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Published Online: 18 March 2021

Implementing the Collaborative Chronic Care Model in Mental Health Clinics: Achieving and Sustaining Clinical Effects

Abstract

Objective:

Collaborative chronic care models (CCMs) were established with implementation support in nine mental health clinics. This study sought to determine whether their clinical impact was maintained after implementation support ceased.

Methods:

Posttrial data were analyzed from a randomized stepped-wedge CCM implementation trial in general mental health clinics in nine Department of Veterans Affairs medical centers. Sites received 1 year of implementation support, which was associated with reduced mental health hospitalization rates compared with non-CCM clinics in the same medical centers. Hospitalization rates for the year after implementation support were analyzed by using repeated measures logistic regression comparing the same clinics.

Results:

Hospitalization rates for the postsupport year did not differ from comparison clinics either in the population that initially showed the difference or the population active in the clinics at the end of the year of implementation support.

Conclusions:

Clinical effects of the CCM may wane after cessation of active implementation support.

HIGHLIGHTS

Even complex care models, such as the collaborative chronic care model, can be successfully implemented in general clinics outside the rubric of highly structured randomized controlled trials.
However, clinical effects may not continue beyond the period of active implementation support.
Thus, attention is needed for issues related to subsequent maintenance of clinical processes and effects during the period of implementation support; some continued implementation support may be necessary to sustain initial gains.
Collaborative chronic care models (CCMs) are care models that focus on delivering anticipatory, continuous, evidence-based care for individuals with chronic medical or mental health conditions. CCMs consist of several or all of six elements, flexibly implemented depending on local conditions, resources, and priorities: work role redesign, self-management support, clinical decision support, information management, access to community resources, and organization and leadership support (1). CCMs have an extensive evidence base from randomized controlled trials for medical conditions treated in primary care (1); depression treated in primary care (2); and, more recently, chronic mental health conditions treated in mental health clinics (3, 4). However, little is known about the impact of CCMs when implemented in mental health clinical practice. Most CCM implementation data to date are limited to CCMs for depression treated in primary care (57). Furthermore, we are aware of no data on the maintenance of clinical effects of CCMs after the cessation of successful implementation efforts.
We recently completed a randomized stepped-wedge CCM implementation trial in general mental health clinics in nine Department of Veterans Affairs (VA) medical centers (8). In this trial, staff from one clinic per medical center worked with a CCM expert external facilitator primarily through video- and teleconferencing for up to 1 year. Findings demonstrated that, among other measures, CCM-implementing clinics had lower mental health hospitalization rates compared with non–CCM-implementing clinics in the same medical centers during the year of facilitation support. The purpose of the present analyses was to determine whether those reductions in hospitalization were maintained for a second year in the absence of ongoing implementation support.

