Self‐control interventions for children under age

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1 Introduction

Gottfredson and Hirschi's general theory of crime has generated significant controversy and research, such that there now exists a large knowledge base regarding the importance of self-control in regulating antisocial behavior over the life course. Reviews of this literature indicate that self-control is an important correlate of antisocial activity. There has been some research examining programmatic efforts designed to examine the extent to which self-control is malleable, but little empirical research on this issue has been carried out within criminology, largely because the theorists have not paid much attention to policy proscriptions. This study evaluates the extant research on the effectiveness of self-control improvement programs on self-control up to age 10 among children and adolescents, which is the age cutoff where Gottfredson and Hirschi argue that self-control becomes relatively fixed and no longer malleable. Furthermore, this study assesses the effect of these programs on delinquency and problem behaviors. Meta-analytic results indicate that: (1) self-control programs improve a child/adolescent's self-control; (2) these interventions also reduce delinquency and problem behaviors; and (3) the positive effects generally hold across a number of different moderator variables and groupings as well as by outcome source (parent-, teacher-, direct observer-, self-, and clinical report). Theoretical and policy implications are discussed.

1.1 BACKGROUND

It can be stated with certainty that Gottfredson and Hirschi's general theory of crime stands as one of criminology's most important theories. Developed largely in response to parental socialization efforts involving child monitoring, recognition of child deviant behavior, and punishment of such deviant behavior, the theorists isolate the individual characteristic of self-control as the key correlate of antisocial, delinquent, and criminal behavior. According to Gottfredson and Hirschi, self-control is comprised of six inter-related characteristics including: (1) impulsivity and inability to delay gratification, (2) lack of persistence, tenacity, or diligence, (3) partaking in novelty or risk-seeking activities, (4) little value of intellectual ability, (5) self-centeredness, and (6) volatile temper. These characteristics are believed to come together for individuals with low self-control.

Since its inception, the theory has generated a significant amount of theoretical criticism, commentary, especially with respect to its key independent variable of self-control (Grasmick et al., 1993; Piquero et al., 2000; Tittle et al., 2004; Goode, 2008), and summary statements about the empirical knowledge base identify self-control as an important, but not sole correlate of varied antisocial activity (Pratt & Cullen, 2000). At the same time, much less attention has been paid to the malleability of self-control.

There is significant variation in how scholars interpret Gottfredson and Hirschi's stance on whether self-control is absolutely or relatively stable once established by late childhood/early adolescence. Some criminologists have interpreted Gottfredson and Hirschi to mean that self-control is resistant to any change, once established. Our reading, which we believe is consistent with Gottfredson and Hirschi, is such that self-control appears malleable during the first 10/12 years of life, but after this point, while self-control tends to improve with age as socialization continues to occur, it is largely unresponsive to any external intervention effort. Thus, although absolute levels of self-control may change within persons (increasing rather than decreasing), relative rankings between persons will remain constant over the life course. As they (1990, pp.107–108) note: “Combining little or no movement from high self-control to low self-control with the fact that socialization continues to occur throughout life produces the conclusion that the proportion of the population in the potential offender pool should tend to decline as cohorts age…Even the most active offenders burn out with time…Put another way, the low self-control group continues over time to exhibit low self-control. Its size, however, declines.” Elsewhere (1990, p. 177), they point out that “…individual differences in self-control are established early in life (before differences in criminal behavior, however the state defines it, are possible) and are reasonably stable thereafter.”

The existing research on the stability of self-control tends to suggest that it is not absolutely stable within persons (once established by ages 10/12) and that it tends to change (increase) with age (Arneklev et al., 1998; Turner & Piquero, 2002; Hay & Forrest, 2006; Mitchell & MacKenzie, 2006; Winfree et al., 2006), but remains relatively impervious to alterations by the criminal justice system after adolescence and in adulthood (Mitchell & MacKenzie, 2006). Although these findings are consistent with the general theory of crime, interpreting and integrating these findings within the context of the theory has not come easy because Gottfredson and Hirschi have not devoted much attention to policy issues. This has been an unfortunate consequence because discussions of theory and policy must be closely intertwined as good theory should lead to good policy and good policy is guided by sound theory. Of course, this is not to suggest that the theorists have not devoted any attention to policy.

In their strongest policy statement, Hirschi and Gottfredson (2001, p. 93) downplay any potential effectiveness of the criminal justice system: “Self-control theory leads to the conclusion that the formal criminal justice system can play only a minor role in the prevention and control of crime. Because potential offenders do not consider the long-term consequences of their acts, modification of these consequences will have little effect on their behavior. Because criminal acts are so quickly and easily accomplished, they are only rarely directly observed by agents of the criminal justice system. As a result, even large increases in the number of such agents would have minimal effect on the rates of most crimes”. Instead, the theorists are quick to point out the things that do not work and instead point to the few things they think will be effective, mainly to the socializing agents that are responsible for child-rearing.

More specifically, they (Hirschi & Gottfredson, 1995; Hirschi & Gottfredson, 2001, pp. 93–94) advance the following eight recommendations for crime control policy:

Do not attempt to control crime by incapacitating adults; this is so because by the time offenders are identified and incarcerated in adulthood, they have already finished the brunt of their criminal activity;
Do not attempt to control crime by rehabilitating adults; this is so because the age effect makes treatment unnecessary and no treatment program has been shown to be effective;
Do not attempt to control crime by altering the penalties available to the criminal justice system; this is so because legal penalties do not have the desired effect because offenders do not consider them. Increasing the certainty and severity will have a highly limited effect on the decisions of offenders;
Restrict unsupervised activities of teenagers; by limiting teens' access to guns, cars, and alcohol, opportunities become restricted;
Limit proactive policing including sweeps, stings, intensive arrest programs, and aggressive drug policies;
Question the characterization of crime offered by agents of the criminal justice system and repeated by the media; this is so because evidence suggests that offenders are not dedicated, professional;
Support programs designed to provide early education and effective child care; this so because prevention/intervention in the early years are the most important. Programs that target dysfunctional families and seek to remedy lack of supervision have shown promise; and
Support policies that promote and facilitate two-parent families and that increase the number of caregivers relative to the number of children; this is so because large and single-parent families are handicapped with respect to monitoring and discipline (the key elements in producing adequate socialization and strong self-control). Programs to prevent teen pregnancies should be given high priority.

One of these policy proscriptions in particular (#7) points to the possibility that efforts aimed at children and young adolescents may improve self-control and have the added benefit of preventing delinquency and problem behaviors. In fact, there exists a fairly large stock of programmatic efforts aimed at improving self-control among children (up through age 10), but this line of research has not been integrated into the discussion of Gottfredson and Hirschi's theory, either by criminologists or the theorists themselves. Currently, there is no summary statement, similar to Pratt and Cullen's (2000) statement regarding the effect of self-control on antisocial activity, about the extent to which these programs are effective. Such a ‘taking-stock’ summary seems critical at this stage of the theory's life-course.

1.2 OBJECTIVES

There has been much attention paid in both criminology and psychology with respect to the importance of self-control in regulating antisocial, delinquent, and criminal behavior over the life course. Given the importance of self-control, there have been several programmatic efforts designed to improve self-control among children and adolescents. In an effort to build the knowledge base in this area, this study asks two critical questions: (1) What is the effect of self-control improvement programs on self-control up to age 10 among children and adolescents?; and (2) What is the effect of these programs on reducing delinquency and problem behaviors. Examining both self-control and delinquency and problem behavior outcomes would provide a comprehensive review that identifies a large number of studies and will likely evince a sounder conclusion and inform policy proscription for the general theory of crime. This meta-analysis, then, focuses on two inter-related outcomes: (1) What are the effects of self-control improvement programs up to age 10 for improving self-control among children/adolescents (self-control as the dependent variable)?; and (2) What are the effects of self-control improvement programs on delinquency and problem behavior outcomes (delinquency and problem behaviors as the dependent variable).

2 Methods 2.1 CRITERIA FOR INCLUSION AND EXCLUSION OF STUDIES IN THE REVIEW

Studies that investigated the effects of self-control improvement programs on child behavior problems such as conduct problems, antisocial behavior and delinquency were included. Following the more general systematic (e.g., Campbell) reviews, studies were only included if they had a randomized controlled trial design with post-test measures of self-control and/or child behavior problems for the experimental and control participants. The preliminary eligibility criteria are as follows:

Types of Studies: The study must have used a randomized controlled experimental design.¹ The decision to only include studies that had a randomized controlled experimental design was made in order eliminate potentially spurious explanations as to the success of such programs since random assignment in theory rules out potential unmeasured confounds prior to the intervention between program participants. In addition, the quality and research designs of quasi-experimental designs vary greatly, and most experts caution against combining the effects of experimental and quasi-experimental designs (see Piquero et al., 2009);
Types of Participants: The review was primarily focused on children ages 10 and under or the mean age of the sample was no greater than age 10 at the start of the intervention. Studies with mentally and/or physically handicapped subjects were not included;
Type of Intervention: Studies were eligible for this review when self-control improvement was a major component of the intervention;
Types of Outcomes: The study must have included at least one child-based outcome measure of self-control and/or at least one child-based behavioral outcome measure of general problem behaviors including antisocial behavior and delinquency;
Sufficient Data: The study had to provide adequate post-test data for calculating an effect size if one was not provided (i.e., means and standard deviations, t-tests, F-tests, p-values, etc.);
There is no restriction to time frame;
There are no geographic restrictions;
Both published and unpublished reports were considered;
Qualitative studies were not included; and
Studies needed to be available in English.

2.2 SEARCH STRATEGY FOR IDENTIFICATION OF RELEVANT STUDIES

Several strategies were used to perform an exhaustive search for literature fitting the eligibility criteria:

A keyword search using the following keywords was performed: “Self-control” or “self control;” or “impulsivity” and “childhood” or “preschool” or “school” and/or “delinquency” or “conduct disorder” or “antisocial behavior” or “aggression” or “physical aggression” or “behavior problems”
The following online abstract databases listed below were searched:
Criminal Justice Abstracts
National Criminal Justice Reference Services (NCJRS) Abstracts
Sociological Abstracts
Dissertation Abstracts
Government Publications Office Monthly Catalog (GPO Monthly)
PsychINFO
C2 SPECTR (The Campbell Collaboration Social, Psychological, Educational and Criminological Trials Register)
Australian Criminology Database (CINCH)
MEDLINE
Future of Children (publications)
Helping America's Youth.

The reference lists of previous reviews of early childhood prevention/intervention programs in general and self-control improvement programs specifically were consulted (Aos et al., 2004, 2006; Karoly et al., 1998; Greenwood et al., 2006; Suhodolsky et al., 2004; Farrington & Welsh, 2007).

Hand searches were carried out on leading journals in the field. Specifically, the following journals listed were searched: Criminology, Criminology and Public Policy, Justice Quarterly, Journal of Research in Crime and Delinquency, Journal of Criminal Justice, Police Quarterly, Policing, Police Practice and Research, British Journal of Criminology, Journal of Quantitative Criminology, Crime and Delinquency, Journal of Criminal Law and Criminology, Policing and Society, as well as psychology/psychiatry journals including among others, Child Development.

The publications of the following professional agencies were searched:

Vera Institute of Justice
Rand Corporation
Australian Institute of Criminology
Cochrane Library
American Psychiatric Association
OJJDP (Office of Juvenile Justice & Delinquency Prevention)
NICE (National Institute for Health and Clinical Excellence, United Kingdom)
Swedish National Council for Crime Prevention.

Recognized scholars (experts) in various disciplines who were knowledgeable in the specific area of self-control improvement programs were contacted.

Several strategies were used to obtain full-text versions of the studies found through the searches of the various abstract databases. First, we attempted to obtain full-text versions from the electronic journals available through several university library systems. When electronic versions were not available, we used print versions of journals available at the library. If the journals were not available at the university libraries, we used the Interlibrary Loan System (ILL) to try to obtain the printed version from the libraries of other institutions. In the case where these methods failed, we then made attempts to contact the author(s) of the article and/or the agency that funded the research to try to obtain a copy of the full-text version of the study.

2.3 DETAILS OF STUDY CODING CATEGORIES

All eligible studies were coded (see protocol in Appendix C) on a variety of criteria such as reference information (title, authors, publication year, etc.); nature of description of selection of sample, outcomes, etc.; nature and description of control group; unit of analysis; sample size; a description of the self-control improvement intervention; reports of statistical significance (if any); and effect sizes (if any). One investigator independently coded each eligible study. Further, we attempted to assess the quality of the studies in terms of research design, sample bias, and attrition bias.²

2.4 CRITERIA FOR DETERMINATION OF INDEPENDENT FINDINGS

It is the case that most outcome studies rely on multiple measures, but there is disagreement as to how this issue should be handled with some researchers opting to use only one outcome source over another for reasons such as teacher ratings are likely to be less biased than parent reports and systematic “unbiased” observer ratings may be more accurate than teacher ratings (Farrington & Welsh, 2003). Other meta-analyses have averaged the effect sizes (ESs) across outcome measures and outcome sources when generating an individual effect size for each study (McCart et al., 2006). Still, others have noted that this method may lead to the loss of important information and create some difficulty when interpreting the overall effect (Casey & Berman, 1985).

