Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-23T04:29:40.819Z Has data issue: false hasContentIssue false

Rationale and design of a cohort study evaluating triage of acute chest pain in out-of-hours primary care in the Netherlands (TRACE)

Published online by Cambridge University Press:  08 May 2020

Amy Manten
Affiliation:
Department of General Practice, Amsterdam UMC, University of Amsterdam, Amsterdam Public Health, Academic Medical Center, Meibergdreef 9, AZ, Amsterdam, The Netherlands
Cuny J.J. Cuijpers
Affiliation:
Department of General Practice, Amsterdam UMC, University of Amsterdam, Amsterdam Public Health, Academic Medical Center, Meibergdreef 9, AZ, Amsterdam, The Netherlands
Remco Rietveld
Affiliation:
Huisartsenorganisatie Noord-Kennemerland, Hertog Aalbrechtweg 5a, Alkmaar, The Netherlands
Emma Groot
Affiliation:
Department of General Practice, Amsterdam UMC, University of Amsterdam, Amsterdam Public Health, Academic Medical Center, Meibergdreef 9, AZ, Amsterdam, The Netherlands
Freek van de Graaf
Affiliation:
Department of General Practice, Amsterdam UMC, University of Amsterdam, Amsterdam Public Health, Academic Medical Center, Meibergdreef 9, AZ, Amsterdam, The Netherlands
Sandra Voerman
Affiliation:
Huisartsenorganisatie Noord-Kennemerland, Hertog Aalbrechtweg 5a, Alkmaar, The Netherlands
Jelle C.L. Himmelreich
Affiliation:
Department of General Practice, Amsterdam UMC, University of Amsterdam, Amsterdam Public Health, Academic Medical Center, Meibergdreef 9, AZ, Amsterdam, The Netherlands
Wim A.M. Lucassen
Affiliation:
Department of General Practice, Amsterdam UMC, University of Amsterdam, Amsterdam Public Health, Academic Medical Center, Meibergdreef 9, AZ, Amsterdam, The Netherlands
Henk C.P.M. van Weert
Affiliation:
Department of General Practice, Amsterdam UMC, University of Amsterdam, Amsterdam Public Health, Academic Medical Center, Meibergdreef 9, AZ, Amsterdam, The Netherlands
Ralf E. Harskamp*
Affiliation:
Department of General Practice, Amsterdam UMC, University of Amsterdam, Amsterdam Public Health, Academic Medical Center, Meibergdreef 9, AZ, Amsterdam, The Netherlands
*
Author for correspondence: Dr Ralf E. Harskamp, Department of General Practice, Amsterdam UMC, University of Amsterdam, Meibergdreef 9, 1105 AZ, Postbox 22660, 1100 DDAmsterdam, The Netherlands. E-mail: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

The aims of this study are (1) to evaluate the performance of current triage for chest pain; (2) to describe the case mix of patients undergoing triage for chest pain; and (3) to identify opportunities to improve performance of current Dutch triage system for chest pain. Chest pain is a common symptom, and identifying patients with chest pain that require urgent care can be quite challenging. Making the correct assessment is even harder during telephone triage. Temporal trends show that the referral threshold has lowered over time, resulting in overcrowding of first responders and emergency services. While various stakeholders advocate for a more efficient triage system, careful evaluation of the performance of the current triage in primary care is lacking. TRiage of Acute Chest pain Evaluation in primary care (TRACE) is a large cohort study designed to describe the current Dutch triage system for chest pain and subsequently evaluate triage performance in regard to clinical outcomes. The study consists of consecutive patients who contacted the out-of-hours primary care facility with chest pain in the region of Alkmaar, the Netherlands, in 2017, with follow-up for clinical outcomes out to August 2019. The primary outcome of interest is ‘major event’, which is defined as the occurrence of death from any cause, acute coronary syndrome, urgent coronary revascularization, or other high-risk diagnoses in which delay is inadmissible and hospitalization is necessary. We will evaluate the performance of the triage system by assessing the ability of the triage system to correctly classify patients regarding urgency (accuracy), the proportion of safe actions following triage (safety) as well as rightfully deployed ambulances (efficacy). TRACE is designed to describe the current Dutch triage system for chest pain in primary care and to subsequently evaluate triage performance in regard to clinical outcomes.

