All methods were carried out in accordance with relevant guidelines and regulations. The protocol of this systematic review followed the PRISMA-P (Preferred Reporting Items for Systematic Review and Meta-Analysis Protocols) guidelines (19) and was registered in the PROSPERO database¹ (CRD42022319488). There were no changes or departures from the protocol when performing the review. The PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyzes) guidelines (20) and the JBI Manual for Evidence Synthesis (21) were used to report and conduct the method of this systematic review. Data were not collected from human participants for this systematic review. Ethical considerations of the primary studies included in this systematic review are presented in the results section.

This systematic review aimed to answer the guiding question, designed according to the PICO acronym (Population, Intervention, Comparator, and Outcome): For the treatment of COPD patients (P), is home care (I) more cost-effective (O) than hospital care (C)?

Inclusion criteria

Exclusion criteria

Electronic searches were performed up to February 2022 in the Embase, LILACS, MedLine (via PubMed), SciELO, Scopus, and Web of Science databases. Dedicated databases for economic studies–NHS Economic Evaluation Database (NHS EED) and Cost-Effectiveness (CEA) Registry–were also used. The DansEasy and ProQuest databases were searched to partially capture the “gray literature” and reduce the risk of publication bias. A search update was performed between February 2022 and August 2024. There were no restrictions on language or year of publication. The MeSH (Medical Subject Headings), DeCS (Health Sciences Descriptors), and Emtree (Embase Subject Headings) resources were used to select the search descriptors accordingly. Moreover, synonyms and free words composed the search. The Boolean operators “AND” and “OR” were used to improve the research strategy with several combinations. The search strategies in each database were made according to their respective syntax rules (Table 1). The results obtained in the primary databases were initially exported to the EndNote Web™ software (Thomson Reuters, Toronto, Canada) for cataloging and removing duplicates. The “gray literature” results were exported to Microsoft Word (Microsoft™, Ltd, Washington, USA) for excluding duplicates manually.

After removing duplicates, the results were exported to Rayyan QCRI software (Qatar Computing Research Institute, Doha, Qatar) (22). Study titles were methodically analyzed (first phase) and those unrelated to the topic excluded. In the second phase, the abstracts of the studies were assessed with the initial application of the eligibility criteria. Titles that met the study objectives but without available abstracts were fully analyzed in the next phase. Subsequently, the eligible studies had their texts fully read to verify whether they met the eligibility criteria. If the full texts were not found, a bibliographic request was performed to the library database (COMUT), and an e-mail was sent to the corresponding authors to obtain the articles. Full texts published in languages other than English or Portuguese were translated to allow the application of the eligibility criteria. Two reviewers (MTCV and GHB), after previous calibration (Kappa = 0.87), independently performed all phases, and in case of doubt or disagreement, a third reviewer (LRP) was consulted to make a final decision.

Before data extraction, to ensure consistency between the reviewers (MTCV and GHB), they performed a calibration exercise in which the data from one eligible study were extracted jointly. A third reviewer (LRP) conducted the calibration phase. Next, the full texts of the selected studies were reviewed, and the data were systematically extracted, including information on study identification (author, year, country, and location), sample characteristics (the number of participants included in each analysis group), collection and processing characteristics (description of home and hospital care methodologies, currency, and effectiveness variable), and main findings (specific costs from each group and effectiveness quantification). In case of incomplete or insufficient information, the corresponding author was contacted via e-mail.

An author (MTCV) extracted all the previous data and a second reviewer (GHB) performed a cross-examination to confirm the agreement among the extracted data. Any disagreement between the reviewers was solved by discussing it with a third reviewer (LRP).

Two authors (WAV and MTCV) independently assessed the risk of individual bias of the eligible studies with the JBI Critical Appraisal Tools for use in the JBI Critical Appraisal Checklist for Economic Evaluations (23). Each question could be answered as follows: “Yes” if the study did not have biases for the domain assessed in the question, “No” if the study had biases for the domain assessed in the question, “Uncertain” if the study did not provide sufficient information to assess the question biases, or “Not Applicable” if the question did not fit in the study. A third reviewer (LRP) was consulted in case of divergences between the evaluators.

Considering the high heterogeneity of outcomes, measurement periods and methods, and health settings, the collected data were organized and described in a structured narrative synthesis according to the findings from each eligible study.