In light of the apparent controversy over which method is more appropriate, we adopted a method of compromise and one that has been used in prior Campbell reviews and meta-analyses (for example, see Piquero et al., 2009), and report a series of effect sizes by outcome measure (e.g., self-control and delinquency and problem behaviors) and outcome source (e.g., parent report, teacher report, direct observation, self-report, and/or clinical report). Further, if a study included more than one treatment condition, then only the treatment condition that used a self-control improvement program was used to generate the relevant ESs. In addition, in the case where multiple control groups exist, then only the outcomes for the no-treatment control group (or wait-list control group) were used to calculate the ES. Similarly, when multiple treatment groups existed where each treated group received a self-control improvement program, then only one ES was calculated for the study by averaging the mean and standard deviation across the treatment groups and then comparing this one pooled mean and standard deviation to that of the control group in order to generate the ES for the study. As one more method for ensuring the statistical independence of findings, we calculated only one single ES for one particular sample in the event that multiple studies reported findings from the same sample of treated youth.

2.5 ANALYTIC PROCEDURES

We rely on Cohen's (1988) d for determining the effect sizes for this meta-analysis. The main source of information for calculating Cohen's d was the standardized mean difference, but in situations where means and standard deviations were not provided t-values, f-values, p-values, partial r etc. was used to calculate the effect sizes (see Lipsey & Wilson 2001 for the relevant formulas). Hedges and Olkin (1985) recommend calculating an unbiased ES that accounts for the discrepancy between the sample ES and the population ES. These authors also suggest that an ES of a small sample study does not have as much “impact” on the overall ES as does an ES calculated from a large sample study. As such, they recommend using inverse variance weights when performing a meta-analysis. Therefore, we used the Hedges and Olkin adjustment and inverse variance weights when determining the ESs in the analysis.

All of the meta-analysis results were estimated using Lipsey and Wilson's SPSS macros relying on a random effects model using inverse variance weight methods. It is also our general assumption that the individual ESs were not likely to be homogeneous so we estimated a series of moderator analyses using Lipsey and Wilson's SPSS analog to the ANOVA macro. Some of the relevant variables that are included in the moderator analyses include publication year, country of publication, small/large samples, published/not published, treatment type, treatment modality (group/individual), treatment duration, and treatment setting. The last stage of the analysis presents the results from a weighted least squares regression model (estimated with inverse variance weights and random effects) where the variables mentioned above are included as predictors of the ES. Publication bias is also evaluated using traditional methods including a comparison of the mean effect size for published/unpublished studies and an investigation of publication bias with a funnel plot and associated test statistics (e.g., Kendall's test and Egger's test) estimated with the ‘metafunnel’ macro available in Stata.

3 RESULTS 3.1 LITERATURE SEARCH

As discussed in the previous section, we used several mechanisms when attempting to locate studies that may be relevant for inclusion. Following an initial identification of over 5,000 hits, we sorted through the titles and abstracts and removed any that were inconsistent with the inclusion criteria. This process reduced the number of potentially relevant studies to 247 studies. These 247 studies were then electronically downloaded, copied from the library, or requested via Interlibrary Loan (ILL). The complete list of the 247 studies is displayed in Table 1. Upon receiving the documents, each study was thoroughly reviewed and final coding decisions were made as to whether the study conformed to each of the inclusion criteria. A description of the reason for ultimately deciding not to include a particular study is presented in Table 1 (see appendix) along with several study specific descriptive information (e.g., author(s), date of study, sample size, targeted age group, etc.).

The practice of displaying and describing the excluded studies allows readers to determine for themselves the findings of those excluded studies compared with those included. For the most part, studies were excluded because of the lack random assignment, targeting mostly older adolescents, focused on mentally and/or physically handicapped children, or did not contain any relevant self-control and/or behavioral outcome measures/data. Thus, the final coding decisions left 34 studies that met each inclusion criteria as outlined previously and were used in the analysis that follows. These 34 studies generated 43 self-control ESs and 28 delinquency and problem behavior ESs.

3.2 CHARACTERISTICS OF STUDIES INCLUDED IN META-ANALYSIS

Table 2 (see appendix) presents a series of descriptive statistics characterizing the 34 included studies. Nearly two-thirds of the studies were from published data (61.8%) and the overwhelming majority were performed in the United States (91.2%). Most studies drew their samples from high-risk/low income populations (64.7%) and most were based on mostly male (55.9%) and white (67.6%) samples. Less than twenty percent reported attrition problems as measured by losing at least 15% of their original sample for a variety of reasons such as moving, unable to locate, etc. Overall, a substantial majority were group-based interventions (67.6%) and were operated in a school setting (79.4%). While most could be broadly characterized as social skills development programs (32.4%), a considerable number of the interventions focused on cognitive coping strategies (26.5%), video tape training/role playing (20.6%), immediate/delayed rewards clinical interventions (11.8%), and relaxation training (8.8%).

The studies spanned over four decades with the earliest study published in 1975 and the most recent published in 2008 (M=1989.65; SD=10.37). While there were some studies with relatively small samples as well as those with considerably large samples, on average the studies included approximately 129 children/adolescents (SD=165.57). On average, the children/adolescents were 6.23 years of age at the time of the intervention (SD=2.03) with a range of 3 to 10 years old.

Overall, nearly every study included a measure of self-control³ and data relevant for calculating a standardized mean effect size (94.1%), and more than half of the studies provided data for generating a standardized mean effect size for a delinquency and problem behavior-related outcome.⁴ And although both self-control and delinquency and problem behavior outcomes were assessed, a number of different outcome sources were included overall such as parent-, teacher-, direct observer-, self-, and clinical reports.

3.3 TYPES OF INTERVENTIONS

Considering the variability of the self-control improvement interventions, it is important to discuss some examples of the broad categories of intervention type. The most recognizable of the social skills development programs are studies of the Conduct Problems Prevention Research Group (CPPRGa, 1999) and Tremblay et al.'s (1991) Montreal Youth Study. The social skills development intervention in the CPPRG study is called Fast Track and uses a “unified model of prevention” where a number of integrated intervention programs are applied such as: curriculum, parent groups, child social skills training groups, parent-child sharing time, home visiting, child peer pairing, and academic tutoring. The program involves lessons addressing four domains of skills: (1) skills for emotional understanding and communication; (2) friendship skills; (3) self-control skills; and (4) social problem solving skills (CPPRGa, 1999, p. 635). Comparatively, Tremblay et al.'s intervention also involved multiple program components, but one of these core competencies involved social skills training and was administered within small groups of prosocial peers. Another key component of Tremblay et al.'s intervention was self-control improvement sessions developed around themes such as “look and listen,” “following rules,” “what to do when I am angry,” “what to do when they do not want to play with me,” and “how to react to teasing” (p. 154).

Jackson and Calhoun's (1982) study was classified as a cognitive coping strategies intervention, which involved “cognitive self-instructional training where children are taught to covertly emit verbalizations that will cue or guide their non-verbal behavior” (Jackson & Calhoun, 1982, p. 7). Similarly, Reid and Borkowski's (1987) versions of cognitive coping strategies focuses on using psychoeducational tasks where an instructor verbalizes correct self-control statements such as “find out what I am supposed to do,” “consider all answers,” “stop and think,” “mark my answer,” and “check my answer” while performing various tasks, and then has the child repeat these steps and verbalize these statements while performing similar tasks.

Toner et al. (1978) is an example of a study classified as a video tape training/role playing intervention. Here, the children are sat in front of a television and told by the instructor: “Here is my television. The boy you will see on TV has been told not to touch the toys that are in front of him. Watch closely.” (p. 285). During the course of watching the video, the boy in the video would either do things appropriately or be resistant to commands at times. At each response time (whether appropriate or resistant), the subject was asked whether the boy's response in the video was correct. If the subject replied with an affirmative response, then the video continued. Following the video tape training, the subject was also left alone for a period of time and their behavior and self-control was observed. Baggerly (1999) is another example of a video tape training/role playing intervention where didactic lectures, experiential activities (e.g., role playing), and viewing videos of child-centered play sessions were used with the intention of improving the children/adolescents' self-control. The children /adolescents in this particular study received the training for 35 minutes twice a week for five weeks and then once a week for the remaining five weeks.

The immediate/delayed rewards clinical interventions can best be characterized by Mischel and Baker (1975). This type of intervention took place in an experimental room where the room was divided by a wooden barrier where there were battery operated toys and interesting games on one side of the barrier and a table and chair along with a desk bell on the other side of the barrier. The experimenter showed the child how to use the desk bell and informed them that once they left the room, the child could ring the bell and the experimenter would return. Upon returning (after the child rang the bell) the experimenter would reward the child and play a “game” with them. After a series of further instructions, the experimenter would then continue this interaction and assess the child's ability to “transform the reward objects that face him during the delay period in ways that either permit or prevent effective delay of gratification” (p. 259).

The final classification of the intervention type in the included studies was relaxation training interventions. Lakes and Hoyt's (2004) study was the most identifiable of this intervention type and involved periods of meditation where the children/adolescents were instructed to clear their minds of thoughts and worries while performing deep breathing techniques. Following this exercise, the subjects were then instructed to ask him/herself three questions intended to promote self-monitoring: 1) Where am I?; 2) What am I doing?; and 3) What should I be doing? After answering these questions the subjects were told to correct their thoughts and behavior if they were not consistent with the expectations of the particular situation. Ultimately, the instructors encouraged these exercises while emphasizing that the subject (not anyone else) is responsible for regulating their own behavior (p. 289).

3.4 QUALITY ASSESSMENT

It is important to note several methods for assessing the “quality” of the included studies. One of the most agreed upon determinants of study quality is the study's research design. Because all of the included studies were based on a randomized controlled experiment to evaluate the effectiveness of self-control improvement interventions, it is reasonable to assume that these studies are of high quality. Yet, it was rare for any of the studies to provide any detail on whether the randomization process was compromised or if attrition had any differential effects for the experimental/control groups. Thus, it is possible that some group imbalances might have arisen. Having said this, only 15% of the studies included in this analysis either reported or demonstrated significant attrition problems, which would lead us to assume that the overwhelming majority of these studies were of high quality in this regard. Nevertheless, we still included a measure of whether there was substantial attrition reported in a particular study as a control measure (e.g., potential moderator) in the analysis that follows.⁵ Finally, most of the studies did not provide any information on whether the experimental/control groups were treated similarly throughout the course of the intervention by those who administered the intervention.

3.5 CALCULATING STANDARDIZED MEAN DIFFERENCE EFFECT SIZES (ESS)

Self-control and delinquency and problem behavior ESs were computed by calculating Cohen's d from the available information, i.e., predominantly means and standard deviations. Although, Cohen's d is the most common effect size statistic, the standardized mean difference is upwardly biased when based on small sample sizes and as such the unbiased effect size estimate that corrects for this was used (Hedges & Olkin, 1985; Lipsey & Wilson, 2001). As per Hedges and Olkin, the individual ESs were adjusted according to their samples size to correct for this bias. Tables 3 and 4 (see appendix) display the results of the individual unbiased ESs and corresponding confidence intervals calculated for each study based on the self-control and delinquency and problem behavior outcomes by outcome source (parent-, teacher-, direct observer-, self-, clinical report), respectively.⁶

As seen in Table 3, the majority of the ESs were positive suggesting that self-control improvement programs have beneficial results insofar as improving a child/adolescent's self-control at post-test assessment. Further, a number of the ESs across outcome source were significant (as indicated by the confidence interval for the ES not including zero) providing evidence that the positive effects appear real, particularly for the clinical self-control ESs. Turning toward the effect of self-control improvement programs on delinquency and problem behaviors (Table 4), the majority of the individual mean ES are again positive suggesting that interventions such as these not only promote self-control improvement but also reduce delinquency and problem behaviors at post-test assessment.⁷ Figures 1-8 (Appendix B) provide forest plots organized from smallest to largest ES for each outcome type and outcome source. Forest plots displaying the mean ESs by outcome type (regardless of outcome source) are provided in Figures 9 and 10 (Appendix B) in order to show how the total ESs for self-control and delinquency and problem behaviors are distributed.⁸

Hedges and Olkin (1985) suggest using the inverse variance weight to weight each individual ES by the sample size of the treated and control groups when calculating an overall standardized mean difference effect size. Thus, after applying the inverse variance weight to the individual ESs by outcome type and outcome source, the mean ESs from a series of random effects models (using Lipsey and Wilson's 2001 SPSS macros) are presented in Table 5 in the appendix.⁹ Importantly, with the exception of the self-control ES based on parent reports (p = .20) all of the ESs are positive and significant, and ranged from having a small effect (0.28) to having a rather substantial moderate effect (0.61), suggesting that self-control improvement programs are by and large successful at improving self-control regardless of the post-test assessment source. Comparatively, the results are not as robust for the delinquency and problem behavior ESs.¹⁰ Nevertheless, all of the ESs are positive and the teacher reports results suggest that self-control improvement programs have a significant, small-to-moderate effect on improving self-control at post-test assessment.

