Background
The negative impact of dementia has been widely studied: psychological, behavioral, and physical symptoms decrease the quality of life of both people with dementia and their family caregivers [
1,
2]. Since most people with dementia live at home with the help of a family caregiver for as long as possible, community-based interventions are much needed. As an alternative to pharmacological treatments with limited effectiveness and possible adverse effects [
3], systematic reviews have demonstrated the effectiveness of nonpharmacological or psychosocial treatments for behavioral and psychological symptoms in people with dementia [
4‐
7]. Psychosocial interventions that address both the person with dementia and their caregiver (so-called dyadic or combined interventions) have the potential to reduce the frequency and severity of behavioral and psychological symptoms of dementia as well as negative caregiver reactions [
7‐
12], especially when delivered individually at home using multiple components (multicomponent interventions).
Considering the potential of multicomponent dyadic interventions, we performed an exercise and support intervention study for people with dementia living at home and their caregivers that was primarily intended to reduce depressive symptoms. To investigate the effects of the multicomponent dyadic intervention study, a randomized controlled trial (RCT) was executed [
13]. This intervention was largely based on that of Teri and colleagues [
14], which showed beneficial effects for people with dementia in the USA. Time and money might be saved when an intervention program that has already been developed, piloted and evaluated on effectiveness in one country can be directly proven to be effective in the healthcare context of another country.
Complex interventions include several components and are thus subject to more variation making replication more difficult, in particular for this vulnerable target population with dementia. To interpret any outcomes, evaluating the feasibility of a complex intervention study is essential before execution of any quantitative outcome effect analyses. Such a process evaluation is needed for drawing the appropriate conclusions on the effectiveness of the intervention study. Therefore, process evaluations should be performed to the same high methodological and reporting standards as the clinical trial and its outcomes [
15]. However, many complex interventions are not evaluated to a standard and, when a process evaluation is present, the evaluation components differ from study to study. Possible causes are a lack of standardized measurement instruments for process evaluations and the fact that these evaluations may be time consuming and regarded to be of less interest than the effect analyses [
15]. In dementia studies especially, the burden on dementia people and their caregivers because of additional measurements may hamper a process evaluation. However, for complex interventions in this vulnerable target population with dementia, accurate insight into the process is very important and has to be accurately planned [
15].
There are different guides, frameworks and models available for performing a process evaluation [
15‐
18]. Although these models provide an extensive evaluation of the intervention, they do not include an evaluation of the study [
16,
18] or they do not describe in detail how to carry out a process evaluation [
17]. Both components are important in understanding the results of an effectiveness study [
19]. The model presented by Reelick and colleagues [
15] integrates both an evaluation of the intervention and the study, and is specifically designed for evaluating complex geriatric interventions, including a detailed process evaluation. The primary goal of the model presented by Reelick and colleagues is to create in-depth insight into the performed intervention and effect analysis, to prevent drawing inappropriate conclusions on the efficacy or effectiveness. Furthermore, it gives information on barriers and facilitators, and experiences from participants of this intervention study, resulting in recommendations for future studies or replications of complex geriatric interventions.
In this article, a process evaluation of this RCT intervention study is carried out according to the three questions formulated by Reelick and colleagues [
15]: 1) what is the quality of the success rate of recruitment and the quality of the study population; 2) what is the quality of execution of the intervention; and 3) what is the quality of the process of acquisition of the data?
Methods
Randomized controlled trial: population, randomization and blinding
For the RCT study both people with dementia living in the community and their family caregivers were included. Inclusion criteria for people with dementia were a diagnosis of dementia made by a physician (for instance, a general practitioner, psychiatrist, geriatrician or neurologist), a minimum age of 55 years, and living at home with a caregiver willing to participate in the home visits. For people with dementia who were interested in the study there was no requirement for permission from their physician to participate in this study. Exclusion criteria for people with dementia were use of antidepressants, presence of psychotic symptoms, mini-mental state examination (MMSE) score <14 and receiving more than 2 days of respite care in a day-care facility at the start of the intervention. Exclusion criteria for caregivers were physical disorders that hampered assistance with the exercises, presence of psychotic symptoms and use of antidepressants. Furthermore, caregivers needed to have at least some depressive symptoms (Centre for Epidemiologic Studies-Depression score >5) and enough understanding of the Dutch language to be included.
After initial assessment, a total of 111 people with dementia and their caregivers (dyads) living in the community were randomly allocated to the intervention group (n = 57) or to the comparison group receiving minimal intervention (n = 54). An independent researcher made the random allocation schedule (in blocks of 20 dyads), using Random Allocation Software, version 1.0 (M.
