Skip to main content
PMC home page
NIHPA Author Manuscripts logoLink to NIHPA Author Manuscripts
. Author manuscript; available in PMC: 2016 Sep 1.
Published in final edited form as: Res Autism Spectr Disord. 2015 Sep 1;17:40–51. doi: 10.1016/j.rasd.2015.05.002

Prevalence and Predictors of Complementary and Alternative Medicine Use in a Large Insured Sample of Children with Autism Spectrum Disorders

Ashli A Owen-Smith 1, Stephen Bent 2, Frances L Lynch 3, Karen J Coleman 4, Vincent M Yau 5, Kathryn A Pearson 3, Maria L Massolo 5, Virginia Quinn 4, Lisa A Croen 5
PMCID: PMC4562462  NIHMSID: NIHMS695653  PMID: 26366192

Abstract

Purpose

The purpose of the present study was to examine the prevalence and predictors of complementary and alternative medicine (CAM) use as well as parental perceptions of CAM efficacy in a large, geographically diverse sample of children with Autism Spectrum Disorders (ASD).

Methodology

Data were obtained from a web-based survey administered to parents of children with ASD at four sites participating in the Mental Health Research Network (MHRN). The web survey obtained information about services and treatments received by children with ASD as well as the caregivers’ experiences with having a child with ASD.

Results

Approximately 88% of the sample had either used CAM in the past or had recently used some type of CAM. The following characteristics were associated with CAM use: greater parental education, younger child age, a mix of regular and special classroom settings and prescription drug use in the past three months.

Conclusions

The use of CAM was very prevalent in this large, geographically diverse sample of children with ASD. It is critical that providers be prepared to discuss the advantages and potential side effects with families to help them make well-informed health care decisions and prevent possible CAM-drug interactions.

Keywords: complementary and alternative medicine, autism spectrum disorders

1. INTRODUCTION

Autism spectrum disorders (ASDs) – including Autistic Disorder, Asperger’s Disorder and Pervasive Developmental Disorder Not Otherwise Specified – are neurodevelopmental disorders typically detected in early childhood and are characterized by impairments in social interaction and communication. Recent data suggest that the overall prevalence of ASD is 14.7 per 1,000 (one in 68) children aged 8 years (Centers for Disease Control and Prevention (CDC), 2014). Caring for children with ASD can be challenging and costly, with an estimated lifetime cost per affected child of $2.4 million in the US (Buescher, Cidav, Knapp, & Mandell, 2014).

The mainstay of treatment for ASD is behavioral intervention, which focuses on improving daily functioning, communication and social skills (Copeland & Buch, 2013; Dawson et al., 2010; Shattuck & Grosse, 2007). Although behavioral interventions can improve outcomes in some children with ASD, there is a great deal of variability with respect to treatment response and it is difficult to predict which children will respond (Howlin, Magiati, & Charman, 2009). Only two medications are approved by the Federal Food and Drug Administration (FDA) for the treatment of ASD – the antipsychotics Risperidone and Aripiprazole – and both drugs target problem behavior (irritability) rather than the ASD core symptoms (Hendren, 2013; McPheeters et al., 2011).

Consequently, many parents may turn to complementary and alternative medicine (CAM) therapies, defined as systems, practices and products that are currently not part of mainstream medicine (National Center for Complementary and Integrative Health, 2015). Prior research suggests that CAM is widely used among families of children with chronic health conditions (Kemper et al., 2008; McDonagh, Morgan, Carson, & Russman, 2007; Myers, Johnson, & The American Academy of Pediatrics Council on Children With Disabilities, 2007), especially families of children with ASD, with reported use as high as 95% (Christon, Mackintosh, & Myers, 2010; Hanson et al., 2007; Harrington, Rosen, Garnecho, & Patrick, 2006; Perrin et al., 2012; H. H. Wong & Smith, 2006). Most families with children with ASD report that they use CAM therapies for general health maintenance, though some indicate they also use CAM to treat specific ASD symptoms such as irritability, hyperactivity, GI symptoms and sleep problems (R.S. Akins, Krakowiak, Angkustsiri, Hertz-Picciotto, & Hansen, 2014; H. H. Wong & Smith, 2006). Sociodemographic and clinical predictors of CAM use by children with ASD include: higher socioeconomic status (R.S. Akins et al., 2014; Hall & Riccio, 2012; Hanson et al., 2007; Valicenti-McDermott et al., 2013; H. H. Wong & Smith, 2006), non-Hispanic white race/ethnicity (Perrin et al., 2012; Valicenti-McDermott et al., 2013), more time elapsed since initial diagnosis (Hanson et al., 2007), more serious ASD diagnosis (Hanson et al., 2007; Perrin et al., 2012), multiple comorbid diagnoses (Levy, Mandell, Merhar, Ittenbach, & Pinto-Martin, 2003; Perrin et al., 2012) and more severe symptoms (Hall & Riccio, 2012).

Although many prior studies have explored the prevalence and predictors of CAM use among children with ASD, much of this research has significant methodological limitations including small sample sizes (Hanson et al., 2007; Harrington et al., 2006; Huang, Seshadri, Matthews, & Ostfeld, 2013; Senel, 2010; Valicenti-McDermott et al., 2013; H. H. Wong & Smith, 2006; V. C. Wong, 2009), unknown survey response rates (Bowker, D’Angelo, Hicks, & Wells, 2011; Christon et al., 2010; Goin-Kochel, Mackintosh, & Myers, 2009; Green et al., 2006; Hall & Riccio, 2012; Valicenti-McDermott et al., 2013) and lack of geographic diversity (R.S. Akins et al., 2014; Hanson et al., 2007; Harrington et al., 2006; Huang et al., 2013; Levy & Hyman, 2003; Senel, 2010; Valicenti-McDermott et al., 2013; H. H. Wong & Smith, 2006; V. C. Wong, 2009). Further, some of these studies have only asked respondents about which CAM therapies they have ever used with their child and have not also asked about recent or current use (Goin-Kochel et al., 2009; Harrington et al., 2006; Levy & Hyman, 2003; Senel, 2010), which does not allow for a nuanced assessment of CAM use in this population. Some of these studies have also not asked parents about their perceptions of the efficacy of various CAM therapies (R.S. Akins et al., 2014; Green et al., 2006; Hall & Riccio, 2012; Harrington et al., 2006; Levy et al., 2003; Perrin et al., 2012). Finally, several of these studies have only assessed CAM use not respondents’ concurrent use of conventional therapies such as pharmacological medications (Christon et al., 2010; Hall & Riccio, 2012; Levy & Hyman, 2003; H. H. Wong & Smith, 2006; V. C. Wong, 2009). There can be significant interactions between herbal/dietary supplements and common psychotropic medications (Fugh-Berman, 2000; Miller, 1998; Sood et al., 2008; Van Strater & Bogers, 2012; Zablocka-Slowinska, Kawna, & Biernat, 2013), making it critical to evaluate the concurrent use of these treatments.

The purpose of the present analysis was to begin to address these limitations from prior research by examining the prevalence and predictors of CAM use as well as parental perceptions of efficacy in a large, geographically diverse sample of children with ASD.

2. MATERIALS AND METHODS

2.1 Setting

Data were obtained from a web-based survey administered to parents of children with ASD at four sites participating in the Mental Health Research Network (MHRN), a consortium of 11 research centers affiliated with large integrated health care systems within the HMO Research Network (HMORN). These sites were all regions of Kaiser Permanente (KP), a health maintenance organization providing comprehensive, prepaid care for its members. The four regions, Kaiser Permanente Northern California (KPNC), Kaiser Permanente Southern California (KPSC), Kaiser Permanente Northwest (KPNW), and Kaiser Permanente Georgia (KPGA), collectively serve a population of approximately 7 million members. The Institutional Review Boards at each site reviewed and approved the study.

2.2 Eligibility and Recruitment

All children ≤ 17 years old as of April 2012 who were KP members between February and April 2012 and who had at least two ASD diagnoses recorded in their KP medical record were identified for outreach based upon our previous work that at least two diagnoses were needed to obtain accurate ASD cases from electronic medical records (Coleman et al., 2015). English speakers and Spanish speakers at one site only were eligible to participate. All parents of eligible children were mailed a packet containing a recruitment letter and a fact sheet explaining the study. The recruitment letter included a link to the Web survey and instructions for logging in as well as a telephone number to call if a parent had questions and/or wanted to complete the survey by telephone.

