 50 years old [7]. For patients with CHD, the principal treatment goals are to reduce cardiac events, eradicate angina, and optimize quality of life [8]. In recent decades, the number of published articles reporting the use of PROMs in CHD has been growing, following the global tendency in most chronic pathologies [9]. The proportion of cardiovascular trials evaluating quality of life has increased over time: from 0.34% in 1980 to 3.6% in 1997 [10], to 14% in 2009 [11]; whereas patient-centered outcomes were reported in 29% of cardiac surgery trials performed between 2010 and 2014 [12].
Broadly, PROMs fall into two main categories: conditionspecific and generic. The latter measures health concepts that are relevant to a wide range of patient groups, enabling aggregation and comparisons across varied conditions and settings. Condition-specific PROMs capture elements of health relevant to a particular group of patients [13], which in the case of the present review will be CHD patients. Given the growing interest in these instruments, there are several reviews of the main characteristics of some of the most widely used PROMs for CHD, but none have examined all the available instruments [12,[14][15][16][17][18][19][20].
These reviews have focused on heart disease in general, on specific heart conditions or on particular constructs (such as symptoms or HRQL) [16]. A review of instruments for patients undergoing elective coronary revascularization identified 26 cardiovascular-specific PROMs [18]. Reviews for specific constructs in CHD have been mainly centered on HRQL [10][11][12][13][14], showing that mostly generic instruments, such as the SF-36 or the EQ-5D, have been used in this pathology. A review centered on symptom scales [20] found 36 different instruments (both generic and specific measures) for all types of cardiovascular populations, including 15 for CHD and angina pectoris. A recent scoping review of validated PROMs including more than one domain, either developed or specifically modified for patients with heart disease, found 9 specific instruments for ischemic heart disease and 5 more applied to all types of heart disease [18].
These numerous reviews result in a kind of puzzle, with partial information and overlaps which make it difficult to obtain the global picture. Therefore, the aim of this study was to identify all the disease-specific PROMs (regardless of the construct) developed for or used in CHD and to describe their main characteristics by conducting a systematic review of reviews. The review protocol is registered in the International Prospective Register of Systematic Reviews database (PROSPERO CRD42021248504).

Methods
A systematic review of reviews was conducted following the same process as systematic reviews of primary research, but where the units of analysis were reviews rather than individual studies. Following Cochrane recommendations of selecting a minimum of two databases, searches were performed in three electronic databases: MEDLINE, Scopus, and the Cochrane Database of Systematic Reviews. We selected MEDLINE because most of the publications on PROMs are in the field of medical journals and Scopus because it is multidisciplinary and covers other areas. Additionally, we searched in two specialized libraries: PROQOLID (Patient-Reported Outcomes and Quality of Life Instruments Database), and BiblioPRO (a virtual library of PROMs in Spanish). As recommended by the Cochrane Database of Systematic Reviews, the reference lists of relevant studies were also checked to find other potential eligible studies [21].
We applied a comprehensive search strategy developed by experts in Patient-Reported Outcomes and experts in Systematic Reviews in cardiology, seeking to identify published reviews mentioning disease-specific PROMs for CHD populations. For the electronic databases, we used Boolean search methods to identify relevant papers. The search strategy was limited to "reviews" or "systematic reviews" (see supplementary material).
All the identified review articles were included, since the date of each database's inception until March 2021, regardless of whether they were systematic or not. The search was not restricted to language or timeframe.
The inclusion criteria were (1) systematic review or reviews; and (2) providing information about PROMs specifically designed for CHD or, in the case of being designed for heart diseases in general, having been applied and/or validated in patients with CHD; (3) including any type of construct measured: health-related quality of life, symptoms scales, functional status or activities of daily living, and psychological-or social-related construct; (4) instruments that are domain-specific (such as depression, anxiety, self-efficacy, or social support related to CHD) or treatment-specific (for example, coronary artery bypass grafting-CABS-or percutaneous coronary intervention-PCI).
The following exclusion criteria were applied: (a) review or systematic review reporting on generic PROMs applied to CHD (for example, SF-36 or EQ-5D); and (b) review or systematic review of PROMs specifically developed for children or adolescents (age under 18 years).
Two independent reviewers applied inclusion and exclusion criteria to select titles and abstracts, and a single reviewer performed full text and data extraction. All the PROMs identified were categorized according to the construct measured. In case of discrepancy, consensus was reached with the help of a third expert.

