martes, 18 de agosto de 2009
Autism Spectrum / AHRQ Effective Health Care Program - Provide Comments
Comparative Effectiveness of Therapies for Children with Autism Spectrum Disorders
Open for comment through 31 Aug 2009
Background
Disorders within the autism spectrum include Autistic Disorder, Asperger’s Syndrome, and Pervasive Developmental Disorder, Not Otherwise Specified (PDD-NOS). Rett Syndrome and Childhood Disintegrative Disorder are included in the Pervasive Developmental Disorders category but are typically considered as separate from the Autism Spectrum Disorders. ASD is characterized by significant impairments in social interaction, behavior, and communication (3). Impairments include a lack of reciprocal social interaction and joint attention; dysfunctional or absent communication and language skills; lack of spontaneous or pretend play; intense preoccupation with particular concepts or things; and repetitive behaviors or movements. Children with ASD may also exhibit impaired cognitive skills and sensory perception (1, 3). ASD is often accompanied by comorbid conditions such as seizure disorders, hyperactivity, and anxiety (4).
The manifestation and severity of symptoms of ASD differ widely, and treatments comprise a range of behavioral, psychosocial, educational, medical, and complementary approaches (5-7) that vary given a child’s age and developmental status. Goals of treatment often focus on alleviating core deficits in communication, social interactions, or behavior; however treatment is frequently complicated by emergent symptoms such as irritability and other common comorbid conditions. Given the complexity of ASD and associated therapies, clinicians and families need guidance in selecting appropriate treatments. There is no cure for autism spectrum disorders and no global consensus regarding which intervention strategy is most effective. Chronic management is often required, and the goals of treatment are to maximize the child’s ultimate functional independence and quality of life by minimizing the core autism spectrum disorder features, facilitating development and learning, promoting socialization, reducing maladaptive behaviors, and educating and supporting families. Early, appropriate, and sustained behavioral and educational intervention may be associated with improved short-term outcomes and quality of life, although specific strategies vary. Management strategies consist of a diverse set of interventions that vary in their modality and the degree to which they are supported by the evidence. Nominations for a comprehensive systematic review of therapies for ASD, submitted by a member of the Medicaid Medical Director’s Learning Network and on behalf of the Autism Speaks advocacy organization, emphasized the need to understand the effectiveness and comparative effectiveness of various treatment modalities.
Overall state of the literature
A significant body of literature reports on aspects of ASD treatment; initial searches in the PubMed, PsycInfo, and ERIC systems identified more than 3,600 papers with an estimated 20% relevant to ASD therapies. The literature reports a wide variety of interventions in the behavioral, medical, allied health, and complementary arenas aimed at treating either ASD core symptoms or associated symptoms such as gastrointestinal distress. The ages of children included in studies generally range from preschool to 18, with a number of studies assessing 3-12 year olds and fewer examining young toddlers or older adolescents. Many modalities lack a systematic evidence base and are instead supported by small case series, single cases, or small, short-term trials. The following sections broadly survey recent reports of ASD therapies.
Behavioral and psychosocial interventions
Case reports and case series comprise a substantial portion of the ASD literature describing behavioral therapies. Such reports generally describe treatment of a single subject or a limited number of subjects using multiple baseline designs, though group designs are also used. Commonly described behavioral interventions employ elements of applied behavioral analysis (ABA), and a recent review of several ABA studies and some psycho-educational reports noted the potential effectiveness of ABA in younger children (8). A number of studies address aspects of treatment such as parent and teacher training (9, 10); methods of reinforcement and cueing (11-14); and discrete trial training (15-17). Reciprocal Imitation Training (18-21) and the Lovaas/Early Intensive Behavioral Treatment method (22-25) are also described. Recent reviews of early behavioral intervention have reported potential gains in IQ (26-28). Some investigators have employed controlled and/or randomized trials to assess the Picture Exchange Communication System (PECS) (29-31), noting increases in communication and joint attention. Milieu teaching (31-34) has also shown some effectiveness in promoting communication responses in trials and case reports. Reports of behavioral interventions generally note some amelioration of targeted symptoms.
