Child psychiatrist Michael Rutter was one of the first to suggest the role of psychosocial adversity in the etiology of mental disorders. He revealed that the development of psychopathology was associated with a set of adversity factors rather than the presence of a single factor.1 From these studies, Rutter's Indicators of Adversity (RIA)15 were constructed and included 6 family and environmental indicators that correlated with childhood mental disorders, particularly ADHD. These indicators have been used in some researches and are defined as shown in table 1.

Rutter's work showed that a single indicator did not significantly increase the risk; however, the presence of 2 indicators increased the probability of mental disorders 4 times, and the presence of 4 indicators resulted in a 10-fold increase in the risk for the child.19 Some follow-up studies have found that family rates of psychosocial adversity assessed by exposure to parental psychopathology, conflict and poor family cohesion, would be the most important predicting factors to determine the severity and persistence of ADHD. Poverty is a determining factor in subjects with inattention, not only for the presence and persistence over time, but it has also been linked to lower future income in adulthood.20

It refers to multiple closely related concepts, including conflict, cohesion, family adaptability, and generally where members support each other within an enriching environment.21

In the Biederman19 study it was found that all the indicators of psychosocial adversity, except for large family size, had a significant association with the presence of ADHD. Also, greater family cohesion has been associated with fewer externalizing and internalizing problems and inattention symptoms at 6 and 11 years while greater family conflict was associated with larger inattention, internalizing and externalizing problems. Other studies have found an association between ADHD and conflict between parents, poor family cohesion and psychopathology in parents, especially the amount of years that the child has been exposed to maternal psychopathology. In this regard, several authors during recent years have highlighted that the presence of ADHD or depression in parents is related to more comorbid and severe ADHD in children.22–25

On the other hand, there is an alternative possibility that implies a change in the direction of association. This proposes that in the presence of a child with ADHD, the family dynamics change, leading to disruptions in family and marital functioning, poor relationships between parents and children, reduced self-efficacy and increased parental stress levels.26,27

Few studies have investigated factors associated in the school context with the development of the disorder. However, there is a wide range of evidence that students with ADHD experience relationship difficulties with peers and teachers, such as rejection even after brief interactions.28,29 On the other hand, there is evidence of significant academic difficulties such as non-compliance with school work, suspensions/expulsions30 and lower scores on tests of cognitive domains. This leads to a higher level of stress in the teaching process.29,31

Considering that ADHD symptoms are more noticeable in the school environment and are frequently identified for the first time in this context,32 some studies have shown that a younger age when entering school increases the probability of having related symptoms with ADHD or other psychopathology.33 Children who entered school before age 6 have been shown to have higher scores on the SNAP IV (Swanson, Nolan, and Pelham Version-IV ADHD Rating Scale).32 However, it is not clear if there is any trigger for ADHD when entering school earlier, or if entering without full brain development produces symptoms that would later be diagnosed as ADHD.

Some authors suggested that relational trauma, particularly abuse in the early years can cause ADHD.34,35 Children with ADHD have been found to experience greater stress and adversity in early life than their peers, and both abuse and neglect are associated with the presence of symptoms.36,37 The consequences of abuse and ADHD symptoms share some characteristics such as aggressiveness, hostility, poor anger management, impulsiveness, depressive symptoms, cognitive difficulties, discipline problems at school, social isolation and poor social skills, among others. This overlap has aroused debates about the possible association between ADHD and child abuse, as post-traumatic responses related to abuse could be misinterpreted as ADHD.38

Specifically, physical abuse has been more strongly associated with aggressiveness and externalizing problems, whereas sexual abuse has been related directly with symptoms of post-traumatic stress disorder (PTSD) and later with internalizing symptoms.38 Ford et al.39 followed a cohort of children between the ages of 6 and 17 with a diagnosis of ADHD, and they found that 25% of the sample had been exposed to physical abuse and 11% to sexual abuse. It seems that the association with child mistreatment could be different depending on the ADHD subtypes. The inattentive subtype has been associated with poor supervision (odds ratio [OR]=1.63; 95%CI, 1.21-2.20), physical neglect (OR=2.07; 95%CI, 1.37-3.11), physical abuse (OR=1.59; 95%CI, 1.13-2.25), and sexual abuse (OR=2.61; 95%CI, 1.52-4.48). The hyperactive/impulsive subtype was not as related with poor supervision and physical abuse but was highly related with physical neglect (OR=2.65; 95%CI, 1.86-3.78) and sexual abuse (OR=2.90; 95%CI, 1.69-4.95).40 To the contrary, other studies did not find a clear association between the history of trauma and the presence of ADHD.