3.6 HOMOGENEITY TESTS

It is safe to assume that the individual study ESs are unlikely to be homogenous, i.e., all of the individual study ESs do not come from the same population. Thus, it is necessary to estimate the Q statistic as a method for examining whether this homogeneity assumption was violated.¹¹ The results (Table 5) suggest that all of the mean ESs by outcome type and outcome source (with the exception of the self-control direct observer report ES) were in fact heterogeneous; therefore, we explored potential moderating variables that may help explain some of the heterogeneity in the ESs.

3.7 MODERATOR ANALYSES

We selected a number of potential moderators based on previous meta-analyses and also chose several other factors that may be particularly relevant including: whether the study was published (yes/no) or performed (yes/no) in the United States, targeted a high-risk/low income population (yes/no), the gender (mostly male: yes/no) and race composition (mostly white: yes/no), whether there were any noted attrition problems (yes/no), the treatment modality (group: yes/no) and setting (school: yes/no), and the type of intervention (social skills development, cognitive coping strategies, video tape training/role playing, immediate/delayed rewards clinical intervention, or relaxation training). We included four continuous measures as moderators: the year of publication, the total sample size, age at the start of the intervention, and the duration of the intervention (in weeks).¹² For all categorical variables, moderator analyses were conducted using Lipsey and Wilson's (2001) SPSS macros for the analog to the ANOVA (with random effects), whereas the moderator analyses for the continuous variables were investigated by analyzing the correlations (calculated by taking the square root of R²) between the moderators and the ESs.

The results of the analog to the ANOVA analyses (with random effects) investigating possible moderators of the self-control ESs are presented in Table 6 while the results for possible moderators of the delinquency and problem behavior ESs are displayed in Table 7.¹³ Virtually all of the self-control ESs for all of the categorical moderator variable groupings were significant and appeared to be consistent, for the most part, by outcome source (parent-, teacher-, direct observer-, self-, and clinical report) (Table 6, see appendix).

Overall, the overwhelming majority of the ESs were positive suggesting that regardless of how the ES was contrasted the effect of self-control improvement programs seem to benefit the children/adolescents insofar as improving their self-control by post-test assessment. Some examples of the significant categorical moderators included: gender composition, where females evinced higher self-control gains (Q_between= 3.25; df= 1; p = .07; tau∧2= 0.27, se= 0.17), race composition (Q_between= 2.14; df= 1; p = .14); tau∧2= 0.30, se= 0.19), and attrition problems (Q_between= 3.25; df= 1; p= .07; tau∧2= 0.27, se= 0.17) for the self-control parent report ES and published versus not published (Q_between= 3.46; df= 1; p= .06; tau∧2=0.08, se= 0.04) for the self-control teacher report ES.

Turning toward the analog to the ANOVA (with random effects) results for the possible categorical moderators of the delinquency and problem behavior ESs, it appears that most ESs are positive and significant suggesting that self-control improvement programs can also benefit children/adolescents in terms of reducing their delinquency and problem behavior by post-test assessment. An example of the significant categorical moderators for the delinquency and problem behavior ES included: gender composition (Q_between=25.43; df= 1; p< .001; tau∧2= 0.01, se= 0.01) for the delinquency and problem behavior teacher report ES.

Following these categorical moderator estimations, correlations were computed for the possible continuous moderator variables of the ESs using Lipsey and Wilson's SPSS macros. The results for the self-control ESs and the delinquency and problem behavior ESs by outcome source are presented in Tables 8 and 9, respectively. For the most part, the correlations for year of publication and the self-control ESs were negative indicating that older studies had larger ESs, although only one of the correlations was significant (self-control clinical report ES= −0.47, p<.05). The majority of the correlations between total sample size and the self-control ESs (Table 8) were negative as well, suggesting that smaller studies had larger ESs, yet only one of the correlations was significant (self-control self-report ES= -0.63, p<.05). Three of the five correlations between age at the time of the intervention and self-control effect size were significant, two indicating that studies with older children/adolescents had larger ESs (self-control teacher report= 0.36, p<.10; self-control direct observer report= 0.85, p<.01) and one correlation suggesting that studies with younger children/adolescents had larger ESs (self-control clinical report= -0.36, p<.10). Only two of the correlations between the duration of the intervention and self-control ES were significant: shorter interventions had larger ESs (self-control teacher report= -0.57, p<.01) and longer interventions had larger ESs (self-control self-report= 0.78, p<.01).

Comparatively, two of the three correlations between year of publication and the delinquency and problem behavior ESs (Table 9) were positive and significant, indicating that more recent studies had larger ESs (delinquency and problem behavior parent report= 0.46, p<.05; delinquency and problem behavior direct observer report= 0.64, p<.05). All of the correlations between total sample size and the delinquency and problem behavior ESs were negative (e.g., smaller studies had larger ESs), although only one of these correlations was significant (delinquency and problem behavior direct observer report= −0.88, p<.01). Only one of the correlations was significant between age at the time of intervention and the delinquency and problem behavior ESs (delinquency and problem behavior teacher report= 0.37, p<.10) and the duration of the intervention and the delinquency and problem behavior ESs (delinquency and problem behavior direct observer report= -0.72, p<.01), suggesting that studies with older children/adolescents and those that were shorter in time span had larger ESs than those with younger children/adolescents and operated over a longer period of time.

3.8 META-ANALYSIS WEIGHTED LEAST SQUARES REGRESSIONS

The moderator analyses pointed toward some significant moderators of the ESs for self-control and delinquency and problem behavior by outcome source. It remains important to examine the nature of the moderators within a multivariate context to determine whether any of the moderators could be considered significant predictors of the variation in the ESs across the studies net of the effect of the other possible moderators. To examine this, a series of meta-analysis weighted least squares regression models (with random effects estimated using the maximum likelihood function available in Lipsey and Wilson's 2001 SPSS macro) were estimated by outcome type and outcome source. Based on sample size constraints and with attention to key moderators described above, each of the regressions was estimated with the same demographic moderators of gender and race composition, as well as age at the time of the intervention. Any additional potentially significant predictors were introduced in a stepwise fashion when degrees of freedom were available. The final models presented in the appendix in Tables 10 (predicting self-control ESs) and 11 (predicting delinquency and problem behavior ESs) only display the results of the moderators that were significant for predicting the variation in the individual study ESs.

The regression results predicting the self-control ESs (Table 10) identified several key predictors across the various outcome sources such as: gender, where females evinced higher self-control (b= −0.77, se= 0.15, p<.01) and race (b= −0.51, se= 0.12, p<.01) composition for parent report self-control ES; race composition (b= 0.40, se= 0.10, p<.01), treatment modality (b= 0.22, se= 0.17, p<.20), and interventions that utilized cognitive coping strategies (b= 0.83, se= 0.12, p<.01) for teacher report self-control ES; published/not published (b= 0.18, se= 0.14, p<.20), gender (b= −0.33, se= 0.22, p<.10) and race (b= −0.25, se= 0.21, p<.20) composition, interventions that utilized video tape training/role playing (b= 0.64, se= 0.25, p<.01), and age at the time of intervention (b= −0.06, se= 0.04, p<.10) for clinical report self-control ES.

For the most part, the same significant predictors of the delinquency and problem behavior ESs (Table 11) were similar to those that were significant for predicting self-control ESs. Significant predictors included: gender (b= -0.38, se= 0.28, p<.20) and race (b= −0.39, se= 0.22, p<.10) composition, year of publication (b= 0.04, se= 0.02, p<.10), and age at the time of the intervention (b= 0.20, se= 0.09, p<.05) for parent report delinquency and problem behavior ES; and gender composition (b= −0.34, se= 0.10, p<.01), interventions that used cognitive coping strategies (b= 0.19, se= 0.13, p<.20), and age at the time of the intervention (b= 0.05, se= 0.03, p<.10) for teacher report delinquency and problem behavior ES.

3.9 PUBLICATION BIAS ANALYSIS

While disagreement exists as to whether meta-analyses should include unpublished studies (Dush et al., 1989; Eppley et al., 1989; McLeod & Weisz, 2004), we opted to err on the side of inclusion. This permitted the inclusion of 13 additional studies, all dissertations that were from unpublished data. Although we have already presented comparisons between the self-control and delinquency and problem behavior ESs by outcome source for published/not published studies in the analog to the ANOVA tests previously (when possible), we still explored the potential for publication bias. There are a number of methods that may be used to assess publication bias both statistically and visually, and we opted to estimate the possible presence of publication bias through the use of a funnel plot (which is available as a macro in Stata 10.0-“metafunnel”) and calculating relevant test statistics (e.g., Kendall's and Egger's tests, which can be estimated using the “metabias” macro in Stata 10.0) (Borenstein, 2005; Sterne & Harbord, 2004). Figures 11 and 12 (Appendix C) present the funnel plot results for the total number of ES for self-control and delinquency and problem behavior (regardless of outcome source), respectively. According to the funnel plots estimated by outcome type and outcome source (where the larger studies are plotted at the top and the smaller studies are plotted at the bottom) and the relevant Kendall and Egger's tests, for the most part, there does not appear to be much evidence of significant publication bias. Although in some cases, the smaller studies seem to be clustering to the right (suggesting the possibility of publication bias), only among the self-control clinical report ESs (Egger's test: t= 1.95, p=0.08) and the total self-control ESs (Kendall's test: z= 1.96, p=0.05; Egger's test: 3.27, p<.01) is the publication bias significant.

4 DISCUSSION

Gottfredson and Hirschi's general theory of crime has been the subject of intense theoretical and empirical attention aimed at assessing the critical hypothesis linking self-control to antisocial activity. At the same time, comparable attention has not been paid to assessing policy recommendations emanating from the theory, namely whether self-control is malleable, and if it is, what programmatic efforts support modification. To provide some evidence on this issue, we performed a meta-analysis of programmatic interventions aimed at improving self-control, an effort which would bear directly on a key policy proscription for Gottfredson and Hirschi's general theory. Specifically, this study focused on two inter-related outcomes: (1) What are the effects of self-control improvement programs up to age 10 for improving self-control among children/adolescents (self-control as the dependent variable)?; and (2) What are the effects of self-control improvement programs on delinquency and problem behavior outcomes (delinquency and problem behavior as the dependent variable)?

After identifying 34 studies that met a series of highly stringent inclusion criteria, the analyses indicated that: (1) self-control improvement programs improve a child/adolescent's self-control; (2) these interventions also reduce delinquency and problem behavior; and (3) the positive effects generally hold across a number of different moderator variables and groupings as well as by outcome source (parent-, teacher-, direct observer-, self-, and clinical report). Unpacking these findings yields the overall conclusion that self-control is malleable, that self-control can be improved, and that reductions in delinquency and problem behavior follow from this self-control improvement.

Before we address the larger policy issue and cast it in the current criminal justice context, we acknowledge several limitations. First, we only examined outcomes during a certain period of the life course (before age 10/12); therefore, it would be worthwhile to examine if the effectiveness of self-control improvement programs persists over time, particularly into late adolescence and early adulthood. Second, we did not assess how these efforts may/may not improve outcomes in other life-course domains (e.g., improve academic performance). To the extent that the general theory is indeed general, it stands to reason that the interventions reviewed in this study may likely affect outcomes in other life-course domains. Third, examining the effectiveness of these efforts across other moderating influences not examined here are worth consideration, especially neighborhood context. Research has shown that childrearing practices and socialization influences are affected by neighborhood context and this should receive further consideration (Leventhal & Brooks-Gunn, 2000; Pratt et al., 2004; Wikstrom & Sampson, 2003). Fourth, as demonstrated in Figure 19, there was a clear indication of publication bias where (for the most part) the self-control effect sizes appeared to be larger for the published studies compared to the effect sizes generated from unpublished data. Therefore, it is important to consider the robustness of these results and estimates with attention to the fact that it appears that programs that were successful (e.g., have larger, positive, and significant effect sizes) are more likely to be published than those that are not. Fifth, although the focus of the current study was on effectiveness of self-control improvement programs for improving self-control and reducing delinquency and problem behavior, future studies should make efforts to measure the relative costs and benefits of interventions such as these across a variety of life course domains. Finally, it is important to advise readers when interpreting the results from the moderator analyses and the meta-regressions to exercise some degree of caution because several of these models were based on a very small number of effect sizes. Having said this, the results presented here may at least shed some light on potential moderating influences that self-control improvement programs may wish to focus on in the future.

