. 2017 May 23;5(5):CD011425.

doi: 10.1002/14651858.CD011425.pub2.

Computer and mobile technology interventions for self-management in chronic obstructive pulmonary disease

Catherine McCabe¹, Margaret McCann¹, Anne Marie Brady¹

Affiliations

PMID: 28535331
PMCID: PMC6481891
DOI: 10.1002/14651858.CD011425.pub2

Computer and mobile technology interventions for self-management in chronic obstructive pulmonary disease

Catherine McCabe et al. Cochrane Database Syst Rev. 2017.

. 2017 May 23;5(5):CD011425.

doi: 10.1002/14651858.CD011425.pub2.

Authors

Catherine McCabe¹, Margaret McCann¹, Anne Marie Brady¹

Affiliation

¹ School of Nursing and Midwifery, Trinity College Dublin, Dublin, Ireland.

PMID: 28535331
PMCID: PMC6481891
DOI: 10.1002/14651858.CD011425.pub2

Abstract

Background: Chronic obstructive pulmonary disease (COPD) is characterised by airflow obstruction due to an abnormal inflammatory response of the lungs to noxious particles or gases, for example, cigarette smoke. The pattern of care for people with moderate to very severe COPD often involves regular lengthy hospital admissions, which result in high healthcare costs and an undesirable effect on quality of life. Research over the past decade has focused on innovative methods for developing enabling and assistive technologies that facilitate patient self-management.

Objectives: To evaluate the effectiveness of interventions delivered by computer and by mobile technology versus face-to-face or hard copy/digital documentary-delivered interventions, or both, in facilitating, supporting, and sustaining self-management among people with COPD.

Search methods: In November 2016, we searched the Cochrane Airways Group Specialised Register (CAGR), which contains trial reports identified through systematic searches of bibliographic databases including the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, Embase, CINAHL, AMED, and PsycINFO, and we handsearched respiratory journals and meeting abstracts.

Selection criteria: We included randomised controlled trials that measured effects of remote and Web 2.0-based interventions defined as technologies including personal computers (PCs) and applications (apps) for mobile technology, such as iPad, Android tablets, smart phones, and Skype, on behavioural change towards self-management of COPD. Comparator interventions included face-to-face and/or hard copy/digital documentary educational/self-management support.

Data collection and analysis: Two review authors (CMcC and MMcC) independently screened titles, abstracts, and full-text study reports for inclusion. Two review authors (CMcC and AMB) independently assessed study quality and extracted data. We expressed continuous data as mean differences (MDs) and standardised mean differences (SMDs) for studies using different outcome measurement scales.

Main results: We included in our review three studies (Moy 2015; Tabak 2013; Voncken-Brewster 2015) with a total of 1580 randomised participants. From Voncken-Brewster 2015, we included the subgroup of individuals with a diagnosis of COPD (284 participants) and excluded those at risk of COPD who had not received a diagnosis (1023 participants). As a result, the total population available for analysis included 557 participants; 319 received smart technology to support self-management and 238 received face-to-face verbal/written or digital information and education about self-management. The average age of participants was 64 years. We included more men than women because the sample from one of the studies consisted of war veterans, most of whom were men. These studies measured five of our nine defined outcomes. None of these studies included outcomes such as self-efficacy, cost-effectiveness, functional capacity, lung function, or anxiety and depression.All three studies included our primary outcome - health-related quality of life (HRQoL) as measured by the Clinical COPD Questionnaire (CCQ) or St George's Respiratory Questionnaire (SGRQ). One study reported our other primary outcomes - hospital admissions and acute exacerbations. Two studies included our secondary outcome of physical activity as measured by daily step counts. One study addressed smoking by providing a narrative analysis. Only one study reported adverse events and noted significant differences between groups, with 43 events noted in the intervention group and eight events in the control group (P = 0.001). For studies that measured outcomes at week four, month four, and month six, the effect of smart technology on self-management and subsequent HRQoL in terms of symptoms and health status was significantly better than when participants received face-to-face/digital and/or written support for self-management of COPD (SMD -0.22, 95% confidence interval (CI) -0.40 to -0.03; P = 0.02). The single study that reported HRQoL at 12 months described no significant between-group differences (MD 1.1, 95% CI -2.2 to 4.5; P = 0.50). Also, hospitalisations (logistic regression odds ratio (OR) 1.6, 95% CI 0.8 to 3.2; P = 0.19) and exacerbations (logistic regression OR 1.4, 95% CI 0.7 to 2.8; P = 0.33) did not differ between groups in the single study that reported these outcomes at 12 months. The activity level of people with COPD at week four, month four, and month six was significantly higher when smart technology was used than when face-to-face/digital and/or written support was provided (MD 864.06 daily steps between groups, 95% CI 369.66 to 1358.46; P = 0.0006). The only study that measured activity levels at 12 months reported no significant differences between groups (mean -108, 95% CI -720 to 505; P = 0.73). Participant engagement in this study was not sustained between four and 12 months. The only study that included smoking cessation found no significant treatment effect (OR 1.06, 95%CI 0.43 to 2.66; P = 0.895). Meta-analyses showed no significant heterogeneity between studies (Chi² = 0.39, P = 0.82; I² = 0% and Chi² = 0.01, P = 0.91; I² = 0%, respectively).

