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Referencias

References to studies excluded from this review

Ir a:

Abe 2014 {published data only}

Abe M, Kanna M. Evaluation of a support program for siblings and parents of children with disabilities. Japanese Journal of Special Education 2014;52(5):349‐58. [DOI: http://doi.org/10.6033/tokkyou.52.349]CENTRAL

Aerts 2011 {published data only (unpublished sought but not used)}

Aerts C. Psychiatric family treatment autism (PFA): hope and reality for families with ASD. European Child & Adolescent Psychiatry 2011;20(Suppl 1):S25. [DOI: 10.1007/s00787‐011‐0181‐5]CENTRAL
Spain D. Family therapy for ASD: Cochrane review [personal communication]. Email to: L Kannerhuis 4 May 2016. CENTRAL

Affleck 1982 {published data only}

Affleck G, McGrade BJ, McQueeney M, Allen D. Promise of relationship‐focused early intervention in developmental disabilities. Journal of Special Education 1982;16(4):413‐30. [DOI: 10.1177/002246698201600405]CENTRAL

Allen 1980 {published data only}

Allen DA, others. Relationship‐focused intervention with high‐risk infants: first year findings. 88th Annual Convention of the American Psychological Association; 1980 September 1‐5; Montreal, Quebec, Canada. 1980. [ERIC Number: ED207319]CENTRAL

Alonim 2004 {published data only}

Alonim H. The Mifne Method — Israel. Early intervention in the treatment of autism/PDD: a therapeutic programme for the nuclear family and their child. Journal of Child and Adolescent Mental Health 2004;16(1):39–43. [DOI: 10.2989/17280580409486562; PUBMED: 25860897]CENTRAL

Alquraini 2015 {published data only}

Alquraini T, Mahoney G. An exploratory investigation of the role of parenting stress in relationship focused intervention. Journal of Applied Research in Intellectual Disabilities 2015;28(6):536–47. [DOI: 10.1111/jar.12148]CENTRAL

Altiere 2009 {published data only}

Altiere MJ, Von Kluge S. Family functioning and coping behaviours in parents of children with autism. Journal of Child and Family Studies 2009;18:83‐92. [DOI: 10.1007/s10826‐008‐9209‐y]CENTRAL

Bennett 1983 {published data only}

Bennett T, Algozzine B. Effects of family‐oriented intervention with young handicapped children on indicators of parental stress. files.eric.ed.gov/fulltext/ED276171.pdf (accessed 3 May 2017). CENTRAL

Bennett 1986 {published data only}

Bennett T, Algozzine B. Effects of family‐oriented intervention on home environment variables with young handicapped children. files.eric.ed.gov/fulltext/ED280209.pdf (accessed 3 May 2017). CENTRAL

Brockman 2016 {published data only}

Brockman M, Hussain K, Sanchez B, Turns B. Managing child behavior problems in children with autism spectrum disorders: utilizing structural and solution focused therapy with primary caregivers. American Journal of Family Therapy 2016;44(1):1‐10. [DOI: 10.1080/01926187.2015.1099414]CENTRAL

Casenhiser 2011 {published data only}

Casenhiser DM, Shanker SG, Stieben J. Learning through interaction in children with autism: preliminary data from a social‐communication‐based intervention. Autism 2011;17(2):220‐41. [DOI: 10.1177/1362361311422052]CENTRAL

Chen 2006 {published data only}

Chen JM, Zhang JS. Short‐term hospitalization individualization therapy versus family therapy in treatment of childhood autism. Chinese Journal of Clinical Rehabilitation 2006;10(28):108‐9. CENTRAL

Chou 1992 {published data only}

Chou YC. Developing and testing an intervention program for assisting Chinese families in Taiwan who have a member with developmental disabilities. University of Minnesota, Dissertation Abstracts International1992; Vol. 53, issue 9‐A. CENTRAL

Clancy 1972 {published data only}

Clancy HG, McBride G. Therapy of childhood autism in the family. Current Psychiatric Therapies 1972;12:1‐8. CENTRAL

Coleman 2015 {published data only}

Coleman CC. Use psychoeducational family therapy to help families cope with autism. Current Psychiatry 2015;14(4):e1. CENTRAL

Coogle 2016 {published data only}

Coogle CG, Hanline MF. An exploratory study of family‐centred help‐giving practices in early intervention: families of young children with autism spectrum disorder. Child & Family Social Work 2016;21(2):249‐60. [DOI: 10.1111/cfs.12148]CENTRAL

Davis 1991 {published data only}

Davis H, Rushton R. Counselling and supporting parents of children with developmental delay: a research evaluation. Journal of Mental Deficiency Research 1991;35(2):89‐112. [DOI: 10.1111/j.1365‐2788.1991.tb01039.x]CENTRAL

Drahota 2008 {published data only}

Drahota AM. Intervening with independent daily living skills for high‐functioning children with autism and concurrent anxiety disorders. University of California, Dissertation Abstracts International2008; Vol. 69, issue 7‐A. CENTRAL

Estreicher 1982 {published data only}

Estreicher DG. The development of family therapy techniques for families with developmentally disabled children. The Ohio State University, University Microfilms International1982. CENTRAL

George 1988 {published data only}

George JD. Therapeutic intervention for grandparents and extended family of children with developmental delays. Mental Retardation 1988;26(6):369‐75. CENTRAL