A number of other investigations have addressed more developmentally-based interventions to improve communication or social skills in ASD. The DIR (developmental, individual-difference, relationship-based model)/Floortime (35-37) articulates social and communication-related milestones and caregiver-initiated techniques to help children progress appropriately, and case studies employing Floortime have reported some developmental gains. Some research has employed treatment modalities such as structured teaching/TEACCH (38-40) and the Denver model (41, 42) or therapeutic aids including LEGO play (43-45), virtual reality (46), and robots (47). Social stories have also been used in case series and controlled trials to minimize disruptive behaviors and improve social skills with some effectiveness (48-50). Peer training and social skills groups have also been reported to improve social interactions (51-54).
Though not a focus of this review, the literature also describes interventions aimed at parents, teachers, and other caregivers. Such interventions typically include training to help participants understand more about ASD as well as counseling sessions to help individuals cope with caring for a child with ASD (55, 56).
Allied health interventions
Allied health interventions including occupational, physical, and speech therapy techniques have also been studied as treatments for aspects of ASD and have shown some utility (57-60). Some research employs sensory/auditory integration techniques (60-63), and speech therapy studies have addressed aspects of language use (64-66). Physical therapy studies have also examined topics such as aquatic therapy (67) and benefits of exercise in autism (68).
Medical interventions
In the last several years, the atypical antipsychotic risperidone has been studied in randomized, controlled clinical trials, assessing its short-term utility in treating irritability, aggression, self-injury, and repetitive and other behavioral problems (69-83). As the result of these studies, risperidone was the first medication to receive approval for treatment of irritability in autism, although significant side effects limit its use. The use of other atypical and typical antipsychotics has also been studied (75, 80, 84-92) with some support. Other medications have also been investigated, such as serotonin reuptake inhibitors for symptoms including irritability and repetitive behavior, with mixed results (93-96). Medications targeting hyperactivity or impulsivity have also been studied (97-101) with some support. A few studies have examined the potential behavioral benefits of anticonvulsants (102-104) or medications developed to target dementia (70, 105-107). Treatment with secretin infusion has been the most-studied medical intervention in autism, albeit with no significant evidence supporting its use across multiple studies (108-110). A number of studies have also investigated the efficacy and safety of non-prescription interventions within the medical setting. For example, a number of recent trials have evaluated melatonin for sleep disturbances (111-115).
Complementary interventions
While some complementary therapies may be referred to as “biomedical,” such terminology can be confusing; therefore, this review will classify such reports as “complementary.” The literature reports several studies of complementary interventions using varied study designs, with an emphasis on uncontrolled designs. Dietary intervention is common; although a 2008 systematic review of gluten free-casein free diets to treat autism found poor quality evidence for the diet’s utility (116). Recent studies have also examined acupuncture (117, 118); massage (119-121); and hyperbaric oxygen therapy (122-124). Omega-3, Omega-6, and polyunsaturated fatty acid supplementation have been examined using varied designs (125-127), and vitamin supplementation has also been studied in controlled trials and cohort studies (128-130). Other interventions include music therapy (131-133) and biofeedback (134). Finally, some have targeted heavy metal chelation as a potential treatment despite significant safety risks associated with the practice (135, 136).
Summary
Previous reviews of the literature have noted limited quality and consistency in studies assessing ASD therapies (6, 25, 137-140), and an umbrella review found methodological weaknesses in systematic reviews of psychosocial interventions (7). While controlled trials seem to be increasing, much research is observational, generally with small sample sizes, limited follow-up, and limited discussion of the durability of treatment gains once active therapy ends. As the prevalence of ASD has increased, the available treatment options have also increased, but evidence overall for many interventions can only be considered preliminary. It is clear that there is a real need for synthesized research that evaluates the evidence base for various treatments and identifies gaps in the current literature that may drive the research agenda.