2.3 Web Survey

Overview

The web survey comprised 231 questions about services and treatments received by children with ASD as well parents’ experiences with having a child with ASD. Topics covered by the survey included: 1) the child’s ASD diagnosis, 2) parent satisfaction with the care provided in the previous year, 3) services and treatments received in the child’s lifetime and in the prior three months, 4) the Caregiver Strain Questionnaire (Brannan, Athay, & de Andrade, 2012), 5) the Pediatric Quality of Life Inventory (Varni, Katz, Seid, Quiggins, & Friedman-Bender, 1998), 6) the effect of the child’s ASD on parent’s employment, 7) demographic information, 8) educational resources of interest to the family, and 9) willingness to participate in future research. Various follow up activities implemented across sites to increase responses included: additional mailings, phone and email reminders and over the phone assistance to complete the survey. Participants received incentives for survey completion. Additional details about the development and administration of the survey can be found elsewhere (Massolo et al.).

2.3.1. Sociodemographic Questions

Child’s age, sex and race/ethnicity were reported by the parent as well as their own education level, total household income and marital status. Parents were also asked about the type of classroom setting in which their child spent the majority of the school day (a regular classroom all day, a mix of regular classrooms and special education classrooms, or a special classroom all day).

2.3.2. Clinical Questions

Respondents were asked about the specific type of ASD diagnosis their child had received (ASD, Asperger’s Syndrome, Autistic Disorder or Pervasive Developmental Disorder Not Otherwise Specified), whether they believed their child’s ASD had improved, not changed or worsened since the initial diagnosis and whether their child had been seen in an urgent care center or emergency room for any reason in the past three months. Respondents were also asked about their child’s past and recent (prior 3 months) psychotropic medication use including their use of the following: stimulants, antipsychotics, antidepressants, mood stabilizers and antianxiety medications.

2.3.3. CAM Use Questions

CAM treatments and services were categorized as follows: (1) CAM products, (2) CAM providers, and (3) CAM practices. These three categories of CAM were drawn from prior literature which has categorized CAM therapies based on how the potential users gain access to them (Fouladbakhsh & Stommel, 2007). For example, CAM products are those that are often ingested (such as herbs and dietary supplements); CAM providers are therapies provided by CAM practitioners (such as acupuncturists, massage therapists and chiropractors); CAM practices are both individual and communal activities that are not provided by a CAM practitioner but are instead typically practiced in the home (such as at-home yoga/tai chi/qi gong, at-home massage, special diets). The specific therapies included in each category were based on the literature available on types of CAM (Goin-Kochel, Myers, & Mackintosh, 2007; Green et al., 2006; Hanson et al., 2007; Levy & Hyman, 2003; Senel, 2010; H. H. Wong & Smith, 2006); however, respondents could also add their own if they were using a modality not listed. Within each category, a list of CAM therapies were provided and the respondent was asked to indicate whether the service or treatment was ever used specifically for ASD-related symptoms and, if so, whether it was used in the past three months (recent use). If the therapy was ever used, the respondent was also asked about whether he/she believed that the therapy was: (1) very harmful, (2) moderately harmful, (3) moderately helpful, (4) very helpful or (6) had no effect.

2.4 Analyses

The statistical analysis proceeded in several phases. First, we compared individuals who reported never using CAM to those who reported ever or recently using CAM (within the last 3 months) by the sociodemographic and clinical characteristics described above using t-tests for comparisons of means of continuous variables, Pearson chi-square tests for comparing unordered categorical data and Mantel-Haenszel chi-square tests for comparing ordered categorical data. Next, we examined the frequency of CAM use (ever use and recent use) and perceived efficacy of each therapy by CAM domain (products, providers and practices). Finally, we examined whether any of the sociodemographic and clinical characteristics were associated with recent use of CAM product. Variables identified as associated with CAM use in bivariate analyses at p≤0.20 were retained in the subsequent multivariable logistic regression model to assess predictors of recent CAM use. Adjusted odds ratios, 95% confidence intervals, and their corresponding p-values were calculated; a conservative alpha value of .01 was used due to the multiple comparisons in the analysis. Analyses were conducted using SPSS version 22.0.

3. RESULTS

3.1 Survey Response Rate

Parents of 9,109 eligible children were invited to participate in the study and 1,155 parents completed the web survey (response rate=12.7%). Of those completing the survey, 1,084 respondents (94%) answered all CAM use questions and were subsequently included in the present analyses.

3.2 Sample

The majority of respondents were college educated (66.1%) and were married/living with a partner (81.3%). The majority of respondents’ children were male (82.9%), White (64.9%) and Non-Hispanic (75.8%). Approximately 40.0% of the study population reported that their child had taken psychotropic medication in the past three months (Table 1). Approximately 20.0% reported that their child had taken a stimulant, 12.5% had taken an antipsychotic, 11.0% had taken an antidepressant, 2.3% had taken a mood stabilizer and 1% had taken an antianxiety medication.

Table 1.

Sociodemographic and clinical characteristics of the study population, overall and by CAM use.

Characteristic Sample Size N (%) CAM Use (%)
Sig
Never Used (N=129) Past Use (N=209) Recent Use (N=746)
Overall Sample N=1,084 11.9% 19.3% 68.8%
Age (in years)
 0–4 years 100 (9.2) 12.4 3.3 10.3 χ2=23.91, p<0.01
 5–9 years 371 (34.2) 32.6 26.8 36.6
 10–14 years 411 (37.9) 36.4 45.0 36.2
 15–18 years 202 (18.6) 18.6 24.9 16.9
Sex
 Male 899 (82.9) 82.9 86.1 82.0 χ2=1.93, p=0.38
 Female 185 (17.1) 17.1 13.9 18.0
Race
 White 691 (64.9) 55.2 67.8 65.7 χ2=22.20, p=0.08
 Black/African-American 66 (6.2) 8.0 5.4 6.1
 Asian 67 (6.3) 12.0 2.5 6.4
 American Indian/Native American 25 (2.3) 2.4 4.0 1.9
 Native Hawaiian/Pacific Islander 41 (3.8) 4.8 5.4 3.3
 Other 92 (8.6) 8.8 6.9 9.1
 Multi-Racial 26 (2.4) 1.6 2.0 2.7
 Prefer not to answer 57 (5.4) 7.2 5.9 4.9
Hispanic 254 (23.8) 32.0 24.8 22.2 χ2=6.29, p=0.18
Parental Education
 High school or less 89 (8.4) 13.0 10.0 7.2 χ2=11.60, p=0.02
 Some college/college deg 698 (66.1) 68.3 69.7 64.8
 Some grad/grad deg 269 (25.5) 18.7 20.4 28.0
Total Household Income
 <$20,000 35 (3.3) 1.6 3.0 3.7 χ2=13.93, p=0.31
 $20,000–39,999 114 (10.7) 9.6 7.4 11.8
 $40,000–59,999 164 (15.4) 19.2 12.4 15.6
 $60,000–79,999 191 (17.9) 22.4 20.3 16.5
 $80,000–99,999 132 (12.4) 12.8 15.3 11.5
 ≥$100,000 324 (30.4) 28.0 32.2 30.4
 Prefer not to answer 105 (9.9) 6.4 9.4 10.6
Parent Marital Status
 Married/Living with Partner 866 (81.3) 78.4 76.2 83.2 χ2=16.64, p=0.03
 Single 45 (4.2) 5.6 5.9 3.5
 Separated/Divorced 135 (12.7) 11.2 16.8 11.8
 Widowed 12 (1.1) 2.4 1.0 0.9
 Prefer not to answer 7 (0.7) 2.4 0.0 0.5
Study Site
 Northwest 279 (25.7) 20.2 25.4 26.8 χ2=7.44, p=0.28
 Northern CA 471 (43.5) 44.2 41.1 44.0
 Southern CA 249 (23.0) 28.7 26.8 20.9
 Southeast 85 (7.8) 7.0 6.7 8.3
Type of ASD diagnosis
 ASD 370 (34.8) 36.1 33.2 35.1 χ2=7.86, p=0.25
 Asperger’s Syndrome 288 (27.1) 26.2 32.2 25.8
 Autistic Disorder 214 (20.1) 21.3 22.0 19.4
 PDD-NOS 191 (18.0) 16.4 12.7 19.7
Progression of ASD
 No Change 53 (4.9) 5.4 4.3 5.0 χ2=10.43, p=0.11
 Improved 967 (90.0) 87.6 90.0 89.3
 Worse 54 (5.0) 3.9 4.3 5.4
Any psychotropic drug use in past 3 months 415 (38.9) 29.0 32.8 42.2 χ2=11.66, p<0.01
Any ER/urgent care visits in last 3 months 65 (6.0) 3.9 6.7 6.2 χ2=1.25, p=0.54
By Classroom Setting
 Special classroom all day 371 (37.6) 40.2 38.5 36.8 χ2=6.31, p=0.18
 Mix of regular and special classrooms 366 (37.0) 30.8 32.3 39.5
 Regular classroom all day 251 (25.4) 29.1 29.2 23.7
Open in a new tab