Goll‐Kopka 2009 {published data only (unpublished sought but not used)}

Goll‐Kopka A. Multi‐family therapy with families of children with developmental delays, chronic illness and disabilities: 'The Frankfurt Multi‐family Therapy Model' [Multi‐Familientherapie (MFT) mit Familien von entwicklungsbeeintrachtigten, chronisch kranken und behinderten Kindern: 'Das Frankfurter MFT‐Modell']. Praxis Kinderpsychologie und Kinderpsychiatrie 2009;58:716‐32. [DOI: 10.13109/prkk.2009.58.9.716; PUBMED: 20066856]CENTRAL
Spain D. Family therapy for ASD: Cochrane review [personal communication]. Email to: A Goll‐Kopka 4 May 2016. CENTRAL

Heller 2015 {published data only}

Heller T, Gibbons HM, Fisher D. Caregiving and family support interventions: crossing networks of aging and developmental disabilities. Intellectual and Developmental Disabilities 2015;53(5):329–45. [DOI: 10.1352/1934‐9556‐53.5.329; PUBMED: 26458169]CENTRAL

Helps 2016 {published data only}

Helps S. Systemic psychotherapy with families where someone has an autism spectrum condition. NeuroRehabilitation 2016;38(3):223–30. [DOI: 10.3233/NRE‐161314; PMC4927906]CENTRAL

Johnson 2012 {published data only}

Johnson J. Treating couples raising children on the autism spectrum: a marriage‐friendly approach. Contemporary Family Therapy 2012;34(4):555‐65. [DOI: 10.1007/s10591‐012‐9213‐7]CENTRAL

Keen 2010 {published data only}

Keen D, Couzens D, Muspratt S, Rodger S. The effects of a parent‐focused intervention for children with a recent diagnosis of autism spectrum disorder on parenting stress and competence. Research in Autism Spectrum Disorders 2010;4(2):229‐41. [DOI: 10.1016/j.rasd.2009.09.009]CENTRAL

Lordi 1964 {published data only}

Lordi WM, Silverberg J. Infantile autism: a family approach. International Journal of Group Psychotherapy 1964;14(1):360‐5. [PUBMED: 14182687]CENTRAL

NCT01919970 {published data only}

NCT01919970. Exposure‐focused family‐based CBT for youth with ASD and comorbid anxiety. clinicaltrials.gov/ct2/show/NCT01919970 (first received 4 December 2015). CENTRAL

Pickard 2017 {published data only}

Pickard KE, Ingersoll BR. Using the Double ABCX Model to integrate services for families of children with ASD. Journal of Child and Family Studies 2017;26(3):810‐23. [DOI: 10.1007/s10826‐016‐0605‐4]CENTRAL

Pillay 2010 {published data only}

Pillay M, Alderson‐Day B, Wright B, Williams C, Urwin B. ASCEND intervention for parents of children with autism. Brown University Child and Adolescent Behavior Letter 2010;26(6):3‐4. [DOI: 10.1002/cbl.20117]CENTRAL

Roux 2013 {published data only}

Roux G, Sofronoff K, Sanders M. A randomized controlled trial of group stepping stones triple P: a mixed‐disability trial. Family Process 2013;52(3):411‐24. [DOI: 10.1111/famp.12016]CENTRAL

Shank 1991 {published data only}

Shank MS. Cooperative family problem‐solving: An intervention for single‐parent families with a child who has a disability. University of Kansas, ProQuest Dissertations Publishing1991. CENTRAL

Siller 2013 {published data only}

Siller M, Hutman T, Sigman M. A parent‐mediated intervention to increase responsive parental behaviors and child communication in children with ASD: a randomized clinical trial. Journal of Autism and Developmental Disorders 2013;43(3):540‐55. [DOI: 10.1007/s10803‐012‐1584‐y]CENTRAL

Smock Jordan 2016 {published data only}

Smock Jordan S, Turns B. Utilizing solution‐focused brief therapy with families living with autism spectrum disorder. Journal of Family Psychotherapy 2016;27(3):155‐70. [DOI: 10.1080/08975353.2016.1199766]CENTRAL

Solomon 2008 {published data only}

Solomon M, Ono M, Timmer S, Goodlin‐Jones B. The effectiveness of parent‐child interaction therapy for families of children on the autism spectrum. Journal of Autism and Developmental Disorders 2008;38(9):1767‐76. [DOI: 10.1007/s10803‐008‐0567‐5; PUBMED: 18401693]CENTRAL

Wagner 2014 {published data only (unpublished sought but not used)}

Wagner DV, Borduin CM, Kanne SM, Mazurek MO, Farmer JE, Brown RMA. Multisystemic therapy for disruptive behavior problems in youths with autism spectrum disorders: a progress report. Journal of Marital and Family Therapy 2014;40(3):319‐31. [DOI: 10.1111/jmft.12012]CENTRAL

Wang 2008 {published data only}

Wang P. Effects of a parent training program on the interactive skills of parents of children with autism in China. Journal of Policy and Practice in Intellectual Disabilities 2008;5(2):96‐104. [DOI: 10.1111/j.1741‐1130.2008.00154.x]CENTRAL

Whittingham 2009 {published data only}

Whittingham K, Sofronoff K, Sheffield J, Sanders MR. Stepping Stones Triple P: an RCT of a parenting program with parents of a child diagnosed with an autism spectrum disorder. Journal of Abnormal Child Psychology 2009;37(4):469‐80. [DOI: 10.1007/s10802‐008‐9285‐x; PUBMED: 19023654]CENTRAL

References to studies awaiting assessment

Ir a:

Spain 2017 [pers comm] {published data only}

Spain D. Family therapy for ASD: Cochrane review [personal communication]. Email to: C Borduin 15 July 2016. CENTRAL
Spain D. Family therapy for ASD: Cochrane review [personal communication]. Email to: C Borduin 10 January 2017. CENTRAL

APA 2013

American Psychiatric Association. Diagnostic and Statistical Manual of Mental Disorders. 5th Edition. Washington, DC: APA, 2013.