Aside from Gottfredson and Hirschi's policy strategy of making criminal events less attractive to potential offenders by making them more difficult to successfully commit crime by increasing the certainty of detection, the theorists have also identified an important policy proscription that emanates from the general theory of crime, one that has import for the larger policy discussion. Our effort shows that interventions aimed at improving socialization and child-rearing practices (which produce more self-control) in the first decade of life offers benefits for the improvement of self-control as well as the reduction of delinquency and problem behavior. It appears that investment in these sorts of efforts—in lieu of the more cost-prohibitive incarceration policies of the recent past—should be an important part of the policy response, especially because self-control is malleable and responsive to external sources of socialization.

In this regard, researchers know a bit more about the characteristics that programs should not adopt more so than about the characteristics that make them particularly successful. In particular, programs that are based on specific training efforts, that are focused and of short-duration are successful ingredients for improving self-control and, in turn, reducing delinquency and problem behavior. Such efforts should serve as successful exemplars that warrant replication and extension all the while recognizing that scaling these programs up may not be as effective as keeping them narrow and targeted.

Potential Conflicts of Interest

The authors have no vested interest in the outcomes of this review, nor any incentive to represent findings in a biased manner.

6 Appendix A: Tables 6.1 TABLE 1: META ANALYSIS STUDIES (N-TOTAL=247; N-INCLUDED=34)

Author, Publication Date	Location	Year of Intervention	Sample Size (N)	Targeted Age(s)	Reason for not including
*Abbe (1982)	Staunton, Virginia	N/R	N=32	7–17 years	Mentally and/or physically handicapped
Agusti et al. (1990)	Mallorca, Spain	N/R	N=18	4th – 5th grade	Not in English
Ammons (1979)					Review of literature
Anderson et al. (1977)	Springfield, Massachusetts	N/R	N=72	4 years	Program not designed to improve self-control
Arnold and Forehand (1978)	US	N/R	N=32	4–5 years	INCLUDED
Atwood et al. (1978)	New Mexico	N/R	N=80	4th – 5th grade	INCLUDED
Augimeri et al. (2001)					Review of literature
Augimeri et al. (2007)	Toronto, Ontario, Canada	1985–1988	N=32	Mean Age 9 years	INCLUDED
*Avila (1985)	Gainesville, Florida		N=57	5th grade	INCLUDED
Baer (1987)					Review of literature
*Baggerly (1999)	US	N/R	N=30	Kindergarten	INCLUDED
*Baker (2008)	Pennsylvania	N/R	N=16	Mean age 7.9 years	No random assignment
Barkley et al. (2000)	Worcester, Massachusetts	1991–1996	N=119	Mean age 5 years	INCLUDED
Barstis and Ford (1977)	Buffalo, New York	N/R	N=90	Kindergarten – 2nd grade	No self-control or relevant behavioral outcome measures
Baskett (1985)	N/R	N/R	N=52	3rd grade	No random assignment
Bates and Katz (1970)	N/R	N/R	N=73	3–7 years	No control group
Beaumont et al. (2005)	Quebec	N/R	N=140	Primary School	Not in English
*Bellitto (1981)	Jamestown, New York	N/R	N=24	Kindergarten	Mentally and/or physically handicapped
Bender (1976)	Southern California	N/R	N=271	1st grade	Program not designed to improve self-control
Bierman et al. (2008)	Pennsylvania	N/R	N=356	4 years	INCLUDED
Blomart et al. (2000)	Brussels, Belgium	N/R	N=82	8–11 years	No random assignment
*Bosse (1985)	US	N/R	N=103	5–6 years	INCLUDED
*Bowers (2002)	N/R	N/R	N=4	Mean age 10 years	Program not designed to improve self-control
Braswell et al. (1985)					Review of literature
*Broadbear (2000)	Peoria, Illinois	N/R	N=56	4–5 years	No random assignment
Brown and Lawson (1975)	N/R	N/R	N=96	Very young children	No random assignment
Bruene-Butler et al. (1997)	New Jersey, Arkansas, and Oregon	1979	N=57	4th grade	No control group
Buffington and Stillwell (1980)					Review of literature
Bugental et al. (1978)	N/R	1975	N=32	Elementary school	No random assignment
Butter (1979)	N/R	N/R	N=30	Mean age 9 years	No random assignment
Cali (1997)					Review of literature
*Cambron (1981)	Louisville, Kentucky	N/R	N=30	7–9 years	INCLUDED
*Carr (1984)	Mt. Vernon, Virginia	1983	N=48	8th – 11th grade	No random assignment
Carter and Russell (1985)	Texas	N/R	N=32	Mean age 10 years	Mentally and/or physically handicapped
Cecchini et al. (2007)	Asturias, Spain	N/R	N=186	Mean age 13.6	Out of age range
*Cecil (1997)	Guilford County, North Carolina	N/R	N=16	13–15 years	Out of age range
Chowdri (1987)	Aaboara, Islamabad	1982	N=17	Mean age 12 years	Out of age range
*Christian (1998)	Evanston, Illinois	1991	N=36	Kindergarten	No random assignment
*Churney (2000)	Highland Park Middle School	N/R	N=218	12–14 years	Out of age range
Clements and Gullo (1984)	Midwestern US	N/R	N=18	Mean age 7 years	No self-control or relevant behavioral outcome measures
*Coffelt (1986)	Lompoc, California	N/R	N=64	1st and 2nd grade	No random assignment
CPPRG (1999a,b)	North Carolina, Tennessee, Washington, and Pennsylvania central Pennsylvania	N/R	N=891	1st graders	INCLUDED
Curtis and Norgate (2007)	United Kingdom	2002	N=287	School age children	No random assignment
*Cwik (2005)	N/R	N/R	N=78	13–19 years	Out of age range
Dan (2001)	China	N/R	N=360	3–6 years	Not in English
Darcheville et al. (1992)	Lille, France	N/R	N=16	5–7 years	No random assignment
David-Ferdon et al. (2008)					Review of literature
Denkowski and Denkowski (1984)	US	N/R	N=45	3rd – 5th grade	INCLUDED
*Dixon (1989)	Fairfield and Ohio City, Ohio and Washington DC	1988	N=84	4 years	No random assignment
Dixon and Cummings (2001)	N/R	N/R	N=3	5–7 years	Mentally and/or physically handicapped
Dobbs et al. (2006)	Springfield, Massachusetts	N/R	N=108	3–6 years	Program not designed to improve self-control
Drabman et al. (1973)	N/R	N/R	N=8	9–10 year old boys	No control group
*Drucker (1982)	New York	N/R	N=120	1st – 3rd grade	INCLUDED
*Drummond (2004)	Ontario, Canada	N/R	N=36	8–12 years	Mentally and/or physically handicapped
Ducharme et al. (2002)	Ontario, Canada	N/R	N=12	2–7 years	No control group
Eastman et al. (1981)	N/R	N/R	N=11	5th grade	No random assignment
Edwards (1976)	N/R	N/R	N=10	5–9 years	No control group
Elias et al. (1986)	Central New Jersey	1978–1980	N=158	5th grade	No random assignment
Elias et al. (1991)	New Jersey	1978–1980	N=158	9th – 11th grade	No random assignment
Elias et al. (1994)					Review of literature
Elliot (1995)	Washington DC	1993–1994	N=212	Pre-K – 6th grade	No random assignment
Epstein and Goss (1978)	N/R	N/R	N=1	Elementary school	Case Study
*Everson (1991)	Nevada	N/R	N=6	4th – 6th grade	Mentally and/or physically handicapped
*Falcone (1999)	Maryland	1997–1998	N=5	3rd grade	No control group
Farrington (1994)					Review of literature
*Faulkner (1991)	N/R	1989–1990	N=175	2nd – 6th grade	No random assignment
*Feigin (1987)	Houston, Texas	N/R	N=164	3rd – 5th grade	No random assignment
*Fiore (2000)	Natick, Massachusetts, Rancho Palos Verdes, California, and West Haven, Connecticut	1999	N=43	5–11 years	No random assignment
Fisher et al. (2000)	N/R	N/R	N=3	3–19 years	Mentally and/or physically handicapped
Flynn et al. (2004)	United Kingdom	N/R	N=26	3–4 years	No control group
*Forzano (1992)	New York	N/R	N=20	18–24 years	Out of age range
Forzano et al. (2003)	New York	N/R	N=22	3 years	No control group
Friedrich-Cofer et al. (1979)	Philadelphia, Pennsylvania		N=141	2–6 years	No random assignment
*Gerber (1984)	N/R	N/R	N=40	3rd – 5th grade	Mentally and/or physically handicapped
Gilliom et al. (2002)	N/R	N/R	N=310	1.5 years	No control group
Glynn et al. (1973)	Western Auckland, New Zealand	N/R	N=8	Mean age 7 years	No control group
Glynn and Thomas (1974)	Western Auckland, New Zealand	N/R	N=9	7–8 years	No control group
Goshko et al. (1973)	N/R	N/R	N=16	5th grade	No control group
Graybill et al. (1984)	Illinois	N/R	N=16	7–12 years	Mentally and/or physically handicapped
Greenberg et al. (1985)	Seattle, Washington	N/R	N=286	Mean age 8 years	Mentally and/or physically handicapped
Greenwald (2002)	Hawaii	N/R	N=6	7th – 12th grade	Out of age range
*Guest (1999)	Birmingham, Alabama	N/R	N=48	Infants	No random assignment
*Hall (1980)	California	N/R	N=440	1st – 9th grade	No random assignment
Hampstead (1979)	Kalamazoo, Michigan	N/R	N=12	6–10 years	No random assignment
*Hampton (2003)	N/R	N/R	N=72	Mean age 11 years	Out of age range
*Hartman (1999)	Washington	N/R	N=83	4–7 years	No control group
Hartman et al. (2003)	University of Washington	1991–1994	N=83	4–7 years	No control group
*Henderson (1992)	California	1989–1990	N=20	Mean age 9 years	No control group
Hennessey (2006)	N/R	N/R	N=154	Mean age 9 years	No random assignment
*Herman (1981)	Detroit, Michigan	N/R	N=130	4–6 years	INCLUDED
Hollin (1993)					Review of literature
Homel et al. (2006)	Inala, Australia	2002–2003	N=510	Mean age 4 years	No random assignment
*Hoover (1985)	Southwest US	N/R	N=70	Mean age 8 years	INCLUDED
*Howell-Nigrelli (1990)	Pittsburg, Pennsylvania	1987	N=74	5–12 years	No random assignment
Hrynkiw-Augimeri et al. (1993)	Toronto, Ontario, Canada	1985–1988	N=104	Mean age 10 years	No control group
*Hunter (1998)	New Jersey	1994–1996	N=202	4th – 5th grade	No random assignment
Iwaniac et al (2003)	North Ireland	N/R	N=44	Infant – 7 years	No control group
Jackson and Calhoun (1982)	US	N/R	N=40	5–6 years	INCLUDED
*Jakob (2005)	New York	N/R	N=56	5 years	No random assignment
James (2000)					Review of literature
*Johannes (2003)	Kansas	2000	N=135	7–11 years	No random assignment
Johnson et al. (1997)	Midwestern US	N/R	N=6	5–9 years	Mentally and/or physically handicapped
*Jones (2003)	Eugene, Oregon	N/R	N=59	2–4 years	INCLUDED
Joyce and Siever (2000)	N/R	N/R	N=34	Mean age 9 years	Mentally and/or physically handicapped
Kam et al. (2004)	Seattle, Washington	N/R	N=133	Mean age 9 years	Mentally and/or physically handicapped
*Kapadia (1987)	Memphis, Tennessee	N/R	N=57	5th – 8th grade	Out of age range
Karoly et al. (1978)	N/R	N/R	N=12	Preschool	No true control group
*Keeler (1999)	Racine, Wisconsin	N/R	N=29	6–12 years	No control group
*Keller (1987)	N/R	1985	N=3	7–10 years	Mentally and/or physically handicapped