3.3 Prevalence of CAM Use

Approximately 88% of the sample had either used CAM in the past or had recently used some type of CAM: 19.3% of parents had used CAM in the past (but had not used it recently) while 68.8% reported using CAM recently (in the past three months). There was no significant variation in CAM use by child sex, Hispanic ethnicity, total household income, region of the U.S, type of ASD diagnosis, progression of ASD since diagnosis, number of ER/urgent care visits or classroom setting. We did find some variation in CAM use by child age, child race, parental education, parental marital status and recent prescription drug use. Specifically, recent CAM users were younger and had parents who were more highly educated and married (Table 1).

Past and recent use of specific types of CAM are shown in Table 2. CAM products were the most commonly reported types of CAM used, with 18.8% of parents reporting past use and 55.7% reporting recent use. The majority of CAM product users (43.7%) indicated they had used multivitamins recently. Other commonly used products included fish oil/omega 3s, melatonin, vitamins C, D and B12 and probiotics. In contrast with CAM product use, there was more variability in the types of CAM providers used. Though yoga/tai chi/qi gong was the most commonly used therapy in this domain, only 6.7% reported past use and 2.9% reported recent use. Other commonly used CAM providers included chiropractors, naturopaths and massage therapists. Approximately 26.3% and 28.4% of respondents indicated any past and recent CAM practice use, respectively, with parents most often reporting use of special diets, massage at home and yoga/tai chi/qi gong at home.

Table 2.

Types of, frequency and perceived efficacy of CAM use.

CAM Domain Frequency of CAM Use
Perceived Helpful1 N (%)
Past Use N (%) Recent Use N (%)
Products
Any Product Use 218 (18.8) 644 (55.7)
By Therapy
 Multivitamin 259 (22.4) 506 (43.7) 261 (34.0)
 Fish Oil/Omega 3s 149 (12.9) 181 (15.6) 158 (47.9)
 Melatonin 109 (9.4) 186 (16.1) 231 (78.8)
 Vitamin C 151 (13.1) 98 (8.5) 95 (38.3)
 Probiotics 101 (8.7) 89 (7.7) 123 (65.1)
 Vitamin D 84 (7.3) 96 (8.3) 78 (43.6)
 Vitamin B12 97 (8.4) 63 (5.4) 86 (53.8)
 Vitamin B6 97 (8.4) 41 (3.5) 66 (47.8)
 Magnesium 72 (6.2) 50 (4.3) 64 (52.5)
 Zinc 66 (5.7) 34 (2.9) 40 (40.0)
 Digestive Enzymes 60 (5.2) 24 (2.1) 49 (58.3)
 Vitamin A 61 (5.3) 23 (2.0) 36 (42.9)
 Chamomile 48 (4.1) 16 (1.4) 35 (54.7)
 Homeopathic supplement 40 (3.5) 17 (1.5) 34 (59.6)
 Echinacea 43 (3.7) 10 (0.9) 20 (37.7)
 Garlic 24 (2.1) 17 (1.5) 14 (34.1)
 Valerian 19 (1.6) 3 (0.3) 5 (22.7)
 Chinese Herbs 12 (1.0) 3 (0.3) 3 (20.0)
 Evening Primrose 9 (0.8) 3 (0.3) 6 (50.0)
 Gingko Biloba 9 (0.8) 3 (0.3) 4 (33.3)
 Algae 9 (0.8) 2 (0.2) 4 (36.4)
 St. John’s Wort 5 (0.4) 4 (0.3) 3 (33.3)
 Kava 6 (0.5) 1 (0.1) 3 (42.9)
Providers
Any Provider Use 205 (17.7) 97 (8.4)
By Therapy
 Yoga/Tai Chi/Qi Gong 78 (6.7) 33 (2.9) 79 (73.1)
 Chiropractor 61 (5.3) 26 (2.2) 57 (66.3)
 Naturopath 55 (4.8) 17 (1.5) 47 (68.1)
 Massage 51 (4.4) 18 (1.6) 53 (77.9)
 Homeopath 42 (3.6) 12 (1.0) 33 (64.7)
 Meditation 46 (4.0) 23 (2.0) 21 (67.7)
 Acupuncture 23 (2.0) 3 (0.3) 12 (50.0)
 Chelation 25 (2.2) 3 (0.3) 14 (51.9)
 Biofeedback 21 (1.8) 3 (0.3) 11 (47.8)
 Energy Therapy 15 (1.3) 0 (0.0) 8 (57.1)
 Hypnotist 11 (1.0) 3 (0.3) 7 (53.8)
 Traditional Chinese Medicine 12 (1.0) 2 (0.2) 6 (46.2)
 Secretin Provider 10 (0.9) 1 (0.1) 2 (20.0)
Practices
Any Practice Use 304 (26.3) 329 (28.4)
By Therapy
 Special Diets 251 (21.7) 182 (15.7) 310 (71.6)
 Massage 141 (12.2) 124 (10.7) 223 (84.2)
 Yoga/Tai Chi/Qi Gong 87 (7.5) 59 (5.1) 117 (80.1)
 Meditation 42 (3.6) 12 (1.0) 48 (69.6)
 Acupressure 26 (2.2) 9 (0.8) 24 (68.6)
 Energy Therapy 15 (1.3) 4 (0.3) 8 (42.1)
Open in a new tab
1

N and % of individuals indicating that the therapy was ‘moderately’ or ‘very’ helpful.

The average number of CAM therapies used recently was 2.06 (SD=2.80). Within the CAM product domain, approximately 48% of users reported recently using only 1 product, approximately 23% reported recently using 2 products and approximately 29% reported using >3 products. Within the CAM provider domain, approximately 72% of users reported recently using only 1 provider; 28% reported recently using >1 provider. Within the CAM practice domain, approximately 61% of users reported recently using only 1 practice; 39% reported recently using >1 practice. The majority of respondents (76.9%) reported recently using 1 CAM domain; approximately 19% reported recently using 2 domains and approximately 3% reported using all 3 domains. In general, the sociodemographic profile of individuals who used only 1 domain was similar to those who used more than 1 domain (data not shown).

Recent CAM product, provider and practice use varied modestly by study site. For example, 66.5% of participants from the Northwest used CAM products, compared to 60.2% of participants from the Southeast, 29.6% of participants from Northern California and 53.0% of participants from Southern California. Approximately 12% of participants from Southern California used CAM providers, compared to 9% of participants from the Northwest, 8.1% of participants from Northern California and 3.5% of participants from the Southeast. Approximately 33% of participants from Southern California used CAM practices, compared to 30% of participants from Northern California, 29.8% of participants from the Northwest and 28.9% of participants from the Southeast.

3.4 Perceived Efficacy of CAM

Perceived efficacy of CAM therapies ranged from 20%–84.2% (Table 2). Among CAM products used most often, melatonin (78.8%) and probiotics (65.1%) were perceived as helpful by the majority of parents while only a third of parents reported multivitamins (34%) and vitamin C (38.3%) as helpful. Among the quarter of parents who had used CAM providers, the majority reported that yoga/tai chi/qi gong providers (73.1%), chiropractors (66.3%), naturopaths (68.1%) and massage therapists (77.9%) were helpful. Among CAM practices, at-home massage was seen as helpful by most parents (84.2%), followed by at-home yoga/tai chi/qi gong (80.1%) and special diets (71.6%).