Attkisson 1982

Attkisson CC, Zwick R. The client satisfaction questionnaire: psychometric properties and correlations with service utilization and psychotherapy outcome. Evaluation and Program Planning 1982;5(3):233‐7. [PUBMED: 10259963]

Banda 2015

Banda DR. Review of sibling interventions with children with autism. Education and Training in Autism and Developmental Disabilities 2015;50(3):303‐15.

Brugha 2011

Brugha TS, McManus S, Bankart J, Scott F, Purdon S, Smith J, et al. Epidemiology of autism spectrum disorders in adults in the community in England. Archives of General Psychiatry 2011;68(5):459‐65. [DOI: 10.1001/archgenpsychiatry.2011.38]

Butler 2008

Butler JF. The family diagram and genogram: comparisons and contrasts. American Journal of Family Therapy 2008;36(3):169‐80. [DOI: 10.1080/01926180701291055]

Cadman 2012

Cadman T, Eklund H, Howley D, Hayward H, Clarke H, Findon J, et al. Caregiver burden as people with autism spectrum disorder and attention‐deficit/hyperactivity disorder transition into adolescence and adulthood in the United Kingdom. Journal of the American Academy of Child and Adolescent Psychiatry 2012;51(9):879‐88. [PUBMED: 22917201]

Carr 1998

Carr A. Michael White's narrative therapy. Contemporary Family Therapy 1998;20(4):485‐503. [DOI: 10.1023/A:1021680116584]

Carr 2009

Carr A. The effectiveness of family therapy and systemic interventions for child‐focused problems. Journal of Family Therapy 2009;31(1):3‐45. [DOI: 10.1111/j.1467‐6427.2008.00451.x]

Constantino 2003

Constantino JN, Davis SA, Todd RD, Schindler MK, Gross MM, Brophy SL, et al. Validation of a brief quantitative measure of autistic traits: comparison of the Social Responsiveness Scale with the Autism Diagnositc Interview‐Revised. Journal of Autism and Developmental Disorders 2003;33(4):427‐33. [PUBMED: 12959421]

Cridland 2014

Cridland EK, Jones SC, Magee CA, Caputi P. Family‐focused autism spectrum disorder research: a review of the utility of family systems approaches. Autism 2014;18(3):213‐22. [DOI: 10.1177/1362361312472261]

Da Paz 2017

Da Paz NS, Wallander JL. Interventions that target improvements in mental health for parents of children with autism spectrum disorders: A narrative review. Clinical Psychology Review 2017;51:1‐14.

Dababnah 2016

Dababnah S, Parish SL. A Comprehensive Literature Review of Randomized Controlled Trials for Parents of Young Children with Autism Spectrum Disorder. Journal of Evidence‐Informed Social Work 2016;13(3):277‐92.

Dallos 2010

Dallos R, Draper R. An Introduction to Family Therapy: Systematic Theory and Practice. 3rd Edition. Milton Keynes: Open University Press, 2010.

Deeks 2011

Deeks JJ, Higgins JPT, Altman DG (editors). Chapter 9: Analysing data and undertaking meta‐analyses. In: Higgins JP, Green S, (editors). Cochrane Handbook for Systematic Reviews of Interventions Version 5.1.0 (updated March 2011). The Cochrane Collaboration, 2011. Available from handbook.cochrane.org.

Firth 2013

Firth I, Dryer R. The predictors of distress in parents of children with autism spectrum disorder. Journal of Intellectual & Developmental Disability 2013;38(2):163‐71. [PUBMED: 23509963]

Fletcher‐Watson 2014

Fletcher‐Watson S, McConnell F, Manola E, McConachie H. Interventions based on the Theory of Mind cognitive model for autism spectrum disorder (ASD). Cochrane Database of Systematic Reviews 2014, Issue 3. [DOI: 10.1002/14651858.CD008785.pub2]

Ghaziuddin 2002

Ghaziuddin M, Ghaziuddin N, Greden J. Depression in persons with autism: implications for research and clinical care. Journal of Autism and Developmental Disorders 2002;32(4):299‐306. [PUBMED: 12199134]

Giallo 2013

Giallo R, Wood CE, Jellett R, Porter R. Fatigue, wellbeing and parental self‐efficacy in mothers of children with an autism spectrum disorder. Autism 2013;17(4):465‐80. [PUBMED: 21788255]

Gingerich 2013

Gingerich WJ, Peterson LT. Effectiveness of solution‐focused brief therapy: a systematic qualitative review of controlled outcome studies. Research on Social Work Practice 2013;23(3):266‐83. [DOI: 10.1177/1049731512470859]

Goepfert 2015

Goepfert E, Mulé C, von Hahn E, Visco Z, Siegel M. Family System Interventions for Families of Children with Autism Spectrum Disorder. Child and Adolescent Psychiatric Clinics of North America 2015;24(3):571‐83.

Goldenberg 2012

Goldenberg H, Goldenberg I. Family Therapy: An Overview. 8th Edition. Belmont: Brooks/Cole Cengage Learning, 2012.