Kendall et al. (1984)					Review of literature
*Kennedy (1981)	Galveston, Texas	N/R	N=85	3rd – 5th grade	Mentally and/or physically handicapped
Keogh and Glover (1980)					Review of literature
Kim et al. (2006)	Korea	N/R	N=35	Mean age 12 years	Out of age range
Kimber et al. (2008)	Sweden	1999–2000	N=56 classrooms	1st – 7th grade	No random assignment
Koegel et al. (1999)	N/R	N/R	N=2	5–6 years	No random assignment
Koshland and Wittaker (2004)	N/R	N/R	N=54	1st – 3rd grade	No random assignment
Kraag et al. (2006)					Meta-analysis
Kress et al. (2004)					Review of literature
Krug et al. (1978)	Germany	N/R	N=48	4th grade	Not in English
Kurtz et al. (1976)	N/R	N/R	N=17	Preschool	Program not designed to improve self-control
*Kusche (1984)	Seattle, Washington	Spring of 1982 and 1983	N=67	1st – 6th grade	Mentally and/or physically handicapped
Kyskan (2001)	Toronto, Canada	N/R	N=76	11–18 years	Out of age range
Lakes and Hoyt (2004)	Mid-western US	2000–2001	N=207	5th grade	INCLUDED
Larkin and Thyer (1999)	Gainesville, Georgia	N/R	N=52	Pre-K – 3rd grade	INCLUDED
*Layburn (2005)	N/R	2001	N=93	2.5 – 5 years	No random assignment
Leew (2001)					Review of literature
*Lemire (1983)	N/R	N/R	N=42	Mean age 9 years	No true control group
*LeVan (1980)	Pennsylvania		N=300	Mean age 8.5 years	No random assignment
*Lewis (2006)	Michigan	2003–2004	N=80	4th – 5th grade	No random assignment
Liebert and Allen (1967)	Nashville, Tennessee	N/R	N=64	3rd – 4th grade	No control group
*Lillenstein (2001)	Pennsylvania	1999–2000	N=285	Kindergarten – 2nd grade	No random assignment
*Link (1998)	N/R	N/R	N=130	5th grade	No random assignment
*Lowther (2004)	West Virginia	2004	N=21	3–5 years	No control group
*Lupton-Smith (1996)	North Carolina	N/R	N=28	High school	Out of age range
Lynch et al. (2004)	Lansing, Michigan	1996–1997	N=399	4–5 years	INCLUDED
Maguin and Loeber (1996)					Meta-analysis
Marcotte (1997)					Review of literature
Martinek et al. (2001)	Greensboro, North Carolina	N/R	N=16	Elementary School	No control group
Mauro and Harris (2000)	Miami, Florida	N/R	N=30	4–5 years	No control group
McConaughy et al. (1999)	N/R	N/R	N=82	Kindergarten	INCLUDED
*McGuire (2000)	North Texas	N/R	N=20	Kindergarten	No random assignment
McMains and Liebert (1968)	Nashville, Tennessee	N/R	N=48	4th grade	No control group
Meichenbaum and Goodman (1971)	N/R	N/R	N=15	7–9 years	Mentally and/or physically handicapped
Miranda et al. (1989)	Valencia, Spain	N/R	N=20	School age children	Not in English
Mischel and Baker (1975)	US	N/R	N=60	Mean age 4.5 years	INCLUDED
Mischel and Patterson (1976)	US	N/R	N=70	Mean age 4.5 years	INCLUDED
Mischel et al. (1989)					Review of literature
Mitsutomi (1991)	Hiroshima, Japan	N/R	N/R	4 years	Not in English
*Morrison (1994)	N/R	N/R	N=228	4th – 6th grade	No random assignment
Morrison et al. (2000)	California	N/R	N=350	5th – 6th grade	No random assignment
*Morriz (1998)	Winnipeg, Canada	1995–1996	N=9	Youth	No control
*Murray (1979)	Rochester, New York	N/R	N=65	Kindergarten	No control group
Murray (2002)	Michigan	2000–2001	N=31	4 years	No random assignment
Nakagawa and Matsubara (1996)	Japan	N/R	N/R	3rd grade	Not in English
*Napper (1988)	New Jersey	N/R	N=20	3rd – 4th grade	Mentally and/or physically handicapped
*Nardone (1982)	New York	N/R	N=35	6–12 years	No random assignment
*Nearing (1999)	N/R	N/R	N=72	3–5 years	No outcome data
Nelson et al. (2005)	Midwestern US	N/R	N=63	Kindergarten	No random assignment
*Nguyen (2001)	Littlerock, Arkansas	N/R	N=30	6th – 12th grade	Out of age range
NICHD Network (1998)	Little Rock, Arkansas, Irvine, California, Lawrence, Kansas, Boston Massachusetts, Philadelphia, Pennsylvania, Pittsburg, Pennsylvania, Charlottesville, Virginia, Morganton, North Carolina, and Madison, Wisconsin	1991	N=1,364	Infants	No control group
Noeker et al. (2000)					Written in German
*Nova (1991)	Georgia	N/R	N=15	2nd – 5th grade	No random assignment
Ohta (1986)	Kanazawa, Japan	N/R	N=20	5th grade	No self-control or relevant behavioral outcome measures
Omizo and Williams (1982)	N/R	N/R	N=32	8–11 years	Mentally and/or physically handicapped
Oravecz et al. (2008)	Washington DC and Maryland	N/R	N=184	3–6 years	No control group
Owens et al. (2008)	N/R	N/R	N=117	Kindergarten – 6th grade	No random assignment
*Pace (2003)	Ohio	N/R	N=23	9–11 years	No random assignment
Pargman and Abry (1997)	N/R	N/R	N=51	3rd grade	No random assignment
*Pawelkiewicz (1980)	Connecticut	N/R	N=117	Mean age 8.5 years	No true control group
*Pedro-Carroll (1983)	New York	1982	N=75	3rd – 6th grade	INCLUDED
Pepler et al. (2004)	N/R	N/R	N=250	5–11 years	No control group
*Phillip (1998)	Gainesville, Florida	1996–1997	N=19	4–6 years	Qualitative study
Pierce and Shields (1998)	St. Louis, Missouri	1994–1995	N=386	5–12 years	No random assignment
Pierce and Shields (2000)	St. Louis, Missouri	1994–1995	N=386	8–14 years	No random assignment
Pigott et al. (1984)	N/R	N/R	N=4	5th grade	No control group
*Porter (1982)	US	N/R	N=34	1st – 2nd grade	INCLUDED
*Reese (1987)	Oklahoma	N/R	N=96	4–5 years	Program not designed to improve self-control
Reid and Borkowski (1987)	Indiana	N/R	N=77	2nd – 4th grade	INCLUDED
Reinecker et al. (1979)	Germany	N/R	N=80	Kindergarten	Not in English
*Rennie (2000)	Denton, Texas	1999	N=42	5–6 years	No random assignment
Richert (1986)	Midwestern US	N/R	N=12	8–11 years	No random assignment
Riggs et al. (2006)	Seattle, Washington	N/R	N=329	Mean age 8 years	INCLUDED
*Rineer (1987)	Southwestern US	1986–1987	N=42	Kindergarten	INCLUDED
Ritchie and Toner (1984)	Scotland	N/R	N=48	3–6 years	No control group
Robin et al. (1976)	N/R	N/R	N=11	Primary school	Mentally/physically handicapped
Robinson et al. (1999)					Meta-analysis
*Rohrbach (2000)	Florida	N/R	N=100	15–16 years	Out of age range
*Rohrbeck (1986)	Rochester, New York	N/R	N=255	3rd grade	No random assignment
*Roseberry (1997)	N/R	N/R	N=173	4th – 6th grade	No random assignment
*Roth (1994)	New York	N/R	N=30	3–5 years	Mentally and/or physically handicapped
Saltz et al. (1977)	Detroit, Michigan	1972–1975	N=146	3–5 years	INCLUDED
Sandy and Boardman (2000)	New York City, New York	1997–1999	N=404	2–6 years	INCLUDED
Santrock (1976)	Athens, Georgia	N/R	N=96	4–5 years	No self-control or relevant behavioral outcome measures
Santrock and Ross (1975)	Athens, Georgia	N/R	N=96	4–5 years	No random assignment
Sato et al. (1993)	Japan	N/R	N=3	Kindergarten	Not in English
Schleser et al. (1983)	N/R	N/R	N=48	Mean age 9 years	Not enough information provided to calculate an effect size
Schweitzer and Sulzer-Azaroff (1988)	N/R	N/R	N=6	Preschool	No control group
*Sharenow (1993)	N/R	1988–1989	N=7	3–4 years	No control group
Shelton (2008)	N/R	N/R	N=89	10–14 years	Out of age range
Shields and Pierce (1996)	St. Louis, Missouri	N/R	N=77	5–12 years	No random assignment
Silverman et al. (1999)	Miami, Florida	N/R	N=104	Mean age 10 years	No true control group
Sim et al. (2006)	N/R	1999–2002	N=71	Mean age 10 years	No control group
*Simpkins (1981)	Virginia	N/R	N=217	3rd grade	No random assignment
Simpson and Riggs (2007)	London, United Kingdom	N/R	N=40	3–4 years	No control group
Simpson et al. (1974)	N/R	N/R	N=6	6–8 years	Mentally and/or physically handicapped
Sklerov (1974)	New York City, New York	N/R	N=32	Preschool	No random assignment
*Smith (1993)	Eastern United States	1986	N=45	Mean age 15 years	Mentally and/or physically handicapped
*Snow (1980)	Maryland and Washington DC	N/R	N=34	4–13 years	No random assignment
*Snyder (1984)	Wake County, North Carolina	1981?	N=35	9–12 years	Mentally and/or physically handicapped
Snyder et al. (2008)	N/R	N/R	N=267	Mean age 5 years	No control group
Stark et al. (1990)					Review of the literature
Stevenson and Fantuzzo (1984)	Pasadena, California	N/R	N=2	5th grade	Program not designed to improve self-control
*Stoia (1997)	New Jersey	N/R	N=33	Preschool	No random assignment
*Stroessner (1983)	Wisconsin	N/R	N=200	4–5 years	No self-control or relevant behavioral outcome measures
Stueck and Gloeckner (2005)	Germany	1994–1996	N=110	11–12 years	Out of age range
*Swanson (1983)	N/R	N/R	N=33	Mean age 5 years	No random assignment
*Syvanen (1997)	Portland, Oregon	1995–1996	N=16	4th – 5th grade	No random assignment
Szykula and Hector (1978)	N/R	N/R	N=1	1st grade	Case study
*Tamaki (1996)	Saskatchewan, Canada	N/R	N=18	12–18 years	Out of age range
*Taylor (2007)	New York	N/R	N=1,292	10th – 12th grade	Out of age range
Taylor et al. (2002)	Massachusetts	N/R	N=277	6th grade	Out of age range
Timmons-Mitchell (1985)	N/R	N/R	N=7	6–12 years	No control group
Toner (1981)	Charlotte, North Carolina	N/R	N=98	Preschool	No random assignment
Toner et al. (1978)	Madison, Wisconsin	N/R	N=90	Preschool – 3rd grade	INCLUDED
Tremblay et al. (1991)	Montreal, Quebec, Canada	1985–1987	N=249	7 years	INCLUDED
Trostle (1988)	Pennsylvania	N/R	N=48	3–6 years	INCLUDED
*Tsamas (1991)	US	1989	N=61	Preschool	INCLUDED
Turkewitz et al. (1975)	New York	N/R	N=8	7–11 years	No random assignment
Twemlow and Sacco (1998)					Review of the literature
Valazquez et al. (2001)	Mexico	N/R	N=84	6–13 years	Not in English
Varni and Henker (1979)	N/R	N/R	N=3	8–10 years	Mentally and/or physically handicapped
Walkup (1994)					Review of the literature
Walsh et al. (2002)	Toronto, Canada	N/R	N=98	4–11 years	No random assignment
*Walters (1991)	New York	N/R	N=18	3–5 years	Mentally and/or physically handicapped
*Wang (1994)	Beijing, China	N/R	N=216	3–5 years	No control group
Webster-Stratton (1994)	N/R	N/R	N=85	3–8 years	No true control group
*Wells (1994)	California	N/R	N=34	3rd – 5th grade	No random assignment
Whitfield (1999)	Madisonville, Kentucky	N/R	N=16	Adolescents	No random assignment
*Whittenberg (1994)	N/R	N/R	N=36	4th – 6th grade	No random assignment
*Williams (1997)	Lavonia, Michigan	N/R	N=208	4th – 5th grade	No random assignment
*Wilson (1984)	Enid, Oklahoma	N/R	N=92	3rd – 7th grade	No random assignment
*Wilson (2000)					Meta-analysis
Wilson et al. (2001)					Meta-analysis
Winsler et al. (1999)	California	N/R	N=40	3–4 years	No random assignment
Wolfe et al. (1984)	N/R	N/R	N=4	5th grade	No control group
Zakay et al. (1984)	Tel-Aviv, Israel	N/R	N=74	Mean age 10 years	INCLUDED
*Zitomer (1981)	South Dakota	N/R	N=147	6–10 years	No random assignment