3.5 Predictors of CAM Use

Results from the multivariate regression analysis indicated that the following characteristics were associated with both (1) any recent CAM use and (2) recent CAM product use: greater parental education, younger child age, a mix of regular and special classroom settings and prescription drug use in the past three months. Compared to parents who had a high school diploma or less, parents with some graduate education or a graduate degree were 2.27 times more likely to use any type of CAM with their children [95% CI=1.30–3.96, p<0.05].

Compared to children age 15–18 years, children four years of age or younger were 3.20 times more likely to use any type of CAM [95% CI=1.59–6.43, p<0.05] and children age five to nine years old were 1.97 times more likely to use any type of CAM [95% CI=1.31–2.95, p<0.05]. Compared to children who were in a special classroom all day, children who had a mix of regular and special classrooms were 1.70 more likely to use any type of CAM [95% CI=1.22–2.37, p<0.05]. Children who were currently using psychotropic medications were 2.16 times more likely to use any type of CAM compared to children not taking these medications [95% CI=1.58–2.94, p<0.05; Table 3).

Table 3.

Factors associated with any recent CAM use.

Factor aOR+ 95% CI
Parental Education
 High school or less Referent Referent
 Some college/college degree 1.46 0.89–2.40
 Some grad/grad degree 2.27** 1.30–3.96
Parent Marital Status
 Married/Living with Partner Referent Referent
 Single 0.49 0.25–1.95
 Separated/Divorced 0.68 0.46–1.02
 Widowed 1.44 0.34–5.99
 Prefer not to answer 0.60 0.11–3.46
Child Age (in years)
 15–18 years Referent Referent
 10–14 years 1.21 0.83–1.76
 5–9 years 1.97*** 1.31–2.95
 0–4 years 3.20*** 1.59–6.43
Child Race
 White Referent Referent
 Black/African-American 0.99 0.56–1.76
 American Indian/Native American 0.45 0.19–1.11
 Asian 1.36 0.74–2.50
 Native Hawaiian/Pacific Islander 0.58 0.29–1.18
 Other 1.16 0.70–1.91
 Prefer not to answer 0.61 0.33–1.15
 Multi-Racial 1.22 0.48–3.10
Classroom setting
 Special classroom all day Referent Referent
 Mix of regular and special classrooms 1.70** 1.22–2.37
 Regular classroom all day 1.15 0.81–1.65
Prescription drug use in past 3 months
 No Referent Referent
 Yes 2.16*** 1.58–2.94
Open in a new tab
+

Adjusted for all other variables in the model

**

p<0.01

***

p<0.001

Compared to parents who had a high school diploma or less, parents with some graduate education or a graduate degree were 2.19 times more likely to use CAM products with their children [95% CI=1.27–3.79, p<0.05]. Compared to children age 15–18 years, children four years of age or younger were 3.57 times more likely to use CAM products [95% CI=1.81–7.02, p<0.05] and children age five to nine years old were 1.93 times more likely to use CAM products [95% CI=1.30–2.87, p<0.05]. Compared to children who were in a special classroom all day, children who had a mix of regular and special classrooms were 1.82 times more likely to use CAM products [95% CI=1.32–2.50, p<0.05]. Children who were currently using psychotropic medications were 2.08 times more likely to use CAM products than children not taking these medications [95% CI=1.54–2.81, p<0.05; Table 4).

Table 4.

Factors associated with recent CAM product use.

Factor aOR+ 95% CI
Parental Education
 High school or less Referent Referent
 Some college/college degree 1.42 0.87–2.32
 Some grad/grad degree 2.19** 1.27–3.79
Parent Marital Status
 Married/Living with Partner Referent Referent
 Single 0.65 0.34–1.26
 Separated/Divorced 0.70 0.47–1.04
 Widowed 1.87 0.45–7.71
 Prefer not to answer 0.81 0.14–4.60
Child Age (in years)
 15–18 years Referent Referent
 10–14 years 1.32 0.91–1.91
 5–9 years 1.93** 1.30–2.87
 0–4 years 3.57*** 1.81–7.02
Child Race
 White Referent Referent
 Black/African-American 0.98 0.56–1.72
 American Indian/Native American 0.56 0.23–1.36
 Asian 1.24 0.69–2.21
 Native Hawaiian/Pacific Islander 0.57 0.29–1.15
 Other 0.94 0.58–1.52
 Prefer not to answer 0.58 0.32–1.08
 Multi-Racial 1.19 0.48–2.94
Classroom setting
 Special classroom all day Referent Referent
 Mix of regular and special classrooms 1.82** 1.32–2.50
 Regular classroom all day 1.36 0.96–1.94
Prescription drug use in past 3 months
 No Referent Referent
 Yes 2.08*** 1.54–2.81
Open in a new tab
+

Adjusted for all other variables in the model

**

p<0.01

***

p<0.001

4. DISCUSSION

Findings from the present study suggest that CAM use is very common in this population and that, specifically, CAM products including multivitamins, fish oil/omega 3s, melatonin, vitamins C, D and B12 and probiotics were the most frequently used types of CAM therapies. Parents/caregivers in our study generally felt that melatonin and probiotics were the most helpful types of CAM products for their children with ASD. Respondents used CAM providers and practices less often but, within these categories, yoga/tai chi/qi gong, chiropractic care, special diets and massage were the mostly commonly used and the majority of parents using these therapies indicated that they were helpful. We also found that greater parental education, younger child age, a mix of regular and special classroom settings and prescription drug use in the past three months predicted both recent use of any CAM modality as well as recent CAM product use.

The finding that CAM use was very common in this population is consistent with prior reports (Christon et al., 2010; Hanson et al., 2007; Harrington et al., 2006; Huang et al., 2013), as is finding that CAM products were the most commonly used types of CAM therapies (K. A. Brown & Patel, 2005). Unfortunately, there are limited data available about the efficacy (and the possible harms) of CAM products for children with ASD (Huffman, Sutcliffe, Tanner, & Feldman, 2011). For example, while there are a few preliminary studies that suggest that vitamin and herb supplementation may be reasonable to consider for children with ASD (Levy & Hyman, 2008), there are some important limitations to these data. First, dietary supplements are often vitamin fortified and many families provide multiple supplements to their children (R. S. Akins, Angkustsiri, & Hansen, 2010). Data from the present study supports this, as over half of CAM product users reported using more than 1 vitamin or supplement with their child. Additionally, the purity and quality of the preparation of these supplements is unknown (Bent, Bertoglio, & Hendren, 2009; Nickel, 1996). Thus, caution must be exercised to avoid inadvertent excessive intake of individual vitamins which can result in vitamin toxicity (e.g., excessive intake of vitamin C can result in diarrhea and kidney stones (Schechtman, 2007).

Second, the efficacy studies that have been conducted have generally had small sample sizes. For example, though there have been several randomized, double-blind crossover studies of melatonin in the ASD population, the sample sizes range from 5–20 children (Garstang & Wallis, 2006; Wasdell et al., 2008; Wirojanan et al., 2009). Similarly, one study reported gains in verbal IQ for children receiving a vitamin B-magnesium combination compared to those in the placebo group; however, there were only four participants in each group (Kuriyama et al., 2002). Other studies that have examined the efficacy of essential fatty acids have also had small sample sizes and have reported no statistically significant reduction in symptomatology in the treatment verses control groups (Bent et al., 2009). Therefore, it is difficult to draw any clear conclusions from these data.

Third, many of these studies have only evaluated the safety and efficacy of a product at relatively low doses; thus we have few data available about the risk of adverse events at higher doses. For example, though melatonin appears to be well tolerated up to 10 mg dose (R. S. Akins et al., 2010; Anagnostou & Hansen, 2011; Whitehouse, 2013) and Omega 3 fatty acids appear to be well tolerated up to 1.54 grams per day (Bent et al., 2009), we do not yet know about the safety of these supplements for children at higher doses (Bent et al., 2009). Given that fewer than 50% of families talk with their children’s doctors about their CAM use (Sibinga, Ottolini, Duggan, & Wilson, 2000), many providers may not be aware of the specific products and doses parents are using with their children.

