s12883-014-0239-3 1471-2377 Research article <p>Early supported discharge after stroke in Bergen (ESD Stroke Bergen): three and six months results of a randomised controlled trial comparing two early supported discharge schemes with treatment as usual</p> Hofstad Håkon hhof@helse-bergen.no Gjelsvik Elisabeth Bassøe Bente bente.elisabeth.bassoe.gjelsvik@helse-bergen.no Næss Halvor haln@helse-bergen.no Eide Egil Geir geir.egil.eide@helse-bergen.no Skouen Sture Jan jan.skouen@helse-bergen.no

Department of Physical Medicine and Rehabilitation, Haukeland University Hospital, Bergen N-5021, Norway

Department of Global Public Health and Primary Care, Physiotherapy Research Group, University of Bergen, Bergen, Norway

Department of Physiotherapy, Haukeland University Hospital, Bergen, Norway

Department of Neurology, Haukeland University Hospital, Bergen, Norway

Centre for Age-related Medicine, Stavanger University Hospital, Stavanger, Norway

Institute of Clinical Medicine, University of Bergen, Bergen, Norway

Centre for Clinical Research, Haukeland University Hospital, Bergen, Norway

Department of Global Public Health and Primary Care, Lifestyle Epidemiology Research Group, University of Bergen, Bergen, Norway

BMC Neurology
<p>Cerebrovascular disease and stroke</p>
1471-2377 2014 14 1 239 http://www.biomedcentral.com/1471-2377/14/239 10.1186/s12883-014-0239-3
5 8 2014 1 12 2014 21 12 2014 2014 Hofstad et al.; licensee BioMed Central. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. Stroke Randomised controlled trial Rehabilitation Early supported discharge ESD Community rehabilitation

Abstract

Background

Stroke causes lasting disability and the burden of stroke is expected to increase substantially during the next decades. Optimal rehabilitation is therefore mandatory. Early supported discharge (ESD) has previously shown beneficial, but all major studies were carried out more than ten years ago. We wanted to implement and study the results of ESD in our community today with comparisons between ESD and treatment as usual, as well as between two different ESD models.

Methods

Patients with acute stroke were included during a three year period (2008–11) in a randomised controlled study comparing two different ESD models to treatment as usual. The two ESD models differed by the location of treatment: either in a day unit or in the patients’ homes. Patients in the ESD groups were followed by a multi-disciplinary ambulatory team in the stroke unit and discharged home as early as possible. The ESD models also comprised treatment by a multi-disciplinary community health team for up to five weeks and follow-up controls after 3 and 6 months. Primary outcome was modified Rankin Scale (mRS) at six months.

Results

Three-hundred-and-six patients were included. mRS scores and change scores were non-significantly better in the two ESD groups at 3 and 6 months. Within-group improvement from baseline to 3 months was significant in the ESD 1 (p = 0.042) and ESD 2 (p = 0.001) groups, but not in the controls. More patients in the pooled ESD groups were independent at 3 (p = 0.086) and 6 months (p = 0.122) compared to controls and there also was a significant difference in 3 month change score between them (p = 0.049). There were no differences between the two ESD groups. Length of stay in the stroke unit was 11 days in all groups.

Conclusions

Patients in the ESD groups tended to be more independent than controls at 3 and 6 months, but no clear statistically significant differences were found. The added effect of supported discharge and improved follow-up seems to be rather modest. The improved stroke treatment of today may necessitate larger patient samples to demonstrate additional benefit of ESD.

Clinical trial registration

Unique identifier: NCT00771771

Background

Stroke is the most common cause of lasting disability in older age, leading to both personal and familial burdens as well as high societal costs 1 , 2 . The increasing incidence of stroke with higher age and decreasing stroke mortality 3 , combined with an increasing number of people in the higher age groups 4 , may eventually lead to substantially more persons suffering a stroke or having residual symptoms from previous stroke. Optimal rehabilitation is therefore important both for the individual stroke patient and regarding societal costs caused by stroke.

Early supported discharge (ESD) is a rehabilitation concept emphasising early discharge from institution to home for patients after stroke, followed by rehabilitation while home-dwelling, and often supervised by a specialised multi-disciplinary team 5 . This has been studied in several randomised controlled trials previously and the results have been analysed in an updated Cochrane report from 2012 5 . This meta-analysis suggested a beneficial effect of ESD for a selected group of stroke patients, but at the same time pointed towards the need for future studies in order to clarify which elements of ESD in the primary health care were important, and for more precise clarification of cost-benefit for different patient groups. The results from eleven trials where rehabilitation was offered either centre-based or home-based were reviewed in a recent meta-analysis, and the authors found a significant effect in favour of home-based rehabilitation at 6 weeks and 3–6 months 6 . An international consensus document was recently published with statements regarding team composition, model of team work, intervention, and success 7 .

The present ESD Stroke Bergen study was established in order to compare the rehabilitation results after ESD to rehabilitation as usual and to investigate the effect of community treatment given in two different settings; either in a day unit (ESD 1) or in the patients’ homes (ESD 2). We therefore designed a randomised controlled trial with two different ESD arms and one control arm, and with two null hypotheses: (1) ESD does not improve functional outcome evaluated by mRS; and (2) day unit and home rehabilitation are equally effective.