Type
Development
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
© The Author(s) 2020

Background and rationale

Chest pain is a common symptom with a lifetime prevalence of 20–40%, and in primary care, about 1 in every 50 consultations is related to chest pain (Svavarsdóttir et al., Reference Svavarsdóttir, Jónasson, Gudmudsson and Fjeldsted1996; Nilsson et al., Reference Nilsson, Scheike, Engblom, Karlsson, Mölstad, Akerlind, Örtoft and Nylander2003; Ruigomez et al., Reference Ruigomez, Rodriguez, Wallander, Johansson and Jones2006; Verdon et al., Reference Verdon, Herzig, Burnand, Bischoff, Pécoud, Junod, Mühlemann and Favrat2008; Bösner et al., Reference Bösner, Becker, Haasenritter, Abu Hani, Keller, Sonnichsen, Karatolios, Schaefer, Seitz, Baum and Donner-Banzhoff2009; Bösner et al., Reference Bösner, Haasenritter, Becker, Karatolios, Vaucher, Gencer, Herzig, Heinzel-Gutenbrunner, Schaefer, Abu Hani, Keller, Sonnichsen, Baum and Donner-Banzhoff2010; McConaghy and Oza, Reference Mcconaghy and Oza2013; Frese et al., Reference Frese, Mahlmeister, Heitzer and Sandholzer2016; Aerts et al., Reference Aerts, Minalu, Bösner, Buntinx, Burnand, Haasenritter, Herzig, Knottnerus, Nilsson, Renier, Sox, Sox and Donner-Banzhoff2017; Hoorweg et al., Reference Hoorweg, Willemsen, Cleef, Boogaerts, Buntinx, Glatz and Dinant2017; Harskamp et al., Reference Harskamp, Van Peet, Bont, Ligthart, Lucassen and Van Weert2018). A minority of these cases have an underlying heart condition, with a pre-consultation probability that varies from 1.5% to10% (Figure 1) (Svavarsdóttir et al., Reference Svavarsdóttir, Jónasson, Gudmudsson and Fjeldsted1996; Nilsson et al., Reference Nilsson, Scheike, Engblom, Karlsson, Mölstad, Akerlind, Örtoft and Nylander2003; Verdon et al., Reference Verdon, Herzig, Burnand, Bischoff, Pécoud, Junod, Mühlemann and Favrat2008; Bösner et al., Reference Bösner, Haasenritter, Becker, Karatolios, Vaucher, Gencer, Herzig, Heinzel-Gutenbrunner, Schaefer, Abu Hani, Keller, Sonnichsen, Baum and Donner-Banzhoff2010; McConaghy and Oza, Reference Mcconaghy and Oza2013; Haasenritter et al., Reference Haasenritter, Biroga, Keunecke, Becker, Donner-Banzhoff, Dornieden, Stadje, Viniol and Bosner2015; Leite et al., Reference Leite, Baptista, Leitao, Cochicho, Breda, Elvas, Fonseca, Carvalho and Costa2015; Aerts et al., Reference Aerts, Minalu, Bösner, Buntinx, Burnand, Haasenritter, Herzig, Knottnerus, Nilsson, Renier, Sox, Sox and Donner-Banzhoff2017; Hoorweg et al., Reference Hoorweg, Willemsen, Cleef, Boogaerts, Buntinx, Glatz and Dinant2017; Harskamp et al., Reference Harskamp, Van Peet, Bont, Ligthart, Lucassen and Van Weert2018). Early detection of these disease states is warranted as adequate treatment prevents complications, such as heart failure, ventricular arrhythmias, as well as death itself (Deakin, Reference Deakin2006; van Ierland et al., Reference Van Ierland, Van Veen, Huibers, Giesen and Moll2011). Unfortunately symptoms may not always be as straightforward, and this can be particularly challenging for out-of-hours primary care facilities where initial triage occurs mainly over the telephone. Triage protocols have therefore been put in place in order to adequately and quickly identify urgent cases, while simultaneously preventing iatrogenic harm by exposure to unnecessary ambulance activation, hospital admissions, diagnostic evaluation, and/or treatment in non-urgent cases (Bösner et al., Reference Bösner, Becker, Haasenritter, Abu Hani, Keller, Sonnichsen, Karatolios, Schaefer, Seitz, Baum and Donner-Banzhoff2009; Bösner et al., Reference Bösner, Haasenritter, Becker, Karatolios, Vaucher, Gencer, Herzig, Heinzel-Gutenbrunner, Schaefer, Abu Hani, Keller, Sonnichsen, Baum and Donner-Banzhoff2010; Frese et al., Reference Frese, Mahlmeister, Heitzer and Sandholzer2016). The inability to perform physical examination and the absence of clinical risk scores typically used in clinical settings complicates telephone triage even further.

The blue charts show the prevalence of chest pain among patients in primary care for each study. The occurrence of coronary artery disease among patients presenting with chest pain is illustrated by the red charts.

Figure 1. The prevalence of chest pain and the occurrence of coronary artery disease.