Gray 2014

Gray KM, Keating CM, Taffe JR, Brereton AV, Einfeld SL, Reardon TC, et al. Adult outcomes in autism: community inclusion and living skills. Journal of Autism and Developmental Disorders 2014 June 11 [Epub ahead of print]. [DOI: 10.1007/s10803‐014‐2159‐x]

Hallmayer 2011

Hallmayer J, Cleveland S, Torres A, Phillips J, Cohen B, Torigoe T, et al. Genetic heritability and shared environmental factors among twin pairs with autism. Archives of General Psychiatry 2011;68(11):1095‐102. [DOI: 21727249]

Hartley 2011

Hartley SL, Barker ET, Seltzer MM, Greenberg JS, Floyd FJ. Marital satisfaction and parenting experiences of mothers and fathers of adolescents and adults with autism. American Association on Intellectual and Developmental Disabilities 2011;116(1):81‐95. [DOI: 10.1352/1944‐7558‐116.1.81; PMC3059595; PUBMED: 21291312]

Hastings 2014

Hastings RP, Petalas MA. Self‐reported behaviour problems and sibling relationship quality by siblings of children with autism spectrum disorder. Child: Care, Health and Development 2014;40(6):833‐9. [DOI: 10.1111/cch.12131]

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Hayes H. A re‐introduction to family therapy clarification of three schools. Australian and New Zealand Journal of Family Therapy 1991;12(1):27‐43. [DOI: 10.1002/j.1467‐8438.1991.tb00837.x]

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Higgins JPT, Altman DG, Sterne JAC. Chapter 8: Assessing risk of bias in included studies. In: Higgins JP, Green S (editors). Cochrane Handbook for Systematic Reviews of Interventions Version 5.1.0 (updated March 2011). The Cochrane Collaboration, 2011. Available from handbook.cochrane.org.

Higgins 2011b

Higgins JPT, Deeks JJ, Altman DG. Chapter 16: Special topics in statistics. In: Higgins JP, Green S (editors). Cochrane Handbook for Systematic Reviews of Interventions Version 5.1.0 (updated March 2011). The Cochrane Collaboration, 2011. Available from handbook.cochrane.org.

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Higgins JPT, Deeks JJ. Chapter 7: Selecting studies and collecting data. In: Higgins JP, Green S (editors). Cochrane Handbook for Systematic Reviews of Interventions Version 5.1.0 (updated March 2011). The Cochrane Collaboration, 2011. Available from handbook.cochrane.org.

Hoefman 2014

Hoefman R, Payakachat N, Van Exel J, Kuhlthau K, Kovacs E, Pyne J, et al. Caring for a child with autism spectrum disorder and parents' quality of life: application of the CarerQol. Journal of Autism and Developmental Disorders 2014;44(8):1933‐45. [DOI: 10.1007/s10803‐014‐2066‐1]

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Hofvander B, Delorme R, Chaste P, Nydén A, Wentz E, Ståhlberg O, et al. Psychiatric and psychosocial problems in adults with normal‐intelligence autism spectrum disorders. BMC Psychiatry 2009;9:35. [DOI: 10.1186/1471‐244X‐9‐35]

Howlin 2013

Howlin P, Moss P, Savage S, Rutter M. Social outcomes in mid‐ to later adulthood among individuals diagnosed with autism and average nonverbal IQ as children. Journal of the American Academy of Child and Adolescent Psychiatry 2013;52(6):572‐81.e1. [PUBMED: 23702446]

Joshi 2013

Joshi G, Wozniak J, Petty C, Martelon MK, Fried R, Bolfek A, et al. Psychiatric comorbidity and functioning in a clinically referred population of adults with autism spectrum disorders: a comparative study. Journal of Autism and Developmental Disorders 2013;43(6):1314‐25. [PUBMED: 23076506]

Karst 2012

Karst JS, Van Hecke AV. Parent and family impact of autism spectrum disorders: a review and proposed model for intervention and evaluation. Clinical Child and Family Psychology Review 2012;15(3):247‐77. [PUBMED: 22869324]

Kaslow 2012

Kaslow NJ, Broth MR, Smith CO, Collins MH. Family‐based interventions for child and adolescent disorders. Journal of Marital and Family Therapy 2012;38(1):82‐100. [DOI: 10.1111/j.1752‐0606.2011.00257.x; PUBMED: 22283382]

Lang 2010

Lang R, Regester A, Lauderdale S, Ashbaugh K, Haring A. Treatment of anxiety in autism spectrum disorders using cognitive behaviour therapy: a systematic review. Developmental Neurorehabilitation 2010;13(1):53‐63. [PUBMED: 20067346]

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Levy A, Perry A. Outcomes in adolescents and adults with autism: a review of the literature. Research in Autism Spectrum Disorders 2011;5(4):1271‐82. [DOI: 10.1016/j.rasd.2011.01.023]

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Lichtenstein P, Carlström E, Råstam M, Gillberg C, Anckarsäter H. The genetics of autism spectrum disorders and related neuropsychiatric disorders in childhood. American Journal of Psychiatry 2010;167(11):1357‐63. [PUBMED: 20686188]

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Lord C, Rutter M, Lecouteur A. Autism Diagnostic Interview‐Revised: a revised version of the diagnostic interview for caregivers of individuals with possible pervasive developmental disorders. Journal of Autism and Developmental Disorders 1994;24(5):659‐85. [PUBMED: 7814313]

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Lundström S, Haworth CMA, Carlström E, Gillberg C, Mill J, Råstam M, et al. Trajectories leading to autism spectrum disorders are affected by paternal age: findings from two nationally representative twin studies. Journal of Child Psychology and Psychiatry, and Allied Disciplines 2010;51(7):850‐6. [PUBMED: 20214699]

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Magiati I, Tay XW, Howlin P. Cognitive, language, social and behavioural outcomes in adults with autism spectrum disorders: a systematic review of longitudinal follow‐up studies in adulthood. Clinical Psychology Review 2014;34(1):73‐86. [PUBMED: 24424351]

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National Institute for Health and Clinical Excellence (NICE). Autism: Recognition, Referral, Diagnosis and Management of Adults on the Autism Spectrum. London: NICE, 2012.