Data extraction and analysis
A data extraction form was developed to collect the PROMs identified, stratified by construct: HRQL, symptoms, functional status, and others.
For each identified PROM, we located the publication reporting the instrument development and we collected information about their general characteristics: author, year, country of publication, and bibliographic reference of the original development; aim (including the characteristics, conditions, or procedure of the population for which the PROM was developed, e.g., coronary artery bypass grafting, congestive heart failure, or myocardial infarction); number of items and dimensions; and the original language and existence of other versions. To identify the linguistic adaptations available, we searched in the PROQOLID and Bib-lioPRO libraries or the instrument's website. If alternative versions of a PROM were available (for example short forms or pre-and post-treatment forms), they were considered as part of the original. Additionally, we performed a search in PubMed and Scopus databases using the name of the instrument as a search term to find publications of their use within the last 10 years (from March 2011 to March 2021).
For each instrument, we reviewed if there was available information on the main metric properties in patients with CHD: reliability (including reproducibility or test-retest reliability and internal consistency), validity (content, criterion, or construct validity), and sensitivity to change (responsiveness). For information on the metric properties, we considered information on both the original instrument and the linguistic adaptations.
The review was conducted and has been reported in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines [22].

Results
The search strategy yielded 1131 review articles, and 93 more were added from other sources such as manual reference screening (Fig. 1). After the title and abstract screening, 114 publications were included in the full text review. From these reviews, we identified 56 PROMs specifically developed to be applied in patients with CHD: 21 measuring HRQL (1 of them measuring both symptoms and HRQL, the "Speak from the Heart" instrument), 12 symptoms scales, 3 instruments measuring functional status (1 of them measuring both functional status and symptoms, the Cardiovascular Limitations and Symptoms Profile), and 20 focused on other constructs.
Characteristics of PROMs assessing symptoms and functional status are summarized in Table 1, ordered by the construct measured (symptoms or functional status) and year of publication. Of the 12 symptoms scales identified, three were specifically designed ad hoc for a particular study without any psychometric validation. Only the following 5 instruments have been included in a published study in the last 10 years: Rose Angina Questionnaire (RAQ), Symptoms of Acute Coronary Syndromes Inventory (SACSI), McSweeney Acute and Prodromal Myocardial Infarction Symptom Survey (MAPMISS), Cardiac Symptom Survey (CSS), and Cardiovascular Limitations and Symptoms Profile (CLASP). For these five instruments there is information at least on their reliability and construct validity. However, no sensitivity to change data has been reported. All five instruments have two or more language versions. The RAQ 1 3 deserves a special mention for being the most widely used in epidemiological surveys since its development in 1962, and being adopted by the WHO [23]. The most common symptom assessed among these symptoms scales is chest pain, followed by dyspnea or fatigue.
Only two of the identified instruments focus on functional status: Seattle Angina Questionnaire (SAQ) and Duke Activity Status Index (DASI). Both were specifically developed for CHD patients, although DASI has nowadays been extended to other conditions. The SAQ, a 19-item questionnaire developed for assessing angina pectoris, has been translated into 54 languages, and a short form is available with seven items. The DASI has 12 items and is available in several languages. Both instruments have evidence on their metric properties: reliability, validity, and responsiveness (Table 1). Table 2 shows the characteristics of PROMs assessing HRQL, ordered by year of publication between 1988 and 2019. The first ones were developed in Scandinavia for patients