The health care system in the Netherlands is designed to provide equal access to all citizens. Every Dutch citizen is enlisted with a local primary care physician’s (PCP) office, which keeps an electronic patient record file with all health care information (including correspondence from other health care facilities) for each of its patients. PCPs across the country are organized into regional, large-scale PCP cooperatives. The responsibilities of these cooperatives include the after-hours acute primary care services of the affiliated PCPs in that region through out-of-hours care facilities (Smits et al., Reference Smits, Rutten, Keizer, Wensing, Westert and Giesen2017). Most out-of-hours care facilities use the Dutch triage guideline [Nederlandse Triage Standaard (NTS)] (Domus Medica, 2014). The NTS for chest pain (‘pijn thorax’) is derived from extrapolating hospital triage questions and consensus of expert opinion. These triage questions have never been cross-validated with clinical outcomes in a primary care population with undifferentiated chest pain (van Ierland et al., Reference Van Ierland, Van Veen, Huibers, Giesen and Moll2011). Additionally, we have poor understanding of the initial presentation of patients with chest pain in out-of-hours primary care, as prior research has exclusively focused on either office hours primary care or emergency departments (McConaghy and Oza, Reference Mcconaghy and Oza2013; Frese et al., Reference Frese, Mahlmeister, Heitzer and Sandholzer2016; Hoorweg et al., Reference Hoorweg, Willemsen, Cleef, Boogaerts, Buntinx, Glatz and Dinant2017). As a result, the diagnostic value of the NTS in out-of-hours primary care has been largely criticized by PCPs as well as ambulance services (Keizer et al., Reference Keizer, Maassen, Smits and Giesen2014). Triage inefficiency has been named as a main factor leading to frequent consultations for non-urgent cases and a high rate of unnecessary ambulance deployments, but other factors also play(ed) a role (i.e., organizational and cultural changes, financial and legal incentives) (Keizer et al., Reference Keizer, Maassen, Smits and Giesen2014; Smits et al., Reference Smits, Rutten, Keizer, Wensing, Westert and Giesen2017; Smits and Verheij, 2017). Additionally, prior research has concluded that the urgency is underestimated in 19% of cases, potentially leading to unsafe situations (Giesen et al., Reference Giesen, Ferwerda, Tijssen, Mokkink, Drijver, Van Den Bosch and Grol2007; Keizer et al., Reference Keizer, Maassen, Smits and Giesen2014; Ambulancezorg Nederland, 2017; Smits et al., Reference Smits, Rutten, Keizer, Wensing, Westert and Giesen2017; Smits and Verheij, Reference Smits and Verheij2017; Zeilstra and Giesen, Reference Zeilstra and Giesen2017).

As such, we decided to conduct the TRiage of Acute Chest pain Evaluation (TRACE in primary care) study that designed to validate and optimize current triage decision-making in primary care by evaluating the current triage of chest pain in relationship to predicting major event. The first objective is to evaluate the performance of the current triage protocol/system for chest pain. The second objective is to describe symptom presentation, patient characteristics, triage decisions, final diagnoses, and clinical outcomes in patients presenting with chest pain in out-of-hours primary care. Finally, we explore opportunities to further improve triage safety and efficacy.

Methods

The TRACE study involves a retrospective, observational cohort of consecutive patients who contacted a Dutch primary care out-of-hours facility with symptoms of chest pain. We reported our study protocol using the ‘Strengthening the reporting of observational studies in epidemiology’ checklist (von Elm et al., Reference Von Elm, Altman, Egger, Pocock, Gotzsche, Vandenbroucke and Initiative2007).

Study population

TRACE involves a partnership with Huisartsenorganisatie Noord-Kennermerland (HONK). The HONK organization is the primary care cooperative of the surrounding region of Alkmaar, the Netherlands (Figure 2), comprising approximately 240 000 individuals. In the Alkmaar region, the majority of the inhabitants are of Dutch or European ancestry, with 12.8% being of non-Western/non-Caucasian descent. Of those, the largest minorities are Turkish (2.9%), Moroccan (2.0%), Surinamese (1.5%), and Antillean (1.2) (Centraal Bureau voor de Statistiek, 2013). The out-of-hours primary care facility in Alkmaar is responsible for the after-hours primary care services to patients of the 98 affiliated primary care day practices. In the Netherlands, all inhabitants are registered at one primary care practice in their area of residence. TRACE will include all patients who telephonically and/or physically contacted the out-of-hours primary care facility in Alkmaar with a complaint of chest pain between 1 January 2017 and 31 December 2017. Patients aged 18 years and over at the time of initial contact with a primary or secondary complaint of chest pain will be eligible for inclusion. For patients who reach out to the HONK with chest pain on multiple occasions during the inclusion window, only the first encounter will be included.

The regional coverage of the HONK network in the province of Noord-Holland, north of Amsterdam. Each pin on the map represents an affiliated primary care practice.

Figure 2. Regional coverage of the HONK network.