Methods

Study design

The ESD Stroke Bergen study is an open randomised controlled trial with three study arms, two for ESD and one control arm. The study was conducted in collaboration between the Department of Physical Medicine and Rehabilitation (DPMR) and the Department of Neurology at Haukeland University Hospital, the University of Bergen (Department of Global Public Health and Primary Care; Physiotherapy and Lifestyle Epidemiology Research Groups) and the Municipality of Bergen, Norway. The full protocol for the study has been published previously and should be consulted for additional details 8 . The study was approved by the Western Norway Regional Committee for Medical Research Ethics and registered in ClinicalTrials.gov with registration number NCT00771771.

Patient inclusion and randomisation

All patients admitted to the stroke unit at the Department of Neurology, Haukeland University Hospital with suspected stroke were screened for inclusion. Inclusion criteria were living at home in the Municipality of Bergen prior to having a stroke, stroke within the previous seven days, being admitted to the stroke unit within the previous five days, and a National Institutes of Health Stroke Scale (NIHSS) score of 2–26. The scale used in this study was a 13 items Norwegian version (range 0–34) 9 . Patients with NIHSS score <2 were included if modified Rankin Scale (mRS) 10 score was ≥2. The patients had to be awake and able to agree to participation in the study by signing an informed consent, either themselves or by their relatives. There were no age limits. Exclusion criteria were serious psychiatric disorders, alcohol or substance abuse, other serious conditions of importance to the cerebral disorder or subsequent rehabilitation process, or poor knowledge of the Norwegian language.

Patients found eligible by a stroke physician were informed by a designated nurse and asked to participate. Participants were randomised according to a computer-generated block randomisation list (six patients in each block; two for each study arm) and consecutively assigned to their groups in the same order as they were included into the study. The randomisation list was kept by a study coordinator and was not known to any persons in the stroke unit. The inclusion period lasted from 8 December 2008 to 20 December 2011, and 306 patients fulfilling the pre-specified criteria were included.

Description of study arms

Patients in two of the three study arms were treated according to the ESD concept. They were followed by a designated multi-disciplinary ambulatory team consisting of a nurse, a physiotherapist and an occupational therapist from soon after admission to the stroke unit until shortly after discharge to home. This team originated from DPMR and served as a coordinating link between the patient, relatives, hospital personnel and the personnel in the primary health care. The team was particularly important in the discharge process and cooperated closely with the municipal health care in the planning and implementation of further treatment after discharge.

The two ESD arms differed by the location of treatment: patients in the ESD 1 group received their treatment in a community day unit, whereas ESD 2 group patients stayed in their homes with home-visits from the community health team. Patients in the third study arm constituted a control group and were treated as usual without any intervention from the study, except appointments for testing at DPMR at 3 and 6 months. The treatment “as usual” mainly comprised institutional stay if necessary and/or physiotherapy as needed in the municipality (0–2 hours per week). Patients in all three study arms received language therapy as needed, regardless of allocated arm.

The patients in the two ESD arms were discharged to their homes as soon as possible. Patients in need of a longer in-patient treatment period than offered by the stroke unit were discharged to a municipal institution or DPMR for a period before going home. All patients in the ESD arms were offered rehabilitative treatment by a multi-disciplinary community health team, consisting of a nurse, a physiotherapist and an occupational therapist. The scheduled treatment period was five weeks and maximally four hours per day five days a week, but many patients did not comply with this. Reasons included tiredness, low capacity and lack of motivation, as well as many patients being only minimally neurologically affected and therefore not needing this therapy.

During the treatment period one or more persons from the community health team were present three days a week, and the last two the days of the week the patients trained by themselves after instructions from the team. Part of our study population was also studied by Gjelsvik et al. regarding physical tests and particularly balance, and in this subgroup mean total treatment time for the three days per week supervised by the community health team was 22 hours for ESD 1 and 16.6 hours for ESD 2 patients 11 . After the five week period ESD patients were strongly encouraged to continue training and social activities. They were also offered out-patient 3- and 6-months follow-ups at DPMR with a physician together with a member of the DPMR multi-disciplinary ambulatory team.

Study outcomes and test procedures

The primary study outcome was mRS at 6 months. Secondary outcomes included mRS at 3 months, as well as NIHSS, Barthel ADL Index (BI) 12 and patient satisfaction (five-point Likert scale with 1 best) at 3 and 6 months. Baseline tests were done before study arm allocation and the individual patient’s group was therefore not known to the patients or the baseline testers. Also at 3 and 6 months the testers were blinded for study arm and the patients were instructed not to reveal this information.

Background and clinical information relevant to the study were prospectively registered in a database (The Bergen NORSTROKE Registry) 13 . NIHSS was assessed immediately after admission and repeated regularly during the first week. The last NIHSS score recorded during the acute phase was used for the baseline analyses. mRS and BI were assessed on day 7, or earlier if the patient left the stroke unit sooner. Participants were re-tested at 3 and 6 months after inclusion at the DPMR out-patient clinic, and for the ESD 1 and 2 groups coupled to the corresponding follow-up. Control group patients were not followed-up by the study physician and advised to contact their general practitioner if they had medical questions of any kind. For various reasons some patients did not want to travel to the DPMR out-patient clinic for testing, and in these cases NIHSS, mRS, BI and patient satisfaction were scored by the testers coming home to the patients if permitted.

To look for possible differences between the study arms, information on in-patient days in hospital or municipal institutions during the first six months after inclusion was collected for all participants.