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Oono IP, Honey EJ, McConachie H. Parent‐mediated early intervention for young children with autism spectrum disorders (ASD). Cochrane Database of Systematic Reviews 2013, Issue 4. [DOI: 10.1002/14651858.CD009774.pub2]

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References to other published versions of this review

Ir a:

Spain 2015c

Spain D, Sin J, Paliokosta E, Furuta M, Chalder T, Murphy DG, et al. Family therapy for autism spectrum disorders. Cochrane Database of Systematic Reviews 2015, Issue 10. [DOI: 10.1002/14651858.CD011894]

Characteristics of studies

Characteristics of excluded studies [ordered by study ID]

Ir a:

Study

Reason for exclusion

Abe 2014

This is a non‐RCT study examining the effectiveness of a support group for family members of people with developmental disabilities. This support group is not family therapy.

Aerts 2011

This is a non‐RCT study comprising a psychiatric family treatment for family members of individuals with autism. The intervention was competency based and is not family therapy.

Affleck 1982

This is a review paper synthesising information about parent training approaches for individuals with developmental disabilities.

Allen 1980

This is a two‐arm study comprising a transdisciplinary, early intervention programme for young children with, or known to be at risk of, developmental disabilities compared to a treatment‐as‐usual group. Neither intervention is family therapy.

Alonim 2004

This is a discussion paper about an early‐intervention approach for young people with ASD.

Alquraini 2015

This is a non‐RCT study comprising a relationship‐focused intervention to alleviate stress in mothers of people with ASD. The intervention is not family therapy per se.

Altiere 2009

This is a cross‐sectional study investigating family dynamics and coping in parents of individuals with ASD.

Bennett 1983

This is a two‐arm study comprising a family‐oriented treatment for parents of children with disabilities (primarily cerebral palsy) compared to a wait‐list control. Neither arm is family therapy.

Bennett 1986

This is a two‐arm study comprising a family‐oriented treatment for parents of children with disabilities (primarily cerebral palsy) compared to a wait‐list control. Neither arm is family therapy.

Brockman 2016

This is a discussion paper, which provides an overview of the use of family therapy techniques for people with ASD and family members. No RCT primary data is outlined.

Casenhiser 2011

This is a two‐arm RCT comprising a social‐communication‐based intervention for young children with autism compared to a community treatment group (treatment as usual). Neither arm is family therapy.

Chen 2006

This is a two‐arm study comprising individualised hospital care for individuals with autism compared to a family intervention. Participants were not randomised to either arm.

Chou 1992

This is a two‐arm study comprising a task‐focused intervention, which incorporated systemic techniques, for individuals with developmental disabilities compared with a control group receiving treatment as usual. Participants were not randomised to either intervention.

Clancy 1972

This is a description of a clinical programme of systemic and family‐focused techniques for individuals with autism. This is not a research trial and patients were not randomised to the programme.

Coleman 2015

This is a discussion paper about psychoeducation for family members of individuals with ASD.

Coogle 2016

This is a qualitative study focusing on the experiences of family members following engagement in an early intervention.

Davis 1991

This is a two‐arm RCT comprising a home‐based, family‐focused counselling scheme for Bangladeshi families who had children with a range of developmental disabilities compared to treatment as usual. Neither arm is family therapy.

Drahota 2008

This is a two‐arm RCT comprising a 'building confidence' CBT intervention for young people with ASD compared with a wait‐list control. Neither arm is family therapy.

Estreicher 1982

This is a single‐arm study comprising family therapy techniques for families with individuals with developmental disabilities. Participants were not randomised to the intervention.

George 1988

This is a single‐arm study comprising a therapeutic group based on systemic principles for grandparents and extended family members of individuals with developmental delays. The intervention is not family therapy albeit that it incorporates systemic techniques.

Goll‐Kopka 2009

This is a description of 'The Frankfurt Multi‐family Therapy Model' for families who have children with developmental or global disabilities or disorders. This is a pilot study and patients were not randomised to the programme.

Heller 2015

This is a discussion paper and literature review about interventions for adults as they age. No primary data are provided, nor is the review specifically about family therapy in ASD.

Helps 2016

This is a discussion paper and narrative review about family therapy interventions for family members of individuals with ASD.

Johnson 2012

This is a review of therapeutic work with couples who have a child with ASD.

Keen 2010

This is a two‐arm quasi‐RCT comprising a parent‐focused intervention offered via home‐based sessions and a workshop for parents of children with ASD compared to a self‐directed video intervention. Neither arm is family therapy.

Lordi 1964

This is a discussion paper providing an overview of infantile autism, including family‐focused working.

NCT01919970

This registration form pertains to a two‐arm RCT comprising an exposure‐based CBT treatment, incorporating parent input for young people with ASD, compared to treatment as usual. Neither arm is family therapy.

Pickard 2017

This is a review and discussion paper about family‐focused ways of working with individuals with ASD.

Pillay 2010

This is a single‐arm study comprising a parent‐focused intervention for parents who have children with ASD. The intervention is not family therapy.