This figure depicts the actions that can be taken after telephone triage of chest pain.

Figure 3. Flowchart of telephone triage and actions after triage.

Inclusion procedure

All patients who contacted the HONK with chest pain in 2017 will receive information regarding the TRACE study by mail. The envelope includes an information leaflet and a form with the request to withdraw from participation (‘opt out’). Data of patients who opt-out will not be used in any form for this study. Moreover, we will also not collect data on patients with unstable vital signs (U0 urgency), or when follow-up data cannot be collected (e.g., individuals who were not administered with a PCP at the time of initial contact, such as visitors/tourists, asylum seekers). All PCPs affiliated with the HONK will also be informed of the conduct of the study. We will also telephone PCP offices to schedule an appointment to complete follow-up information and to obtain current vital status information.

Triage system used at the out-of-hours facility

To assure nationwide consistency, primary care cooperatives use a standardized, software-based triage system, which relies on algorithms developed, maintained, and exploited by the NTS (Domus Medica, 2014). The out-of-hours facilities are directly accessible for patients, but the preferred route of contact is by telephone. During a telephone contact, initial triage is carried out by trained triage nurses and supervised by on-site PCPs (Smits et al., Reference Smits, Rutten, Keizer, Wensing, Westert and Giesen2017). Triage nurses start by ensuring the hemodynamic status of a patient, and when unstable vital signs are present, the highest urgency level is activated, resulting in immediate ambulance deployment. In the vast majority of patients, these vital signs are stable and triage for chest pain follows, and questions include chest pain characteristics, that is, the type of pain, duration, severity, course, localization, and whether the patient experienced radiation of the pain or symptoms of sweating, nausea, or vomiting. Additionally, triage nurses can explore the medical history, medication use or the presence of accompanying symptoms, such as dyspnea or dizziness. Based on the answers to the standardized questions, an algorithm will generate an urgency category varying from urgency level 0 to 5 (U0–U5) as shown in Table 1. Possible actions following telephone triage include ambulance deployment, consultation by a PCP (at the center or a home visit) or telephone advice, as shown in Figure 3. The urgency classification determines the course of action and its time frame (see Table 1). When triage nurses suspect that a different urgency level would be more fitting to the patients’ symptom, they can overrule the suggested urgency after consulting the attending physician.

Table 1. Urgency classification according to NTS

NTS = Nederlandse Triage Standaard.

Data collection

Data collection for TRACE will consist of two parts: the first part involves collection of baseline data and the second involves collection of follow-up and clinical outcomes data. Collection of follow-up data will be performed once data entry for baseline characteristics has been completed. We will enter all data into Castor Electronic Data Capture (Castor EDC) (Ciwit, Reference Ciwit2016), a cloud-based electronic data capturing platform in which the data of each participant can be registered within an electronic case report form (eCRF). Castor EDC includes an audit trail. We will pseudonymize all patient data before data entry.

Baseline data

We will regard the information available at the time of the index (telephone) consultation of the out-of-hours facility as baseline data. This information will consist of demographics, telephone triage outcome in terms of ascribed urgency, and the management that followed triage, as recorded by the HONK. We will counter inter-observer variability of entered data by developing agreements on data registering of each variable, as well as by an internal audit of data by three researchers (A.M., W.A.L., R.E.H.). For cross-validation purposes, we will also retrieve information from PCPs’ offices regarding baseline characteristics and medication use (at time of baseline consultation).

Follow-up data

For data on clinical outcomes, we will use information derived from electronic patient records, including correspondence regarding hospital visits and outpatient consultations. Relevant documentation, such as specialist letters regarding follow-up of chest pain, will be pseudonymized and uploaded into the eCRF. This follow-up information will include both final diagnosis in relation to the index consultation and other relevant outcomes during the entirety of the follow-up period. We will gather follow-up data of all patients up to 12–30 months after index telephone triage. Our research team will schedule appointments with the practice to allow our researchers to visit the practice to collect follow-up data. In small primary care practices with few participants, and limited work space, we will contact the PCP to discuss the method of data entry. In these practices, PCPs will either allow one of the researchers to visit the practice for data collection, or the PCP will receive a personal token to log in to our eCRF and process the information of these patients themselves. We believe that via this approach we are sensitive toward the logistical challenges (i.e., providing a work station) that our study may impose on small practices. Still, as our team provides flexibility in our data collection visits, we anticipate that the vast majority will opt for our research team to collect follow-up information. Collection of follow-up data will be concluded in August 2019.

Final diagnosis: major and non-major events

We will evaluate triage performance by comparing the initial triage management at the HONK with the final diagnosis and clinical outcomes as retrieved from the patient records at the PCPs’ offices. In order to do so, we will establish the final diagnosis for each patient and evaluate whether this diagnosis should be identified as a ‘major event’. Subsequently, we will review the necessity of ambulance activation in hindsight when regarding the final diagnosis.