Finally, we also have very limited data available about possible interactions between vitamins/supplements and other prescription medications commonly used by children with ASD including stimulants, antipsychotics, antidepressants, mood stabilizers and antianxiety medications. Some preliminary evidence suggests that St. John’s wort, Echinacea, valerian, garlic, ginseng, kava and ginkgo can all have significant interactions with antipsychotics, antidepressants and/or sedatives (Chen et al., 2011; Fugh-Berman, 2000; Miller, 1998; Sood et al., 2008; Van Strater & Bogers, 2012; Zablocka-Slowinska et al., 2013). Therefore, it is concerning that our findings indicate that recent psychotropic medication use was predictive of recent CAM product use, as it suggests that many children with ASD may be concurrently taking both vitamins/supplements and prescription psychotropic medications and thus may be at risk for possible interactions.

Prior research that has examined the association between CAM and prescription medication use among individuals with ASD has been mixed. One study reported that children who were currently using psychotropic medications were less likely to be on special diets (Perrin et al., 2012) and a second reported a non-significant trend toward more CAM therapy use by the children who did not use prescription medications (Huang et al., 2013). By contrast, another study suggests that pediatric CAM users are more likely to take prescription medications (Birdee, Phillips, Davis, & Gardiner, 2010). Evidence suggests that parents of children with ASD may differ with respect to what factors influence their decision making to seek out additional treatments/therapies. For example, while some studies suggest that parents do not seek new treatments because they are already using treatments that they believe are effective (Birkin, Anderson, Seymour, & Moore, 2008), others indicate that the perceived effectiveness of one type of therapy may lead parents to try additional therapies (Loomis, 2007). Other parents may seek out new treatments when they believe that progress is slow or that the current therapies they are using are ineffective (Smith & Antolovich, 2000; Valentine, 2010). Clearly, further studies are needed to better understand the reasons why parents of children with ASD decide to use both CAM and prescription medications.

Our finding that greater parental education was associated with CAM use is consistent with several prior studies (R.S. Akins et al., 2014; Hall & Riccio, 2012; Hanson et al., 2007; H. H. Wong & Smith, 2006). The use of most CAM therapies, excluding some home remedies, often requires the user to identify how and where to seek out information about the therapy, understand the information, evaluate its credibility and then make use of that information. Though this process may also be common among individuals seeking additional conventional health information (Friedman, Hoffman-Goetz, & Arocha, 2006; Vallance, Taylor, & Lavallee, 2008), it may be even more likely among CAM users as the Internet and print materials may be the only sources of information about CAM therapies. Given the complexity and poor readability of many Internet and print health materials (Cotugna, Vickery, & Carpenter-Haefele, 2005; Wilson, 2009), it is reasonable to conclude that higher educational attainment may be needed for more extensive CAM use. Additionally, socioeconomic resources may also facilitate individuals’ ability to pay for CAM (Chao & Wade, 2008) which has not historically been covered by Medicaid, Medicare or private insurers.

We found that younger children were more likely to use CAM compared to their older counterparts, which is inconsistent with two prior studies that did not report any association between child age and CAM use (H. H. Wong & Smith, 2006; V. C. Wong, 2009). Older children may be less willing to take CAM products or engage with a CAM provider or in CAM practices compared to younger children. It may also be the case that, because older children have generally had an ASD diagnosis for a longer period of time compared to younger children, parents could have used CAM products with their children many years ago but have since turned to other therapies (and thus would not report using these products in the past 3 months). Future research is needed to explore the ways in which parents’ choices about treatment may evolve over time.

Our finding that children who had a mix of regular and special classrooms were more likely to use CAM compared to children who were in a special classroom all day has not been reported in prior literature, to the best of our knowledge. There is some evidence that children with more severe impairment are more likely to use CAM (Christon et al., 2010; Hanson et al., 2007); thus, if classroom type is a marker for ASD severity, our finding is not consistent with these studies. Additional research is needed to examine the ways in which symptom severity may impact parents’ choices about CAM therapies.

The present study has several limitations. First, the survey response rate was fairly low (~13%); however, this response rates is similar to that observed in other Web surveys (Cook, Heath, & Thompson, 2000) and evidence suggest web-based data collection is considered a valid and reliable technique when compared with mailed or in-person approaches (Gosling, Vazire, Srivastava, & John, 2004) and is a frequently-used tool in survey research (Granello & Wheaton, 2004). Survey respondents were more likely to be White and Non-Hispanic and less likely to be Black or Asian when compared to non-respondents. Prior research suggests that Non-Hispanic Whites are more likely than their African-American and Asian counterparts to use most types of CAM modalities including vitamins/nutritional supplements, chiropractic care, mind/body practices, manual therapies and homeopathy. However, Mexican-Americans are more likely to use medicinal herbs and teas and Asians are more likely to use acupuncture and prepackaged Chinese medicines compared to Non-Hispanic Whites (Kronenberg, Cushman, Wade, Kalmuss, & Chao, 2006). Therefore, while children’s gender, ASD diagnosis type and age were similar for respondents and non-respondents, we may not have fully captured the patterns and predictors of CAM use among all children with ASD in the patient population.

Second, though we were able to assess whether parents had used CAM products and/or prescription psychotropic medications with their children within the past three months, we were not able to inquire about the dose and frequency with which these therapies were taken nor were we able to explore the association between CAM products and other, non-psychotropic medications. Future studies could ask participants about CAM product dose and frequency as well as obtain more in-depth information about dose and frequency of all prescription medications from the electronic medical record. Third, though we did ask respondents about CAM therapies that they were specifically using for their child’s ASD, respondents did not have an opportunity to state which ASD symptoms they hoped that therapy might impact. Future studies could examine parents’/caregivers’ expectations of the ways in which a particular CAM modality might improve their child’s ASD. Fourth, depending on the condition being treated, some therapies may be considered standard Western allopathic treatments and thus should not be defined as CAM (Wieland, Manheimer, & Berman, 2011). For example, there is growing evidence to support the use of probiotics among children with gastrointestinal problems (Korterink et al., 2013) and, due to the fact that these problems are particularly common among children with ASD (Chaidez, Hansen, & Hertz-Picciotto, 2014), probiotics may be becoming a more mainstream practice. According to the National Center for Complementary and Integrative Health, “CAM” practices are those that are developed and used outside of mainstream, Western practice (National Center for Complementary and Integrative Health, 2015). Therefore, we may have overestimated CAM use if this definition of CAM is considered. Finally, all sites participating in the study were integrated health care organizations and thus findings may not be generalizable to other healthcare settings, particularly those that serve uninsured populations.

In spite of these limitations, this study has a number of important strengths. We were able to address some of the limitations of prior research on CAM use among individuals with ASD, namely that our sample was large and geographically diverse, we assessed recent CAM use in addition to past use, and we asked respondents about concurrent use of CAM and prescription therapies.

5. CONCLUSION

As CAM use is common in this population and there are limited data published about the safety and efficacy of CAM treatments for children with ASD, it is critical that providers be aware of the high use of CAM, understand these therapies and be prepared to discuss the possibility of negative side effects and CAM-drug interactions. Future studies are needed that specifically evaluate the safety of concurrent CAM and prescription medication use among children with ASD. Providers should also be prepared to help families think about other possible disadvantages to using some types of CAM, namely that many of these therapies can be expensive and can involve a great deal of time and energy (Christon et al., 2010). Some therapies may even be harmful to children. For example, there is some evidence that gluten-free/casein-free diets may be associated with nutritional deficiencies (Arnold, Hyman, Mooney, & Kirby, 2003) and suboptimal bone development (Hediger et al., 2008); there are also serious adverse side effects associated with chelation treatment including fever, vomiting, diarrhea, cardiovascular problems and even death (Beachamp et al., 2006; M. J. Brown, Willis, Omalu, & Leiker, 2006; Moel & Kumar, 1982). Thus, given these risks as well as the biologic implausibility of some CAM therapies such as homeopathy and chiropractic (R. S. Akins et al., 2010), families’ time and money might be better spent on evidence-based interventions such as social skills groups and early intensive behavioral interventions (Reichow, 2012; Reichow, Barton, Boyd, & Hume, 2012; Reichow, Steiner, & Volkmar, 2012). Providers and families need to have ongoing and open dialogues about both the advantages and disadvantages of CAM for children with ASD so that parents of children with ASD can make well-informed health care decisions.

HIGHLIGHTS.