Statistical methods and sample size

At study start at least 400 included patients were anticipated, but that had been revised to 350 when the study’s protocol was published 8 . This sample size of approximately 350 included patients was divided into two intervention arms and a control arm, each of 117 patients. Based on a previous relevant study of acute stroke patients 14 the expected proportions of patients with mRS ≤2 at 6 months were 65% for the ESD groups and 51.9% for the control group. This provided a power of 73% (one-sided analysis) to demonstrate a statistically significant difference between the groups.

Demographics were analysed by analysis of variance (ANOVA) (age) and χ2-test (gender). Outcome differences between the groups at 3 and 6 months and within-group differences were analysed by nonparametric ANOVA using the Kruskal-Wallis test, and by χ2-test for dichotomised outcomes. Discharge destination and days in institution were analysed by χ2-test and Kruskal-Wallis test. All analyses were done as intention-to-treat and no imputation of missing data was made. The statistical programmes package Stata/SE 13.1 for Windows (StataCorp LP, Texas 77845, USA) was used for all data analysis.

Results

1749 patients were screened for participation and 306 were finally included (Figure 1) reducing the power described above to 68%. The main reasons for exclusion were not living in Bergen (approximately 50%) or not having suffered a confirmed stroke (approximately 25%), whereas only 13 eligible patients declined to participate. Seventy-three and 82% of patients in ESD groups 1 and 2, respectively, received the allocated treatment. The patients’ main reasons for not receiving the treatment were being admitted to long-term municipal institution or declining because they did not want or did not need the allocated treatment. The drop-out rates at retest after 3/6 months were 20%/21% in the ESD 1 group and 14%/21% in ESD 2 group, versus 28%/33% in the control group (Figure 1).

<p>Figure 1</p>

CONSORT flow-diagram showing patient flow from initial assessment for inclusion to six months testing in the Early supported discharge after stroke in Bergen study.

CONSORT flow-diagram showing patient flow from initial assessment for inclusion to six months testing in the Early supported discharge after stroke in Bergen study.

The participants were 55.2% men (mean age 69.6 years) and 44.8% women (mean age 75.6 years). Age and gender were not significantly different between the three study groups (Table 1) and neither were baseline scores for mRS, BI and NIHSS (Table 2).

<p>Table 1</p>

All

ESD 1 group

ESD 2 group

Control group

Variables

N = 306

n = 103

n = 104

n = 99

p-value*

Abbreviation: ESD Early Supported Discharge.

*Age analysed by ANOVA; gender analysed by χ2-test.

Age; mean (range)

  All

72.24

(27–98)

70.61

(29–91)

72.00

(27–92)

74.19

(32–98)

0.152

  Male

69.55

(27–92)

69.27

(29–91)

69.41

(27–92)

70.02

(32–92)

0.947

  Female

75.56

(38–98)

72.21

(38–90)

75.67

(44–92)

78.81

(44–98)

0.055

Gender; n (%)

  Male

169

(55.2)

56

(54.4)

61

(58.7)

52

(52.5)

0.665

  Female

137

(44.8)

47

(45.6)

43

(41.3)

47

(47.5)

Baseline characteristics of 306 ESD Stroke Bergen study patients

<p>Table 2</p>

Variables

All groups

ESD 1 group

ESD 2 group

Control group

p-value†

Abbreviations: ESD Early Supported Dischargem, SD Standard Deviation, IQR Interquartile Range.

*mRS range from 0 (best) to 6; BI range from 0 to 100 (best); NIHSS range from 0 (best) to 34; patient satisfaction range from 1 (best) to 5.

†All analyses: Kruskal-Wallis test; #Males better than females, p = 0.006; §Males better than females, p = 0.004; ||Males better than females, p = 0.011.

mRS; mean (SD) (n)

  Baseline; all

2.59

(1.22)

(306)

2.52

(1.29)

(103)

2.59

(1.15)

(104)

2.66

(1.23)

(99)

0.711

   Males

2.53

(1.22)

(169)

2.52

(1.24)

(56)

2.51

(1.16)

(61)

2.56

(1.27)

(52)

0.959

   Females

2.66

(1.23)

(137)

2.53

(1.36)

(47)

2.70

(1.12)

(43)

2.77

(1.18)

(47)

0.651

  3 months; all

2.45

(1.41)

(242)

2.45

(1.46)

(82)

2.30

(1.37)

(89)

2.62

(1.40)

(71)

0.316

   Males

#2.25

(1.34)

(134)

2.32

(1.44)

(44)

2.08

(1.16)

(51)

2.38

(1.44)

(39)

0.612

   Females

2.69

(1.46)

(108)

2.61

(1.48)

(38)

2.61

(1.57)

(38)

2.91

(1.30)

(32)

0.530

  6 months; all

2.52

(1.50)

(229)

2.40

(1.53)

(81)

2.46

(1.45)

(82)

2.73

(1.52)

(66)

0.410

   Males

§2.26

(1.42)

(122)

2.17

(1.58)

(42)

||2.09

(1.18)

(45)

2.60

(1.50)

(35)

0.248

   Females

2.80

(1.54)

(107)

2.64

(1.46)

(39)

2.92

(1.62)

(37)

2.87

(1.57)

(31)

0.796

  Change scores 0–3 months

−0.22

(1.08)

(242)

−0.26

(0.93)

(82)

−0.36

(1.21)

(89)

0.00

(1.07)

(71)

0.063

  Change scores 0–6 months

−0.15

(1.21)

(229)

−0.23

(1.08)

(81)

−0.36

(1.21)

(89)

0.00

(1.19)

(66)

0.532

Barthel Index; median (IQR) (n)