First, we will determine final diagnosis. In primary care, diagnoses are registered as International Classification of Primary Care (ICPC) codes. We will use the ICPC codes that are registered in the patient records at the time of clinical follow-up. We anticipate to encounter a number of cases in which the registered ICPC code does not match with final diagnosis based on information from electronic health records. In case of doubt about the validity of the registered ICPC code, the necessity of revision of the ICPC code based on the full patient file (including information on diagnostic work-up and correspondence by specialists) will be decided on by discussion among the research group and, in case of disagreement, by an independent expert who is blinded for initial management. The (misclassified) ICPC code will be adjusted to the more fitting code in the eCRF according to this final judgment. Such changes will be recorded in data logs.

Second, final diagnoses will be classified as either ‘major’ or ‘non-major’ type events. This distinction, as shown in Table 2, will be based on whether patients suffered from an acute coronary syndrome (ACS), a major adverse cardiovascular event (MACE), or other urgent clinical outcome. We defined MACE as the occurrence of all mortality, myocardial infarction/unstable angina, or coronary revascularization, as used in the HEART score (Van Den Berg and Body, Reference Van Den Berg and Body2017). Data on mortality are obtained from various sources, including the HONK database (linkage) and from electronic health records from the daytime PCPs. The occurrence of ACS and coronary revascularization is based on source documentation, based on a specialist and/or hospital discharge letter. Clinical outcomes other than ACS or MACE will be classified as major events when they fulfill all of the following three criteria: (1) ambulance activation was justifiable in hindsight, (2) the patient was hospitalized, and (3) final diagnosis can be linked to the initial complaint of chest pain. Major events are separated further into events occurring within 6 weeks and events occurring later than 6 weeks following initial contact. This division is based on the assumption that most major events associated with initial contact would manifest within a period of 6 weeks. Major event occurring later than 6 weeks for instance include patients who suffered from cardiac ischemia later on or participants who died within the follow-up period. We decided to include a longer follow-up period as it may counter some of the effects of verification bias, as patients initially not referred to a specialist, may have been referred/diagnosed at a later stage.

Table 2. Distribution of major and non-major events

ACS = acute coronary syndrome; MACE = major adverse cardiovascular event; ECV = Electrical Cardioversion; COPD = Chronic obstructive pulmonary disease.

Triage performance

We will assess the performance of the current triage system by its ‘accuracy’, ‘safety’, and ‘efficacy’ regarding the ability to differentiate major from non-major events. We will define ‘accuracy’ as the overall probability that a patient is correctly classified by the triage system regarding the urgency of the final diagnosis. We will define correct classification as ambulance activation at initial consultation for a participant with a major event and no ambulance activation for a participant with a non-major event. We will determine ‘safety’ as one minus the false negative rate (i.e., the proportion of cases falsely assessed as non-major divided by the total number of included triage cases). The triage system’s safety therefore ranges from 0 to 1, where a safety close or equal to 1 indicates a low proportion of cases with a ‘missed’ major event. ‘Efficacy’ refers to the proportion of ambulance deployments that involved a major event (true positives) divided by the total number of ambulance activations.

Additionally, we will also compare the urgency levels overruled by triage nurse (and PCP) versus not overruled and what effect this overruling has on safety, efficacy, and accuracy. The action of overruling of the triage nurse is documented in the HONK database.

Statistical analysis

We will perform descriptive analyses on symptom presentation, patient characteristics, triage decisions, final diagnosis, and clinical outcomes. We will display discrete variables as number and percentages and continuous variables as means ± standard deviations or median and interquartile range for non-Gaussian distributions. We will compare continuous variables using Student’s t-test and proportions using the Fisher’s exact test or Pearson’s chi-square test. We will use two-tailed tests.

We will evaluate the current NTS triage performance using safety, efficacy, and accuracy regarding major events and ambulance activity. We will perform a stratified analysis of triage performance comparing the sole use of (computer/algorithm-based) NTS telephone triage recommendation or the actual every-day use which integrates overruling of the triage nurse or physician.

We will evaluate diagnostic accuracy of the triage questions by their sensitivity, specificity, and predictive values regarding the outcomes (1) major event and (2) MACE. We will also assess discrimination (C-statistics) and calibration (assessing calibration plots, and performing modified Hosmer–Lemeshow tests) of triage questions. We anticipate to include 1500–2000 patients with chest pain over a 1-year observation period based on prior the site’s telephone consultation history. Of those, we estimate that approximately 10% of cases will involve a major event that requires immediate referral. Based on the rule of thumb that one variable would require at least 10 cases of the primary outcome, this would provide us with sufficient power to allow for the analysis of 15–20 variables.