While advances have been made in early diagnosis and the promotion of early intervention for ASD, there are no current guidelines for comparing the benefits and harms of treatment interventions. Clinicians and families are left to choose among the interventions in part based on what is available to them, what is covered by commercial insurance or Medicaid, or what they can afford out of pocket. The bottom line is that parents and caregivers are not given consistent advice on how to treat and manage this condition. Often, clinical recommendations are based on the most common or most popular treatments at a given time. Many therapies are not covered by insurance, and a primary reason for insurance denial from private insurers is that there are no evidence-based guidelines for this condition. Additionally, insurers may find it confusing to distinguish among therapies or to sort out which approaches have an evidence base and which are still experimental.
The delivery and organization of care for ASD is very fragmented, with pieces scattered about in the primary care, school, and specialty clinical settings. It is left to the families and caregivers of patients with ASD to find and assemble these pieces. Patients and caregivers are ultimately left with a “laundry list” of treatment and management strategies that appear to have equal weighting, without prioritization among the choices. This situation presents many challenges not only to patients and families, but also to health policy and decision makers.
Policy issues
Policy activities related to care for ASD include:
The Combating Autism Act of 2006 (S.843) - This Act authorizes expanded activities related to autism research, prevention, and treatment through FY 2011.
Medicaid Autism Waiver Program - Several states including Colorado, Indiana, Massachusetts, Maryland, and Wisconsin are currently participating in the Medicaid Autism Waiver Program covering home- and community-based services specifically for people with autism. Pennsylvania just received approval by CMS in May of 2008. All are limited to children except Pennsylvania, whose waiver program aims to provide services to autistic adults and children. According to a recent Government Accountability Office (GAO) report, state autism waiver programs generally offer the same services as their Developmental Disability (DD) waivers, but the primary difference is that the autism waiver may offer early intervention behavioral therapies targeted to young children.
Population(s) Children ages 2 – 12 who are diagnosed with an autism spectrum disorder (ASD) and children under age 2 at risk for diagnosis of an ASD
Interventions Behavioral, educational, family, medical, allied health or CAM treatment approaches to addressing core and commonly associated symptoms of ASD. Therapies addressed will depend on the availability of the literature and may include:
Behavioral Interventions, including variations of applied behavioral analysis as well as developmentally-based models such as DIR/Floortime, among others
Educational interventions, including the TEACCH program
Allied health interventions, including occupational, physical, and speech therapy
Medical interventions, including prescription and non-prescription treatments
CAM approaches, including music therapy and nutritional therapies
Outcomes
Primary outcomes
Changes in short-term targeted outcome areas, including social skills/interaction, language and communication, repetitive and other maladaptive behaviors, psychological distress, adaptive skills development and academic skills development
Secondary outcomes
Changes in long-term functional outcome areas, including adaptive independence/self care, academic/occupational engagement and attainment, psychological well-being, and interpersonal relationships/community involvement
Adverse events
Adverse behavioral or psychosocial reactions to behavioral or other therapies (e.g. increased aggression or anxiety)
Regression of language, skills, or behaviors
Increases in/worsening of co-morbid symptoms
Adverse reactions to drug therapies (e.g. somnolence, weight gain)
Reduction in/negative influences on quality of life
TimingShort-term outcomes will be considered as those that occur ? 6mos
Long-term outcomes will be considered as those that occur >6mos
Setting
Settings include medical, other clinical therapy settings, the home, and the educational setting
Definition of TermsN/A
References
1. Centers for Disease Control and Prevention. Prevalence of Autism Spectrum Disorders — Autism and Developmental Disabilities Monitoring Network, Six Sites, United States, 2000. Surveillance Summaries, Feb. 9, 2007. MMWR 2007;56 (No. SS-1). Available at: http://www.cdc.gov/mmwr/pdf/ss/ss5601.pdf.
2. Johnson CP, Myers SM. Identification and evaluation of children with autism spectrum disorders. Pediatrics. 2007 Nov;120(5):1183-215.
3. American Psychiatric Association. Diagnostic and Statistical Manual of Mental Disorders. IV ed. Washington, DC: American Psychiatric Association, 2000.