Saghaei, Isfahan University of Medical Sciences, Isfahan, Iran) [
20]. Self evidently, dyads and their intervention instruction coaches were aware of the treatment assigned. Although examiners were blinded to the group allocation and dyads were asked not to disclose their group allocation at the start of each measurement, group allocation became clear to examiners in practice.
Outcomes were measured three times: before intervention, after 3 months (post-intervention), and after 6 months (follow-up). For the intervention group only, there was a second follow-up measurement at 12 months. Primary outcome variables were physical health (people with dementia) and mood (people with dementia and caregivers). Secondary outcome measurements were directed at burden (caregivers) and behavior problems and cognition (people with dementia).
The study design has been extensively described elsewhere [
13].
Intervention
The intervention was largely based on an intervention of Teri and colleagues [
14], which showed beneficial effects for people with dementia. That intervention combined a physical exercise program (30 minutes of daily moderate-intensive exercise) for people with dementia and teaching caregivers how to manage behavioral problems (Activating events Beliefs Consequences (ABC) training) and to identify pleasant activities.
After a pilot study, using a translated version of the Teri intervention, we made changes to the intervention components and duration to adapt the intervention to the Dutch care situation. Because the evaluation of the pilot study showed that a proper execution of the intervention took more than 1 hour, we decided to concentrate on physical exercise, education and pleasant activities training and to drop the time-consuming ABC training. This choice was further motivated by the fact that cognitive reframing (based on the ABC theory) has already been shown to be effective [
21], whereas the effectiveness of physical exercise and pleasant activities training for people with dementia and their caregivers in the community is less well studied. In addition, we used elements of a Dutch exercise program for people with dementia and their caregivers designed by Dutch physiotherapists [
22]. To improve the attractiveness of the exercises for people with dementia, we used additional materials like a ball, weights and elastic bands, which we integrated with the original exercises. Furthermore, in contrast to the intervention of Teri, we taught caregivers not only to plan pleasant activities for people with dementia but also for caregivers themselves to reduce psychological distress. To the user manual, we added a list of pleasant activities ideas especially for caregivers to stimulate planning pleasant activities for themselves. The number of home visits was decreased to eight instead of the original 12 (in order to comply with Dutch health insurance regulations about the number of home visits typically reimbursed), and the frequency of home visits in the first month was decreased to one instead of two home visits per week. In the Netherlands, for people with dementia living in the community and interested in this intervention it is common to receive respite care in a day-care facility for 1 or more days. In our sample, most people with dementia received 2 days respite care in a day-care facility, so more than one session per week would have been too time consuming in the daily life of the dyads.
In the final adapted intervention, dyads allocated to the experimental group received an intervention consisting of two components: an exercise component and a support component (Table
1). Each aspect of the protocol was implemented with both the person with dementia and the caregiver present. The goal of the exercise component was to motivate dyads to complete 30 minutes of active exercise at least 3 days a week. In line with the intervention of Teri and colleagues [
14], four types of exercises were instructed and practiced: flexibility, strengthening, balance and endurance exercises. The exercises were introduced gradually, session-by-session by an individual coach. Alongside the instruction visits, all dyads received a user manual with pictures of the exercises and easy-to-read instructions. This manual also included session-specific worksheets with information and psycho-education for each visit. The support component, directed at both the person with dementia and the caregiver, included three elements: (a) psycho-education; (b) communication skills training; and (c) pleasant activities training. The goal of psycho-education was to educate the dyad about dementia (that is, its impact on the person with dementia and caregiver and how to deal with it). The communication skills training taught techniques for facilitating the dyad’s communication such as tips about tone of voice and speed. Pleasant activities training stimulated the inclusion of pleasant activities in daily life for both the person with dementia and the caregiver. Dyads were asked weekly to plan pleasant activities for both partners. A personal coach visited the dyads in their own homes for eight 1-hour home visits over 3 months. In the first month the dyads were visited weekly, followed by bi-weekly home visits over the next 8 weeks. The coaches were five MSc students of the Department of Clinical Psychology, VU University, who followed a special training program on geropsychology and extensive training to provide the present intervention. To ensure that all coaches followed the treatment protocol in the same way, all coaches were supervised by a psychologist during three visits, and three intermediate meetings were planned with all coaches under supervision of the psychologist.