6.2 TABLE 2. DESCRIPTIVE STATISTICS - INCLUDED STUDIES (N=34)

Variables	n	M	SD	Min	Max
Published
Yes (=1)	21	61.8%	--	--	--
No (=0)	13	38.2%	--	--	--
USA study
Yes (=1)	31	91.2%	--	--	--
No (=0)	3	8.8%	--	--	--
Population Type
High-Risk/Low Income (=1)	22	64.7%	--	--	--
Universal (=0)	12	35.3%	--	--	--
Gender Composition (mostly male)
Yes (=1)	19	55.9%	--	--	--
No (=0)	15	44.1%	--	--	--
Race Composition (mostly white)
Yes (=1)	23	67.6%	--	--	--
No (=0)	11	32.4%	--	--	--
Attrition Problems
Yes (=1)	5	14.7%	--	--	--
No (=0)	29	85.3%	--	--	--
Treatment Setting
Group (=1)	23	67.6%	--	--	--
Individual (=0)	11	32.4%	--	--	--
Treatment Modality
School (=1)	27	79.4%	--	--	--
Clinic (=0)	7	20.6%	--	--	--
Type of Intervention
Social Skills Development	11	32.4%	--	--	--
Cognitive Coping Strategies	9	26.5%	--	--	--
Video Tape Training/Role Playing	7	20.6%	--	--	--
Immediate/Delayed Rewards	4	11.8%	--	--	--
Relaxation Training	3	8.8%	--	--	--
Publication Year	34	1989.65	10.37	1975	2008
Sample Size	34	128.62	165.57	30	891
Age at Intervention	34	6.23	2.03	3	10
Duration of Intervention (weeks)	34	7.09	5.43	0	13
Parent Report (Yes=1)	9	26.5%	--	--	--
Teacher Report (Yes=1)	22	64.7%	--	--	--
Direct Observer Report (Yes=1)	8	23.5%	--	--	--
Self-Report (Yes=1)	6	17.6%	--	--	--
Clinical Report (Yes=1)	14	41.2%	--	--	--
Self-Control Outcome (Yes=1)	32	94.1%	--	--	--
Delinquency and Problem Behavior
Outcome (Yes=1)	19	55.9%	--	--	--

6.3 TABLE 3. SELF-CONTROL EFFECT SIZES

Study	Parent Report ES (LCI,UCI)	Teacher Report ES (LCI,UCI)	Direct Observer Report ES (LCI,UCI)	Self-Report ES (LCI,UCI)	Clinical Report ES (LCI,UCI)
Arnold & Forehand (1978)					0.63 (-0.10, 1.36)
Atwood et al. (1978)					1.02 (0.35, 1.69)*
Augimeri et al. (2007)
Avila (1985)		0.59 (0.02, 1.16)*
Baggerly (1999)
Barkley et al. (2000)		0.02 (-0.33, 0.37)
Bierman et al. (2008)	0.09 (-0.13, 0.31)	0.24 (0.02, 0.46)*	0.19 (0.04, 0.48)*	0.35 (0.13, 0.57)*
Bosse (1985)					0.27 (-0.14, 0.68)
Cambron (1981)			0.54 (-0.24, 1.32)
CPPRG (1999a)	-0.04 (-0.16, -0.05)*	-0.09 (-0.21, 0.03)
Denkowski & Denkowski (1984)				0.35 (-0.28, 0.98)
Drucker (1982)					0.10 (-0.23, 0.43)
Herman (1981)		0.35 (-0.06, 0.76)			0.68 (0.27, 1.09)
Hoover (1985)		0.48 (0.01, 0.95)*			0.28 (0.04, 0.52)*
Jackson & Calhoun (1982)					0.76 (-0.06, 1.58)
Jones (2003)	0.15 (-0.11, 0.41)		0.05 (-0.21, 0.31)
Lakes & Hoyt (2004)		0.20 (-0.07, 0.47)	0.42 (0.15, 0.69)*
Larkin & Thyer (1999)				1.33 (0.74, 1.89)*
Lynch et al. (2004)		0.71 (0.51, 0.91)*
McConaughy et al. (1999)	0.47 (0.02, 0.92)*	0.22 (-0.21, 0.65)	0.15 (-0.28, 0.58)
Mischel & Baker (1975)					0.71 (0.12, 1.30)*
Mischel & Patterson (1976)					1.00 (0.20, 1.80)*
Pedro-Carroll (1983)		0.68 (0.21, 1.15)*
Porter (1982)				5.10 (4.20, 6.00)*	2.86 (2.04, 3.68)*
Reid & Borkowski (1987)		0.21 (-0.34, 0.76)			0.00 (-0.53, 0.53)
Riggs et al. (2006)					0.32 (0.08, 0.56)*
Rineer (1987)		1.44 (0.79, 2.09)
Saltz et al. (1977)					0.75 (0.38, 1.12)*
Sandy & Boardman (2000)	1.72 (1.39, 2.05)*	-0.23 (-0.56, 0.10)
Toner et al. (1978)					0.58 (0.13, 1.03)*
Tremblay et al. (1991)	-0.51 (-0.73, -0.03)
Trostle (1988)		0.03 (-0.54, 0.60)
Tsamas (1991)		-0.32 (-0.87, 0.23)
Zakay et al. (1984)				0.56 (0.05, 1.07)*
% Positive ESs	66.6%	80%	100%	100%	100%

Note. Asterisk (*) indicates that effect size is significant. ES=effect size; LCI=Lower 95% confidence interval; UCI=Upper 95% confidence interval.

6.4 TABLE 4. DELINQUENCY AND PROBLEM BEHAVIOR EFFECT SIZES

Study	Parent Report ES (LCI,UCI)	Teacher Report ES (LCI,UCI)	Direct Observer Report ES (LCI,UCI)	Self-Report ES (LCI,UCI)
Arnold & Forehand (1978)
Atwood et al. (1978)
Augimeri et al. (2007)	1.14 (0.38, 1.90)*
Avila (1985)
Baggerly (1999)	-0.58 (-1.31 0.15)	-0.50 (-0.24, 1.24)
Barkley et al. (2000)	-0.06 (-0.29, 0.41)	0.00 (-0.35, 0.35)	0.25 (-0.10, 0.60)
Bierman et al. (2008)	0.13 (-0.09, 0.35)	0.28 (0.06, 0.50)*	0.19 (-0.03, 0.41)	0.21 (-0.01, 0.43)
Bosse (1985)
Cambron (1981)		0.13 (-0.63, 0.89)
CPPRG (1999a)	0.01 (-0.11, 0.13)	0.00 (-0.12, 0.12)	-0.08 (-0.20, 0.04)
Denkowski & Denkowski (1984)		0.57 (-0.08, 1.22)
Drucker (1982)
Herman (1981)
Hoover (1985)
Jackson & Calhoun (1982)
Jones (2003)	0.35 (-0.61, -0.09)*		-0.07 (-0.33, 0.19)
Lakes & Hoyt (2004)		0.23 (-0.04, 0.50)
Larkin & Thyer (1999)		2.39 (1.76, 3.02)*	3.19 (2.54, 3.84)*
Lynch et al. (2004)		0.53 (0.33, 0.73)*
McConaughy et al. (1999)	0.40 (-0.05, 0.85)	0.26 (-0.19, 0.71)	0.27 (-0.18, 0.72)
Mischel & Baker (1975)
Mischel & Patterson (1976)
Pedro-Carroll (1983)		0.99 (0.52, 1.46)*
Porter (1982)		1.94 (1.16, 2.72)*
Reid & Borkowski (1987)		0.26 (-0.29, 0.81)
Riggs et al. (2006)		0.37 (0.13, 0.61)*
Rineer (1987)
Saltz et al. (1977)
Sandy & Boardman (2000)	0.83 (0.42, 1.24)*	0.63 (0.28, 0.98)*
Toner et al. (1978)
Tremblay et al. (1991)	-0.51 (-0.86, -0.16)*			0.21 (-0.12, 0.54)
Trostle (1988)
Tsamas (1991)	0.06 (-0.47, 0.59)
Zakay et al. (1984)
% Positive ESs	70%	93.3%	66.6%	100%

Note. Asterisk (*) indicates that effect size is significant. ES=effect size; LCI=Lower 95% confidence interval; UCI=Upper 95% confidence interval.

6.5 TABLE 5. MEAN EFFECT SIZES BY OUTCOME TYPE AND OUTCOME SOURCE: RESULTS FROM A RANDOM EFFECTS MODEL

Outcome Sources	n	Mean ES	Lower 95% CI	Upper 95% CI	z-test	Significance of Mean ES	Q-statistic	Significance of Homogeneity Test	tau∧2
Self-Control
Parent Report	6	0.33	-0.18	0.84	1.27	p=.10⁺	105.05	p<.001***	0.38
Teacher Report	15	0.28	0.07	0.48	2.67	p<.01**	79.90	p<.001***	0.12
Direct Observer Report	5	0.29	0.14	0.43	3.79	p<.001***	2.58	p=0.63	0.00
Self-Report	4	0.61	0.20	1.02	2.90	p<.05*	9.67	p=0.02*	0.12
Clinical Report	13	0.47	0.31	0.64	5.63	p<.001***	19.37	p=0.08⁺	0.03
Delinquency and Problem Behavior
Parent Report	9	0.09	-0.17	0.34	0.67	p=.50	40.14	p<.001***	0.10
Teacher Report	14	0.30	0.13	0.46	3.51	p<.001***	45.66	p<.001***	0.06
Direct Observer Report	5	0.09	-0.09	0.26	0.96	p=.34	7.84	p=0.09⁺	0.02

Note. PR=parent report; TR=teacher report; DOB=direct observer report; SR=self-report; CLIN=clinical report. CI=confidence interval. *p<.05 **p<.01 ***p<.001.

6.6 TABLE 6. SELF-CONTROL WEIGHTED EFFECT SIZES, CONFIDENCE INTERVALS, Z-TESTS AND Q STATISTICS OF MODERATORS (WITH RANDOM EFFECTS)

Variables	n	ES	z-test	Q-within	Q-between	tau∧2
Published (Yes / No)
PR	5 / 1^a	0.37 / 0.15	1.23 / 0.21	--	--	--
TR	9 / 6	0.16 / 0.51	1.44 / 3.27*	6.21 / 9.66⁺	3.46⁺	0.08
DOB	3 / 2	0.30 / 0.20	3.70*** / 0.90	1.33 / 1.05	0.19	0.00
SR	3 / 1	0.38 / 1.33	3.92* / 4.43*	--	--	--
CLIN	9 / 4	0.55 / 0.32	5.68*** / 2.56*	8.81 / 3.10	2.18	0.02
USA study (Yes / No)
PR	5 / 1	0.47 / -0.38	1.77⁺ / -0.64	--	--	--
TR	15 / 0	0.28	2.67**	--	--	--
DOB	5 / 0	0.29	3.79***	--	--	--
SR	3 / 1	0.61 / 0.56	2.93** / 1.49	--	--	--
CLIN	13 / 0	0.47	5.63***	--	--	--
Population Type (High-Risk, Low Income / Universal)
PR	6 / 0	0.33	1.27	--	--	--
TR	10 / 5	0.26 / 0.30	2.27* / 1.68⁺	7.49 / 8.97⁺	0.03	0.10
DOB	4 / 1	0.23 / 0.42	2.57* / 3.00**	--	--	--
SR	3 / 1	0.61 / 0.56	2.92** / 1.49	--	--	--
CLIN	7 / 6	0.54 / 0.42	4.20* / 4.43*	6.87 / 6.76	0.52	0.02
Gender Composition (mostly male) (Yes / No)
PR	4 / 2	0.04 / 0.88	0.14 / 2.33*	1.23 / 4.64*	3.25⁺	0.27
TR	8 / 7	0.33 / 0.22	2.40* / 1.55	8.97 / 6.91	0.34	0.10
DOB	3 / 2	0.17 / 0.32	1.12 / 3.71***	1.08 / 0.81	0.69	0.00
SR	3 / 1	0.74 / 0.35	4.43* / 3.18	--	--	--
CLIN	5 / 8	0.44 / 0.49	3.23 / 4.76*	3.47 / 9.06	0.08	0.03
Race Composition (mostly white) (Yes / No)
PR	4 / 2	0.08 / 0.81	0.80 / 0.05*	1.05 / 4.75*	2.14	0.31
TR	8 / 7	0.40 / 0.13	3.10* / 0.96	8.33 / 7.22	2.07	0.09
DOB	5 / 0	0.29	3.79***	--	--	--
SR	3 / 1	0.61 / 0.21	2.93** / 1.49	--	--	--
CLIN	8 / 5	0.47 / 0.47	4.79* / 3.28	8.41 / 4.49	0.08	0.03
Attrition Problems (Yes / No)
PR	2 / 4	0.88 / 0.04	2.33* / 0.14	4.64* / 1.23	3.25⁺	0.27
TR	4 / 11	0.14 / 0.33	0.76 / 2.92**	1.59 / 14.80	0.82	0.09
DOB	1 / 4	0.26 / 0.31	2.36* / 2.98**	--	--	--
SR	3 / 1	0.35 / 0.74	3.18 / 4.43*	--	--	--
CLIN	3 / 10	0.55 / 0.43	3.77* / 4.98*	4.49⁺ / 9.88	0.50	0.02
Treatment Modality (Group / Individual)
PR	6 / 0	0.33	1.27	--	--	--
TR	12 / 3	0.26 / 0.35	2.41* / 1.55	16.37 / 0.22	0.15	0.10
DOB	4 / 1	0.28 / 0.54	3.60*** / 1.35	--	--	--
SR	3 / 1	0.65 / 0.35	3.27** / 0.84	--	--	--
CLIN	4 / 9	0.45 / 0.48	3.54* / 4.61*	2.52 / 10.36	0.03	0.03
Treatment Setting (School / Clinic)
PR	5 / 1	0.37 / 0.15	1.23 / 0.22	--	--	--
TR	14 / 1	0.26 / 0.48	2.63** / 1.23	--	--	--
DOB	4 / 1	0.31 / 0.05	3.90*** / 0.19	--	--	--
SR	3 / 1	0.65 / 0.35	3.27** / 0.84	--	--	--
CLIN	10 / 3	0.45 / 0.57	5.12* / 2.90	10.67 / 2.15	0.31	0.02
Type of Intervention
Social Skills Development
PR	6	0.33	1.27	--	--	--
TR	7	0.00	-0.08	--	--	--
DOB	3	0.21	2.33*	--	--	--
SR	1	0.35	3.18**	--	--	--
CLIN	1	0.32	2.67**	--	--	--
Cognitive Coping Strategies
PR	0	--	--	--	--	--
TR	4	0.68	6.74***	--	--	--
DOB	0	--	--	--	--	--
SR	2	0.89	4.53***	--	--	--
CLIN	5	0.22	1.94*	--	--	--
Video Tape Training/Role Playing
PR	0	--	--	--	--	--
TR	3	0.52	3.54***	--	--	--
DOB	1	0.54	1.35	--	--	--
SR	0	--	--	--	--	--
CLIN	3	0.70	4.97***	--	--	--
Immediate/Delayed Rewards
PR	0	--	--	--	--	--
TR	0	--	--	--	--	--
DOB	0	--	--	--	--	--
SR	0	--	--	--	--	--
CLIN	4	0.60	4.96***	--	--	--
Relaxation Training
PR	0	--	--	--	--	--
TR	1	0.20	1.25	--	--	--
DOB	1	0.42	3.00**	--	--	--
SR	1	0.35	1.09	--	--	--
CLIN	0	--	--	--	--	--

