Introduction

Globally, healthcare systems are seeking cost-effective strategies for delivering sustainable care for populations with an increasing burden of long-term conditions.1 Key policies include shifting care into the community,2,3 promoting self-care,46 and seeking technological solutions.7,8

The theoretical model developed by Glasziou et al. describes the complementary and evolving roles of periodic professional reviews and ongoing patient self-monitoring.9 The context for tele-monitoring is the maintenance phase where patients are monitoring a relatively stable situation and may need to act (either by initiating treatment or seeking professional advice) if measurements fall outside predefined limits. Tele-monitoring operates at the boundary between self-care and professional care,10 providing professional support for self-monitoring and facilitating timely communication (Figure 1).

Figure 1
figure 1

The chronic disease management pyramid showing the boundary between professional and self-care (reproduced with permission from Kielmann et al.10)

Despite the theoretical benefits of tele-monitoring systems, their effectiveness in improving outcomes for people with chronic obstructive pulmonary disease (COPD) has not yet been established.11 Small-scale pilot studies and service evaluations have demonstrated promising reductions in hospitalisations,12,13 but suggest that the impact of tele-monitoring is influenced by the clinical context in which it is implemented.14 Evaluating the clinical and cost-effectiveness of tele-monitoring systems for COPD has been identified as a research priority internationally,15 which the TELESCOT Programme aims to address within the UK.16

The TELESCOT COPD tele-monitoring service (Figure 2)

Figure 2
figure 2

The COPD tele-monitoring system

Patients used a touch-screen computer (Intel Corporation, Santa Clara, California, USA) to record a validated daily symptom score comprising questions which may suggest the onset of an exacerbation (Table 1)17 — for example, “I am more breathless than usual” or “My sputum has increased in amount”. Physiological measurements including oxygen saturation and forced expiratory volume in 1s (FEV1) were taken with Bluetooth-linked monitoring devices. Data were transmitted via a dedicated broadband link to a call centre (West Lothian Community Alarm Services) manned by trained support staff who contacted the patient or their primary care practice according to an algorithm based on the questionnaire responses, or if no data were submitted (Figure 3). Patients were provided with an action plan and an emergency supply of antibiotics and steroids which they were encouraged to commence as soon as an exacerbation was recognised. Clinical care was provided by their usual primary care practice and the out-of-hours service at weekends.

Table 1 The daily symptom questionnaire16
Figure 3
figure 3

NHS Lothian Telehealth Project Call Centre algorithm

The TELESCOT Programme

Set within the Medical Research Council Framework for the design and evaluation of complex interventions,18 the TELESCOT Programme is undertaking a multifaceted evaluation of a COPD tele-monitoring service provided by NHS Lothian, Scotland (http://www.telescot.org). We here report the results of a pilot study which aimed to inform the implementation of the service and the design of our proposed randomised controlled trial (RCT).19 Our specific objectives were to assess the acceptability of the system to patients and clinicians, the feasibility of the service provision, and an estimation of the potential impact on clinical outcomes.

Methods

The study took place in 2008 and included both qualitative and quantitative assessments. Ethics approval was obtained from the Lothian LREC 4 (07/S1104/45) and governance approval was obtained from NHS Lothian (2008/P/GP/04).

Patient recruitment

NHS Lothian deployed 27 tele-monitoring systems in the homes of patients selected as having moderate/severe COPD and at risk of a hospital admission from four participating practices situated in relatively deprived areas of Lothian (in keeping with the recognised demographic of COPD). The only exclusion criterion was moderate/severe dementia. Patients were invited by letter from their GP to participate in the qualitative interviews and to allow collection of data from their primary care records.

Qualitative data collection

Interviews, focus groups, and ethnographic observations were conducted by JU, an experienced qualitative researcher, with input from GK and AT.

a) Patient interviews

Patients were invited to provide two face-to-face semi-structured interviews, one before the equipment was installed to capture expectations and concerns about tele-monitoring, and a second interview after at least 2 months' experience of the service (see Appendix 1, available at www.thepcrj.org, for the topic guide). Interviews were conducted in the patients' homes, jointly with the carer as appropriate, and typically lasted around half an hour.

b) Professional interviews and focus groups

We used the complementary techniques of semi-structured interviews and focus groups to explore the perceptions of healthcare professionals and managers involved in the implementation of the tele-monitoring service or in providing clinical support for patients. We aimed to recruit a maximum variation sample encompassing people from a range of ages and both genders with varying views on tele-health. The interviews, which lasted approximately 30 minutes (face-to-face or by telephone according to the participants' preference), were undertaken at different time points in the set-up of the service and explored perceptions of the technology and service provision and the perceived barriers/facilitators to implementation. A 1-hr focus group of local community nurse managers involved in the implementation was held. All interviews and focus groups were audio-recorded with consent and transcribed verbatim.

c) Ethnographic observations

To provide context, the researchers (JU and AT) observed the installation process and utilisation of the equipment in a sample of households selected to ensure a range of age, gender, severity of COPD, and social circumstance (e.g. availability of a carer). Field notes focused on the practicalities of use in the home and of any difficulties associated with location and usage. Two planning meetings of clinical staff including nurse managers, community nurses and physiotherapists, were also observed and audio-recorded.