Roux 2013

This is a two‐arm RCT comprising a group Stepping Stones Triple P intervention for parents of children with a range of intellectual disabilities compared to a wait‐list control. Neither arm is family therapy.

Shank 1991

This is a single‐arm study comprising a problem‐solving technique for parents of a child with a disability. The intervention is not family therapy albeit that it incorporates systemic techniques.

Siller 2013

This is a two‐arm RCT comprising a focused playtime intervention for parents of children with ASD compared with psychoeducation. Neither arm is family therapy.

Smock Jordan 2016

This is a discussion paper about solution‐focused therapy techniques for family members of individuals with ASD. Case vignettes (non‐RCT data) are provided.

Solomon 2008

This is a two‐arm RCT comprising a parent‐child interaction therapy for parents of children with ASD compared with a wait‐list control. Neither arm is family therapy.

Wagner 2014

This is a discussion paper, which also makes reference to a single‐arm intervention about a multi‐systemic therapy for families of individuals with ASD. Participants were not randomised to the intervention.

Wang 2008

This is a two‐arm RCT comprising a parent training intervention for parents of children with autism compared with a wait‐list control. Neither arm is family therapy.

Whittingham 2009

This is a two‐arm RCT comprising the Stepping Stones Triple P positive parenting programme for parents of children with ASD compared with a wait‐list control. Neither arm is family therapy.

ASD: autism spectrum disorder; CBT: cognitive behavioural therapy; RCT: randomised controlled trial.

Characteristics of studies awaiting assessment [ordered by study ID]

Ir a:

Spain 2017 [pers comm]

Methods

From a study by Wagner 2014, we noted the following sentence: "Building on the results from our pilot work, we obtained grant funding to conduct a small randomized clinical trial for youths with ASD and severe behavioral problems (expected N = 30)" (p 326). We contacted the senior author in 2016 and 2017 in order to clarify the status of the trial.

Participants

Not known

Interventions

Not known

Outcomes

Not known

Notes

We corresponded with the senior author in 2016 and 2017 but insufficient detail about the study was available.

ASD: autism spectrum disorder.

Study flow diagram.
Figuras y tablas -
Figure 1

Study flow diagram.

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Table 1. Unused methods sections

Unused methods

Description of methods

Data extraction and management

The data extraction form will include subheadings relating to the following areas.

  1. Study methods (including methods of randomisation, allocation concealment, and blinding of research personnel or participants).

  2. Ethical approval (provision of informed consent or assent).

  3. Referral route (method through which individuals are referred or present for family therapy).

  4. Participant demographics and clinical diagnoses (including ASD and comorbid diagnoses).

  5. Instruments used to diagnose ASD (including clinician‐administered assessments with either participants or informants).

  6. Active and comparator interventions (modality, content and duration of the active and comparator interventions).

  7. Outcome measurements (for individuals with ASD and their family members; and health outcome data, if cited).

  8. Results (including descriptive and inferential statistical data, as well as study results).

  9. Adverse events (e.g. whether there has been an increase in mental health morbidities).

  10. Treatment fidelity (e.g. whether a manualised treatment approach was used, if treatment sessions were independently reviewed for adherence to the theoretical model, and the frequency and nature of clinical supervision for trial therapists).

We will attempt to separate the outcomes and results between sites for any multi‐centre studies. In the event that data described appear ambiguous for any of the reports, we will contact the authors for clarification. If we are unable to liaise with report authors, we will document this within the review, and the review team will discuss the discrepancies.

For any non‐English language studies, we will endeavour to arrange for report translation.

Assessment of risk of bias in included studies

DS and JS will independently assess the risk of bias of all included studies across seven domains: random sequence generation; allocation concealment; blinding of participants and trial staff; blinding of outcome assessments; incomplete outcome data; selective outcome reporting; and any other potential sources of bias. For each included study, we will assign each of these domains one of three ratings: high risk of bias, low risk of bias, or unclear risk of bias. We have detailed criteria for rating various domains of bias below, with examples drawn from Chapter 8.5 of the Cochrane Handbook for Systematic Reviews of Interventions (Higgins 2011a).

Random sequence generation

  1. High risk of bias: a non‐random method is used to generate the sequence such as allocation by alternate days or geographical location of entry to the trial.

  2. Low risk of bias: random methods (e.g. random number table or computer random number generator) are used to generate the sequence to produce comparable groups.

  3. Unclear risk of bias: no or insufficient information is provided on the methods used to generate the sequence to permit a judgement of high or low risk of bias.

Allocation concealment

  1. High risk of bias: participants and researchers may have been able to foresee assignment to intervention groups due to insufficient measures used to conceal allocation (such as open random allocation schedule, unsealed or non‐opaque envelopes).

  2. Low risk of bias: adequate methods are used to conceal the allocation (e.g. opaque envelope procedure, central allocation or by independent personnel outside of the research team), so that participants and researchers are unable to foresee or influence the assignment of intervention groups.

  3. Unclear risk of bias: no or insufficient detail is provided on methods used to conceal the allocation sequence to permit a judgement of high or low risk of bias.

Blinding of participants and research personnel

  1. High risk of bias: neither participants nor research personnel are blinded to the treatment group allocation or study hypotheses, and outcomes are likely to be influenced by such lack of blinding; or blinding is attempted and subsequently broken; or some participants and personnel are blinded while others are not blinded, which may introduce bias.