Methods

The study was approved by the VA Central Institutional Review Board as a combined quality improvement evaluation and research project. Detailed methods are found in the primary outcomes report (8) and protocol design paper (9).
Briefly, in collaboration with the VA Office of Mental Health and Suicide Prevention, we recruited nine VA medical centers that expressed interest in implementing the CCM in one of their general mental health outpatient clinics. These were identified through top-down publicity on national and regional conference calls. The first sites to complete the project letter of agreement were enrolled. Control clinics comprised all other general mental health clinics in these medical centers. The implementation strategy used was evidence-based blended internal-external facilitation, as detailed in the protocol design paper (9). Medical centers provided protected time of up to 4 hours per week for an internal facilitator, who was a mental health clinician or administrator with process redesign experience. Medical centers also supported 1 hour per week for process redesign meetings with clinic providers. These staff worked for 1 year with an offsite external facilitator, predominantly through videoconference, telephone, and e-mail (approximately 2.6 hours per week), to review and revise their existing clinical processes to better align with CCM principles, following the rubric laid out in a self-assessment CCM workbook (available upon request from authors C.J.M. and B.K.). In this stepped-wedge design, all sites received implementation support, and the start time of support was randomly assigned in three waves of three sites each.
Both implementation and clinical outcome measures focused on changes from baseline to the end of 1 year of facilitation support. Clinical outcome measures included mental health hospitalization rate based on admissions to mental health units. Rates during 1 year of preimplementation and 1 year of implementation support were compared among veterans treated in the CCM clinics (N=5,596) versus veterans treated in non-CCM clinics (N=46,755); dementia was the only exclusion criterion. In the analysis of the primary trial data, fitting a linear spline model demonstrated reductions in hospitalization rate in both groups during the implementation year, but rates were lower in the CCM clinic populations compared with the non-CCM clinic populations in the same medical centers (0.81% per quarter versus 0.94% per quarter, respectively; p<0.001).
To investigate whether the beneficial effect of CCM on hospitalization rate was maintained after the cessation of implementation support, we conducted two sets of similar analyses. In analysis 1, we compared hospitalization rates for the CCM versus non-CCM clinics in the year after the cessation of implementation support by using a repeated measures logistic regression model. The populations utilized in this analysis were the same populations as in the original protocol, followed for an additional year after the cessation of implementation support. That is, veterans were included if they were active in the clinic by virtue of having had two visits to the clinic in the year before implementation, including one visit in the quarter immediately preceding implementation support (9). This analysis was designed to determine whether there were enduring effects on hospitalization rate in the populations being treated at the time the clinics were receiving implementation support. In analysis 2, we conducted identical analyses on veterans active in the clinics as the postimplementation year was beginning, defined as those active in the clinic at the time that implementation support ended (i.e., they had two clinic visits in the year during implementation support, including one visit in the quarter before the cessation of implementation support). This analysis was designed to determine whether the effects were maintained in populations active in the clinic at the time implementation support was ending (i.e., later in the process of establishing CCM principles in the clinic). Veterans were included in each population regardless of whether they continued to receive care in those clinics (intention to treat).
We did not maintain formal contact with the sites after the 1 year of implementation support ceased. Thus, we were unable to assess the extent to which CCM processes themselves continued beyond the year of implementation support. However, we do know that there was clinician staff turnover at each site and that internal facilitators at three sites left their Behavioral Health Interdisciplinary Program (BHIP) team roles late in the implementation support year or during the follow-up year. On the other hand, six of the internal facilitators had supervisory roles over BHIP teams during the second year, so continuity of structure (if not processes) was potentially present to some degree in a majority of sites.
Demographic and clinical characteristics comparing veterans treated in CCM clinics with those treated in non-CCM clinics were analyzed by using an unpaired, two-tailed t test or chi-square test. Knowing that most variables would show statistically significant differences because of very large sample sizes, we assessed potential clinical impact by determining effect size. Effect size was obtained from Cramer’s V for categorical variables (medium effect size, 0.3–0.6; large effect size, >0.6) or η2 for continuous variables (medium effect size, 0.06–0.14; large effect size, >0.14) (10).
The primary outcomes paper (8) addressed the question of whether hospitalization rates in the CCM clinics dropped more than those in non-CCM clinics from the same medical centers during the year of implementation support. The present analyses directly compared hospitalization rates in the year after the cessation of implementation support. Following the approach of the primary outcome analyses, longitudinal comparisons of quarterly hospitalization rates in CCM versus non-CCM clinics during the postimplementation support year were analyzed by using a repeated measures logistic regression model that accounted for correlation between the four adjacent times (quarters) to detect whether many of the same participants were repeatedly hospitalized (the PROC GLIMMIX procedure). Because covariate adjustment minimally perturbed the estimate of the CCM effect in the primary paper, these subsequent analyses were unadjusted for the demographic and clinical characteristics used in the primary outcomes paper (8). Analyses were conducted with the SAS statistical package, version 9.4.

Results

A table showing population characteristics for CCM and non-CCM clinics is available as an online supplement to this report. No differences reached medium or large effect sizes.
The two main analyses compared the mental health hospitalization rates in the postimplementation support year for the CCM versus non-CCM populations. The null hypothesis (H0) assumed equal rates (i.e., odds ratio [OR]=1). Analysis 1 (Figure 1A) failed to reject H0, comparing the original CCM and non-CCM populations (estimated log[OR]=−0.06 0.10, p=0.52; estimated OR=0.94, 95% confidence interval [CI]=0.78–1.14). Analysis 2 (Figure 1B) also failed to reject H0, comparing CCM and non-CCM clinic data for veterans who were active in the clinics as the implementation support year was ending (estimated log[OR]=−0.11 0.12, p=0.37; estimated OR=0.90, 95% CI=0.71–1.14).
FIGURE 1. Acute mental health hospitalization rates by quarter during implementation support (IS) and the subsequent postimplementation support year (PI)a
aThe analyses in this report compare the hospitalization rates during the postimplementation year (PI Q1 through PI Q4) in collaborative chronic care model (CCM) versus non-CCM clinic populations. A: analysis 1, hospitalization rates for the clinic populations in treatment at the beginning of the period of implementation support (CCM clinics, N=5,596; non-CCM clinics, N=46,755). B: analysis 2, hospitalization rates for the population actively in treatment in the clinics at the beginning of the postimplementation year (CCM clinics, N=4,230; non-CCM clinics, N=49,818).