a.This column presents the number of studies that provide ESs by outcome source and by moderator grouping. For instance, 5 studies that provided self-control ESs based on parent reports were published, whereas 1 study that provided self-control ESs based on parent reports were not published. ⁺p<.10 *p<.05 **p<.01 ***p<.001.

6.7 TABLE 7. DELINQUENCY AND PROBLEM BEHAVIOR WEIGHTED EFFECT SIZES, CONFIDENCE INTERVALS, Z-TESTS AND Q STATISTICS OF MODERATORS (WITH RANDOM EFFECTS)

Variables	n	ES	z-test	Q-within	Q-between	tau∧2
Published (Yes / No) PR	7 / 2^a	0.20 / -0.45	1.32 / -1.33	9.55 / 0.11	3.10⁺	0.13
TR	10 / 4	0.30 / 0.29	3.53*** / 1.56	6.28 / 8.83*	0.01	0.04
DOB	4 / 1	0.09 / -0.07	1.06 / -0.25	--	--	--
USA study (Yes / No)
PR	7 / 2	0.08 / 0.14	0.47 / 0.38	5.13 / 4.94*	0.02	0.18
TR	14 / 0	0.30	3.51***	--	--	--
DOB	5 / 0	0.09	0.96	--	--	--
Population Type (High-Risk, Low Income / Universal)	9 / 0	0.09	0.67	--	--	--
PR	11 / 3	0.31 / 0.25	3.50*** / 1.65⁺	14.45 / 0.57	0.57	0.04
TR	5 / 0	0.09	0.96	--	--	--
DOB
Gender Composition (mostly male) (Yes / No)	7 / 2	-0.03 / 0.44	-0.20 / 1.63⁺	9.39 / 1.66	2.30	0.12
PR	7 / 7	0.03 / 0.41	0.59 / 7.90***	6.62 / 13.61*	25.43***	0.01
TR	4 / 1	-0.03 / 0.19	-0.45 / 1.72⁺	--	--	--
DOB
Race Composition (mostly white) (Yes / No)
PR	7 / 2	-0.01 / 0.37	-0.04 / 1.28	8.51 / 1.98	1.26	0.15
TR	9 / 5	0.29 / 0.30	2.93 / 2.52	10.21 / 4.91	0.05	0.04
DOB	4 / 1	0.19 / -0.08	2.27** / -1.26	--	--	--
Attrition Problems (Yes / No)
PR	2 / 7	0.44 / -0.03	1.63⁺ / -0.20	1.66 / 9.39	2.30	0.12
TR	4 / 11	0.14 / 0.33	0.76 / 2.92**	1.59 / 14.80	0.54	0.04
DOB	1 / 4	0.19 / -0.03	1.72⁺ / -0.46		--
Treatment Modality (Group / Individual)
PR	9 / 0	0.09	0.67	--	--	--
TR	11 / 3	0.29 / 0.33	3.58*** / 1.47	14.50 / 0.63	0.63	0.04
DOB	5 / 0	0.09	0.96	--	--	--
Treatment Setting (School / Clinic)
PR	7 / 2	0.05 / 0.29	0.29 / 0.76	6.08 / 3.83*	0.32	0.18
TR	13 / 1	0.28 / 0.57	3.69*** / 1.47	--	--	--
DOB	4 / 1	0.09 / -0.07	1.06 / -0.24	--	--	--

a.This column presents the number of studies that provide ESs by outcome source and by moderator grouping. For instance, 7 studies that provided delinquency and problem behavior ESs based on parent reports were published, whereas 2 studies that provided delinquency and problem behavior ESs based on parent reports were not published. ⁺p<.10 *p<.05 **p<.01 ***p<.001.

6.8 TABLE 8. MODERATOR CORRELATIONS WITH SELF-CONTROL EFFECT SIZES

Variables	n	Correlation (sq rt. of R²)
Publication Year
PR	6	0.20
TR	15	-0.29
DOB	5	-0.24
SR	4	-0.01
CLIN	13	-0.47*
Total Sample Size
PR	6	-0.19
TR	15	-0.27
DOB	5	0.10
SR	4	-0.63*
CLIN	13	-0.29
Age at Intervention
PR	6	-0.31
TR	15	0.36⁺
DOB	5	0.85**
SR	4	0.32
CLIN	13	-0.36⁺
Duration of Intervention
PR	6	0.12
TR	15	-0.57**
DOB	5	-0.10
SR	4	0.78**
CLIN	13	-0.26

Note. ⁺p<.10 *p<.05 **p<.01 ***p<.001

6.9 TABLE 9. MODERATOR CORRELATIONS WITH DELINQUENCY AND PROBLEM BEHAVIOR EFFECT SIZES

Variables	n	Correlation (sq rt. of R²)
Publication Year
PR	9	0.46*
TR	14	-0.20
DOB	5	0.64*
Total Sample Size
PR	9	-0.02
TR	14	-0.26
DOB	5	-0.88**
Age at Intervention
PR	9	0.32
TR	14	0.37⁺
DOB	5	-0.14
Duration of Intervention
PR	9	0.16
TR	14	-0.26
DOB	5	-0.72**

Note. ⁺p<.10 *p<.05 **p<.01 ***p<.001

6.10 TABLE 10. SELF-CONTROL META-ANALYSIS WEIGHTED LEAST SQUARES REGRESSIONS (WITH RANDOM EFFECTS)

Variables	b	se	Beta
Gender Composition (mostly male) (Yes / No)
PR	-0.77***	0.15	-0.70
TR	0.03	0.10	0.04
CLIN	-0.33*	0.22	-0.57
Race Composition (mostly white) (Yes / No)
PR	-0.51***	0.12	-0.49
TR	0.40***	0.10	0.56
CLIN	-0.25⁺	0.21	-0.42
Treatment Modality (Group / Individual)
TR	0.22⁺	0.17	0.17
Type of Intervention
Cognitive Coping Strategies
TR	0.83***	0.12	0.97
Video Tape Training/Role Playing
CLIN	0.64***	0.25	0.93
Age at Intervention
PR	-0.10	0.11	-0.12
TR	0.03	0.03	0.13
CLIN	-0.06⁺	0.04	-0.33

Note. Model 1 (PR): Q model=51.37***; Model 2 (TR)= Q-model= 69.48***; Model 3 (CLIN): Q-model: 13.68*.

⁺p<.20 *p<.10 **p<.05 ***p<.01.

6.11 TABLE 11. DELINQUENCY AND PROBLEM BEHAVIOR META-ANALYSIS WEIGHTED LEAST SQUARES REGRESSIONS (WITH RANDOM EFFECTS)

Variables	b	se	Beta
Race Composition (mostly white) (Yes / No)
PR	-0.39*	0.22	-0.40
TR	-0.05	0.11	-0.10
Type of Intervention
Cognitive Coping Strategies
TR	0.19⁺	0.13	0.27
Publication Year
PR	0.04*	0.02	0.43
TR
Age at Intervention
PR	0.20**	0.09	0.53
TR	0.05*	0.03	0.30

Note. Model 1 (PR): Q-model= 13.60**; Model 2 (TR): Q-model= 69.48***.

⁺p<.20 *p<.10 **p<.05 ***p<.01.

7 APPENDIX B. Forest Plots 7.1 FIGURE 1. FOREST PLOT OF THE DISTRIBUTION OF SELF-CONTROL EFFECT SIZES: PARENT REPORT

7.2 FIGURE 2. FOREST PLOT OF THE DISTRIBUTION OF SELF-CONTROL EFFECT SIZES: TEACHER REPORT

7.3 FIGURE 3. FOREST PLOT OF THE DISTRIBUTION OF SELF-CONTROL EFFECT SIZES: DIRECT OBSERVER REPORT

7.4 FIGURE 4. FOREST PLOT OF THE DISTRIBUTION OF SELF-CONTROL EFFECT SIZES: SELF-REPORT

7.5 FIGURE 5. FOREST PLOT OF THE DISTRIBUTION OF SELF-CONTROL EFFECT SIZES: CLINICAL REPORT

7.6 FIGURE 6. FOREST PLOT OF THE DISTRIBUTION OF DELINQUENCY AND PROBLEM BEHAVIOR EFFECT SIZES: PARENT REPORT

7.7 FIGURE 7. FOREST PLOT OF THE DISTRIBUTION OF DELINQUENCY AND PROBLEM BEHAVIOR EFFECT SIZES: TEACHER REPORT

7.8 FIGURE 8. FOREST PLOT OF THE DISTRIBUTION OF DELINQUENCY AND PROBLEM BEHAVIOR EFFECT SIZES: DIRECT OBSERVER REPORT

7.9 FIGURE 9. FOREST PLOT OF THE DISTRIBUTION OF TOTAL NUMBER OF SELF-CONTROL EFFECT SIZES

7.10 FIGURE 10. FOREST PLOT OF THE DISTRIBUTION OF TOTAL NUMBER OF DELINQUENCY AND PROBLEM BEHAVIOR EFFECT SIZES

Appendix C. Funnel Plots 7.11 FIGURE 11. FUNNEL PLOT EXAMINING PUBLICATION BIAS IN TOTAL NUMBER OF SELF-CONTROL EFFECT SIZES

7.12 FIGURE 12. FUNNEL PLOT EXAMINING PUBLICATION BIAS IN TOTAL NUMBER OF DELINQUENCY AND PROBLEM BEHAVIOR EFFECT SIZES

8 Appendix D. Self-Control Meta-Analysis Coding Sheets 8.1 ELIGIBILITY CHECK SHEET

Document ID: __ __ __ __
First author last name:

___________________________________________________________________
Study Title:

___________________________________________________________________
Journal Name, Volume and Issue:

___________________________________________________________________
Document ID: __ __ __ __
Coder's Initials __ __ __
Date eligibility determined: __________________________________________
A study must meet the following criteria in order to be eligible. Answer each question with a “yes” or a “no”.
The study is an evaluation of a self-control improvement program.

____________________________________________________________
The study utilizes random assignment. ___________________________
The study reports on at least one outcome (self-control and/or delinquency problem behavior). ________________________________
The study is written in English. _________________________________

If the study does not meet the criteria above, answer the following question:

The study is a review article that is relevant to this project (e.g., may have references to other studies that are useful, may have pertinent background information). ____

Eligibility status:

___ Eligible
___ Not eligible
___ Relevant review

Notes:

___________________________________________________________________________

8.2 CODING PROTOCOL

Reference Information

1.Document ID: __ __ __ __
2.
Study author(s):

______________________________________________________________
3.
Study title:

______________________________________________________________
4.
Publication type: ________
Book
Book chapter
Journal article (peer reviewed)
Thesis or doctoral dissertation
Government report (state/local)
Government report (federal)
Police department report
Technical report
Conference paper
Other (specify) ________________________________________________

5.Publication date (year): __________________

Journal Name: ______________________________________________________

Journal Volume: _____________________________________________________

Journal Issue: ______________________________________________________

Date range of research (when research was conducted):

Start: _______________

Finish: _______________

8.Source of funding for study: ________________________

9.Country of publication: ________________________

10.Date coded: ______________

11.Coder's Initials: __ __ __

Sample Characteristics

The following questions are about the target population of the intervention (if the intervention is not targeting groups of problem people skip to question 38):

12.
What is the target population of the treatment? ______
Universal
Low-income
High-risk youth
Other (specify) _____________________________________________________

13.What is the exact target population? ___________________________________

14.Total population of target population (if known): __________

15.