Authors' conclusions: Although our review suggests that interventions aimed at facilitating, supporting, and sustaining self-managment in people with COPD and delivered via smart technology significantly improved HRQoL and levels of activity up to six months compared with interventions given through face-to-face/digital and/or written support, no firm conclusions can be drawn. This improvement may not be sustained over a long duration. The only included study that measured outcomes up to 12 months highlighted the need to ensure sustained engagement with the technology over time. Limited evidence suggests that using computer and mobile technology for self-management for people with COPD is not harmful and may be more beneficial for some people than for others, for example, those with an interest in using technology may derive greater benefit.The evidence, provided by three studies at high risk of bias, is of poor quality and is insufficient for advising healthcare professionals, service providers, and members of the public with COPD about the health benefits of using smart technology as an effective means of supporting, encouraging, and sustaining self-management. Further research that focuses on outcomes relevant to different stages of COPD is needed. Researchers should provide clear information on how self-management is assessed and should include longitudinal measures that allow comment on behavioural change.

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Conflict of interest statement

Catherine McCabe and Anne‐Marie Brady received a commercialisation feasibility grant from Enterprise Ireland to conduct a market survey on the possibility of commercialisation of an assistive navigational software platform to enable self‐management in COPD. The marketing exercise was completed, and no plans are in place to develop this further. Catherine McCabe and Anne‐Marie Brady were members of a research team, funded by Intel Ireland Ltd and the Technology Research for Independent Living Centre, exploring the use of mobile and fixed technology to provide motivating educational material (videos for peer learning) to people living with chronic illnesses (e.g. COPD) to bring about behavioural change for sustained self‐management and improved quality of life. The funding supported a post‐doc researcher who produced several relevant short videos on topics that included exercise and social activity. This project was completed several years ago, and a related publication was produced at that time. See also Published notes.

Margaret McCann: none known.

Figures

2
Risk of bias summary: review authors' judgements about each risk of bias item for each included study.

3
Forest plot of comparison: 1 Smart technology versus face‐to‐face/digital and/or written support, outcome: 1.1 Health related quality of life (CCQ and SGRQ) up to six months.

4
Forest plot of comparison: 1 Smart technology versus face‐to‐face/digital and/or written support, outcome: 1.2 Health related quality of life (CCQ only) up to six months

5
Forest plot of comparison: 1 Smart technology versus face‐to‐face/digital and/or written support, outcome: 1.3 Daily step count up to four months.

6
Forest plot of comparison: 1 Smart technology versus face‐to‐face/digital and/or written support, outcome: 1.5 Daily step count sub group 2 (at 4 weeks).

**1.1. Analysis**
Comparison 1 Smart technology versus face‐to‐face/digital and/or written support, Outcome 1 Health‐related quality of life (CCQ and SGRQ) up to 6 months.

**1.2. Analysis**
Comparison 1 Smart technology versus face‐to‐face/digital and/or written support, Outcome 2 Health‐related quality of life (CCQ only) up to 6 months.

**1.3. Analysis**
Comparison 1 Smart technology versus face‐to‐face/digital and/or written support, Outcome 3 Daily step count up to 4 months.

**1.4. Analysis**
Comparison 1 Smart technology versus face‐to‐face/digital and/or written support, Outcome 4 Daily step count (all time points).

See this image and copyright information in PMC

Update of

doi: 10.1002/14651858.CD011425

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