4. Myers SM, Johnson CP. Management of children with autism spectrum disorders. Pediatrics. 2007 Nov;120(5):1162-82.
5. Bertoglio K, Hendren RL. New developments in autism. Psychiatr Clin North Am. 2009 Mar;32(1):1-14.
6. Ospina MB, Krebs Seida J, Clark B, Karkhaneh M, Hartling L, Tjosvold L, et al. Behavioural and developmental interventions for autism spectrum disorder: a clinical systematic review. PLoS One. 2008;3(11):e3755.
7. Seida JK, Ospina MB, Karkhaneh M, Hartling L, Smith V, Clark B. Systematic reviews of psychosocial interventions for autism: an umbrella review. Dev Med Child Neurol. 2009 Feb;51(2):95-104.
8. Eikeseth S. Outcome of comprehensive psycho-educational interventions for young children with autism. Res Dev Disabil. 2009 Jan-Feb;30(1):158-78.
9. Crockett JL, Fleming RK, Doepke KJ, Stevens JS. Parent training: acquisition and generalization of discrete trials teaching skills with parents of children with autism. Res Dev Disabil. 2007 Jan-Feb;28(1):23-36.
10. Sarokoff RA, Sturmey P. The effects of behavioral skills training on staff implementation of discrete-trial teaching. J Appl Behav Anal. 2004 Winter;37(4):535-8.
11. Grindle CF, Remington B. Teaching children with autism when reward is delayed. The effects of two kinds of marking stimuli. J Autism Dev Disord. 2005 Dec;35(6):839-50.
12. Grow LL, Kelley ME, Roane HS, Shillingsburg MA. Utility of extinction-induced response variability for the selection of mands. J Appl Behav Anal. 2008 Spring;41(1):15-24.
13. Lee R, Sturmey P. The effects of lag schedules and preferred materials on variable responding in students with autism. J Autism Dev Disord. 2006 Apr;36(3):421-8.
14. Taylor BA, Hoch H. Teaching children with autism to respond to and initiate bids for joint attention. J Appl Behav Anal. 2008 Fall;41(3):377-91.
15. Dib N, Sturmey P. Reducing student stereotypy by improving teachers' implementation of discrete-trial teaching. J Appl Behav Anal. 2007 Summer;40(2):339-43.
16. Jones EA, Carr EG, Feeley KM. Multiple effects of joint attention intervention for children with autism. Behav Modif. 2006 Nov;30(6):782-834.
17. Jones EA, Feeley KM, Takacs J. Teaching spontaneous responses to young children with autism. J Appl Behav Anal. 2007 Fall;40(3):565-70.
18. Ingersoll B, Gergans S. The effect of a parent-implemented imitation intervention on spontaneous imitation skills in young children with autism. Res Dev Disabil. 2007 Mar-Apr;28(2):163-75.
19. Ingersoll B, Lewis E, Kroman E. Teaching the imitation and spontaneous use of descriptive gestures in young children with autism using a naturalistic behavioral intervention. J Autism Dev Disord. 2007 Sep;37(8):1446-56.
20. Ingersoll B, Schreibman L. Teaching reciprocal imitation skills to young children with autism using a naturalistic behavioral approach: effects on language, pretend play, and joint attention. J Autism Dev Disord. 2006 May;36(4):487-505.
21. McGurk SR, Mueser KT, Feldman K, Wolfe R, Pascaris A. Cognitive training for supported employment: 2-3 year outcomes of a randomized controlled trial. Am J Psychiatry. 2007 Mar;164(3):437-41.
22. Cohen H, Amerine-Dickens M, Smith T. Early intensive behavioral treatment: replication of the UCLA model in a community setting. J Dev Behav Pediatr. 2006 Apr;27(2 Suppl):S145-55.
23. Reed P, Osborne LA, Corness M. Brief report: relative effectiveness of different home-based behavioral approaches to early teaching intervention. J Autism Dev Disord. 2007 Oct;37(9):1815-21.
24. Sallows GO, Graupner TD. Intensive behavioral treatment for children with autism: four-year outcome and predictors. Am J Ment Retard. 2005 Nov;110(6):417-38.