Gender composition of target population: __________

Mostly male
Mostly female
Unknown/not mentioned

16.

Age composition of target population: _____________

Mostly children
Mostly adolescents
Unknown/not mentioned

17.

Socio-economic status of target population: _________

Mostly below poverty line
Mostly above poverty line
Unknown/not mentioned

18.

Race/ethnicity of the sample:

Percentage White: __________
Percentage African-American: _________
Percentage Asian: _________
Percentage Native American: _________
Percentage White/Caucasian: ________

19.What country did the intervention take place in: ______________

20.

What was the initial sample size recruited into the study and what was the final N (sample number related to outcomes examined in the review)?

________ (initial) / _________ (final)

Intervention Characteristics

21.What was the average age at the start of the intervention? _________ years
22.How long was the intervention period (child's age)? __________ months
23.
What was the type of intervention? _________
Social skills development
Affective education
Problem solving
Eclectic

24.

Treatment modality: __________

Individual
Group
Both

25.

Treatment setting: __________

School/Daycare
Home-based
Clinic
Other, please specify __________________

Methodology/Research design:

26.
Type of study: ____________
Randomized experiment
Non-equivalent control group (quasi-experimental)
Multiple time series (quasi-experimental)
Pre-post test (no control group)
Other (specify) ______________________

27.

Was the program highly structured, that is, followed a set protocol?

Yes
No
Cannot tell

28a.
Did the program remain consistent over time?
Yes
No
Cannot tell

28b.

Were there adjustments for baseline differences?

Yes
No
Cannot tell

28c.

Were there adjustments for attrition?

Yes
No
Cannot tell

28d.

Were there adjustments for differential attrition?

Yes
No
Cannot tell

Outcomes reported

29.How many outcomes are reported in the study? ______
30.
What is the specific outcome recorded on this coding sheet?

___________________________________________________________________________
31.
Was it the primary outcome of the study? _________
Yes
No
Can't tell/researcher did not prioritize outcomes

32a.

Was this initially intended as an outcome of the study? ________

Yes
No (explain)
Can't tell

32b.

If no, explain why:

___________________________________________________________________________

Dependent Variable

33.
What type of data was used to measure the outcome covered on this coding sheet?
Official data (from the police, court, etc.)
Parent report
Teacher report
Self-report surveys
Direct Observer Reports
Other (specify) (professional observation, assessment, or diagnosis) _____________________________________________________________________

34.

If official data was used, what specific type(s) of data were used? (Select all that apply)

Police contacts
Arrests
Court records
Convictions
Other (specify)
N/A (official data not used) __________________________________________

35a.

Did the researcher assess the quality of the data collected?

35b.

Did the researcher(s) express any concerns over the quality of the data?

35c.

If yes, explain:

___________________________________________________________________________

36a.

Does the evaluation data correspond to the initially stated problem? (i.e., if the problem is delinquency and problem behavior, does the evaluation data look at whether delinquency and problem behavior decreased.)

36b.

If no, explain the discrepancy:

___________________________________________________________________________

37.

If self-reports are used, were outcome data:

Dichotomous
Ordinal
Continuous
Combination
Other (specify): ______________________________________________

Effect Size/Reports of statistical significance

Dependent Measure Descriptors

Sample size

38.Based on the unit of analysis for this outcome, what is the total sample size in the analysis? __________
39.What is the total sample size of the treatment group (group that receives the response)? _________
40.What is the total sample size of the control group (if applicable)? ______
41a.
Was attrition a problem in the analysis for this outcome?
Yes
No

41b.

If attrition was a problem, provide details (e.g., how many cases lost and why they were lost).

___________________________________________________________________________

Effect Size Data

42.
Raw difference favors (i.e., shows more success for):
Treatment group (or post period)
Control group (or pre period)
Neither (exactly equal)
Cannot tell (or statistically insignificant report only)/ Not Applicable (Pre-Post study)

43.

Did a test of statistical significance indicate statistically significant differences between either the control and treatment groups or the pre and post tested treatment group? ____

Yes
No
Can't tell
N/A (no testing completed)

44.

Was a standardized effect size reported?

45.If yes, what was the effect size? ________

46.If yes, page number where effect size data is found __________

47a.

If no, is there data available to calculate an effect size?

47b.

Type of data effect size can be calculated from:

Means and standard deviations
t-value or F-value
Chi-square (df=1)
Frequencies or proportions (dichotomous)
Frequencies or proportions (polychotomous)
Other (specify)

48a.Did the evaluation control for validity by using multivariate methods (i.e., regression) to assess the impact of the program on the outcome? ________

48b.If yes, did this analysis find that the intervention reduced the outcome at a statistically significant level (p=.05)? ________________________

Means and Standard Deviations

49a.Treatment group mean ______
49b.Control group mean ______
50a.Treatment group standard deviation ______
50b.Control group standard deviation ______

Proportions or frequencies

51a.n of treatment group with a successful outcome ______
51b.n of control group with a successful outcome ______
52a.Proportion of treatment group with a successful outcome ______
52b.Proportion of treatment group with a successful outcome ______

Significance Tests

53a.t-value ______
53b.F-value ______
53c.Chi-square value (df=1) ______

Calculated Effect Size

54.Effect size ________

1We acknowledge that other meta-analysis studies often report effects on both short- and (slightly) long-term effects of programs (Lösel & Beelmann, 2003, 2006); however, since we are relying on Gottfredson & Hirschi's (1990) self-control theoretical framework, the theory does not assume that self-control is malleable after age 10. Thus, there is not a theoretical justification for assessing the long-term effects in this particular meta-analysis. 2It is important to note here that only one reviewer (Dr. Jennings) was responsible for making all of the coding decisions. Thus, there were not any issues or necessary procedures to resolve disagreements among coders. 3Some examples of measures used to assess self-control included: Kansas Reflectivity-Impulsivity Scale for Preschoolers (KRISP: Wright, 1971), Kendall and Wilcox Self-Control Rating Scale (SCRS: Kendall & Wilcox, 1979), Social Skills Rating System (self-control sub-scale) (Gresham & Elliot, 1990), and Burks' Behavior Rating Scale (impulsivity sub-scale) (Burks, 1996). 4Some examples of measures used to assess delinquency and problem behaviors included: Child Behavior Checklist (externalizing problems, e.g. aggression or delinquency sub-scales) (CBCL: Achenbach, 1986, Achenbach & Edelbrock, 1983, 1986), Eyberg Child Behavior Inventory (ECBI: Eyberg & Robinson, 1983; Funderburg & Eyberg, 1989), and Social Behavior Questionnaire (fights subscale) (SBQ: Tremblay et al., 1991). 5Although we will revisit this quality assessment issue later on in the analysis, we wish to note here that there was some indication that the studies that had attrition issues tended to have significantly larger self-control ESs compared to the studies that did not have attrition problems suggesting that there may be some selection effect operating here. In other words, the youth who had the least amount of self-control are the ones that are more likely to attrite from the program thus making the program appear to be more successful because outcome data is only available for the less “at-risk” and impulsive youth who are perhaps more responsive to treatment, e.g., they may be “easier” clients. 6There were no post-test data based on clinical reports to calculate an individual study ES for delinquency and problem behavior. 7Since the confidence intervals for several ES's contain zero, care should guide interpreting these results. 8It is important to clarify here that the means and confidence intervals displayed in the Forest plots are those derived after applying the Hedges and Olkin adjustment to Cohen's d. 9It was necessary to remove two extreme outliers before calculating the mean ESs in order to eliminate the potential for over-inflating the mean ES. For this reason, Larkin and Thyer (1999) and Porter's (1982) individual study ESs were not used in any of the analysis presented herein. 10There were only two delinquency and problem behavior ESs available for the self-report outcome source, and considering that the ES was the same across these two studies no further analysis was conducted with the self-report delinquency and problem behavior ESs. 11The Q statistic is distributed as a chi-square with k-1 degrees of freedom where k is the number of effect sizes (Hedges & Olkin, 1985). 12Due to the skew in the duration of the intervention (some studies were longer than a year), this variable was recoded as 0 if the intervention lasted less than one week, 1 if it lasted one week, 2 if it lasted two weeks, through 12 if it lasted twelve weeks. Interventions greater than twelve weeks were coded as 13. 13Some of the potential categorical moderators could not be examined using analog to the ANOVA tests since there was either no variation (e.g., all of the studies that had parent reports that contributed to the mean ES targeted high-risk/low income populations) or only one study was different from the rest (e.g., five of the six studies that had parent reports that contributed to the mean ES were published and only one study was from unpublished data). When this second situation was encountered, the ESs were still estimated for the different groupings in order to determine if either/both of the two ESs were significant.

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Abstract

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The main objective of this Campbell systematic review is to assess the available research evidence on the effect of self‐control improvement programs on self‐control and delinquency and problem behaviors. In addition to investigating the overall effect of early selfcontrol improvement programs, this review will examine, to the extent possible, the context in which these programs may be most successful.

This review includes 34 randomized controlled studies covering a total of 4,386 children, aged from to 10 years. Of these, 31 studies are from the USA, 2 are from Canada and 1 is from Israel. The review covers a time span of 33 years (1975–2008).

The studies included in this systematic review indicate that self‐control improvement programs are an effective intervention for improving self‐control and reducing delinquency and problem behaviors, and that the effect of these programs appears to be rather robust across various weighting procedures, and across context, outcome source, and based on both published and unpublished data.

Considering these results, future efforts should be made to examine the effectiveness of self‐control improvement programs over time and across different segments of the life‐course (e.g., midadolescence, young adulthood etc.), and conduct rigorous cost‐benefit analysis on programs such as these.

Executive Summary/Abstract

BACKGROUND

Self‐control improvement programs are intended to serve many purposes, most notably improving self‐control. Yet, interventions such as these often aim to reduce delinquency and problem behaviors. However, there is currently no summary statement available regarding whether or not these programs are effective in improving self‐control and reducing delinquency and problem behaviors.

OBJECTIVES

The main objective of this review is to assess the available research evidence on the effect of self‐control improvement programs on self‐control and delinquency and problem behaviors. In addition to investigating the overall effect of early self‐control improvement programs, this review will examine, to the extent possible, the context in which these programs may be most successful.

SEARCH STRATEGY

Several strategies were used to perform an exhaustive search for literature fitting the eligibility criteria: (1) A keyword search was conducted across a number of online abstract databases; (2) The reference lists of previous reviews of early childhood prevention/intervention programs in general and self‐control improvement programs specifically were consulted; (3) Hand searches were carried out on leading journals in the field; (4) The publications of research and professional agencies were searched; and (5) Recognized scholars (experts) in various disciplines who were knowledgeable in the specific area of self‐control improvement programs were contacted.

SELECTION CRITERIA

Studies that investigated the effect of early self‐control improvement programs on improving self‐control, and/or reducing delinquency and problem behaviors were included. Studies were only included if they had a randomized controlled evaluation design that provided post‐test measures of self‐control and/or delinquency and problem behaviors among experimental and control subjects.

DATA COLLECTION AND ANALYSIS

Narrative findings are reported for the 34 studies included in this review. A meta‐analysis of all 34 of these studies was carried out. The means and standard deviations were predominantly used to measure the effect size. Results are reported for the unbiased effect sizes and the weighted effect sizes and, where possible, comparisons across outcome sources (parent‐reports, teacher‐reports, direct‐observer reports, self‐reports, and clinical reports). Bivariate and multivariate analyses (using Lipsey & Wilson's SPSS macros) are performed in an effort to determine potential moderators and predictors of the effect sizes, respectively.

MAIN RESULTS

AUTHORS' CONCLUSIONS

We conclude that self‐control improvement programs should continue to be used to improve self‐control and reduce delinquency and behavior problems up to age 10, which is the age cutoff where Gottfredson and Hirschi argue that self‐control becomes relatively fixed and no longer malleable. Considering these results, future efforts should be made to examine the effectiveness of self‐control improvement programs over time and across different segments of the life‐course (e.g., mid‐adolescence, young adulthood etc.), and conduct rigorous cost‐benefit analysis on programs such as these.

Details

Title

Self‐control interventions for children under age 10 for improving self‐control and delinquency and problem behaviors

Author

Piquero, Alex R; Jennings, Wesley G; Farrington, David P

Pages

1-117

Section

SYSTEMATIC REVIEW

Publication year

2010

Publication date

2010

Publisher

John Wiley & Sons, Inc.

e-ISSN

18911803

Source type

Scholarly Journal

Language of publication

English

DOI

https://doi.org/10.4073/csr.2010.2

ProQuest document ID

2556844634

Self‐control interventions for children under age 10 for improving self‐control and delinquency and problem behaviors

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