Quantitative data collection

Participating patients were visited by a research nurse who took informed consent, collected demographic details, and undertook a baseline assessment including the outcome measures that we planned to use in the RCT.19 All measures were repeated at the end of the 6-month pilot. The research nurse collected data about respiratory health service utilisation including primary care consultations, outpatient visits, admissions, and all drugs prescribed for COPD during the pilot period and for the corresponding six months in the previous year (in order to minimise seasonal effects).

Data handling and analysis

The qualitative data were entered into NVivo 7. Coding of all recordings and field notes was carried out and iteratively refined using paired analysis of transcripts by three researchers (JU, GK and AT) and in collaboration with the wider group to generate a table of themes and sub-themes with the associated text segments (see Appendix 2, available at www.thepcrj.org, for coding framework). Concurrent data analysis allowed emergent themes to be incorporated into the topic guide and explored in subsequent interviews and observations. Data generation continued until saturation was achieved. Deviant cases and possible conflicting interpretations were actively sought. We used the field notes from the ethnographic observations to add context to the process of installation and use within the home environment. We remained aware throughout that qualitative research is a reflexive process, and used the regular multidisciplinary team discussions to ensure a balanced interpretation of the data.20

In order not to over-interpret the very small quantitative dataset from this pilot work, we have limited our presentation of data to graphical representation of the use of healthcare resources.

Results

Participants

Twenty-seven people from four general practices took part in the NHS Lothian pilot, all of whom agreed to provide data on their use of healthcare resources. The characteristics of the 27 patients in the pilot study and the 20 patients and 25 clinicians and managers who consented to participate in interviews or focus group discussions are given in Table 2. Installation was observed in three households and nine patients allowed observation of their use of the equipment.

Table 2 Characteristics of the participants

Overview of the qualitative data

Despite some irritations with the technology, patients were generally very positive about the tele-monitoring service, highlighting earlier recognition of exacerbations, facilitation of access to professional advice, and the reassurance of being monitored as important benefits. Clinicians also felt that overall the service improved care, although they raised concerns about possible over-treatment of exacerbations, were aware of the increased workload, and expressed considerable frustration with aspects of the technology.

Reducing delays in accessing care for exacerbations

Patients consistently expressed anxieties about managing exacerbations, describing the difficulty of recognising the onset of an exacerbation, delays as they considered whether to seek professional advice, and the practical barriers to accessing professional care. Tele-monitoring was almost universally considered by both patients and their carers as helping to address these problems. The technology was perceived as being able to detect the early signs of an exacerbation (even before the patient realised he/she was ill) and, by providing a tangible symptom score, both validated the decision to seek help and ensured a prompt appointment.

“You'd think you would find it easy to tell when you're ill but it's only afterwards that you know you are not well. But this technology is really brilliant.” [Female patient, 66 yrs, post-installation]

“I don't worry about him the same as I used to. It's all taken care of before it can get to that level. That machine can tell [him] he's ill even before he kens [knows] it himself.” [Wife of patient, 75 yrs, post-installation]

“I think the machine does help you acknowledge that there's something. Whereas before you just say ‘Och…’ You just go into denial. It gives you something concrete.” [Carer of a male patient, 67 yrs, post-installation]

“From that point of view, the machine's a great asset. It would throw up to somebody right away that you need attention. You're not getting blocked off by a receptionist.” [Female patient, 69 yrs, pre-installation]

Completing the symptom scores was not always intuitive for patients who were constantly symptomatic. The questions asked if breathlessness or cough had increased, but some patients found it difficult to set a standard against which to benchmark their symptoms.

“It asks ‘Is it higher than normal?’ I don't know what the normal's supposed to be. So I don't know what … Sometimes it's not all black and white.” [Male patient, 69 yrs, post-installation]

Some patients appreciated the possibility of a remote consultation informed by the tele-monitoring data, thus avoiding the need to travel to the surgery.

