Hostname: page-component-848d4c4894-p2v8j Total loading time: 0 Render date: 2024-04-30T10:10:39.426Z Has data issue: false hasContentIssue false
  • English
  • Français

Efficacy of digital CBT for insomnia to reduce depression across demographic groups: a randomized trial

Published online by Cambridge University Press:  24 May 2018

Philip Cheng ,
Annemarie I. Luik ,
Cynthia Fellman-Couture ,
Edward Peterson ,
Christine L.M. Joseph ,
Gabriel Tallent ,
Kieulinh Michelle Tran ,
Brian K. Ahmedani ,
Timothy Roehrs  and
Thomas Roth
...Show all authors
Philip Cheng*
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
Annemarie I. Luik
Affiliation:
Department of Clinical Neurosciences, University of Oxford, Oxford, UK
Cynthia Fellman-Couture
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
Edward Peterson
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
Christine L.M. Joseph
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
Gabriel Tallent
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
Kieulinh Michelle Tran
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
Brian K. Ahmedani
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
Timothy Roehrs
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
Thomas Roth
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
Christopher L. Drake
Affiliation:
Sleep Disorders and Research Center, Henry Ford Health System, Detroit, MI, USA
*
Author for correspondence: Philip Cheng, E-mail: pcheng1@hfhs.org
Get access Rights & Permissions [Opens in a new window]

Abstract

Background

Insomnia and depression are highly comorbid and mutually exacerbate clinical trajectories and outcomes. Cognitive behavioral therapy for insomnia (CBT-I) effectively reduces both insomnia and depression severity, and can be delivered digitally. This could substantially increase the accessibility to CBT-I, which could reduce the health disparities related to insomnia; however, the efficacy of digital CBT-I (dCBT-I) across a range of demographic groups has not yet been adequately examined. This randomized placebo-controlled trial examined the efficacy of dCBT-I in reducing both insomnia and depression across a wide range of demographic groups.

Methods

Of 1358 individuals with insomnia randomized, a final sample of 358 were retained in the dCBT-I condition and 300 in the online sleep education condition. Severity of insomnia and depression was examined as a dependent variable. Race, socioeconomic status (SES; household income and education), gender, and age were also tested as independent moderators of treatment effects.

Results

The dCBT-I condition yielded greater reductions in both insomnia and depression severity than sleep education, with significantly higher rates of remission following treatment. Demographic variables (i.e. income, race, sex, age, education) were not significant moderators of the treatment effects, suggesting that dCBT-I is comparably efficacious across a wide range of demographic groups. Furthermore, while differences in attrition were found based on SES, attrition did not differ between white and black participants.

Conclusions

Results provide evidence that the wide dissemination of dCBT-I may effectively target both insomnia and comorbid depression across a wide spectrum of the population.

Keywords

CBT-IdepressioninsomniaInternetClinical Trial Registry: clinicaltrials.govClinical Trial Identifier: NCT02988375
Type
Original Articles
Information
Psychological Medicine , Volume 49 , Issue 3 , February 2019 , pp. 491 - 500
Copyright
Copyright © Cambridge University Press 2018 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