with CHD, and most were originally developed in English (11 out of 21 are from UK, USA, Canada, or Australia). Four out of these 21 PROMs were specifically designed for measuring HRQL of patients receiving surgical, percutaneous revascularization or antiarrhythmic medications: Questionnaire for coronary artery bypass grafting, Coronary Revascularization Outcomes Questionnaire (CROQ), Monash University Cardiac Patient-reported Outcome Measure (MC-PROM), and Cardiac Arrhythmia Suppression Trial (CAST). The number of items included in HRQL instruments varies widely, from 14 (HeartQoL), to 70 (Ferrans and Powers QLI-cardiac version). Although the Chronic Heart Failure (CHF) questionnaire was originally designed for heart failure and there are many country-specific versions, we have only included the version that was modified to evaluate HRQL in CHD [24].
Among the questionnaires identified for measuring HRQL in CHD patients, the most used worldwide are Angina Pectoris Quality of Life Questionnaire (APQLQ), QLI-cardiac version, the MacNew, Cardiac Health Profile (CHP), Myocardial Infarction Dimensional Assessment Scale -35 (MIDAS-35), CROQ, and HeartQoL. They all have several linguistic versions and have appeared in published studies in the last ten years (except for the APQLQ). In addition, information on reliability, validity, and responsiveness has been reported for all of them.
The APQLQ was developed in 1988 in Sweden to assess the impact of angina pectoris on patients' quality of life and has 9 other language versions. The QLI-cardiac version, also known as Ferrans and Powers questionnaire (1993) [24], was developed to measure quality of life in terms of satisfaction with life in patients with heart diseases and has more than 10 country versions. The MacNew was also developed in the early 1990s, initially for myocardial infarction under the name of Quality of Life after Myocardial Infarction (QLMI) and later expanded to evaluate the impact of treatment for patients with myocardial infarction, angina pectoris, and heart failure, and has been adapted to more than 80 languages. The CHP was developed in 1996 with the main aim to assess HRQL in patients with cardiovascular disease and has a specific version for CHD. It has been adapted into 13 languages and is nowadays still applied. The MIDAS-35 was developed approximately one decade later (2002), to be a short measure of health status for individuals with acute myocardial infarction. It was originally created for UK   (2014) was developed simultaneously in 15 countries and has subsequently been translated into another 16 languages. The original aim was to assess CHD-specific HRQL for making between-diagnosis comparisons following interventions that are routinely used in more than one CHD diagnosis.
Regarding the content of the dimensions, all instruments cover physical and emotional domains, and most of them also include a social dimension ( Table 3) Supplementary Table 4 shows 20 specific PROMs for CHD that measured some construct other than symptoms, functional status or HRQL, for example, psychological and behavioral aspects such as depression, anxiety, anger, or distress (measured by 5 instruments), self-efficacy (4 instruments), attitudes, perceptions, threats, and expectations about the treatment (3 instruments), knowledge (2 instruments), adjustment or limitation to work (2 instruments), social support (2 instruments), or self-care (1 instrument). Most of these instruments were developed in the last 20 years and have been used recently, with at least one publication in the last 10 years. Those with the most language versions developed are the CDS and the SC-CHDI, which are available in 9 and 11 languages, respectively. Regarding psychometric properties, for the majority of these instruments only internal consistency and construct or content validity have been assessed, being CDS the exception as its reproducibility and responsiveness have also been assessed.
Deserving a special mention is the RehaCAT-Cardio project for the development and validation of a computer adaptive test (CAT) for cardiac patients undergoing rehabilitation, which has designed different item banks and scales for the assessment of several constructs, such as activities of daily living, anxiety, treatment motivation, and work capacity.