Table 1
Summary description of total intervention: eight home visits including homework
Week 1 | |
|
Home visit 1
|
Acquaintance and explanation of the different components of the intervention by the coach. Introduction of first flexibility exercises |
• Physical exercise homework: complete 30 minutes of flexibility exercises on at least 3 days by both person with dementia and caregiver |
Week 2 | |
|
Home visit 2
|
Training communication skills. Psycho-education about specific behavior disturbances in dementia, such as depression, delusions, anxiety and agitation. Demonstration and practice of flexibility exercises. |
• Physical exercise homework: complete 30 minutes of flexibility exercises on at least 3 days by both person with dementia and caregiver |
Week 3 | |
|
Home visit 3
|
Introduction of pleasant activities training. Introduction and practice of first strength exercises. |
• Physical exercise homework: complete 30 minutes of flexibility and strengthening exercises on at least 3 days by both person with dementia and caregiver |
• Pleasant activities homework: plan 2 to 3 pleasant activities for person with dementia and monitor mood |
Weeks 4 and 5 | |
|
Home visit 4
|
Planning 2–3 pleasant activities for person with dementia in the next 2 weeks. Demonstration and practice of flexibility and strength exercises. |
• Physical exercise homework: complete 30 minutes of flexibility and strengthening exercises on at least 3 days a week by both person with dementia and caregiver |
• Pleasant activities homework: plan 3 pleasant activities for person with dementia and monitor mood |
Weeks 6 and 7 | |
|
Home visit 5
|
Psycho-education about coping strategies for caregiver. Introduction of balance exercises. |
• Physical exercise homework: complete 30 minutes of flexibility, strengthening and balance exercises on at least 3 days a week by both person with dementia and caregiver |
• Pleasant activities homework: plan 3 pleasant activities for person with dementia and monitor mood |
Weeks 8 and 9 | |
|
Home visit 6
|
Psycho-education about the importance of respite care for caregiver. Planning pleasant activities for caregiver. Introduction of endurance exercises. |
| • Physical exercise homework: complete 30 minutes of flexibility, strengthening, balance and endurance exercises at least 3 days a week by both person with dementia and caregiver |
| • Pleasant activities homework: plan 3 pleasant activities for caregiver and monitor mood |
Weeks 10 and 11 | |
|
Home visit 7
|
Psycho-education about dealing with stress reaction for caregiver. Teaching caregivers effective instructions to encourage exercises and to avoid problems. |
• Physical exercise homework: repeat and continue learned flexibility, strengthening, balance and endurance exercises for 30 minutes on at least 3 days a week by both person with dementia and caregiver |
• Pleasant activities homework: plan 3 pleasant activities for both partners and monitor mood |
Week 12 | |
|
Home visit 8
|
Special attention is paid to maintain exercise training and pleasant activities training in future. |
• Physical exercise homework: repeat and continue learned flexibility, strengthening, balance and endurance exercises for 30 minutes on at least 3 days a week by both person with dementia and caregiver |
• Pleasant activities homework: plan 3 pleasant activities for both partners and monitor mood |
Comparison group with minimal intervention
Besides the usual care, dyads allocated to the comparison group received a minimal intervention. This minimal intervention consisted of information bulletins with general information such as car driving and technology support. Every month, these dyads received one bulletin (three in total) and a phone call by one the coaches (three in total). The goal of these 10-minute phone calls were to listen to the caregiver and show empathy.
Process evaluation design
We structured and evaluated our process evaluation of the RCT study and the intervention according to the framework presented by Reelick and colleagues [
15]. Reelick structured the process evaluation for trials on complex interventions into three components (used as a basis for our three defined research questions): (1) success rate of recruitment and quality of the study population; (2) the quality of execution of the complex intervention; and (3) the process of acquisition of the data (Table
2). To assess each process component we made use of a mixed-method design, in which we analyzed quantitative and qualitative data. Quantitative data were used to answer research questions 1 and 3 on the quality of study population and data acquisition. Qualitative data were mainly used for answering research question 2 on the quality of the intervention components. Table
3 shows the variables operationalizing the three process components of our multicomponent intervention study.