“You know if something was wrong I'd get a phone call from the surgery … they'd write a prescription and I'd get it sent to the chemist and then I'd get it delivered direct. Because if I'm unwell that's one thing I have to face is that long walk to ‘the surgery’, because there's no bus direct from here and, you know, when I'm unwell” [Female patient, 66 yrs, post-installation]

Interpreting the incoming data

In general the professionals' perception of benefits outweighed the initial rearrangement of work practices to accommodate the monitoring. Healthcare professionals were cognisant of the responsibility to ensure timely and competent monitoring of the incoming information.

… there have to be good procedures in place for making sure that the information goes to whoever needs it … without that you can have all the technology you like but it's not going to be useful.” [Nurse Manager 1]

In contrast to the patients' perception of the advantages of having a score to inform objective decision-making, clinicians recognised the limitations of a standardised threshold and described the importance of interpreting the scores in context. Workload had increased as telephone calls or, occasionally, visits were made to clarify the reality of the individual clinical situation when the score breached the threshold.

“I thought it would be more clear-cut. It didn't occur to me it would be so difficult to work to a standard baseline. It's a lot more complex than I thought it was going to be.” [GP 1]

“There's one lady that says ‘No’ ‘on the questionnaire’ every day. But she's probably the worst patient on it. Her chest is terrible. I know she'll be struggling but she answers ‘No’. She says ‘I don't like to bother anyone’.” [Practice Nurse 1]

Recognising exacerbations or over-treatment?

In keeping with the patients' assessment that the tele-monitoring was sensitive to changes in their condition, clinicians initially assumed that the marked increase in prescriptions for antibiotics and steroids reflected improved recognition of exacerbations, although the possibility that the threshold for triggering an alert may have been set too low was raised. Later, the risks and benefits of what was perceived as a substantial increase in prescribing became a concern.

“But quite what effect all these antibiotics are going to have at the end of the line is a different story. It may be good if it keeps them out of hospital or if it makes them feel better generally, but I think … these drugs are not without side effects.” [GP 1]

Physiological measures were available to the clinicians, although their interpretation was not clear. Although oximetry was perceived as useful, lung function was considered to be unreliable and/or uninformative.

Empowering self-care or increasing dependence?

There was an over-riding sense from patients and carers that the tele-monitoring system ‘watched over’ and ‘looked after’ them. Although some patients seemed to be describing an abrogation of personal responsibility as the technology could take over the decision about whether action was needed, most perceived that having access to readings and emergency supplies of antibiotics at home gave them confidence to respond to deteriorating symptoms themselves.

“In a way it was a relief thinking that I should ignore my own thoughts on getting a doctor or something like that. This organisation was going to get hold of a doctor if their readings showed I needed a doctor.” [Female patient, 47 yrs, post-installation]

“It would be useful because if it happens at the weekends you're at the behest of NHS24 ‘a 24hour NHS telephone helpline’ which is all very well, but they don't know the individual patients. If we had antibiotics or steroids, we could start them and then see on the Monday morning, you know, to assess what we had.” [Carer for female patient, 87 yrs, post-installation]

One patient's experience flagged a potential risk as he assumed that the technology would monitor his heart condition as well as the COPD, and consequently delayed seeking help for his cardiac problem.

“You would have thought that they could have picked it up. With people of my age you would have thought that was one of the things they would have been looking for, you know, if someone has a low pulse rate.” [Male patient, 78 yrs, post-installation]

Usability and reliability of technology

At the observation visits it was noted that the equipment generally integrated well into the home environment, although the size and background noise of the computer fan caused some problems in smaller more crowded living conditions. Most users quickly became familiar with the technology and found it easy to use. One particular worry was that the system failed to confirm that data had been transmitted, leaving patients uncertain whether the monitoring had been successful. None of the patients were concerned about confidentiality — if anything, they were worried that their data may not be shared widely enough.

Technical failures were a recurring concern, often the consequence of battery failure in one of the peripherals. A single responsive point of access to support was seen as important in ensuring issues were dealt with promptly. One patient withdrew as a result of a series of technical hitches which were not addressed quickly enough.

The design of the clinician interface was perceived as constraining rather than enhancing the task of monitoring, as it took little account of clinical requirements or the limited time available for monitoring.

“I want to be able to see the information for … my 20 patients and be able to glance at it and not … I mean to look at one person's results must be — what eight different screens?” [GP2]

Use of healthcare resources

Figures 4,5,6 illustrate the use of healthcare resources at the two time points. Despite the small sample size, there was a marked and significant increase in prescribing for acute exacerbations (antibiotics, oral steroids, and nebulised medication) and a highly significant increase in primary care consultations (particularly telephone consultations). The data relating to secondary care usage were strongly skewed by one very long COPD admission (62 days) complicated by a stroke.