Discussion
Facilitating the selection of the most appropriate PROM for a specific aim is the first step needed to increase patientcentered approaches in CHD, an area where only around 29% of trials report using these measures [12]. The most important characteristic to be considered in this decision process should be what is the construct of interest for the study, program, or initiative implemented.
Reviews of PROMs for CHD have been primarily focused on instruments measuring HRQL or symptoms [12,[14][15][16][17]20]. Through a systematic review we have identified 56 PROMs to be applied to patients with CHD, covering different constructs: HRQL, symptoms, functional status, or several psychological or behavioral aspects.
A few reviews have included various constructs, but they were not exclusively centered on CHD. There is a scoping review of all existing disease-specific PROMs for patients with heart disease, including heart diseases in general, ischemic heart disease, heart failure, arrhythmia, valve disease, and/or grown-up congenital heart disease [19], which only identified 9 instruments for ischemic heart disease and 5 for heart disease in general. The low number of PROMs identified by this scoping review was probably due to the exclusion criteria of PROMs measuring single symptoms or domains, because its purpose was mapping the items contained in WHO's International Classification of Functioning, Disability, and Health (ICF). A systematic review of cardiovascular-specific PROMs identified 26 instruments for patients undergoing elective coronary revascularization, although specific PROMs applied to other procedures were not included [18].
Symptoms and functional status were also commonly included in the CHD studies, and 15 PROMs have been developed. A literature review of PROMs assessing symptoms for different cardiovascular diseases found 14 symptoms instruments for various acute coronary syndromes and 10 specifically for patients with angina [20].
Typically, the quantification method of symptoms and functioning in CHD has been the Canadian Cardiovascular Society (CCS) classification system, which is determined by the clinician rather than the patient [25]. Almost 40 years of research have documented substantial limitations in the CCS classification system [26,27]: the data collectively suggest a need for more consistent, systematic, and accurate means to quantify the frequency and burden of angina from the patient's perspective. In this sense, 12 symptoms [28][29][30][31][32][33][34][35][36][37][38][39] and 3 functional status instruments [40][41][42] have

Diet (3)
Concerns over medication (2) Side effects (2) been developed, but only 5 symptoms and 2 functional status scales have been used in the last 10 years. This is probably the consequence of some of them having been established as "gold standards" and used consistently due to the accumulated evidence of well-established validity, reproducibility, prognostic importance, and sensitivity to clinical change [25]. This would be the case of the RAQ for symptom recognition or the DASI and the SAQ for functional status assessment [9].
The RAQ was constructed in the 1960s for assessing the population burden of angina, and positive screening in RAQ predicts myocardial infarction and cardiovascular disease [43]. The DASI, although initially developed for cardiac patients to assess usual physical activities and cardiopulmonary fitness, has been shown to be useful for non-cardiac disease to improve the identification of patients at an elevated risk for myocardial infarction [44]. The SAQ was endorsed as a performance measure by the AMA/ACC/AHA Physicians' Consortium for Performance Improvement in the 1990s, and it has been more extensively applied in clinical trials than adopted in clinical practice [27]. The International Consortium for Health Outcomes Measurement (ICHOM), an organization with the mission to unlock the potential of value-based healthcare, recommends the short version of the SAQ in the CHD standard sets of outcome measures.
Instruments focused on HRQL are the largest group with 21 PROMs [24,33,, making it difficult to select the most appropriate instrument, yet this is one of the most interesting constructs for clinicians and researchers. HRQL instruments specific for patients with CHD usually include a physical and an emotional domain, quite frequently also a social domain, and the most recent ones add dimensions for measuring self-care, dependency, or satisfaction. Considering the most frequently used instruments in the last 10 years (APQLQ, QLI-cardiac version, MacNew, MIDAS-35, CROQ, and HeartQol), differences among the number of items (22 to 70) and domains are important. Half of them were developed with the aim of evaluating the impact of treatments (MacNew, CROQ, and HeartQol), allowing for comparisons among interventions, a relevant aspect for shared decision making.
In recent decades, there has been a growing interest in patient-centered approaches that open the scope to other constructs like self-care, attitudes, or psychological aspects specifically related to the disease. Our review has found 20 scales [67-91] to measure mood symptoms, perception, expectation regarding the disease (beliefs, attitudes, risk perception, or knowledge) or coping strategies (self-efficacy, self-care, adjustment, or social support). CHD often involves mood symptoms of distress, anxiety, or depression, which, in turn, are risk factors for CHD [92,93]. However, it should be noted that information on their metric properties has not been reported yet for many of these instruments, with a considerable gap regarding their sensitivity to change. CDS is the only instrument with evidence on reliability, validity, and responsiveness. In the United States, the proportion of depression in patients with acute myocardial infarction is three times higher than in the general population, and  (5) The anxiety is almost twice [94,95]. Aware of these data, the American Heart Association (AHA) recommends routine screening for depression, allowing effective treatment for improving health outcomes [96]. Conversely, the assessment of protective factors such as self-care, self-efficacy, or social support, among other constructs related to coping strategies, could help to promote lifestyle changes in patients and increase the level of compliance with medical recommendations.
In general, there is a tendency to develop short versions of the original instrument or to develop a renewed version. Such is the case of the RAQ, which has multiple modified versions, or the MacNew, which was initially developed in 1993 for myocardial infarction (QLMI) and extended its applicability to other conditions in the current version published in 1996. The SAQ, with an original version of 19 items, has a shorter 7-item version developed to reduce its response burden and to provide a single summary score to facilitate its adoption in clinical care [97].