  Baseline

95

(40)

(304)

100

(50)

(102)

92.5

(35)

(104)

95

(45)

(98)

0.742

  3 months

100

(15)

(231)

100

(15)

(78)

97.5

(10)

(86)

100

(20)

(67)

0.976

  6 months

100

(15)

(213)

100

(15)

(76)

100

(10)

(77)

100

(15)

(60)

0.977

  Change scores 0–3 months

0

(20)

(229)

0

(20)

(77)

0

(20)

(86)

0

(15)

(66)

0.642

  Change scores 0–6 months

0

(20)

(211)

0

(20)

(75)

0

(20)

(77)

0

(20)

(59)

0.912

NIHSS; median (IQR) (n)

  Baseline

3

(4)

(304)

2

(4)

(103)

3

(3)

(104)

2

(4)

(97)

0.593

 3 months

2

(3)

(226)

2

(3)

(76)

2

(3.5)

(84)

2

(3)

(66)

0.925

  6 months

2

(3)

(205)

1

(3)

(73)

1.5

(3.5)

(76)

2

(3.5)

(56)

0.718

  Change scores 0–3 months

−1

(3)

(224)

−1

(3)

(76)

−1

(3)

(84)

0

(3)

(64)

0.370

  Change scores 0–6 months

−1

(3)

(203)

−1

(3)

(73)

−1

(2)

(76)

−1

(3)

(54)

0.615

Patient satisfaction; mean (SD) (n)

  3 months

1.50

(0.99)

(187)

1.32

(0.78)

(62)

1.49

(0.91)

(70)

1.71

(1.23)

(55)

0.115

  6 months

1.59

(1.08)

(197)

1.62

(1.22)

(73)

1.51

(0.98)

(71)

1.68

(1.01)

(53)

0.355

Descriptive statistics of modified Rankin Scale (mRS), Barthel Index (BI) and National Institutes of Health Stroke Scale (NIHSS)* at baseline, 3 and 6 months follow-ups and of patient satisfaction at 3 and 6 months in 306 ESD Stroke Bergen study patients

The groups did not differ significantly at any point in time for mean values of the primary outcome mRS, nor for BI and NIHSS scores as well as all change scores (Table 2). However, the two intervention groups generally showed somewhat better scores than the control group. Within-group analyses from baseline to 3/6 months showed significant improvement for the ESD 1 (p = 0.042) and ESD 2 groups (p = 0.001) from baseline to 3 months and a trend for improvement from baseline to 6 months, while there was no significant within-group difference for the control group.

Separate analyses for men and women demonstrated a significantly better mRS mean score in men than in women in all groups together at 3 (p = 0.006) and 6 months (p = 0.004), as well as in ESD group 2 separately at 6 months (p = 0.011). Patient satisfaction was rated better in ESD groups 1 and 2 at 3 months (1.32 and 1.49) compared to the control group (1.71), though not significantly (p = 0.115).

mRS and BI scores dichotomised to independency (mRS ≤ 2; BI ≥ 95) or dependency (mRS > 2; BI < 95) demonstrated non-significantly better results for mRS in the intervention groups pooled together vs. the control group (p = 0.086 at 3 months; p = 0.122 at 6 months) (Table 3). Mean mRS scores were not significantly different between the pooled intervention groups and the control group at 3 (p = 0.204) and 6 months (p = 0.188). Change score for mRS at 3 months was significantly better in the pooled ESD groups than in the control group (p = 0.049), but with no difference at 6 months (p = 0.319) (Table 3).

<p>Table 3</p>

Time

ESD arms (1 + 2)

Control arm

p-value*

Abbreviations: BI Barthel Index, mRS Modified Rankin Scale, ESD Early Supported Discharge, SD Standard Deviation.

*Statistical tests: χ2-test (analyses of dichotomised BI and mRS) and Mann–Whitney U-test (mRS and mRS change score), p-value <0.05 indicated in bold.

Baseline

  BI ≥ 95; n/N (%)

108/206 (52.4)

51/98 (52.0)

0.950

  mRS ≤ 2; n/N (%)

109/207 (52.7)

49/99 (49.5)

0.605

3 months

  BI ≥ 95; n/N (%)

113/164 (68.9)

42/67 (62.7)

0.362

  mRS ≤ 2; n/N (%)

93/171 (54.4)

30/71 (42.3)

0.086

  mRS; mean (SD)

2.37 (1.41)

2.62 (1.40)

0.204

  mRS change score   0–3 months; mean (SD)

−0.31 (1.08)

0 (1.07)

0.049

6 months

  BI ≥ 95; n/N (%)

111/153 (72.5)

40/60 (66.7)

0.395

  mRS ≤ 2; n/N (%)

90/163 (55.2)

29/66 (43.9)

0.122

  mRS; mean (SD)

2.43 (1.49)

2.73 (1.52)

0.188

  mRS change score   0–6 months; mean (SD)

−0.21 (1.22)

0 (1.19)

0.319

Percentage of patients independent (BI ≥ 95 or mRS ≤ 2) and dependent (BI < 95 or mRS > 2) at baseline and after 3 and 6 months in the ESD arms combined and in the control arm; mRS and mRS change scores at 3 and 6 months in 306 ESD Stroke Bergen study patients

Subgroup analysis according to discharge destination from the stroke unit (directly home [n = 171]; to municipal institution [n = 78]; to DPMR [n = 47]; others/died [n = 10, results not shown]) showed significantly poorer mRS at 3 and 6 months for patients in the control group discharged to DPMR (mean mRS = 3.25/3.25) compared to the ESD 1 group (mean mRS = 2.76/2.50) and ESD 2 group (mean mRS = 2.33/2.21) (p = 0.041/0.037). Change scores were, however, not significantly different between the groups for 0–3 and 0–6 months. There were no differences in mRS or mRS change scores between the groups for patients discharged home or to a municipal institution (Table 4). In addition, the patients were divided into three groups as equally sized as possible, according to last baseline NIHSS score (0–1 [n = 88]; 2–4 [n = 130]; ≥5 [n = 86]), and mRS scores were analysed for differences between these groups. There were some significant differences as seen from Table 5, but they were not clinically meaningful.