We will conduct all analyses using IBM SPSS Statistics for Windows, Version 25 (IBM Corp., Released 2017, Armonk, NY, USA). We will evaluate statistical significance in all analyses at the 0.05 level.

Ethical approval

The study proposal of TRACE was assessed by the Medical Ethical Committee (METC) (institutional review board) of the Amsterdam University Medical Centers, location Academic Medical Center (AMC). Given the observational design of the study, the METC exempted TRACE for full evaluation, as provided in writing on 13 February 2018 (reference number W18_035#18.053). All patients who sought telephone contact with chest pain in the year 2017 will receive a letter from the HONK with information about the TRACE study. They will also be provided with the possibility to withdraw from the study cohort through an attached ‘opt-out-form’ and return envelope, in case of objection. These actions have been reviewed by internal legal consultation and data protection representatives, and are (for the current study) within the boundaries of the new General Data Protection Regulation installed in May 2018 and the Dutch law on Medical Research in Humans. A summary of the study protocol has been published on Netherland trial register of the Dutch Cochrane group (Trial NL7581, https://www.trialregister.nl/trial/7581).

Discussion

Chest pain provides a challenge for telephone triage, particularly for atypical symptoms and/or supposedly low-risk patients. This study will provide new insights as we will apply the actual clinical outcome as the reference, instead of ‘expert opinion’ which is the current basis of the NTS triage system. Critical evaluation of our current triage system using clinical follow-up data may provide us with the opportunity to further refine triage in order to maximize safety and efficacy. The available data would allow us to identify additional predictors for adverse clinical outcomes that could be taken into account when developing future updates of the current NTS triage system. While the Dutch health care system has unique features, the findings of TRACE will in general still be applicable in other countries with a strong primary care presence in acute/urgent care.

Prior and ongoing studies

A comparable study evaluating the optimization of telephone triage is currently conducted by Erkelens et al. (Reference Erkelens, Wouters, Zwart, Damoiseaux, De Groot, Hoes and Rutten2019) in the region of Utrecht, the Netherlands. This study uses the telephone triage audio recordings of patients with symptoms suggestive of acute cardiovascular disease in out-of-hours primary care. Instead of initial management, Erkelens et al. focus on the diagnostic accuracy of the allocated urgency level after telephone triage. The results of this study are likely to complement TRACE in attaining a complete picture of current triage standards in the Netherlands.

Strengths and limitations

The TRACE study reflects real-world care of a contemporary cohort, with a patient population that is reflective of a Western European population. Use of primary care and affiliated resources in the Alkmaar region is comparable with the Dutch average, as is the use of medications and chronic medical conditions (https://www.waarstaatjegemeente.nl/dashboard/Zorggebruik/). Moreover, since consecutive patients will be enrolled over the course of a year, we minimize possible selection or seasonal bias. Another strength is the robust follow-up and documentation of both cardiac life-threatening diagnoses (ACS/MACE) and other significant clinical outcomes. Furthermore, the urgency of the final diagnosis will be evaluated manually for each participant instead of relying solely on ICPC code registering. A limitation of our study is verification bias. We will only have follow-up documentation available of patients who were sent to secondary care for further evaluation. In order words, we only have partial verification, where only those triaged to secondary care (either immediately due to telephone triage or indirectly after PCP evaluation) will receive complete evaluation for rule out of major events. The magnitude of verification bias depends on the number of cases referred. We try to minimize this effect by having an extended follow-up, to allow for delayed-type/missed events to be captured. The use of extended follow-up using routine medical care data also introduces information bias, of which loss to follow-up is one of importance. Another form of bias that may play is confusion bias. With this form of bias, other (temporal) factors that are related to the ultimate outcome (i.e., age or sex), but not related to (or known at time of) triage, can modulate the effects of triage. Also, we run the potential for data manipulation errors, as the follow-up data of some practices (with <20 participants) will be entered by the PCPs themselves, instead of by our research team. Lastly, while the findings of our study may be reflective of a Dutch urgent primary care setting, it is uncertain how these findings extrapolate to countries with health care systems where primary care plays a less prominent role in urgent care.

Conclusion

TRACE is designed to evaluate telephone triage of patients presenting with chest pain in out-of-hours primary care. The study will focus on various aspects of telephone triage, including symptom presentation, triage decision-making, and triage performance. The main goal will be to provide insight in our current triage decisions and to create recommendations to enhance the safety and efficacy.

Acknowledgments

We thank the HONK organization and affiliated PCPs for their general cooperation and for providing access to patient information. We want to personally thank Mrs. Sylvia de Graaf, our research nurse, for her coordinating role in this study.