American Psychiatric Association (2013) Diagnostic and Statistical Manual of Mental Disorders (DSM-5®). Arlington, VA: American Psychiatric Pub.Google Scholar
Armstrong, K, Ravenell, KL, McMurphy, S and Putt, M (2007) Racial/ethnic differences in physician distrust in the United States. American Journal of Public Health 97, 12831289.Google Scholar
Baglioni, C, Battagliese, G, Feige, B, Spiegelhalder, K, Nissen, C, Voderholzer, U, Lombardo, C and Riemann, D (2011) Insomnia as a predictor of depression: a meta-analytic evaluation of longitudinal epidemiological studies. Journal of Affective Disorders 135, 1019.Google Scholar
Batterham, PJ, Christensen, H, Mackinnon, AJ, Gosling, JA, Thorndike, FP, Ritterband, LM, Glozier, N and Griffiths, KM (2017) Trajectories of change and long-term outcomes in a randomised controlled trial of Internet-based insomnia treatment to prevent depression. British Journal of Psychiatry Open 3, 228235.Google Scholar
Bernstein, IH, Rush, AJ, Trivedi, MH, Hughes, CW, Macleod, L, Witte, BP, Jain, S, Mayes, TL and Emslie, GJ (2010) Psychometric properties of the Quick Inventory of Depressive Symptomatology in adolescents. International Journal of Methods in Psychiatric Research 19, 185194.Google Scholar
Brasure, M, Fuchs, E, MacDonald, R, Nelson, VA, Koffel, E, Olson, CM, Khawaja, IS, Diem, S, Carlyle, M, Wilt, TJ, Ouellette, J, Butler, M and Kane, RL (2016) Psychological and behavioral interventions for managing insomnia disorder: an evidence report for a clinical practice guideline by the American College of Physicians. Annals of Internal Medicine 165, 113.Google Scholar
Brown, ES, Murray, M, Carmody, TJ, Kennard, BD, Hughes, CW, Khan, DA and Rush, AJ (2008) The Quick Inventory of Depressive Symptomatology-Self-report: a psychometric evaluation in patients with asthma and major depressive disorder. Annals of Allergy, Asthma & Immunology 100, 433438.Google Scholar
Christensen, H, Griffiths, KM and Farrer, L (2009) Adherence in Internet interventions for anxiety and depression: systematic review. Journal of Medical Internet Research 11, e13.Google Scholar
Christensen, H, Batterham, PJ, Gosling, JA, Ritterband, LM, Griffiths, KM, Thorndike, FP, Glozier, N, O'Dea, B, Hickie, IB and Mackinnon, AJ (2016) Effectiveness of an online insomnia program (SHUTi) for prevention of depressive episodes (the GoodNight Study): a randomised controlled trial. The Lancet Psychiatry 3, 333341.Google Scholar
Collins, LM, Nahum-Shani, I and Almirall, D (2014) Optimization of behavioral dynamic treatment regimens based on the sequential, multiple assignment, randomized trial (SMART). Clinical Trials 11, 426434.Google Scholar
Cooper, AA and Conklin, LR (2015) Dropout from individual psychotherapy for major depression: a meta-analysis of randomized clinical trials. Clinical Psychology Review 40, 5765.Google Scholar
Corbie-Smith, G, Thomas, SB and George, DMMS (2002) Distrust, race, and research. Archives of Internal Medicine 162, 24582463.Google Scholar
DeMaris, A (1989) Attrition in batterers’ counseling: the role of social and demographic factors. Social Service Review 63, 142154.Google Scholar
Espie, CA, Macmahon, KM, Kelly, H-L, Broomfield, NM, Douglas, NJ, Engleman, HM, McKinstry, B, Morin, CM, Walker, A and Wilson, P (2007) Randomized clinical effectiveness trial of nurse-administered small-group cognitive behavior therapy for persistent insomnia in general practice. Sleep 30, 574584.Google Scholar
Espie, CA, Kyle, SD, Williams, C, Ong, JC, Douglas, NJ, Hames, P and Brown, JS (2012) A randomized, placebo-controlled trial of online cognitive behavioral therapy for chronic insomnia disorder delivered via an automated media-rich web application. Sleep 35, 769781.Google Scholar
Espie, CA, Luik, AI, Cape, J, Drake, CL, Siriwardena, AN, Ong, JC, Gordon, C, Bostock, S, Hames, P and Nisbet, M (2016) Digital cognitive behavioural therapy for insomnia versus sleep hygiene education: the impact of improved sleep on functional health, quality of life and psychological well-being. Study protocol for a randomised controlled trial. Trials 17, 257.Google Scholar
Fields, BG, Schutte-Rodin, S, Perlis, ML and Myers, M (2013) Master's-level practitioners as cognitive behavioral therapy for insomnia providers: an underutilized resource. Journal of Clinical Sleep Medicine: JCSM 9, 1093.Google Scholar
Flores, G, Portillo, A, Lin, H, Walker, C, Fierro, M, Henry, M and Massey, K (2017) A successful approach to minimizing attrition in racial/ethnic minority, low-income populations. Contemporary Clinical Trials Communications 5, 168174.Google Scholar