<p>Table 4</p>

Discharge destination

ESD 1 group

ESD 2 group

Control group

p-value*

Abbreviations: ESD Early Supported Discharge; SD standard deviation, DPMR Department of Physical Medicine and Rehabilitation.

*All analyses: Kruskal-Wallis test, p-values <0.05 indicated in bold.

Home (n=171); mean (SD) (n)

  Baseline

1.72

(0.88)

(54)

1.97

(0.94)

(60)

1.89

(0.88)

(57)

0.359

  3 months

1.69

(1.15)

(39)

1.74

(1.16)

(50)

1.93

(1.00)

(44)

0.461

  6 months

1.66

(1.15)

(41)

2.00

(1.30)

(45)

1.94

(1.15)

(36)

0.514

  Change score 0–3 months

−0.18

(0.94)

(39)

−0.26

(1.23)

(50)

0.07

(1.09)

(44)

0.252

  Change score 0–6 months

−0.10

(1.04)

(41)

−0.05

(1.33)

(45)

0.06

(1.24)

(36)

0.820

Municipal Institution (n = 78); mean (SD) (n)

  Baseline

3.77

(0.75)

(22)

3.56

(0.87)

(25)

3.65

(0.84)

(31)

0.588

  3 months

3.50

(1.19)

(20)

3.35

(1.30)

(23)

3.83

(1.29)

(18)

0.521

  6 months

3.60

(1.19)

(20)

3.41

(1.44)

(22)

3.71

(1.52)

(21)

0.858

  Change score 0–3 months

−0.25

(0.79)

(20)

−0.30

(1.18)

(23)

0.00

(1.19)

(18)

0.509

  Change score 0–6 months

−0.15

(0.81)

(20)

−0.05

(1.46)

(22)

0.05

(1.28)

(21)

0.881

DPMR (n = 47); mean (SD) (n)

  Baseline

3.26

(1.05)

(19)

3.22

(0.73)

(18)

3.70

(0.67)

(10)

0.378

  3 months

2.76

(0.97)

(17)

2.33

(0.72)

(15)

3.25

(0.71)

(8)

0.041

  6 months

2.50

(1.29)

(14)

2.21

(0.89)

(14)

3.25

(0.71)

(8)

0.037

  Change score 0–3 months

−0.41

(1.00)

(17)

−0.93

(0.96)

(15)

−0.50

(0.53)

(8)

0.258

  Change score 0–6 months

−0.79

(1.37)

(14)

−1.00

(0.88)

(14)

−0.50

(0.53)

(8)

0.492

Subgroup analyses: modified Rankin Scale (mRS) at baseline, 3 and 6 months and mRS change scores, according to primary discharge destination in 306 ESD Stroke Bergen study patients

<p>Table 5</p>

Baseline NIHSS score

ESD 1 group

ESD 2 group

Control group

p-value*

Abbreviations: NIHSS National Institutes of Health Stroke Scale, ESD Early Supported Discharge, SD standard deviation.

*All analyses: Kruskal-Wallis test, p-values <0.05 indicated in bold.

NIHSS 0–1 (n = 88); mean (SD) (n)

  Baseline

1.64

(0.99)

(28)

1.96

(1.02)

(25)

1.83

(1.12)

(35)

0.561

  3 months

1.45

(0.96)

(22)

2.05

(0.95)

(22)

1.96

(1.15)

(26)

0.109

  6 months

1.32

(1.09)

(22)

2.25

(0.79)

(20)

2.00

(1.65)

(20)

0.016

  Change score 0–3 months

−0.36

(0.85)

(22)

0.05

(1.13)

(22)

0.23

(1.34)

(26)

0.187

  Change score 0–6 months

−0.27

(1.08)

(22)

0.20

(1.11)

(20)

0.20

(1.67)

(20)

0.424

NIHSS 2–4 (n = 130); mean (SD) (n)

  Baseline

2.35

(1.06)

(48)

2.17

(0.93)

(46)

2.50

(0.85)

(36)

0.424

  3 months

2.32

(1.34)

(34)

1.74

(1.33)

(38)

2.09

(0.90)

(23)

0.059

  6 months

2.40

(1.33)

(35)

1.83

(1.42)

(35)

2.25

(0.99)

(24)

0.049

  Change score 0–3 months

−0.18

(1.00)

(34)

−0.47

(1.22)

(38)

−0.22

(0.80)

(23)

0.202

  Change score 0–6 months

−0.11

(0.99)

(35)

−0.37

(1.44)

(35)

−0.08

(0.83)

(24)

0.238

NIHSS ≥5 (n = 86); mean (SD) (n)

  Baseline

3.74

(1.02)

(27)

3.64

(0.74)

(33)

3.88

(0.71)

(26)

0.391

  3 months

3.46

(1.33)