Table 2
Process evaluation components and related process measures of a complex intervention according to Reelick and colleagues[
15]
Study population | 1. Recruitment and selection rate |
2. Barriers and facilitators in recruitment and selection process |
3. Follow-up: attrition rate |
4. Barriers and facilitators for follow-up |
Multiple components | 1. Quality of delivery of the interventional components |
2. Barriers and facilitators for delivery of interventional components |
3. Adherence to interventional components |
4. Barriers and facilitators for adherence to interventional components |
5. Experience of participants and instructors with interventional components |
Data acquisition | 1. Outcome measures: coverage of interventional components |
2. Completeness of data collection |
3. Barriers and facilitators for data collection |
Table 3
Process variables collected for the process evaluation of a multicomponent dyadic intervention study according to Reelick and colleagues[
15]
Study population
|
1. Recruitment and selection rate | a) Number of eligible persons in screened population |
b) Number of dyads from the sample of eligible persons |
c) Number of dyads versus aimed number |
2. Barriers and facilitators in recruitment and selection process | a) Difference in baseline characteristics between nonparticipating and participating eligible dyads |
b) Motivation of nonparticipating and participating eligible dyads |
c) Experience with recruitment and selection |
3. Follow-up: attrition rate | Number of dyads completing follow-up versus number started |
4. Barriers and facilitators for follow-up | Reasons for drop-out and motivation for continued participation |
Multiple components
|
1. Quality of delivery of the interventional components | a) The part of each component and the home visits delivered by the coaches |
b) Satisfaction with delivery of home visits |
2. Barriers and facilitators for delivery of interventional components | Reasons for diverging from or applying intervention components |
3. Adherence to interventional components | a) Number of home visits followed |
b) Intervention components (partly) followed |
c) Homework adherence |
4. Barriers and facilitators for adherence to interventional components | Motivation for (lack of) attendance and compliance |
5. Experience of participants and instructors with interventional components | a) Perceived benefit |
b) Strong and weak aspects of the interventional components and total intervention |
Data acquisition
|
1. Outcome measures: coverage of interventional components | Average number of outcomes per component |
2. Completeness of data collection | a) Number and characteristics of missing data |
b) Feasibility of outcome measures |
c) Reasons why data were missing |
3. Barriers and facilitators for data collection | Comparison of qualitative and quantitative effectiveness data |
Quantitative data
Quantitative data were collected using the research database. As shown in Table
3, to evaluate the study population the success rate of recruitment, selection rate and attrition rate were defined by a description of the number of eligible persons in the screened population, the number of participants from the sample of eligible persons, the number of participants versus the aimed number, differences in baseline characteristics between nonparticipating and participating eligible persons and the number of dyads completing follow-up versus the number who started. To evaluate the data, outcome measures and completeness of data collection were defined by a description of average number of outcomes per component and number and characteristics of missing data.
Qualitative data
We used data from semi-structured interviews, conducted by the first and third author, with eleven dyads who completed the eight home visits of the intervention, and interviewer reflection notes made directly after the interviews. In addition, daily exercise and pleasant activities logs of all caregivers (n = 57) in the intervention group were used. The eleven dyads were selected using the purposeful sampling technique: we invited dyads with diverse adherence to exercise and pleasant activities planning, and gender, age, dementia type and type of relationship between caregiver and person with dementia, as shown in Table
4. No dyads refused to participate in the interviews. Interviews continued until saturation was reached. The semi-structured interview was guided by a series of pre-determined questions to explore participants’ experiences of the intervention components (exercise and support), with flexibility in the order in which they were asked to allow the interview to flow. Questions included: Could you describe your experiences with regard to the physical exercises? Could you describe your experiences with pleasant activities planning? Could you describe your experiences with regard to the communication skills training?
Table 4
Characteristics of eleven interviewed dyads for qualitative study
1
| Couple | CG = yes/PD = no | Low | High | Female | 85 | Moderate | Vascular dementia | Male | 85 | High |
2
| Couple | No (on request) | High | High | Female | 70 | High | Frontotemporal | Male | 75 | Moderate |
3
| Couple | Yes | High | Moderate | Male | 62 | High | AD | Female | 61 | High |
4
| Couple | Yes | High | Moderate | Male | 81 | High | AD | Female | 74 | High |
5
| Couple | No (on request) | High | High | Male | 67 | Moderate | AD | Female | 69 | High |
6
| Couple | No (on request) | Low | High | Female | 85 | Low | AD | Male | 85 | High |
7
| Couple | Yes | Moderate | Moderate | Male | 81 | Moderate | AD | Female | 76 | Low |
8
| Couple | No (on request) | High | Low | Male | 67 | High | AD | Female | 68 | High |
9
| Mother/daughter | CG = yes/PD = no | Moderate | Moderate | Female | 83 | Low | Vascular dementia | Female | 53 | High |
10
| Couple | No (on request) | Moderate | Moderate | Female | 73 | High | AD | Male | 76 | High |
11
| Couple | No (on request) | High | High | Male | 70 | High | Vascular dementia | Female | 69 | High |
The participants were interviewed at home. When possible, people with dementia and caregivers were interviewed separately without each other’s presence. Because most dyads lived together, the non-participant was asked to stay in another room. Some dyads wanted to be interviewed together (“We have no secrets from each other”, CG 2). Field notes were made directly after the interview on a semi-structured form. Digital recordings were directly reviewed upon the return of the interviewers. There were no recording failures. Regular meetings were held between first, second and third author to discuss important themes and any conceptual issues. No repeat interviews were carried out to avoid excessive burden on participants.