Discussion

Although we saw significant differences in the mental health hospitalization rate between CCM and non-CCM clinics during the 1-year period of active implementation support, those differences did not continue in the year after implementation support ended. We are aware of no other CCM-related studies on the maintenance of clinical effects after the cessation of implementation support.
There are several possible reasons why the clinical effects seen during implementation support waned after its cessation. It is possible that CCM clinical care processes were not maintained or that the CCM clinical care processes were maintained but, for some reason, stopped working. The latter is highly unlikely, because one would have to posit that added experience with the model led to the loss of CCM skills. It is also unlikely that there was a wholesale shift in some population or system factor across each of the nine sites that rendered the CCM ineffective.
Alternatively, we speculate that the lack of maintenance of clinical effects may have been due to the lack of sustainment of CCM clinical processes (1113). For example, although our implementation strategy contained some attention to maintaining clinical processes, this attention may have been of insufficient intensity or duration, or it may not have started early enough in the implementation support process. Additionally, external facilitators had no continuing formal contact with the sites after the initial 1-year period of implementation support. There was also staff turnover in the clinics; although part of the implementation process included developing a procedure manual to assist with training, it may not have been used effectively with new staff. Furthermore, there were changes at some sites in health care leadership, which may have affected support. Moreover, changes in organizational priorities at a national level were evident across the system (e.g., growing emphasis on opiate and suicide reduction initiatives in VA national strategic plans), which made maintaining the CCM—although clearly relevant to these challenges—less of an explicit priority for leadership and clinic staff.
There are several limitations to these analyses. We were not able to collect longitudinal data on clinical processes to determine whether these processes drifted from adherence to CCM principles, as would be the case in a formal implementation sustainment study (1113). Similarly, we were not able to extend the collection of the clinical status outcome measures that were reported in the primary study to determine whether those clinical effects were maintained. Finally, data derive from experience within a single integrated, capitated U.S. health care system that treats a predominantly male population; findings may not apply to fee-for-service or other health care delivery systems.

Conclusions

These results underscore the need not to assume that, once an intervention is shown to have clinical impact, it will continue to have clinical impact in the absence of ongoing implementation support. Rather, attention to factors that will support continuation of the processes responsible for clinical effects is needed throughout the period of implementation support as well as during initial intervention development. Investigators, administrators, and clinicians should keep in mind that achieving enduring clinical impact requires the long view: although it may be difficult to get health care systems to change, it is even more difficult to keep them changed.

Supplementary Material

File (appi.ps.202000117.ds001.pdf)