(26)

3.24

(1.21)

(29)

4.00

(1.21)

(20)

0.114

  6 months

3.38

(1.53)

(24)

3.44

(1.37)

(27)

3.95

(1.23)

(20)

0.411

  Change score 0–3 months

−0.27

(0.92)

(26)

−0.52

(1.21)

(29)

0.00

(0.97)

(20)

0.168

  Change score 0–6 months

−0.38

(1.21)

(24)

−0.22

(1.40)

(27)

−0.05

(1.05)

(20)

0.813

Subgroup analyses: modified Rankin Scale (mRS) at baseline, 3 and 6 months and mRS change scores, according to baseline NIHSS score in 306 ESD Stroke Bergen study patients

Post hoc we analysed for group differences in discharge destination from the stroke unit, length of continuous stay in hospital or municipal institution after the stroke as well as total days spent in the stroke unit, DPMR and municipal institution during the first six months after stroke. There were no differences between the groups (Table 6).

<p>Table 6</p>

Variables

All N = 306

ESD 1 group n = 103

ESD 2 group n = 104

Control group n = 99

p-value*

Abbreviations: ESD = Early Supported Discharge; SEM = standard error of the mean; DPMR = Department of Physical Medicine and Rehabilitation.

*Analysed by χ2-test (discharge to home) and Kruskal-Wallis test (institution days).

Discharged from stroke unit to home; n (%)

171 (55.9)

54 (52.4)

60 (57.7)

57 (57.6)

0.687

Days in institution from stroke to first discharge home within first 6 months after inclusion; mean (SEM)

38.4 (2.9)

37.7 (5.1)

35.6 (4.6)

42.2 (5.6)

0.881

Total days in institution from stroke until 6 months after inclusion; mean (SEM)

45.5 (3.1)

46.0 (5.5)

42.8 (5.0)

47.7 (5.5)

0.930

  Days in stroke unit

11.4 (0.4)

11.3 (0.6)

11.3 (0.7)

11.6 (0.8)

0.919

  Days in DPMR

7.3 (1.2)

7.9 (2.0)

7.6 (1.9)

6.5 (2.3)

0.560

  Days in municipal institution

24.0 (2.6)

23.4 (4.6)

21.5 (4.5)

27.4 (4.5)

0.111

Other

2.7 (0.4)

3.4 (0.7)

2.5 (0.5)

2.1 (0.6)

0.074

Discharge destination and days of in-patient treatment first six months after inclusion in 306 ESD Stroke Bergen study patients

Discussion

The primary research aim was to investigate whether two different ESD regimens were superior to treatment as usual. We found, in general, small differences in favour of the ESD groups for the outcomes mRS, NIHSS, BI, relevant change scores and patient satisfaction when examined by ANOVA, but mostly not statistically significant.

We think that the main reason for these rather small differences in rehabilitation outcome between the early supported groups and the treatment as usual group must be ascribed to the quite different and superior treatment of stroke patients today, as compared to 10–15 years ago when most previous studies were carried out. Stroke prophylaxis is much improved, as well as acute stroke treatment with thrombolysis being used in more than 20% of stroke patients in our region. In addition, the rehabilitation services in general have improved during this period, making it difficult to demonstrate further improvement without quite large study groups.

There is also a possibility that the outcomes mRS and BI, which are in the activities domain of the ICF, are too blunt to detect improvements in more specific physical functions or more qualitative outcome differences between the ESD and control treatment, e.g. regarding quality of life. Gjelsvik et al. reported the results of physical tests in a subgroup of our patients that was discharged directly from the stroke unit to their homes and found statistically significant differences between the groups for trunk control, self-report on walking and ADL 11 .

The power calculation for the study was based on the results from a previous large Norwegian study carried out in Trondheim during the period 1995–1998 14 . In this study the outcomes mRS and BI were dichotomised to dependency and independency and there was a substantial difference at 6 months (p = 0.017 for mRS; p = 0.056 for BI) between patients subjected to early supported discharge and controls. Since comparison between ESD and non-ESD models was a main objective in our study, some of our analyses were repeated with the ESD 1 and 2 groups pooled together vs. the treatment as usual group and the outcomes mRS and BI dichotomised (Table 3). These analyses demonstrated a non-significantly better result for mRS in the two ESD groups compared to the controls (p = 0.086 at 3 months; p = 0.122 at 6 months). The corresponding mRS change score difference at 3 months was marginally significant (p = 0.049). There were no differences for BI.

In retrospect, such a large difference as in the Trondheim study could not be realistically expected in our patients now compared to their patients 15 years ago, due to the improved acute stroke treatment and pharmacological prophylaxis of today. Our study may therefore be considered as underpowered. We also did not reach neither the initially intended number of at least 400 included patients nor the revised number of 350, thereby further reducing study power. However, we recruited almost all eligible patients during the study period and a longer recruitment period was not realistically feasible.

We performed subgroup analyses according to the severity of the initial neurological affection, based on the suggestion that ESD models are assumed most beneficial to stroke patients with a medium severe neurological affection 5 . The patients were divided into three groups according to last baseline NIHSS score, and mostly the three study arms improved about equally in these three NIHSS subgroups (Table 5). There were, however, some statistically significant differences between mRS scores that were clinically inconsistent and not accompanied by significant differences in corresponding change scores, and therefore considered to be without relevance.