In the first phase of study selection, 7,279 results were found distributed in ten electronic databases, including the economy-specific and “gray-literature” ones. After removing duplicates, 6,286 results remained for analysis. A careful reading of the titles excluded 5,459 results. Seven hundred and sixty-nine studies remained for abstract reading. Of these, 402 studies were excluded after applying the eligibility criteria, and 22 were not located even after applying different means of locating bibliographic records. The remaining 138 articles were fully read, of which 124 were excluded (Supplementary Appendix 1). Fourteen studies (8, 9, 11, 12, 18, 24–32) were included in the qualitative synthesis. Figure 1 displays the details of the search, identification, inclusion, and exclusion of studies.

The studies were published between 1988 and 2021 and performed in nine countries, with nine studies in Europe (8, 12, 18, 25, 27–29, 31, 32), two in Asia (9, 11), two in America (24, 30) and one in Oceania (26). Six studies (8, 12, 24, 30–32) did not mention to follow ethical criteria to conduct the research.

The total sample included 1,565 individuals with COPD subjected to home care and 7,932 under hospital care. Among the studies that reported the mean age of their sample, there was a variation between 63.6 (32) and 84.0 (29) years for the home care group and a variation between 61.2 (11) and 83.4 (30) years for the hospital care group. Regarding sex, there was a predominance of males (60.1 and 64.2%) among the studies that reported the sex of the participants for the home care and hospital care groups, respectively. Regarding the disease stage of the patients followed up through home care, six studies (12, 18, 26–28, 32) assessed patients in disease exacerbation (acute phase) and the remaining eight (8, 9, 11, 24, 25, 29–31) did not identify the disease stage and only informed it was a follow-up. The initial forced expiratory volume of the patients included in the studies ranged between 33.3 and 43% for patients under home care and 32.2 and 47% for those under hospital care. The application of both care options, such as follow-up time and the professional in charge and the tele-assistance technologies available to patients to contact the follow-up staff varied among studies (Table 2).

As for cost analysis, the currencies used in the studies were US dollar (24, 26, 28, 30), euro (8, 11, 12, 27, 29, 32), sterling pound (18, 25), and Israeli shekel (9). Moreover, different economic evaluation perspectives were addressed, between them societal perspective (12, 24, 25, 32), patient perspective (18, 25, 28), healthcare and services perspective (9, 11, 12, 26, 29–31), public insurer perspective (27), and sickness fund perspective (8).

Regarding the effectiveness analysis, the following factors composed the indicators: hospital readmission rates, exacerbation rates, the number of visits to the hospital emergency sector, and the number of deaths. One study (11) assessed home care follow-up related to respiratory exercises. In that case, effectiveness was analyzed with body mass and exercise indices and airflow obstruction and dyspnea rates.

Only one study (8) presented positive answers to all tool items. Question 4 (Has clinical effectiveness been established?) received only five positive responses because most eligible studies did not specify clinical efficacy or the origin of efficacy estimation. That might increase the risk of bias because there was no confirmation of a solid evidence base supporting the assumptions about the direction and magnitude of the efficacy measurement. Question 5 (Are costs and outcomes measured accurately?) received six unclear answers, indicating that cost and outcome measurement precision was incorrectly reported. Questions 9 (Were sensitivity analyses conducted to investigate uncertainty in estimates of cost or consequences?) and 11 (Are the results generalizable to the setting of interest in the review?) received only three positive answers because numerous studies did not perform a sensitivity analysis to investigate the uncertainty in cost estimates and did not obtain results generalizable to other environments, respectively. Figure 2 provides detailed information on the risk of bias in the eligible studies.

Only one study (25) reported the discount rate percentage, and two others (8, 28) informed applying the discount but not the rate. Total costs varied, and this variation referred to the type and services included in the provided home care. Home care costs were lower in the follow-up cases of patients with COPD exacerbation, which is the acute phase of the condition (12, 18, 26–28, 32). For investigations that did not specify the COPD phase, costs were also lower for home care, except for the study by Bergner et al. (24), which showed charges of 8,085 dollars for standard home care and 9,767 dollars for specialized home care for respiratory diseases, while hospital care cost 5,051 dollars (Figure 3). Only five studies (8, 11, 12, 18, 27) calculated incremental costs. Table 3 shows the cost analysis information of the included studies.

Among the few studies that reported indicators to assess effectiveness, the following were applied: QALY (quality-adjusted life years) (12) and YLL (years of life lost) (8) (Table 4). The readmission rate in the emergency sector was lower for patients followed up at home (28, 30). Finally, three studies (8, 12, 25) performed sensitivity analyses, ranging from two to six analysis scenarios.