Freeman, D, Sheaves, B, Goodwin, GM, Yu, L-M, Nickless, A, Harrison, PJ, Emsley, R, Luik, AI, Foster, RG, Wadekar, V, Hinds, C, Gumley, A, Jones, R, Lightman, S, Jones, S, Bentall, R, Kinderman, P, Rowse, G, Brugha, T, Blagrove, M, Gregory, AM, Fleming, L, Walklet, E, Glazebrook, C, Davies, EB, Hollis, C, Haddock, G, John, B, Coulson, M, Fowler, D, Pugh, K, Cape, J, Moseley, P, Brown, G, Hughes, C, Obonsawin, M, Coker, S, Watkins, E, Schwannauer, M, MacMahon, K, Siriwardena, AN and Espie, CA (2017) The effects of improving sleep on mental health (OASIS): a randomised controlled trial with mediation analysis. The Lancet Psychiatry 4, 749758.Google Scholar
Hajak, G, Petukhova, M, Lakoma, MD, Coulouvrat, C, Roth, T, Sampson, NA, Shahly, V, Shillington, AC, Stephenson, JJ, Walsh, JK and others (2011) Days-out-of-role associated with insomnia and comorbid conditions in the America Insomnia Survey. Biological Psychiatry 70, 10631073.Google Scholar
Johnson, S, Price, M, Mehta, N and Anderson, PL (2014) Stereotype confirmation concerns predict dropout from cognitive behavioral therapy for social anxiety disorder. BMC Psychiatry 14, 233.Google Scholar
Kennedy, BR, Mathis, CC and Woods, AK (2007) African Americans and their distrust of the health care system: healthcare for diverse populations. Journal of Cultural Diversity; Lisle 14, 5660.Google Scholar
Kessler, RC, Berglund, PA, Coulouvrat, C, Hajak, G, Roth, T, Shahly, V, Shillington, AC, Stephenson, JJ and Walsh, JK (2011) Insomnia and the performance of US workers: results from the America insomnia survey. Sleep 34, 11611171.Google Scholar
Lange, A, Rietdijk, D, Hudcovicova, M and Others (2005) Interapy: a controlled randomized trial of the standardized treatment of posttraumatic stress through the Internet. Year Book of Psychiatry & Applied Mental Health 2005, 174.Google Scholar
Li, SX, Lam, SP, Yu, MW, Zhang, J and Wing, YK (2010) Nocturnal sleep disturbances as a predictor of suicide attempts among psychiatric outpatients: a clinical, epidemiologic, prospective study. The Journal of Clinical Psychiatry 71, 14401446.Google Scholar
Lustberg, L and Reynolds, CF III (2000) Depression and insomnia: questions of cause and effect. Sleep Medicine Reviews 4, 253262.Google Scholar
Mahowald, M (2007) Book review sleep disorders and sleep deprivation: an unmet public health problem by the committee on sleep medicine and research. New England Journal of Medicine 356, 199200.Google Scholar
Manber, R, Edinger, JD, Gress, JL, San Pedro-Salcedo, MG, Kuo, TF and Kalista, T (2008) Cognitive behavioral therapy for insomnia enhances depression outcome in patients with comorbid major depressive disorder and insomnia. Sleep 31, 489495.Google Scholar
Manber, R, Bernert, RA, Suh, S, Nowakowski, S, Siebern, AT and Ong, JC (2011) CBT for insomnia in patients with high and low depressive symptom severity: adherence and clinical outcomes. Journal of Clinical Sleep Medicine 7, 645652.Google Scholar
McCall, WV, Blocker, JN, D'Agostino, R, Kimball, J, Boggs, N, Lasater, B and Rosenquist, PB (2010) Insomnia severity is an indicator of suicidal ideation during a depression clinical trial. Sleep Medicine 11, 822827.Google Scholar
Melville, KM, Casey, LM and Kavanagh, DJ (2010) Dropout from Internet-based treatment for psychological disorders. British Journal of Clinical Psychology 49, 455471.Google Scholar
Möller-Leimkühler, AM (2002) Barriers to help-seeking by men: a review of sociocultural and clinical literature with particular reference to depression. Journal of Affective Disorders 71, 19.Google Scholar
Morin, CM, Belleville, G, Bélanger, L and Ivers, H (2011) The Insomnia Severity Index: psychometric indicators to detect insomnia cases and evaluate treatment response. Sleep 34, 601608.Google Scholar
Murphy, EJ, Kassem, L, Chemerinski, A, Rush, AJ, Laje, G and McMahon, FJ (2013) Retention and attrition among African Americans in the STAR*D study: what causes research volunteers to stay or stray? Depression and Anxiety 30, 11371144.Google Scholar
National Institutes of Health (2005) National Institutes of Health State-of-the-Science Conference statement: management of menopause-related symptoms. Annals of Internal Medicine 142, 1003.Google Scholar
Pigeon, WR, Pinquart, M and Conner, K (2012) Meta-analysis of sleep disturbance and suicidal thoughts and behaviors. The Journal of Clinical Psychiatry 73, e11607.Google Scholar