We also analysed the primary outcome mRS according to whether the patients were discharged directly to home, to a municipal institution, to DPMR or otherwise (other specialised institution or died in hospital). For patients discharged to DPMR before going home there was a significant difference with the ESD 1 and ESD 2 groups scoring better at 3 and 6 months compared to the control group. The corresponding change scores were on the other hand not significantly different and the clinical significance therefore unclear. There were no differences between the groups for the other discharge destinations.

Post-hoc we also analysed the in-patient days for patients in the three study arms, but there were no statistically significant differences in this respect as seen from Table 6. Quite unexpectedly, there also was no difference between the two ESD arms and the control group for length of stay in the stroke unit (11.3, 11.3, and 11.6 days respectively). This demonstrates that today, at least in our region, all stroke patients are discharged from the stroke unit as soon as possible and there is therefore not more to gain in this respect. In fact, the determining factor for the patients’ length of stay in this study was predominantly their need for institutional stay after the discharge from the stroke unit. Patients going directly home spent 8.3 days in the stroke unit whereas those needing an institutional bed after discharge stayed for 15.4 days, with only minute differences between study arms (results not shown).

The other main research question was whether the rehabilitation setting (day unit or home) was of importance for the clinical outcome, but we found no differences between the groups. Hillier et al. have previously reported on centre-based vs. home-based models in a meta-analysis from 2010 comprising 11 trials 6 . They found home-based treatment to be superior as measured by BI in the early period post-discharge, while the results at 6 months were conflicting. They concluded that the rehabilitation should be shifted towards more home-based services and specifically recommended that client preference should be used to determine treatment location in individual patients 6 .

We found that men made a better recovery than women in the two intervention groups as judged by mRS. Similar findings have been reported repeatedly. Paolucci et al. reported in a case–control study from 2006 that men and women had a similar neurological recovery, whereas functional recovery was better in men 15 . Wyller et al. reported from Norway in 1997 that women seemed to be functionally more impaired than men 16 . Kim et al. in 2010 reported a similar difference 17 . A possible reason for men recovering better than women in our study may be a higher degree of social support, since substantially more women were living alone (results not shown).

Besides suboptimal power a major challenge in this study was to obtain enduring compliance of included patients during the study period. They were generally old and many found travelling to the out-patient clinic demanding, necessitating testing in their homes. On this background we regard the follow-up rate in our study of about 80-85% for the two intervention arms as satisfactory. The figure of about 70% in the treatment as usual group may be explained by these patients feeling more weakly connected and committed to the study since they did not receive any treatment or medical follow-up from the project.

This study has several clinical implications. Due to the future increase of people in high age groups and consequently increased anticipated disease burden, treatment and rehabilitation models outside specialist health care are strongly needed. To our best knowledge this is the first large randomised controlled trial examining ESD after acute stroke since the pivotal studies before and around 2000. The results indicate a slightly better improvement in the ESD groups compared to controls despite a generally much improved stroke treatment. On the other hand, the length of stay has already been cut strongly down making it difficult to further reduce in-patient time.

Concurrently with the planning of the present study the Municipality of Bergen wanted to develop and strengthen their community rehabilitation, and this enabled a close cooperation between our hospital and the community during the study period. This collaboration has led to a permanently improved rehabilitation service in our community which will benefit patients beyond the stroke category. The final model for ESD rehabilitation, and possibly rehabilitation outside of institution in general, should probably not be a question of treatment either at home or in a day unit, but rather a combination based on clinical judgement by the community health team for the individual patient. This was also suggested by Hillier et al. 6 . In the Municipality of Bergen this model has now been implemented after the study period ended. Another constraint imposed by the RCT study was the duration of the community health team’s treatment period, which has also been modified after study completion and is now upwards limited to three months. There are, however, still improvements to be made. A recent qualitative study by Taule et al. 18 where eight stroke patients from the ESD 2 (home) group were interviewed indicates unmet needs concerning existential and emotional distress after stroke.

Conclusions

The two ESD groups showed better functional improvement than the treatment as usual group, but not statistically significant. There was no difference between the two ESD groups. The main treatment difference between the intervention groups and the controls turned out to be the supported discharge with later follow-ups, since patients were discharged equally early in all three groups.

Our interpretation: Improved prophylaxis and treatment during the last decade has led to reduced neurological disability after stroke, in parallel with reduced in-hospital time. The added effect of supported discharge and improved follow-up seems to be rather modest and larger patient samples are probably necessary to demonstrate a benefit with statistical significance. In addition, the outcome measure mRS is probably not optimal for measuring meaningful change.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

HH participated in planning and design, coordinated and supervised the study, collected test data, assembled the database and performed the statistical analyses. He wrote the manuscript and participated in discussions and revisions. BEBG participated in discussions and revision of the manuscript. HN is Senior Consultant in the Stroke unit and was responsible for the recruitment of stroke patients to the study. He founded the Bergen NORSTROKE Registry collecting information on patients with acute stroke. He also participated in planning and design of the study as well as discussions and revision of the manuscript. GEE is a biostatistician who supervised the statistical analyses and participated in the discussion and revision of the manuscript. JSS was the principal investigator of the study. He planned and designed the study and participated in all phases throughout the study and preparation of the manuscript. All authors read and approved the final manuscript.