Authors’ Contribution

R.E.H., W.A.M.L. and H.C.P.M.vW. devised the project and the main conceptual ideas. Additionally, C.J.J.C, J.C.L.H, E.G., F.G. and A.M. contributed to the rationale, design and implementation of the research. R.R. and S.V. provided input on the cooperation with the HONK organization and affiliated PCPs. A.M. and C.J.J.C took the lead in writing the manuscript. All authors provided critical feedback and helped shape the research and manuscript.

Financial support

Funding for the TRACE study was provided by a grant from the Amsterdam Cardiovascular Sciences Research Institute and internal funding from the department of general practice of the Amsterdam UMC – AMC, The Netherlands.

Conflicts of interest

None.

Ethical standards

The TRACE study was exempted from full evaluation by the medical ethics committee of the Amsterdam University Medical Centers, location AMC given the observational nature of the study. We reached out to data protection specialists and legal support how to best handle data protection and privacy of the individuals in the study.

Footnotes

*

These authors are shared first authors.

References

Aerts, M, Minalu, G, Bösner, S, Buntinx, F, Burnand, B, Haasenritter, J, Herzig, L, Knottnerus, JA, Nilsson, S, Renier, W, Sox, C, Sox, H and Donner-Banzhoff, N (2017). Pooled individual patient data from five countries were used to derive a clinical prediction rule for coronary artery disease in primary care. Journal of Clinical Epidemiology 81, 120128.10.1016/j.jclinepi.2016.09.011CrossRefGoogle ScholarPubMed
Ambulancezorg Nederland (2017). Inzicht in de toename van het aantal ambulance-inzetten.Google Scholar
Bösner, S, Becker, A, Haasenritter, J, Abu Hani, M, Keller, H, Sonnichsen, AC, Karatolios, K, Schaefer, JR, Seitz, G, Baum, E and Donner-Banzhoff, N (2009). Chest pain in primary care: epidemiology and pre-work-up probabilities. European Journal of General Practice 15, 141146.10.3109/13814780903329528CrossRefGoogle ScholarPubMed
Bösner, S, Haasenritter, J, Becker, A, Karatolios, K, Vaucher, P, Gencer, B, Herzig, L, Heinzel-Gutenbrunner, M, Schaefer, JR, Abu Hani, M, Keller, H, Sonnichsen, AC, Baum, E and Donner-Banzhoff, N (2010). Ruling out coronary artery disease in primary care: development and validation of a simple prediction rule. CMAJ 182, 12951300.10.1503/cmaj.100212CrossRefGoogle ScholarPubMed
CENTRAAL BUREAU VOOR DE STATISTIEK (2013). Ethniciteit per gemeente.Google Scholar
Ciwit, BV (2016). Castor electronic data capture. Amsterdam, the Netherlands.Google Scholar
Deakin, CD (2006). Does telephone triage of emergency (999) calls using advanced medical priority dispatch (AMPDS) with Department of Health (DH) call prioritisation effectively identify patients with an acute coronary syndrome? An audit of 42 657 emergency calls to Hampshire Ambulance Service NHS Trust. Emergency Medicine Journal 23, 232235.10.1136/emj.2004.022962CrossRefGoogle ScholarPubMed
Domus Medica (2014). Nederlandse Triage Standaard.Google Scholar
Erkelens, DC, Wouters, LT, Zwart, DL, Damoiseaux, RA, De Groot, E, Hoes, AW and Rutten, FH (2019). Optimisation of telephone triage of callers with symptoms suggestive of acute cardiovascular disease in out-of-hours primary care: observational design of the Safety First study. BMJ Open 9, e027477.10.1136/bmjopen-2018-027477CrossRefGoogle ScholarPubMed
Frese, T, Mahlmeister, J, Heitzer, M and Sandholzer, H (2016). Chest pain in general practice: Frequency, management, and results of encounter. Journal of Family Medicine and Primary Care 5, 6166.10.4103/2249-4863.184625CrossRefGoogle Scholar
Giesen, P, Ferwerda, R, Tijssen, R, Mokkink, H, Drijver, R, Van Den Bosch, W and Grol, R (2007). Safety of telephone triage in general practitioner cooperatives: do triage nurses correctly estimate urgency? Quality and Safety in Health Care 16, 181184.10.1136/qshc.2006.018846CrossRefGoogle ScholarPubMed
Haasenritter, J, Biroga, T, Keunecke, C, Becker, A, Donner-Banzhoff, N, Dornieden, K, Stadje, R, Viniol, A and Bosner, S (2015). Causes of chest pain in primary care--a systematic review and meta-analysis. Croatian Medical Journal 56, 422430.10.3325/cmj.2015.56.422CrossRefGoogle ScholarPubMed