Qaseem, A, Kansagara, D, Forciea, MA, Cooke, M and Denberg, TD (2016) Management of chronic insomnia disorder in adults: a clinical practice guideline from the American College of Physicians Management of Chronic Insomnia Disorder in Adults. Annals of Internal Medicine 165, 125133.Google Scholar
Ritterband, LM, Thorndike, FP, Gonder-Frederick, LA, Magee, JC, Bailey, ET, Saylor, DK and Morin, CM (2009) Efficacy of an Internet-based behavioral intervention for adults with insomnia. Archives of General Psychiatry 66, 692698.Google Scholar
Ritterband, LM, Thorndike, FP, Ingersoll, KS, Lord, HR, Gonder-Frederick, L, Frederick, C, Quigg, MS, Cohn, WF and Morin, CM (2017) Effect of a web-based cognitive behavior therapy for insomnia intervention with 1-year follow-up: a randomized clinical trial. JAMA Psychiatry 74, 6875.Google Scholar
Rosenthal, D and Frank, JD (1958) The fate of psychiatric clinic outpatients assigned to psychotherapy. Journal of Nervous 127, 330343.Google Scholar
Roth, T and Roehrs, T (2003) Insomnia: epidemiology, characteristics, and consequences. Clinical Cornerstone 5, 515.Google Scholar
Roth, T, Soubrane, C, Titeux, L and Walsh, JK (2006) Efficacy and safety of zolpidem-MR: a double-blind, placebo-controlled study in adults with primary insomnia. Sleep Medicine 7, 397406.Google Scholar
Savard, M-H, Savard, J, Simard, S and Ivers, H (2005) Empirical validation of the Insomnia Severity Index in cancer patients. Psycho-Oncology 14, 429441.Google Scholar
Ström, L, Pettersson, R and Andersson, G (2004) Internet-based treatment for insomnia: a controlled evaluation. Journal of Consulting and Clinical Psychology 72, 113.Google Scholar
Sue, S, McKinney, H, Allen, D and Hall, J (1974) Delivery of community mental health services to black and white clients. Journal of Consulting and Clinical Psychology 42, 794.Google Scholar
Taylor, D and Pruiksma, K (2014) Cognitive and behavioural therapy for insomnia (CBT-I) in psychiatric populations: a systematic review. vol 26.Google Scholar
Thorndike, FP, Ritterband, LM, Saylor, DK, Magee, JC, Gonder-Frederick, LA and Morin, CM (2011) Validation of the insomnia severity index as a web-based measure. Behavioral Sleep Medicine 9, 216223.Google Scholar
Turner, EH, Matthews, AM, Linardatos, E, Tell, RA and Rosenthal, R (2008) Selective publication of antidepressant trials and its influence on apparent efficacy. New England Journal of Medicine 358, 252260.Google Scholar
UNESCO Institute for Statistics (2012) International Standard Classification of Education: ISCED 2011. Montreal, Quebec: UIS.Google Scholar
US Census Bureau (2016) Preliminary Estimate of Weighted Average Poverty Thresholds for 2016.Google Scholar
Vincent, NK and Hameed, H (2003) Relation between adherence and outcome in the group treatment of insomnia. Behavioral Sleep Medicine 1, 125139.Google Scholar
Watson, HJ, Levine, MD, Zerwas, SC, Hamer, RM, Crosby, RD, Sprecher, CS, O'Brien, A, Zimmer, B, Hofmeier, SM, Kordy, H, Moessner, M, Peat, CM, Runfola, CD, Marcus, MD and Bulik, CM (2017) Predictors of dropout in face-to-face and Internet-based cognitive-behavioral therapy for bulimia nervosa in a randomized controlled trial. International Journal of Eating Disorders 50, 569577.Google Scholar
Wierzbicki, M and Pekarik, G (1993) A meta-analysis of psychotherapy dropout. Professional Psychology: Research and Practice 24, 190195.Google Scholar
Yamamoto, J, James, QC, Bloombaum, M and Hattem, J (1967) Racial factors in patient selection. The American Journal of Psychiatry 124, 630636.Google Scholar
Ybarra, ML and Suman, M (2006) Help seeking behavior and the Internet: a national survey. International Journal of Medical Informatics 75, 2941.Google Scholar
Yeung, A, Feldman, G, Pedrelli, P, Hails, K, Fava, M, Reyes, T and Mundt, JC (2012) The Quick Inventory of Depressive Symptomatology, clinician rated and self-report: a psychometric assessment in Chinese Americans with major depressive disorder. The Journal of Nervous and Mental Disease 200, 712.Google Scholar
Yeung, WF, Chung, K-F, Ho, F and Ho, L-M (2015) Predictors of dropout from Internet-based self-help cognitive behavioral therapy for insomnia. Behaviour Research and Therapy 73, 1924.Google Scholar
Zachariae, R, Lyby, MS, Ritterband, LM and O'Toole, MS (2016) Efficacy of Internet-delivered cognitive-behavioral therapy for insomnia – a systematic review and meta-analysis of randomized controlled trials. Sleep Medicine Reviews 30, 110.Google Scholar
Zammit, GK, Weiner, J, Damato, N, Sillup, GP and McMillan, CA (1999) Quality of life in people with insomnia. Sleep: Journal of Sleep Research & Sleep Medicine 22(Suppl 2), S379385.Google Scholar