  2. Low risk of bias: effective measures (e.g. placebo or sham therapy sessions) are used to blind study participants and research personnel from knowing intervention group allocation and study hypotheses; or when blinding is not possible, study authors are able to justify that the outcome is unlikely to be influenced by the lack of blinding.

  3. Unclear risk of bias: either the study did not address this outcome or insufficient details are provided on methods of blinding to permit a judgement of low or high risk of bias.

Blinding of outcome assessment

  1. High risk of bias: outcome assessors are not blinded to treatment allocation of the study participants and the study hypothesis, and the outcomes are likely to be influenced by the lack of blinding.

  2. Low risk of bias: objective measures (such as biomedical measures of cortisol levels) that are unlikely to be influenced by the lack of blinding outcome assessors are used; participants are unaware of which intervention they have been allocated to; or participants' knowledge of which intervention they are receiving does not mediate their response to subjective outcome measures.

  3. Unclear risk of bias: there is a lack of detail on methods of blinding to permit a judgement of high or low risk of bias.

Incomplete outcome data

  1. High risk of bias: reasons for missing data are likely to be related to the true outcome; missing data are not balanced across groups; or inappropriate methods are used to impute missing data.

  2. Low risk of bias: no incomplete outcome data for each main outcome; reasons for missing data are unlikely to be related to true outcome; missing data are balanced across groups; or appropriate methods have been used to impute the data.

  3. Unclear risk of bias: either the study did not address this outcome, or there is insufficient detail as regards to the amount, nature, and handling of incomplete outcome data to permit a judgement of low or high risk of bias.

Selective reporting

  1. High risk of bias: not all prespecified outcomes are reported; or outcomes are reported using methods not prespecified and for only a subgroup of the sample; or outcomes are reported that were not prespecified; or outcomes are reported incompletely and cannot be included in a meta‐analysis.

  2. Low risk of bias: all outcomes are reported as prespecified in published protocol, or the protocol is not available but there is convincing text that suggests that all prespecified outcomes have been reported.

  3. Unclear risk of bias: there is insufficient information (e.g. no protocol available) to permit a judgement of high or low risk of bias.

Other sources of bias

  1. High risk of bias: the study raises other important concerns, such as bias relating to the study design or claims of fraudulence, or other sources of bias that are not covered by the above domains.

  2. Low risk of bias: there is no evidence to suggest there are any other important concerns about bias not addressed in the domains stated above.

  3. Unclear risk of bias: there may be an additional risk of bias, but there is insufficient information to fully assess this risk, or it is unclear that the risk would introduce bias in the study results.

We will obtain a third opinion from EP, MF or FH should there be disagreement about the 'Risk of bias' assessment or a lack of consensus about any of the individual domains per study or in terms of the overall appraisal of the trial. We will also attempt to contact report authors to provide clarification about aspects of the trial, as needed.

'Summary of findings' tables

We will import data from Review Manager (Review Manager 2014), into GRADEprofiler (GRADEpro GDT), and use this software to create 'Summary of findings' tables. These tables will provide outcome‐specific information concerning the overall quality of the body of evidence from the studies included in the comparison, the magnitude of effect of the interventions examined, and the sum of available data on outcomes rated as relevant to patient care and decision making.

We will employ the GRADE approach to assess the quality of evidence (Schünemann 2011), using the following ratings: high quality (RCTs or quasi‐RCTs with a very low risk of bias), moderate quality (RCTs or quasi‐RCTs with some evidence of risk of bias such as inadequate allocation concealment), low and very low quality (RCTs or quasi‐RCTs that have significant threats to internal study validity such as failure to adequately randomise participants, lack of blinding of outcome assessors, or selective outcome reporting) (Schünemann 2011, Table 12.2.a).

We will include the following outcomes in the 'Summary of findings' tables.

  1. Quality or quantity of social interaction or communication.

  2. Mental health morbidity, including stress, anxiety, or depression.

  3. Quality of life.

  4. Confidence in or attributions about coping.

  5. Adverse effects or events.

Measures of treatment effect

Dichotomous data

For dichotomous outcomes, such as the presence or absence of challenging behaviour(s), we will use the Mantel‐Haenszel method for computing the pooled risk ratio (RR) (Mantel 1959). We will use the RR in meta‐analyses, rather than the odds ratio (OR), because the OR can be susceptible to misinterpretation, which can lead to overestimation of the benefits and harms of the intervention (Deeks 2011, Section 9.4.4.4). We will report the RR with 95% CIs.

Continuous data

When different measures are used, we will calculate the standardised mean difference and 95% CI. We will calculate the mean difference and 95% CI when all outcomes are measured using the same scale in the same way.

Unit of analysis issues

Cluster trials

In cluster trials, the independence of individuals cannot be assumed (Higgins 2011b). As we are examining the effectiveness of an intervention for both individuals and family members, we may identify cluster‐randomised trials.

If clustering has been incorporated into the analyses of primary studies, we plan to present these data as if from a non‐cluster‐randomised study, but adjust for the clustering effect. We will contact study authors for more information if needed. If we identify cluster trials that have been analysed using incorrect statistical methods (i.e. not taking the clustering into account), we will contact study authors to request individual participant data so that we may calculate an estimate of the intracluster correlation coefficient (ICC). If we are unable to obtain this information, we will adjust sample sizes using an estimate of the ICC from the trial or from a trial of a similar population, with advice from a statistician, and use this to re‐analyse the data. In the event that we are unable to adjust for incorrect statistical methods used by the cluster trials, and therefore cannot estimate the ICC with any a degree of confidence, we will exclude the trial (Higgins 2011b).