Strengths and limitations
This is the first systematic review of specific PROMs applied in CHD patients, including all the constructs measured, and without restrictions regarding language and year of publication. It was registered at PROSPERO and follows the PRISMA guidelines for the systematic review of reviews, a research procedure nowadays recommended to increase transparency and reproducibility and decrease reporting bias.
The results of the present systematic review should be interpreted in the light of their principal limitation. The authors acknowledge that more PROMs might have been identified if other databases had been searched in addition to MEDLINE, Scopus, and the Cochrane Database. However, additional manual screening of reference lists from relevant articles and targeted searches in PROQOLID and BiblioPRO still yielded a relatively large number of PROMs.

Conclusions and practical implications
A wide variety of instruments has been developed to assess patient-reported outcomes in CHD, covering several constructs which may be of special interest. The first step to increase patient-centered approaches in CHD is to identify, classify, and describe the existing PROMs, including the evidence on their metric properties. The second step on the continuum towards value-based healthcare [98] may be the evaluation of PROMs' implementation in different settings, to report the usability and utility of these measures for patients, carers, and health professionals.
In conclusion, this review has practical significance, as it summarizes relevant information that may help clinicians, researchers, and other healthcare stakeholders to choose the most adequate instrument for incorporating the patients' perspective and promote a model of shared decision making in a trend towards value-based healthcare [99].

Acknowledgements
The authors acknowledge the collaboration and contribution of Itxaso Alayo for her assistance in the database management. Moreover, the authors thank Dave Macfarlane and Aurea Martin for their support in English editing, proofreading, and preparing this manuscript for submission.
Author contributions All authors have actively participated in the study and have made a substantial contribution to (1) either conception and design, or acquisition of data, or analysis and interpretation of data; as well as (2) the drafting of the article or its critical revision for important intellectual content; and (3) the final approval of the version to be published.
Funding This study was supported by grants from the Instituto de Salud Carlos III FEDER: Fondo Europeo de Desarrollo Regional (grant number PI16/00130); Generalitat de Catalunya, Spain (grant number and 2017 SGR 452); and the Centro de Investigación Biomédica en Red de Epidemiología y Salud Pública (CIBER of Epidemiology and Public Health). The funders of the study had no role in the study design and conduct, data collection, management, analysis, or interpretation; they also had no role in the preparation, writing, reviewing, and submission of this manuscript.
Data availability Data and material are available from the corresponding author upon reasonable request.
Code availability Not applicable.

Conflict of interest
The authors declared that they have no conflict of interest.

Consent for publication Not applicable.
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