  • We examined the prevalence and predictors of complementary and alternative medicine (CAM) use among children with ASD

  • We administered a web-based survey to parents of children with ASD to obtain information about services and treatments received by children with ASD

  • The majority of participants had either used CAM in the past or had recently used some type of CAM

  • Greater parental education, younger child age, a mix of regular and special classroom settings and prescription drug use in the past three months were associated with CAM use

Acknowledgments

This project was supported by Award Number U19MH092201 from the National Institute of Mental Health. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute of Mental Health or the National Institutes of Health.

Footnotes

Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.

References

  1. Akins RS, Angkustsiri K, Hansen RL. Complementary and alternative medicine in autism: an evidence-based approach to negotiating safe and efficacious interventions with families. Neurotherapeutics. 2010;7(3):307–319. doi: 10.1016/j.nurt.2010.05.002. S1933-7213(10)00044-9 [pii] [DOI] [PMC free article] [PubMed] [Google Scholar]
  2. Akins RS, Krakowiak Paula, Angkustsiri Kathleen, Hertz-Picciotto Irva, Hansen Robin L. Utilization patterns of conventional and complementary/alternative treatments in children with autism spectrum disorders and developmental disabilities in a population-based study. Journal of Developmental & Behavioral Pediatrics. 2014;35(1):1–10. doi: 10.1097/DBP.0000000000000013. [DOI] [PMC free article] [PubMed] [Google Scholar]
  3. Anagnostou E, Hansen R. Medical treatment overview: traditional and novel psycho-pharmacological and complementary and alternative medications. Curr Opin Pediatr. 2011;23(6):621–627. doi: 10.1097/MOP.0b013e32834cba3e. [DOI] [PMC free article] [PubMed] [Google Scholar]
  4. Arnold GL, Hyman SL, Mooney RA, Kirby RS. Plasma amino acids profiles in children with autism: potential risk of nutritional deficiencies. J Autism Dev Disord. 2003;33(4):449–454. doi: 10.1023/a:1025071014191. [DOI] [PubMed] [Google Scholar]
  5. Beachamp RA, Willis TM, Betz TG, Villanacci J, Leiker RD, Rozin L. Deaths associated with hypocalcemia from chelation therapy - Texas, Pennsylvania and Oregon, 2003 – 2005. Journal of the American Medical Association. 2006;295:2131–2133. [Google Scholar]
  6. Bent S, Bertoglio K, Hendren RL. Omega-3 fatty acids for autistic spectrum disorder: a systematic review. J Autism Dev Disord. 2009;39(8):1145–1154. doi: 10.1007/s10803-009-0724-5. [DOI] [PMC free article] [PubMed] [Google Scholar]
  7. Birdee Gurjeet S, Phillips Russell S, Davis Roger B, Gardiner Paula. Factors Associated With Pediatric Use of Complementary and Alternative Medicine. Pediatrics. 2010;125(2):249–256. doi: 10.1542/peds.2009-1406. [DOI] [PMC free article] [PubMed] [Google Scholar]
  8. Birkin C, Anderson A, Seymour F, Moore DW. A parent-focused early intervention program for autism: who gets access? J Intellect Dev Disabil. 2008;33(2):108–116. doi: 10.1080/13668250802036746. [DOI] [PubMed] [Google Scholar]
  9. Bowker Anne, D’Angelo NadiaM, Hicks Robin, Wells Kerry. Treatments for Autism: Parental Choices and Perceptions of Change. Journal of Autism and Developmental Disorders. 2011;41(10):1373–1382. doi: 10.1007/s10803-010-1164-y. [DOI] [PubMed] [Google Scholar]
  10. Brannan AM, Athay MM, de Andrade AR. Measurement Quality of the Caregiver Strain Questionnaire-Short Form 7 (CGSQ-SF7) Adm Policy Ment Health. 2012;39(1–2):51–59. doi: 10.1007/s10488-012-0412-1. [DOI] [PubMed] [Google Scholar]
  11. Brown KA, Patel DR. Complementary and alternative medicine in developmental disabilities. Indian J Pediatr. 2005;72(11):949–952. doi: 10.1007/BF02731671. [DOI] [PubMed] [Google Scholar]
  12. Brown MJ, Willis T, Omalu B, Leiker R. Deaths resulting from hypocalcemia after administration of edetate disodium: 2003–2005. Pediatrics. 2006;118(2):e534–536. doi: 10.1542/peds.2006-0858. [DOI] [PubMed] [Google Scholar]
  13. Buescher AV, Cidav Z, Knapp M, Mandell DS. Costs of autism spectrum disorders in the United Kingdom and the United States. JAMA Pediatr. 2014;168(8):721–728. doi: 10.1001/jamapediatrics.2014.210. [DOI] [PubMed] [Google Scholar]
  14. Centers for Disease Control and Prevention (CDC) Prevalence of Autism Spectrum Disorder Among Children Aged 8 Years — Autism and Developmental Disabilities Monitoring Network, 11 Sites, United States, 2010. Morbidity and Mortality Weekly Reports. 2014 http://www.cdc.gov/mmwr/preview/mmwrhtml/ss6302a1.htm?s_cid=ss6302a1_w. [PubMed]
  15. Chaidez V, Hansen RL, Hertz-Picciotto I. Gastrointestinal problems in children with autism, developmental delays or typical development. J Autism Dev Disord. 2014;44(5):1117–1127. doi: 10.1007/s10803-013-1973-x. [DOI] [PMC free article] [PubMed] [Google Scholar]
  16. Chao MT, Wade CM. Socioeconomic factors and women's use of complementary and alternative medicine in four racial/ethnic groups. Ethn Dis. 2008;18(1):65–71. [PMC free article] [PubMed] [Google Scholar]
  17. Chen XW, Serag ES, Sneed KB, Liang J, Chew H, Pan SY, Zhou SF. Clinical herbal interactions with conventional drugs: from molecules to maladies. Current Medicinal Chemistry. 2011;18(31):4836–4850. doi: 10.2174/092986711797535317. [DOI] [PubMed] [Google Scholar]
  18. Christon Lillian M, Mackintosh Virginia H, Myers Barbara J. Use of complementary and alternative medicine (CAM) treatments by parents of children with autism spectrum disorders. Research in Autism Spectrum Disorders. 2010;4(2):249–259. http://dx.doi.org/10.1016/j.rasd.2009.09.013. [Google Scholar]
  19. Coleman KJ, Lutsky MA, Yau V, Qian Y, Pomichowski ME, Crawford PM, Croen LA. Validation of Autism Spectrum Disorder Diagnoses in Large Healthcare Systems with Electronic Medical Records. J Autism Dev Disord. 2015 doi: 10.1007/s10803-015-2358-0. [DOI] [PMC free article] [PubMed] [Google Scholar]
  20. Cook C, Heath F, Thompson RL. A Meta-Analysis of Response Rates in Web- or Internet-Based Surveys. Educational and Psychological Measurement. 2000;60(6):821–836. [Google Scholar]
  21. Copeland L, Buch G. Early Intervention Issues in Autism Spectrum Disorders. Autism. 2013;3(109) doi: 10.4172/2165-7890.1000109. [DOI] [Google Scholar]
  22. Cotugna N, Vickery CE, Carpenter-Haefele KM. Evaluation of literacy level of patient education pages in health-related journals. J Community Health. 2005;30(3):213–219. doi: 10.1007/s10900-004-1959-x. [DOI] [PubMed] [Google Scholar]
  23. Dawson G, Rogers S, Munson J, Smith M, Winter J, Greenson J, Varley J. Randomized, controlled trial of an intervention for toddlers with autism: the Early Start Denver Model. Pediatrics. 2010;125(1):e17–23. doi: 10.1542/peds.2009-0958. peds.2009-0958 [pii] [DOI] [PMC free article] [PubMed] [Google Scholar]
  24. Fouladbakhsh JM, Stommel M. Using the behavioral model for complementary and alternative medicine: The CAM Healthcare Model. Journal of Complementary and Integrative Medicine. 2007;4(1):1–19. [Google Scholar]
  25. Friedman DB, Hoffman-Goetz L, Arocha JF. Health literacy and the World Wide Web: comparing the readability of leading incident cancers on the Internet. Med Inform Internet Med. 2006;31(1):67–87. doi: 10.1080/14639230600628427. [DOI] [PubMed] [Google Scholar]