We will investigate the robustness of our results by conducting sensitivity analyses, for example, to explore the impact of different types of cluster‐randomisation units (such as families, health practitioners) (Higgins 2011b). We will also compare the results with and without cluster trials that have not been analysed correctly by the trialists (where the ICC is estimated from other trials for the adjustment of cluster effect) (see Sensitivity analysis).

Cross‐over trials

Due to the issue of carry‐over, that is, whereby the effectiveness of a second intervention may be mediated by the first intervention, we will exclude cross‐over trials.

Multiple comparisons

Where a trial involves more than two treatment (or comparator) arms, we will first assess which intervention (or comparator) groups are relevant to our review. We will use data from the arms of the trial that are relevant to the review objectives, but present all intervention groups in the 'Characteristics of included studies' tables, providing a detailed description of why we have selected particular groups and excluded others. In the event that studies have more than two intervention groups and a control group that are relevant to the review, we will split the control group data proportionately to the other two groups.

Repeated measures

When a trial reports outcome data obtained at more than one time point, we will conduct analyses separately for each time point (e.g. postintervention and at follow‐up, if follow‐up is specified by the trialist).

Dealing with missing data

We will consider the possible impact of missing data on the results of the review.

Data may be missing either because (1) they have been insufficiently or inadequately reported, or (2) due to dropout or attrition. In the event of insufficient or inadequate reporting, we will first try to obtain any missing data from the trial authors, including unreported data (e.g. group means and SDs), details of dropouts, and interventions provided. We will describe the missing data in the 'Risk of bias' table.

In either case outlined above, and when we cannot obtain data, we will conduct analyses using ITT principles. For dichotomous outcomes (those not deemed to be missing at random), we will impute the outcomes for the missing participants using both the most optimistic (i.e. assuming participants with missing data improve) and the most pessimistic (i.e. assuming participants with missing data deteriorate) scenarios.

When data are missing for continuous outcomes (e.g. data pertaining to means or SD), we will attempt to calculate them based on the standard errors, CIs, and t values, according to the rules described in the Cochrane Handbook for Systematic Reviews of Interventions (Higgins 2011c). If this information is missing, and we are unable to obtain it from trial authors, we will report it as missing data in the review.

We will also conduct a sensitivity analysis to compare the results from the ITT analysis with the imputation and ‘available case’ analysis (see Sensitivity analysis). If these analyses yield similar results in terms of the effects of treatment, we will present the results of the available case analyses.

Assessment of heterogeneity

Within each comparison, we will first assess clinical heterogeneity (e.g. variability in active and comparator interventions, participant characteristics, or outcome measures used) and methodological heterogeneity (e.g. variability in study design, including differences in the nature of the randomisation unit and the size of cluster randomised; and risk of bias, which we will assess according to the criteria outlined in the Cochrane Handbook for Systematic Reviews of Interventions (Deeks 2011)). If there is clinical or methodological heterogeneity, we will extract and document all of these characteristics onto the data extraction form and synthesise the results narratively. We will then assess statistical heterogeneity using the I² and Chi² statistics, and by visually inspecting the forest plots. If we identify a substantial level of heterogeneity in trials (e.g. the I² is more than 30% to 60%, the P value is less than 0.10 in the Chi² test for heterogeneity, or there is a different direction of the effects), we will conduct prespecified subgroup analyses (see Subgroup analysis and investigation of heterogeneity).

Assessment of reporting biases

We will assess reporting biases, including (multiple) publication, selective reporting, outcome and language biases (Sterne 2011, Table 10.1.a). First, we will try to locate protocols of included trials. If the protocol is available, we will compare outcomes documented in the protocol and the published report. If the protocol is not available, we will compare outcomes listed in the methods section of the trial report with the reported results. In addition, we will create funnel plots to investigate the possibility of publication bias and other small‐study effects when there is a sufficient number of trials (10 or more). While funnel plots may be useful in investigating reporting biases, there is some concern that tests for funnel plot asymmetry have limited power to detect small‐study effects, particularly when there are fewer than 10 studies, or when all studies are of a similar sample size (Sterne 2011). In the event that funnel plots are possible, we will produce them and seek statistical advice in their interpretation.

Data synthesis

We will conduct random‐effects meta‐analyses to produce the average effect size of the intervention across trials. A random‐effects model is considered more appropriate than a fixed‐effect model because the population and setting of trials are likely to be different, and therefore the effects are also likely to be different (Deeks 2011).

Subgroup analysis and assessment of heterogeneity

Depending on the sample size and heterogeneity of study populations, we propose to undertake subgroup analyses as follows:

  1. children and adolescents (aged 17 years and under) versus adults (aged 18 years and above) with ASD; and

  2. individuals with ASD who have a concurrent learning disability (i.e. IQ below 70) versus individuals with ASD and no learning disability.

To limit the risk of multiple comparisons, we will conduct subgroup analyses on primary outcomes only.

Sensitivity analysis

We will undertake sensitivity analyses to evaluate the impact of excluding trials (or trial data) that are judged to have a high risk of bias (e.g. in terms of the domains of random sequence generation, allocation concealment, blinding, or outcome reporting). We will also undertake sensitivity analyses to assess the potential impact of missing outcome data.

ASD: autism spectrum disorder; CI: confidence interval; GRADE: Grades of Recommendation, Assessment, Development and Evaluation; ITT: intention‐to‐treat; IQ: intelligence quotient; RCTs: randomised controlled trials; SD: standard deviation.

Figuras y tablas -
Table 1. Unused methods sections
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