Acknowledgments

The authors wish to express gratitude to the following persons who were pivotal in carrying through the clinical work and testing during the project period:

Signe Gjærum (stroke unit recruiting nurse); Silje Mæhle Haugland and Lene Hafsås (follow-up coordinators); Marit Øvsthus (main tester after baseline); Maren Ekenes and Siv K. Claussen (registered nurses in the DPMR ambulatory team); Eli Olsen (physiotherapist in the DPMR ambulatory team); Hildegun Reutz (occupational therapist in the DPMR ambulatory team); Kristi Rørlien (registered nurse in the community health team); Anda Kupca and Joanna Agnieszka Hauken (physiotherapists in the community health team); Kathrine Aasebø, Siri Myklebust and Linda Lindås (occupational therapists in the community health team); and Finn Markussen and Helga Kaale (Municipality of Bergen).

Jan Sture Skouen was a member of the study steering committee and we also wish to thank the other members: former Director of Health Finn Strand, Municipality of Bergen; Professor Lars Thomassen, Department of Neurology, Haukeland University Hospital; and Director Margit Sørhus, Department of Physical Medicine and Rehabilitation, Haukeland University Hospital.

Sources of funding

The study has been supported by grants from the Norwegian Research Council, the Western Norway Regional Health Trust, the Ministry of Health and the Sophies Minde Foundation.

<p>The impact of stroke</p> Wolfe CD Br Med Bull 2000 56 275 286 10.1258/0007142001903120 11092079 <p>Preventing stroke: saving lives around the world</p> Strong K Mathers C Bonita R Lancet Neurol 2007 6 182 187 10.1016/S1474-4422(07)70031-5 17239805 <p>The decline in stroke mortality: exploration of future trends in 7 Western European countries</p> Kunst AE Amiri M Janssen F Stroke 2011 42 2126 2130 10.1161/STROKEAHA.110.599712 21700943 Colombo F, Llena-Nozal A, Mercier J, Tjadens F: Help Wanted? Providing and Paying for Long-Term Care. Chapter 2: Sizing Up the Challenge Ahead: Future Demographic Trends and Long-term Care Costs. OECD Health Policy Studies, OECD Publishing. 2011. doi:10.1787/9789264097759-en <p>Services for reducing duration of hospital care for acute stroke patients</p> Fearon P Langhorne P Cochrane Database Syst Rev 2012 9 CD000443 22972045 <p>Rehabilitation for community-dwelling people with stroke: home or centre based? a systematic review</p> Hillier S Inglis-Jassiem G Int J Stroke 2010 5 178 186 10.1111/j.1747-4949.2010.00427.x 20536615 <p>A consensus on stroke: early supported discharge</p> Fisher RJ Gaynor C Kerr M Langhorne P Anderson C Bautz-Holter E Indredavik B Mayo NE Power M Rodgers H Rønning OM Widén Holmqvist L Wolfe CD Walker MF Stroke 2011 42 1392 1397 10.1161/STROKEAHA.110.606285 21441151 <p>Early supported discharge after stroke in Bergen (ESD Stroke Bergen): a randomized controlled trial comparing rehabilitation in a day unit or in the patients’ homes with conventional treatment</p> Hofstad H Naess H Moe-Nilssen R Skouen JS Int J Stroke 2013 8 582 587 10.1111/j.1747-4949.2012.00825.x 22594689 <p>Treatment of cerebrovascular disease in a comprehensive stroke unit</p> Thomassen L Waje-Andreassen U Naess H Brogger J Tidsskr Nor Laegeforen 2011 131 819 823 10.4045/tidsskr.09.1417 21556085 <p>Interobserver agreement for the assessment of handicap in stroke patients</p> van Swieten JC Koudstaal PJ Visser MC Schouten HJ van GJ Stroke 1988 19 604 607 10.1161/01.STR.19.5.604 3363593 <p>Balance and walking after three different models of stroke rehabilitation: early supported discharge in a day unit or at home, and traditional treatment (control)</p> Gjelsvik BE Hofstad H Smedal T Eide GE Naess H Skouen JS Frisk B Daltveit S Strand LI BMJ Open 2014 4 e004358 10.1136/bmjopen-2013-004358 24833680 <p>Functional evaluation: the Barthel index</p> Mahoney FI Barthel DW Md State Med J 1965 14 61 65 14258950 <p>Ischemic stroke in patients older and younger than 80 years</p> Naess H Gjerde G Waje-Andreassen U Acta Neurol Scand 2014 129 399 404 10.1111/ane.12199 24256324 <p>Benefit of an extended stroke unit service with early supported discharge: a randomized, controlled trial</p> Indredavik B Fjaertoft H Ekeberg G Loge AD Morch B Stroke 2000 31 2989 2994 10.1161/01.STR.31.12.2989 11108761 <p>Is Sex a prognostic factor in stroke rehabilitation?: a matched comparison</p> Paolucci S Bragoni M Coiro P De Angelis D Fusco FR Morelli D Venturiero V Pratesi L Stroke 2006 37 2989 2994 10.1161/01.STR.0000248456.41647.3d 17082475 <p>Are there gender differences in functional outcome after stroke?</p> Wyller TB Sodring KM Sveen U Ljunggren AE Bautz-Holter E Clin Rehabil 1997 11 171 179 10.1177/026921559701100211 9199870 <p>Gender differences in the functional recovery after acute stroke</p> Kim JS Lee KB Roh H Ahn MY Hwang HW J Clin Neurol 2010 6 183 188 10.3988/jcn.2010.6.4.183 21264198 <p>Life changed existentially: a qualitative study of experiences at 6–8 months after mild stroke</p> Taule T Råheim M Disabil Rehabil 2014 36 2107 2119 10.3109/09638288.2014.904448 24670126