  26. Fugh-Berman A. Herb-drug interactions. Lancet. 2000;355(9198):134–138. doi: 10.1016/S0140-6736(99)06457-0. [DOI] [PubMed] [Google Scholar]
  27. Garstang J, Wallis M. Randomized controlled trial of melatonin for children with autistic spectrum disorders and sleep problems. Child: care, health and development. 2006;32(5):585–589. doi: 10.1111/j.1365-2214.2006.00616.x. [DOI] [PubMed] [Google Scholar]
  28. Goin-Kochel Robin P, Mackintosh Virginia H, Myers Barbara J. Parental reports on the efficacy of treatments and therapies for their children with autism spectrum disorders. Research in Autism Spectrum Disorders. 2009;3(2):528–537. http://dx.doi.org/10.1016/j.rasd.2008.11.001. [Google Scholar]
  29. Goin-Kochel Robin P, Myers Barbara J, Mackintosh Virginia H. Parental reports on the use of treatments and therapies for children with autism spectrum disorders. Research in Autism Spectrum Disorders. 2007;1(3):195–209. http://dx.doi.org/10.1016/j.rasd.2006.08.006. [Google Scholar]
  30. Gosling SD, Vazire S, Srivastava S, John OP. Should we trust web-based studies? A comparative analysis of six preconceptions about internet questionnaires. Am Psychol. 2004;59(2):93–104. doi: 10.1037/0003-066X.59.2.93. [DOI] [PubMed] [Google Scholar]
  31. Granello DH, Wheaton JE. Online data collection: Strategies for research. Journal of Counseling and Development. 2004;82:387–393. [Google Scholar]
  32. Green Vanessa A, Pituch Keenan A, Itchon Jonathan, Choi Aram, O’Reilly Mark, Sigafoos Jeff. Internet survey of treatments used by parents of children with autism. Research in Developmental Disabilities. 2006;27(1):70–84. doi: 10.1016/j.ridd.2004.12.002. http://dx.doi.org/10.1016/j.ridd.2004.12.002. [DOI] [PubMed] [Google Scholar]
  33. Hall SE, Riccio CA. Complementary and alternative treatment use for autism spectrum disorders. Complement Ther Clin Pract. 2012;18(3):159–163. doi: 10.1016/j.ctcp.2012.03.004. S1744-3881(12)00029-1 [pii] [DOI] [PubMed] [Google Scholar]
  34. Hanson E, Kalish LA, Bunce E, Curtis C, McDaniel S, Ware J, Petry J. Use of complementary and alternative medicine among children diagnosed with autism spectrum disorder. J Autism Dev Disord. 2007;37(4):628–636. doi: 10.1007/s10803-006-0192-0. [DOI] [PubMed] [Google Scholar]
  35. Harrington JW, Rosen L, Garnecho A, Patrick PA. Parental perceptions and use of complementary and alternative medicine practices for children with autistic spectrum disorders in private practice. J Dev Behav Pediatr. 2006;27(2 Suppl):S156–161. doi: 10.1097/00004703-200604002-00014. 00004703-200604002-00014 [pii] [DOI] [PubMed] [Google Scholar]
  36. Hediger ML, England LJ, Molloy CA, Yu KF, Manning-Courtney P, Mills JL. Reduced bone cortical thickness in boys with autism or autism spectrum disorder. J Autism Dev Disord. 2008;38(5):848–856. doi: 10.1007/s10803-007-0453-6. [DOI] [PubMed] [Google Scholar]
  37. Hendren Robert L. Autism: biomedical complementary treatment approaches. Child & Adolescent Psychiatric Clinics of North America. 2013;22(3):443–456. doi: 10.1016/j.chc.2013.03.002. [DOI] [PubMed] [Google Scholar]
  38. Howlin P, Magiati I, Charman T. Systematic review of early intensive behavioral interventions for children with autism. Am J Intellect Dev Disabil. 2009;114(1):23–41. doi: 10.1352/2009.114:23;nd41. 1944-7515-114-1-23 [pii] [DOI] [PubMed] [Google Scholar]
  39. Huang A, Seshadri K, Matthews TA, Ostfeld BM. Parental Perspectives on Use, Benefits, and Physician Knowledge of Complementary and Alternative Medicine in Children with Autistic Disorder and Attention-Deficit/Hyperactivity Disorder. J Altern Complement Med. 2013 doi: 10.1089/acm.2012.0640. [DOI] [PMC free article] [PubMed] [Google Scholar]
  40. Huffman LC, Sutcliffe TL, Tanner IS, Feldman HM. Management of symptoms in children with autism spectrum disorders: a comprehensive review of pharmacologic and complementary-alternative medicine treatments. J Dev Behav Pediatr. 2011;32(1):56–68. doi: 10.1097/DBP.0b013e3182040acf. [DOI] [PubMed] [Google Scholar]
  41. Kemper Kathi J, Vohra Sunita, Walls Richard Complementary, the Task Force on, Medicine, Alternative, the Provisional Section on Complementary, Holistic, & Medicine, Integrative. . The Use of Complementary and Alternative Medicine in Pediatrics. Pediatrics. 2008;122(6):1374–1386. doi: 10.1542/peds.2008-2173. [DOI] [PubMed] [Google Scholar]
  42. Korterink JJ, Ockeloen L, Benninga MA, Tabbers MM, Hilbink M, Deckers-Kocken JM. Probiotics for childhood functional gastrointestinal disorders: A systematic review and meta-analysis. Acta Paediatrica. 2013;103:365–372. doi: 10.1111/apa.12513. [DOI] [PubMed] [Google Scholar]
  43. Kronenberg F, Cushman LF, Wade CM, Kalmuss D, Chao MT. Race/ethnicity and women's use of complementary and alternative medicine in the United States: results of a national survey. Am J Public Health. 2006;96(7):1236–1242. doi: 10.2105/AJPH.2004.047688. [DOI] [PMC free article] [PubMed] [Google Scholar]
  44. Kuriyama Shinichi, Kamiyama Machiko, Watanabe Mikako, Tamahashi Seiko, Muraguchi Itaru, Watanabe Toru, Hisamichi Shigeru. Pyridoxine treatment in a subgroup of children with pervasive developmental disorders. Developmental medicine and child neurology. 2002;44(4):284–286. [PubMed] [Google Scholar]
  45. Levy SE, Hyman SL. Use of complementary and alternative treatments for children with autistic spectrum disorders is increasing. Pediatr Ann. 2003;32(10):685–691. doi: 10.3928/0090-4481-20031001-10. [DOI] [PubMed] [Google Scholar]
  46. Levy SE, Hyman SL. Complementary and alternative medicine treatments for children with autism spectrum disorders. Child Adolesc Psychiatr Clin N Am. 2008;17(4):803–820. ix. doi: 10.1016/j.chc.2008.06.004. S1056-4993(08)00044-8 [pii] [DOI] [PMC free article] [PubMed] [Google Scholar]
  47. Levy SE, Mandell DS, Merhar S, Ittenbach RF, Pinto-Martin JA. Use of complementary and alternative medicine among children recently diagnosed with autistic spectrum disorder. J Dev Behav Pediatr. 2003;24(6):418–423. doi: 10.1097/00004703-200312000-00003. [DOI] [PubMed] [Google Scholar]
  48. Loomis DM. Parental decision-making on alternative biomedical interventions for autistim spectrum disorders and related health conditions. Dissertation Abstracts International Section A: Humanities and Social Sciences. 2007;68(3-A):954. [Google Scholar]
  49. Massolo ML, Yau VM, Owen-Smith AA, Lynch F, Crawford PM, Pearson KA, Croen LA. A Survey of Parents with Children on the Autism Spectrum: A Resource for Future Research. [Google Scholar]
  50. McDonagh MS, Morgan D, Carson S, Russman BS. Systematic review of hyperbaric oxygen therapy for cerebral palsy: the state of the evidence. Dev Med Child Neurol. 2007;49(12):942–947. doi: 10.1111/j.1469-8749.2007.00942.x. [DOI] [PubMed] [Google Scholar]
  51. McPheeters ML, Warren Z, Sathe N, Bruzek JL, Krishnaswami S, Jerome RN, Veenstra-Vanderweele J. A systematic review of medical treatments for children with autism spectrum disorders. Pediatrics. 2011;127(5):e1312–1321. doi: 10.1542/peds.2011-0427. peds.2011-0427 [pii] [DOI] [PubMed] [Google Scholar]