Analysis
The interviews were audio taped and transcribed verbatim. The transcripts were initially coded using open codes based on the words the participants used. Coding started after the first interview so that any emergent themes could be incorporated into subsequent interviews. To avoid bias, the first three authors independently coded the data. The coding process was supported by ATLAS.Ti (version 6.2; ATLAS.ti GmbH, Berlin, Germany). Differences were discussed until consensus was reached. Interviewer reflection notes and logbooks of all dyads randomized to the intervention group (n = 57) were used to verify the conclusions drawn from the qualitative analysis.
For quantitative analysis, descriptive statistics were used to analyze selection rate and attrition rate using IBM SPSS Statistics 20 (IBM, SPSS Inc., Chicago, IL).
Ethical aspects
Eligible dyads were asked to sign an informed consent. Informed consent was asked from both the person with dementia and the caregiver. All participants signed their informed consent (all people with dementia were able to sign their own informed consent). In the Netherlands mental competence is assumed, unless there is reason to doubt or evidence that this is not the case. When judging capacity, the use of cognitive measures such as the MMSE as a proxy for judging capacity is limited [
23,
24]. To check the competence of people with dementia in this study, we explained what participation in the study (including homework) would mean for them. In addition, we asked a few open-structured questions in order to verify if they understood and could reproduce the treatment information. They were not included in the study if their answers were not in line with what they had been told and, in these cases, we did not consider them as competent to make their own decision. The study protocol was approved by the Medical Ethics Review Committee of the VU University Medical (registration number 2008/320) and is registered at the Netherlands National Trial Register. Trial number: NTR1802.
Discussion
This process evaluation was conducted to create in-depth insight into the performed exercise and support intervention study designed to reduce depressive symptoms in people with dementia and their family caregivers living in the community. We evaluated the study population, intervention components and data acquisition before the effect analysis based on qualitative and quantitative data according to the framework of Reelick and colleagues [
15].
Study population quality
Evaluation of the study population quality revealed a profound recruitment process, which demonstrated that the modest sample size (though the sample size is reasonable in this field of geriatric research) is due to the difficult accessibility of participants in this frail population and is not due to the tireless efforts of the main researcher. It was difficult to find interested dyads, and therefore the recruitment of participants took longer than originally planned. What did work was recruitment via Alzheimer cafes. However, recruitment efforts may have generated a self-selected group of dyads who were more motivated to exercise. This could have influenced external validity by not approaching dyads who were not familiar with exercise or, for instance, not visiting Alzheimer Cafes. Furthermore, not all interested dyads met inclusion criteria (n = 16) or, for example, dyads were unwilling to participate after receiving more information (n = 8) because of expected burden on the caregiver or lack of time of the caregiver. However, the drop-out rate during follow-up was reasonable (<30%). Conventionally, a 30% drop-out rate for long-term follow-up (≥6 months) studies is regarded as acceptable in this older population dealing with a degenerative dementia process [
12]. For people with dementia, the drop-out rate in the study of Teri was similar at post-measurement (caregivers were not measured in the study of Teri and colleagues [
14]). Future studies for people with dementia living at home and their family caregivers should account for the barriers to recruiting, such as concerns about time needed from the caregiver. Our sample size was not confined to a particular metropolitan area: dyads throughout the whole country were participating, indicating no geographical bias. Furthermore, there were no complicated informed consent regulations, which may block participation of eligible dyads. In the present study, all eligible dyads, including people with dementia, signed informed consent, which indicated no informed consent bias.