25. Technology Evaluation Center. Special Report: Early Intensive Behavioral Intervention Based on Applied Behavior Analysis among Children with Autism Spectrum Disorders. vol. 23 (9); Feb. 2009. Available at: http://www.bcbs.com/blueresources/tec/vols/23/special-report-autism.html.
26. Eldevik S, Hastings RP, Hughes JC, Jahr E, Eikeseth S, Cross S. Meta-analysis of Early Intensive Behavioral Intervention for children with autism. J Clin Child Adolesc Psychol. 2009 May;38(3):439-50.
27. Howlin P, Magiati I, Charman T. Systematic review of early intensive behavioral interventions for children with autism. Am J Intellect Dev Disabil. 2009 Jan;114(1):23-41.
28. Reichow B, Wolery M. Comprehensive synthesis of early intensive behavioral interventions for young children with autism based on the UCLA young autism project model. J Autism Dev Disord. 2009 Jan;39(1):23-41.
29. Carr D, Felce J. "Brief report: increase in production of spoken words in some children with autism after PECS teaching to Phase III". J Autism Dev Disord. 2007 Apr;37(4):780-7.
30. Carr D, Felce J. The effects of PECS teaching to Phase III on the communicative interactions between children with autism and their teachers. J Autism Dev Disord. 2007 Apr;37(4):724-37.
31. Yoder P, Stone WL. A randomized comparison of the effect of two prelinguistic communication interventions on the acquisition of spoken communication in preschoolers with ASD. J Speech Lang Hear Res. 2006 Aug;49(4):698-711.
32. Mancil GR, Conroy MA, Haydon TF. Effects of a modified milieu therapy intervention on the social communicative behaviors of young children with autism spectrum disorders. J Autism Dev Disord. 2009 Jan;39(1):149-63.
33. Olive ML, de la Cruz B, Davis TN, Chan JM, Lang RB, O'Reilly MF, et al. The effects of enhanced milieu teaching and a voice output communication aid on the requesting of three children with autism. J Autism Dev Disord. 2007 Sep;37(8):1505-13.
34. Yoder P, Stone WL. Randomized comparison of two communication interventions for preschoolers with autism spectrum disorders. J Consult Clin Psychol. 2006 Jun;74(3):426-35.
35. Hilton JC, Seal BC. Brief report: comparative ABA and DIR trials in twin brothers with autism. J Autism Dev Disord. 2007 Jul;37(6):1197-201.
36. Solomon R, Necheles J, Ferch C, Bruckman D. Pilot study of a parent training program for young children with autism: the PLAY Project Home Consultation program. Autism. 2007 May;11(3):205-24.
37. Wieder S, Greenspan SI. Climbing the symbolic ladder in the DIR model through floor time/interactive play. Autism. 2003 Dec;7(4):425-35.
38. Hume K, Odom S. Effects of an individual work system on the independent functioning of students with autism. J Autism Dev Disord. 2007 Jul;37(6):1166-80.
39. Probst P, Leppert T. Brief report: outcomes of a teacher training program for autism spectrum disorders. J Autism Dev Disord. 2008 Oct;38(9):1791-6.
40. Tsang SK, Shek DT, Lam LL, Tang FL, Cheung PM. Brief report: application of the TEACCH program on Chinese pre-school children with autism--Does culture make a difference? J Autism Dev Disord. 2007 Feb;37(2):390-6.
41. Vismara LA, Colombi C, Rogers SJ. Can one hour per week of therapy lead to lasting changes in young children with autism? Autism. 2009 Jan;13(1):93-115.
42. Rogers SJ, Hayden D, Hepburn S, Charlifue-Smith R, Hall T, Hayes A. Teaching young nonverbal children with autism useful speech: a pilot study of the Denver Model and PROMPT interventions. J Autism Dev Disord. 2006 Nov;36(8):1007-24.
43. LeGoff DB. Use of LEGO as a therapeutic medium for improving social competence. J Autism Dev Disord. 2004 Oct;34(5):557-71.