Harskamp, R, Van Peet, P, Bont, J, Ligthart, S, Lucassen, W and Van Weert, H (2018). The conundrum of acute chest pain in general practice: a nationwide survey in The Netherlands. BJGP Open 2, bjgpopen18X101619.CrossRefGoogle ScholarPubMed
Hoorweg, BB, Willemsen, RT, Cleef, LE, Boogaerts, T, Buntinx, F, Glatz, JF and Dinant, GJ (2017). Frequency of chest pain in primary care, diagnostic tests performed and final diagnoses. Heart 103, 17271732.10.1136/heartjnl-2016-310905CrossRefGoogle ScholarPubMed
Keizer, E, Maassen, I, Smits, M and Giesen, P (2014). Verminderen van zorgconsumptie op huisartsenposten. Huisarts & Wetenschap 57, 510514.10.1007/s12445-014-0263-yCrossRefGoogle Scholar
Leite, L, Baptista, R, Leitao, J, Cochicho, J, Breda, F, Elvas, L, Fonseca, I, Carvalho, A and Costa, JN (2015). Chest pain in the emergency department: risk stratification with Manchester triage system and HEART score. BMC Cardiovasc Disord 15, 48.10.1186/s12872-015-0049-6CrossRefGoogle ScholarPubMed
Mcconaghy, JR and Oza, RS (2013). Outpatient Diagnosis of Acute Chest Pain in Adults. American Family Physician 87, 177182.Google ScholarPubMed
Nilsson, S, Scheike, M, Engblom, D, Karlsson, LG, Mölstad, S, Akerlind, I, Örtoft, K and Nylander, E (2003). Chest pain and ischaemic heart disease in primary care. British Journal of General Practice 53, 378382.Google ScholarPubMed
Ruigomez, A, Rodriguez, LA, Wallander, MA, Johansson, S and Jones, R (2006). Chest pain in general practice: incidence, comorbidity and mortality. Family Practice 23, 167174.10.1093/fampra/cmi124CrossRefGoogle ScholarPubMed
Smits, M, Rutten, M, Keizer, E, Wensing, M, Westert, G and Giesen, P (2017). The Development and Performance of After-Hours Primary Care in the Netherlands: A Narrative Review. Annals of Internal Medicine 166, 737742.10.7326/M16-2776CrossRefGoogle ScholarPubMed
Smits, M and Verheij, R (2017). Veranderingen in de urgentie van contacten met de huisartsenpost 2013-2016. Nivel Rapport, September 2017, 118.Google Scholar
Svavarsdóttir, AE, Jónasson, MR, Gudmudsson, GH and Fjeldsted, K (1996). Chest pain in family practice. Canadian Family Physician 42, 11221128.Google ScholarPubMed
Van Den Berg, P and Body, R (2017). The HEART score for early rule out of acute coronary syndromes in the emergency department: a systematic review and meta-analysis. European Heart Journal: Acute Cardiovascular Care 7, 111119.Google ScholarPubMed
Van Ierland, Y, Van Veen, M, Huibers, L, Giesen, P and Moll, HA (2011). Validity of telephone and physical triage in emergency care: the Netherlands Triage System. Family Practice 28, 334341.10.1093/fampra/cmq097CrossRefGoogle ScholarPubMed
Verdon, F, Herzig, L, Burnand, B, Bischoff, T, Pécoud, A, Junod, M, Mühlemann, N and Favrat, B (2008). Chest pain in daily practice: occurrence, causes and management. Swiss Medical Weekly 138, 340347.Google ScholarPubMed
Von Elm, E, Altman, DG, Egger, M, Pocock, SJ, Gotzsche, PC, Vandenbroucke, JP and Initiative, S (2007). The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement: guidelines for reporting observational studies. Lancet 370, 14531457.10.1016/S0140-6736(07)61602-XCrossRefGoogle ScholarPubMed
Zeilstra, R and Giesen, P (2017). Pijn op de borst: huisarts of ambulance? Huisarts & Wetenschap 60.10.1007/s12445-017-0314-2CrossRefGoogle Scholar
Figure 0

Figure 1. The prevalence of chest pain and the occurrence of coronary artery disease.

The blue charts show the prevalence of chest pain among patients in primary care for each study. The occurrence of coronary artery disease among patients presenting with chest pain is illustrated by the red charts.
Figure 1

Figure 2. Regional coverage of the HONK network.

The regional coverage of the HONK network in the province of Noord-Holland, north of Amsterdam. Each pin on the map represents an affiliated primary care practice.
Figure 2

Figure 3. Flowchart of telephone triage and actions after triage.

This figure depicts the actions that can be taken after telephone triage of chest pain.
Figure 3

Table 1. Urgency classification according to NTS

Figure 4

Table 2. Distribution of major and non-major events