  52. Miller LG. Herb medicinals: selected clinical considerations focusing on known or potential drug-herb interactions. Archives of Internal Medicine. 1998;158(20):2200–2211. doi: 10.1001/archinte.158.20.2200. [DOI] [PubMed] [Google Scholar]
  53. Moel DI, Kumar K. Reversible nephrotoxic reactions to a combined 2,3-dimercapto-1-propanol and calcium disodium ethylenediaminetetraacetic acid regimen in asymptomatic children with elevated blood lead levels. Pediatrics. 1982;70(2):259–262. [PubMed] [Google Scholar]
  54. Myers SM, Johnson CP The American Academy of Pediatrics Council on Children With Disabilities. Management of children with autism spectrum disorders. Pediatrics. 2007;120(5):1162–1182. doi: 10.1542/peds.2007-2362. [DOI] [PubMed] [Google Scholar]
  55. National Center for Complementary and Integrative Health. Complementary, alternative or integrative health: What's in a name? 2015. [Google Scholar]
  56. Nickel Robert E. Controversial Therapies for Young Children with Developmental Disabilities. Infants & Young Children. 1996;8(4):29–40. [Google Scholar]
  57. Perrin JM, Coury DL, Hyman SL, Cole L, Reynolds AM, Clemons T. Complementary and alternative medicine use in a large pediatric autism sample. Pediatrics. 2012;130(Suppl 2):S77–82. doi: 10.1542/peds.2012-0900E. peds.2012-0900E [pii] [DOI] [PubMed] [Google Scholar]
  58. Reichow B. Overview of meta-analyses on early intensive behavioral intervention for young children with autism spectrum disorders. J Autism Dev Disord. 2012;42(4):512–520. doi: 10.1007/s10803-011-1218-9. [DOI] [PubMed] [Google Scholar]
  59. Reichow B, Barton EE, Boyd BA, Hume K. Early intensive behavioral intervention (EIBI) for young children with autism spectrum disorders (ASD) Cochrane Database Syst Rev. 2012;10:CD009260. doi: 10.1002/14651858.CD009260.pub2. [DOI] [PubMed] [Google Scholar]
  60. Reichow B, Steiner AM, Volkmar F. Social skills groups for people aged 6 to 21 with autism spectrum disorders (ASD) Cochrane Database Syst Rev. 2012;7:CD008511. doi: 10.1002/14651858.CD008511.pub2. [DOI] [PubMed] [Google Scholar]
  61. Schechtman Merryl A. Scientifically Unsupported Therapies in the Treatment of Young Children with Autism Spectrum Disorders. Pediatric Annals. 2007;36(8):497–498. doi: 10.3928/0090-4481-20070801-12. 500–492, 504–495. [DOI] [PubMed] [Google Scholar]
  62. Senel HG. Parents' views and experiences about complementary and alternative medicine treatments for their children with autistic spectrum disorder. J Autism Dev Disord. 2010;40(4):494–503. doi: 10.1007/s10803-009-0891-4. [DOI] [PubMed] [Google Scholar]
  63. Shattuck PT, Grosse SD. Issues related to the diagnosis and treatment of autism spectrum disorders. Ment Retard Dev Disabil Res Rev. 2007;13(2):129–135. doi: 10.1002/mrdd.20143. [DOI] [PubMed] [Google Scholar]
  64. Sibinga E, Ottolini M, Duggan A, Wilson M. Communication about complementary/alternative medicine use in children. Pediatric Reseach. 2000;47:226A. doi: 10.1177/000992280404300408. [DOI] [PubMed] [Google Scholar]
  65. Smith T, Antolovich M. Parental perceptions of supplemental interventions received by young children with autism in intensive behavior analytic treatment. Behavioral Interventions. 2000;15:83–97. [Google Scholar]
  66. Sood A, Sood R, Brinker FJ, Mann R, Loehrer LL, Wahner-Roedler DL. Potential for interactions between dietary supplements and prescription medications. American Journal of Medicine. 2008;121(3):207–211. doi: 10.1016/j.amjmed.2007.11.014. [DOI] [PubMed] [Google Scholar]
  67. Valentine K. A consideration of medicalisation: choice, engagement and other responsibilities of parents of children with autism spectrum disorder. Soc Sci Med. 2010;71(5):950–957. doi: 10.1016/j.socscimed.2010.06.010. [DOI] [PubMed] [Google Scholar]
  68. Valicenti-McDermott M, Burrows B, Bernstein L, Hottinger K, Lawson K, Seijo R, Shinnar S. Use of Complementary and Alternative Medicine in Children With Autism and Other Developmental Disabilities: Associations With Ethnicity, Child Comorbid Symptoms, and Parental Stress. J Child Neurol. 2013 doi: 10.1177/0883073812474489. 0883073812474489 [pii] [DOI] [PubMed] [Google Scholar]
  69. Vallance JK, Taylor LM, Lavallee C. Suitability and readability assessment of educational print resources related to physical activity: implications and recommendations for practice. Patient Educ Couns. 2008;72(2):342–349. doi: 10.1016/j.pec.2008.03.010. [DOI] [PubMed] [Google Scholar]
  70. Van Strater AC, Bogers JP. Interaction of St John's wort with clozapine. International Clinical Psychopharmacology. 2012;27(2):121–124. doi: 10.1097/YIC.0b013e32834e8afd. [DOI] [PubMed] [Google Scholar]
  71. Varni JW, Katz ER, Seid M, Quiggins DJ, Friedman-Bender A. The pediatric cancer quality of life inventory-32 (PCQL-32): I. Reliability and validity. Cancer. 1998;82(6):1184–1196. doi: 10.1002/(sici)1097-0142(19980315)82:6<1184::aid-cncr25>3.0.co;2-1. [DOI] [PubMed] [Google Scholar]
  72. Wasdell Michael B, Jan James E, Bomben Melissa M, Freeman Roger D, Rietveld Wop J, Tai Joseph, Weiss Margaret D. A randomized, placebo-controlled trial of controlled release melatonin treatment of delayed sleep phase syndrome and impaired sleep maintenance in children with neurodevelopmental disabilities. Journal of pineal research. 2008;44(1):57–64. doi: 10.1111/j.1600-079X.2007.00528.x. [DOI] [PubMed] [Google Scholar]
  73. Whitehouse Andrew JO. Complementary and alternative medicine for autism spectrum disorders: rationale, safety and efficacy. Journal of Paediatrics & Child Health. 2013;49(9):E438–442. doi: 10.1111/jpc.12242. quiz E442. [DOI] [PubMed] [Google Scholar]
  74. Wieland LS, Manheimer E, Berman BM. Development and classification of an operational definition of complementary and alternative medicine for the Cochrane collaboration. Altern Ther Health Med. 2011;17(2):50–59. [PMC free article] [PubMed] [Google Scholar]
  75. Wilson M. Readability and patient education materials used for low-income populations. Clin Nurse Spec. 2009;23(1):33–40. doi: 10.1097/01.NUR.0000343079.50214.31. quiz 41–32. [DOI] [PubMed] [Google Scholar]
  76. Wirojanan Juthamas, Jacquemont Sebastien, Diaz Rafael, Bacalman Susan, Anders Thomas F, Hagerman Randi J, Goodlin-Jones Beth L. The efficacy of melatonin for sleep problems in children with autism, fragile X syndrome, or autism and fragile X syndrome. Journal of clinical sleep medicine : JCSM : official publication of the American Academy of Sleep Medicine. 2009;5(2):145–150. [PMC free article] [PubMed] [Google Scholar]
  77. Wong HH, Smith RG. Patterns of complementary and alternative medical therapy use in children diagnosed with autism spectrum disorders. J Autism Dev Disord. 2006;36(7):901–909. doi: 10.1007/s10803-006-0131-0. [DOI] [PubMed] [Google Scholar]
  78. Wong VC. Use of complementary and alternative medicine (CAM) in autism spectrum disorder (ASD): comparison of Chinese and western culture (Part A) J Autism Dev Disord. 2009;39(3):454–463. doi: 10.1007/s10803-008-0644-9. [DOI] [PubMed] [Google Scholar]
  79. Zablocka-Slowinska K, Kawna K, Biernat J. Interactions between synthetic drugs used in treatment of selected central nervous system disoders and dietary supplements and herbal drugs. Psychiatria Polska. 2013;47(3):487–498. [PubMed] [Google Scholar]

RESOURCES