44. Legoff DB, Sherman M. Long-term outcome of social skills intervention based on interactive LEGO play. Autism. 2006 Jul;10(4):317-29.
45. Owens G, Granader Y, Humphrey A, Baron-Cohen S. LEGO therapy and the social use of language programme: an evaluation of two social skills interventions for children with high functioning autism and Asperger Syndrome. J Autism Dev Disord. 2008 Nov;38(10):1944-57.
46. Mitchell P, Parsons S, Leonard A. Using virtual environments for teaching social understanding to 6 adolescents with autistic spectrum disorders. J Autism Dev Disord. 2007 Mar;37(3):589-600.
47. Kozima H, Nakagawa C, Yasuda Y. Children-robot interaction: a pilot study in autism therapy. Prog Brain Res. 2007;164:385-400.
48. Chan JM, O'Reilly MF. A Social Stories intervention package for students with autism in inclusive classroom settings. J Appl Behav Anal. 2008 Fall;41(3):405-9.
49. Marr D, Mika H, Miraglia J, Roerig M, Sinnott R. The effect of sensory stories on targeted behaviors in preschool children with autism. Phys Occup Ther Pediatr. 2007;27(1):63-79.
50. Ozdemir S. The effectiveness of social stories on decreasing disruptive behaviors of children with autism: three case studies. J Autism Dev Disord. 2008 Oct;38(9):1689-96.
51. Chung KM, Reavis S, Mosconi M, Drewry J, Matthews T, Tasse MJ. Peer-mediated social skills training program for young children with high-functioning autism. Res Dev Disabil. 2007 Jul-Sep;28(4):423-36.
52. Harper CB, Symon JB, Frea WD. Recess is time-in: using peers to improve social skills of children with autism. J Autism Dev Disord. 2008 May;38(5):815-26.
53. Loftin RL, Odom SL, Lantz JF. Social interaction and repetitive motor behaviors. J Autism Dev Disord. 2008 Jul;38(6):1124-35.
54. Mackay T, Knott F, Dunlop AW. Developing social interaction and understanding in individuals with autism spectrum disorder: a groupwork intervention. J Intellect Dev Disabil. 2007 Dec;32(4):279-90.
55. Giarelli E, Souders M, Pinto-Martin J, Bloch J, Levy SE. Intervention pilot for parents of children with autistic spectrum disorder. Pediatr Nurs. 2005 Sep-Oct;31(5):389-99.
56. Tonge B, Brereton A, Kiomall M, Mackinnon A, King N, Rinehart N. Effects on parental mental health of an education and skills training program for parents of young children with autism: a randomized controlled trial. J Am Acad Child Adolesc Psychiatry. 2006 May;45(5):561-9.
57. Brady NC, Steeples T, Fleming K. Effects of prelinguistic communication levels on initiation and repair of communication in children with disabilities. J Speech Lang Hear Res. 2005 Oct;48(5):1098-113.
58. Patel K, Curtis LT. A comprehensive approach to treating autism and attention-deficit hyperactivity disorder: a prepilot study. J Altern Complement Med. 2007 Dec;13(10):1091-7.
59. Sams MJ, Fortney EV, Willenbring S. Occupational therapy incorporating animals for children with autism: A pilot investigation. Am J Occup Ther. 2006 May-Jun;60(3):268-74.
60. Smith SA, Press B, Koenig KP, Kinnealey M. Effects of sensory integration intervention on self-stimulating and self-injurious behaviors. Am J Occup Ther. 2005 Jul-Aug;59(4):418-25.
61. Corbett BA, Shickman K, Ferrer E. Brief report: the effects of Tomatis sound therapy on language in children with autism. J Autism Dev Disord. 2008 Mar;38(3):562-6.
62. McKee SA, Harris GT, Rice ME, Silk L. Effects of a Snoezelen room on the behavior of three autistic clients. Res Dev Disabil. 2007 May-Jun;28(3):304-16.
63. Sinha Y, Silove N, Wheeler D, Williams K. Auditory integration training and other sound therapies for autism spectrum disorders: a systematic review. Arch Dis Child. 2006 Dec;91(12):1018-22.