Multiple intervention components quality
Although most people with dementia and their caregivers experienced benefits of both intervention components (exercise and support) and had high attendance rates to the eight home visits (n = 44), attrition to homework was modest (n = 39 for exercise homework and n = 27 for pleasant activities homework). As shown in Table
5, homework adherence was better for the exercise component than the pleasant event support component of the intervention, which indicates that the exercise component might be better suited to the needs of the participants. With regard to the exercise component, participants experienced pleasure, better mood, more self-esteem, increased awareness of the importance of exercise and improvement in the quality of the relationship. Furthermore, caregivers mentioned that doing exercises was a pleasant daytime activity in case of bad weather. With regard to the support component, named benefits were increased awareness of the importance of pleasant activities and decreased loneliness. There were also disadvantages brought up by participants, which may indicate too intensive an intervention for this frail population: a few caregivers experienced performing the intervention to be a burden because of losing too much of their valuable time and noticed an unpleasant confrontation for physical and mental inabilities in their care receivers by performing (too complicated) exercises. This was due partly to the specific care situation in the Netherlands: most people with dementia living at home receive one or more days respite care in a day-care facility and receive home visits of a case manager (a personal counselor for people with dementia and their caregivers). Together with the visits and homework for the present intervention study, there little free time was left between the caregiver and the person with dementia. For future comparable intervention studies, we advise carefully weighing the burden-benefit ratio in this frail older population and in addition to take note of the fact that usual care can vary by region.
Three quarters of the dyads completed six to eight home visits, which indicates that it was feasible to deliver the intervention at its current frequency and duration. Meanwhile, adherence to homework according to protocol was moderate, being somewhat better for the exercise component than the pleasant activities support component of the intervention. Comparison of these exercise rates with Teri and colleagues [
14] showed no large differences. Teri and colleagues do not specifically report the adherence to pleasant event training, although they mentioned that adherence to program recommendations was quite high. This is in contrast to our present evaluation, showing moderate adherence for pleasant activities homework. Future studies should account for the barriers to homework adherence in people with dementia and their caregivers.
Although dyads reported benefits of the intervention, when considering delivery and adherence we conclude that the validity was not the same for all intervention components. Statistical effect analyses should account for this finding: results of the primary and secondary outcome measures should be interpreted with caution.
Data acquisition
Evaluation of the data acquisition showed a careful collection of data with almost no missing data in primary outcomes and the positive value of the use of a mixed design: qualitative analysis of the intervention revealed outcomes not measured in the quantitative analysis such as pleasure, relationship quality, self-esteem, loneliness and awareness. For future quantitative research in this field, we recommend using instruments with good psychometric properties to measure these ‘experienced’ outcomes, such as quality of life instruments.
Strengths and weaknesses
The present RCT on the effects of a multicomponent dyadic intervention is a careful and soundly performed study. The type of design used, a mixed-method design, contributed to valuable insights gained from the integration and interpretation of qualitative and quantitative data within one study. Adding qualitative data gives insight into potential underlying working elements as well as diverse perspectives of participants. Furthermore, the framework of Reelick that was used to present the data of the process evaluation contributed to in-depth insight into this complex intervention study, which allows us to draw appropriate conclusions on the process of the intervention and the study.
However, some limitations are also worth considering. A limitation worth noting, because of design considerations, is that we did not involve the experiences of the coaches in the qualitative study. Our main research questions outlined in our protocol [
13] were directed at effects and experiences of the participants and not of the coaches. Therefore, we could not compare participants’ experiences with coaches’ experiences. For future effect studies, it is advisable to involve a meticulous process evaluation from the start of the study. Furthermore, because of ethical considerations, we did not collect data of dyads who gave no consent to participate in the intervention study. Therefore we could not compare our study population with non-participating dyads.
Conclusion
The results on the process evaluation demonstrated a study design and intervention protocol meeting high research standards and giving valuable insights by the integration of qualitative and quantitative data. However, some limitations are also worth considering. Both the exercise and the support component may have different feasibility by moderate attrition to exercise and pleasant activities homework and some negative experiences of participants, which may be an indication of too intensive an intervention for this frail population in this specific region. Results of the statistical effect analysis should be interpreted with caution, accounting for the extent to which homework of both components was performed. In this respect, the importance of a process evaluation before effect analysis and in case of cross-country transmission of a complex intervention is emphasized. In general, the present findings may be useful for those who are designing, implementing, or replicating a similar complex intervention for people with dementia and their caregivers.
Competing interests
The authors declare that they have no competing interests.
Authors’ contributions
A-EP coordinated the study and data acquisition, co-designed the study, analyzed the data and wrote the paper. AMP is principle investigator, co-designed the study and assisted with writing the paper. NVL assisted with qualitative data acquisition and analysis. JdL is a member of the project group, co-designed the study and assisted with qualitative data analysis and writing. All authors provided comments, and read and approved the final manuscript.