Figure 4
figure 4

Number of emergency prescriptions issued during the pilot study (2008) and to the same patients in the same 6- month period in 2007

Figure 5
figure 5

Number of primary care consultations for COPD during the pilot study (2008) and in the same 6-month period in 2007

Figure 6
figure 6

Use of secondary care services for COPD during the pilot study (2008) and in the same 6-month period in 2007

Discussion

Summary of findings

Patients were generally very positive about the technology. They were reassured by the idea that the system could not only detect impending exacerbations but provide objective evidence they could use to confirm their decision to ‘bother’ their doctor and to overcome barriers to arranging a timely appointment. In contrast, clinicians balanced their perception of improved care with concerns about false positive symptom scores resulting in possible over-treatment, difficulties in interpreting physiological results, and an increased clinical workload.

The system proved feasible to implement, although highlighted the need for accessible technological support, and a number of practical suggestions were made for future iterations of the system. Workforce reorganisation to provide the necessary (trained) surveillance and clinical expertise was an issue for all the services involved — or intending to become involved — as the tele-monitoring became mainstream.

Limitations and strengths

This was a pilot study. The numbers are small and caution should be exercised in interpreting the before-and-after quantitative data. Although we collected use of healthcare resources for the same time period in the preceding year to reduce the impact of seasonal fluctuations, other confounding factors may have influenced the results. For similar reasons we are unable to comment on the important issue of cost-effectiveness of tele-monitoring for COPD.

The majority of the patients in the pilot participated in the qualitative evaluation and their characteristics were similar to those who declined interviews. The participating practices were likely to be positive about the benefits of technology, which may have influenced how they approached the task of monitoring and their perceptions of the advantages and disadvantages of the service.

Interpretation of findings in relation to previously published work

Our findings support the concept that tele-monitoring operates at the boundary between professional and self-care (see Figure 1),10 and introducing the tele-monitoring system impacted on all aspects of this model.

The core function of the technology is to support communication across the boundary, and patients generally felt that it facilitated access both in terms of negotiating a timely appointment with reception staff and also enabling remote consultations. At a technical level this generally operated well, although our pilot experience raised some important concerns (such as the lack of confirmation of data transmission and the unfriendly professional interface) which potentially compromised communication.

The difficulty that patients with COPD have in differentiating between the onset of an exacerbation and a self-limiting ‘bad day’ is well recognised,21,22 as are the practical barriers to achieving a timely appointment.23 The patients in our study described similar anxieties when deciding to ‘cross the boundary’ and seek professional help. The perception that the monitoring provided an objective measure which could distinguish those symptoms which needed clinical attention was thus widely welcomed by the patients and their carers, who felt it both allowed and enabled them to seek professional help. For professionals the situation was more complex. Aware that early treatment of exacerbations improves outcomes,17 clinicians initially welcomed the increased recognition of exacerbations, but realisation of a consequent increase in prescribing of steroids and antibiotics (reflected in our quantitative data) led to increasing concerns about over-treatment and side effects. Our ongoing RCT will quantify this observation and demonstrate whether the increased prescribing reduces hospitalisations for COPD and/or improves quality of life,19 but the concern about long-term risk/benefits of this strategy will require further research. The need for more clinical information to aid interpretation of the objective measures resulted in frequent telephone consultations to clarify the situation.

The importance of the underpinning clinical services on the effectiveness of tele-monitoring is well recognised,14 and the professionals whom we interviewed were actively discussing service reorganisation to support the roll-out of tele-monitoring throughout NHS Lothian. For a condition subject to unpredictable exacerbations, computer facilities and trained professional time have to be available on a daily basis. Whilst service models may vary, an important consideration is the advantage of the clinicians knowing the patient, their clinical background and ‘usual’ scores in order to interpret incoming monitoring data.

Concerns have been expressed that tele-monitoring might engender dependence rather than empower self-care,24 and statements such as “I've never felt so well looked after in my life” might be seen as reinforcing that interpretation. However, it was also clear that monitoring empowered patients to take responsibility by giving them objective information on which to base decisions about commencing emergency courses of steroids and antibiotics. Concerns have been expressed, however, that tele-health promotes compliance with clinical models of care rather than true collaborative self-management.25

Conclusions and implications

Introducing tele-monitoring for COPD has far-reaching implications for clinical care and service development. The system we piloted was perceived by patients as improving access to professional care, but highlighted the difficulty for clinicians of interpreting data without a clinical assessment and raised concerns about possible over-treatment. Whilst our ongoing RCT will provide information about the clinical effectiveness and cost-effectiveness of tele-monitoring in reducing admissions, questions will remain about how best to organise systems to support the technology.