64. Fernandes FD, Cardoso C, Sassi FC, Amato CL, Sousa-Morato PF. Language therapy and autism: results of three different models. Pro Fono. 2008 Oct-Dec;20(4):267-72.
65. Drager KD, Postal VJ, Carrolus L, Castellano M, Gagliano C, Glynn J. The effect of aided language modeling on symbol comprehension and production in 2 preschoolers with autism. Am J Speech Lang Pathol. 2006 May;15(2):112-25.
66. Williams G, Carnerero JJ, Perez-Gonzalez LA. Generalization of tacting actions in children with autism. J Appl Behav Anal. 2006 Summer;39(2):233-7.
67. Vonder Hulls DS, Walker LK, Powell JM. Clinicians' perceptions of the benefits of aquatic therapy for young children with autism: a preliminary study. Phys Occup Ther Pediatr. 2006;26(1-2):13-22.
68. Pitetti KH, Rendoff AD, Grover T, Beets MW. The efficacy of a 9-month treadmill walking program on the exercise capacity and weight reduction for adolescents with severe autism. J Autism Dev Disord. 2007 Jul;37(6):997-1006.
69. Risperidone treatment of autistic disorder: longer-term benefits and blinded discontinuation after 6 months. Am J Psychiatry. 2005 Jul;162(7):1361-9.
70. Akhondzadeh S, Tajdar H, Mohammadi MR, Mohammadi M, Nouroozinejad GH, Shabstari OL, et al. A double-blind placebo controlled trial of piracetam added to risperidone in patients with autistic disorder. Child Psychiatry Hum Dev. 2008 Sep;39(3):237-45.
71. Aman MG, Arnold LE, McDougle CJ, Vitiello B, Scahill L, Davies M, et al. Acute and long-term safety and tolerability of risperidone in children with autism. J Child Adolesc Psychopharmacol. 2005 Dec;15(6):869-84.
72. Aman MG, Hollway JA, McDougle CJ, Scahill L, Tierney E, McCracken JT, et al. Cognitive effects of risperidone in children with autism and irritable behavior. J Child Adolesc Psychopharmacol. 2008 Jun;18(3):227-36.
73. Anderson GM, Scahill L, McCracken JT, McDougle CJ, Aman MG, Tierney E, et al. Effects of short- and long-term risperidone treatment on prolactin levels in children with autism. Biol Psychiatry. 2007 Feb 15;61(4):545-50.
74. Capone GT, Goyal P, Grados M, Smith B, Kammann H. Risperidone use in children with Down syndrome, severe intellectual disability, and comorbid autistic spectrum disorders: a naturalistic study. J Dev Behav Pediatr. 2008 Apr;29(2):106-16.
75. Gencer O, Emiroglu FN, Miral S, Baykara B, Baykara A, Dirik E. Comparison of long-term efficacy and safety of risperidone and haloperidol in children and adolescents with autistic disorder. An open label maintenance study. Eur Child Adolesc Psychiatry. 2008 Jun;17(4):217-25.
76. Hellings JA, Zarcone JR, Reese RM, Valdovinos MG, Marquis JG, Fleming KK, et al. A crossover study of risperidone in children, adolescents and adults with mental retardation. J Autism Dev Disord. 2006 Apr;36(3):401-11.
77. Hellings JA, Zarcone JR, Valdovinos MG, Reese RM, Gaughan E, Schroeder SR. Risperidone-induced prolactin elevation in a prospective study of children, adolescents, and adults with mental retardation and pervasive developmental disorders. J Child Adolesc Psychopharmacol. 2005 Dec;15(6):885-92.
78. Luby J, Mrakotsky C, Stalets MM, Belden A, Heffelfinger A, Williams M, et al. Risperidone in preschool children with autistic spectrum disorders: an investigation of safety and efficacy. J Child Adolesc Psychopharmacol. 2006 Oct;16(5):575-87.
79. McDougle CJ, Scahill L, Aman MG, McCracken JT, Tierney E, Davies M, et al
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