References

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Coleman K, Austin BT, Brach C, et al : Evidence on the chronic care model in the new millennium. Health Aff 2009 ; 28 : 75 – 85
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Gilbody S, Bower P, Fletcher J, et al : Collaborative care for depression: a cumulative meta-analysis and review of longer-term outcomes. Arch Intern Med 2006 ; 166 : 2314 – 2321
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Miller CJ, Grogan-Kaylor A, Perron BE, et al : Collaborative chronic care models for mental health conditions: cumulative meta-analysis and metaregression to guide future research and implementation. Med Care 2013 ; 51 : 922 – 930
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Woltmann E, Grogan-Kaylor A, Perron B, et al : Comparative effectiveness of collaborative chronic care models for mental health conditions across primary, specialty, and behavioral health care settings: systematic review and meta-analysis. Am J Psychiatry 2012 ; 169 : 790 – 804
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Rossom RC, Solberg LI, Parker ED, et al : A statewide effort to implement collaborative care for depression: reach and impact for all patients with depression. Med Care 2016 ; 54 : 992 – 997
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Sederer LI, Derman M, Carruthers J, et al : The New York State Collaborative Care Initiative: 2012–2014. Psychiatr Q 2016 ; 87 : 1 – 23
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Bao Y, McGuire TG, Chan YF, et al : Value-based payment in implementing evidence-based care: the Mental Health Integration Program in Washington State. Am J Manag Care 2017 ; 23 : 48 – 53
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Bauer MS, Miller CJ, Kim B, et al : Effectiveness of implementing a collaborative chronic care model for clinician teams on patient outcomes and health status in mental health: a randomized clinical trial. JAMA Netw Open 2019 ; 2 : e190230
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Bauer MS, Miller C, Kim B, et al : Partnering with health system operations leadership to develop a controlled implementation trial. Implement Sci 2016 ; 11 : 22
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Cohen J : Statistical Power and Analysis for the Behavioral Sciences, 2nd ed. Hillsdale, NJ, Lawrence Erlbaum Associates, 1988
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Wiltsey Stirman S, Kimberly J, Cook N, et al : The sustainability of new programs and innovations: a review of the empirical literature and recommendations for future research. Implement Sci 2012 ; 7 : 17
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Lennox L, Maher L, Reed J : Navigating the sustainability landscape: a systematic review of sustainability approaches in healthcare. Implement Sci 2018 ; 13 : 27
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Information & Authors

Information

Published In

Go to Psychiatric Services
Go to Psychiatric Services
Psychiatric Services
Pages: 586 - 589
PubMed: 33730885

History

Received: 24 February 2020
Revision received: 6 May 2020
Revision received: 13 July 2020
Revision received: 20 August 2020
Accepted: 27 August 2020
Published online: 18 March 2021
Published in print: May 01, 2021

Keywords

  1. Community mental health services
  2. Veterans issues

Authors

Details

Mark S. Bauer, M.D. [email protected]
Center for Healthcare Organization and Implementation Research, and the Behavior Health Quality Enhancement Research Initiative, U.S. Department of Veterans Affairs (VA), Boston (all authors); Department of Psychiatry, Harvard Medical School, Boston (Bauer, Miller, Kim, Connolly); Department of Biostatistics, Boston University School of Medicine, Boston (Lew).
Kelly Stolzmann, M.S.
Center for Healthcare Organization and Implementation Research, and the Behavior Health Quality Enhancement Research Initiative, U.S. Department of Veterans Affairs (VA), Boston (all authors); Department of Psychiatry, Harvard Medical School, Boston (Bauer, Miller, Kim, Connolly); Department of Biostatistics, Boston University School of Medicine, Boston (Lew).
Christopher J. Miller, Ph.D.
Center for Healthcare Organization and Implementation Research, and the Behavior Health Quality Enhancement Research Initiative, U.S. Department of Veterans Affairs (VA), Boston (all authors); Department of Psychiatry, Harvard Medical School, Boston (Bauer, Miller, Kim, Connolly); Department of Biostatistics, Boston University School of Medicine, Boston (Lew).
Bo Kim, Ph.D.
Center for Healthcare Organization and Implementation Research, and the Behavior Health Quality Enhancement Research Initiative, U.S. Department of Veterans Affairs (VA), Boston (all authors); Department of Psychiatry, Harvard Medical School, Boston (Bauer, Miller, Kim, Connolly); Department of Biostatistics, Boston University School of Medicine, Boston (Lew).
Samantha L. Connolly, Ph.D.
Center for Healthcare Organization and Implementation Research, and the Behavior Health Quality Enhancement Research Initiative, U.S. Department of Veterans Affairs (VA), Boston (all authors); Department of Psychiatry, Harvard Medical School, Boston (Bauer, Miller, Kim, Connolly); Department of Biostatistics, Boston University School of Medicine, Boston (Lew).
Robert Lew, Ph.D.
Center for Healthcare Organization and Implementation Research, and the Behavior Health Quality Enhancement Research Initiative, U.S. Department of Veterans Affairs (VA), Boston (all authors); Department of Psychiatry, Harvard Medical School, Boston (Bauer, Miller, Kim, Connolly); Department of Biostatistics, Boston University School of Medicine, Boston (Lew).

Notes

Send correspondence to Dr. Bauer ([email protected]).

Competing Interests

The authors report no financial relationships with commercial interests.

Funding Information

This work was supported by VA grants QUE-15-289 and CIN-13-403.

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