Recently, social deprivation has been an issue gaining relevance. Subjects who experience it in adoption institutions receive little social and cognitive stimulation. Cohort studies of adopted children have found that symptoms of inattention and hyperactivity are more frequent in late adopters and their intensity was greater according to the duration of the deprivation experienced in the institution.41 Moreover, having been deprived produces a greater severity of ADHD symptoms,41 and is related to its persistence until adolescence and adulthood.42 In a longitudinal study by Rutter,43 2 groups of adopted children were compared: one group who lived in institutions while the other group had not, it was found that at the age of 6 and 11 the first group presented a higher frequency of inattention and hyperactivity. This finding was more noticeable in those subjects adopted after 6 months of age. A recent study showed the protective role of a shorter duration of out home placement, especially at the cognitive and emotional level in at risks for ADHD.44

It should also be noted that a significant proportion of children after exposure to traumatic experiences such as natural disasters (earthquakes, hurricanes, floods), traffic accidents or terrorist acts (bombings), show psychological reactions that significantly interfere with their lives. Sometimes the reactions occur with symptoms such as increased psychomotor activity or decreased concentration, making it difficult to differentiate between PTSD and ADHD. Although it is an important field, its study is complex because there is interference in the measurement of its outcomes.45,46

Genes and environmental influences can interact to give rise to ADHD and other mental disorders.34 This gene-environment interaction (GxE) describes any phenotypic event that is due to changes in the effect of the gene by the environment or, conversely, by genetics of the environment. Depending on the stage of neurodevelopment, the psychosocial environment can mediate gene expression, particularly in the first years of life.34 In this way, gene expression occurs only in a subgroup of individuals exposed to the environmental factor, which explains why not everyone who carries the gene expresses the disorder. Empirical evidence of the role of GxE in ADHD cases so far has found statistical significance of the interaction between dopamine transporter gene (DAT1) polymorphisms with prenatal cigarette exposure47 and fetal growth,48 along with dopamine receptor gene (DRD4) polymorphisms and exposure to pesticides.49

The evidence regarding the psychosocial environment is still incipient. A cross-sectional study based on a cohort of German-born infants assessed whether the psychosocial environment moderated the effect of variations in the DAT1 gene.50 A structured interview was applied to 305 adolescents to establish the diagnosis of ADHD, the DAT1 variants were genotyped and the presence of psychosocial adversity was determined from a modification of the RIA. In a first analysis, no effect of DAT1 variants on ADHD symptoms was found. However, taking into account the psychosocial environment in those individuals with some variants (haplotype 6R-10R/6R-10R) in the presence of high adversity, they presented symptoms of inattention and hyperactivity / impulsivity more frequently, with statistical significance of the interaction (p value between .013 and .017) even after adjusting for the history of parental psychiatric disorder and obstetric complications in childbirth. The association of this same haplotype and ADHD symptoms has also been found when there is social deprivation. This would indicate that variants of DAT1 would have an effect according to the psychosocial environment and its effects would only occur in those who have presented high adversity or deprivation.

A possible explanation for this is that dopaminergic dysfunction in this case only occurs in stressful situations. For example, elevated levels of dopaminergic markers have been found after sexual abuse or increased striatal dopaminergic transmission related to physical abuse and family disputes, which may have been caused by the stimulation of cortisol in the release of this neurotransmitter. Thus, it is possible that DAT1 variants produce changes in the dopamine transporter, the main regulator of the reuptake of this neurotransmitter in the presynaptic neuron and contributing to this dopaminergic dysfunction. In this way, haplotypes could explain that individuals respond differently to negative and positive environmental experiences, meaning we would not only have to consider these to be plasticity genes.51

There is also a relationship in which genetic and environmental risk factors coexist non-randomly, such that certain hereditary characteristics of the individual create a risk of exposure to certain environmental risk factors that indirectly increase the probability of presenting ADHD, known as gene-environment correlation (rGxE).52 In other words, there would be a genetic vulnerability not only to ADHD but to psychosocial adversity. We would not be studying only the modification that the environment makes of the genetic effect in producing ADHD, but that genetics act in such a way in the environment that it finally leads to adversity. The correlation between genes and the environment in human behavior can occur in 3 ways: genetic variants present in parents that produce the psychosocial environment in which the child is raised (passive rGxE), genes that originate some traits that create psychosocial adversity (evocative or reactive rGxE), or children create their psychosocial environment from their lessons and behaviors which respond to inherited dispositions (active rGxE).53

The few studies that have directly evaluated rGxE in the development of childhood psychopathology have focused on other externalizing symptoms such as antisocial behavior. In general, genetic factors that create a risk for behavior problems are empirically examined. Children who were adopted and who had a genetic risk of antisocial behavior (antisocial parent) were compared in a cohort study with those who had no such history. Adoptive families were found to report more frequently over time negative or coercive parenting styles in response to child behaviors, which might suggest evocative rGxE.54 Another study found a rGxE between the candidate gene MAO-A and maltreatment in a genetic variant associated with antisocial behavior and ADHD.55 This topic is relevant when considering the high comorbidity of ADHD with this disorder.

In addition to biological mechanisms, it is worth mentioning the effect of adversity from other theoretical models. Although a neurobiology mechanism is observed which is affected by genetic and environmental factors, there are other “significant structures” such as the cognitive ones. These develop over time and constitute the continuous interpretation of the world that a person makes, which is also known as a schema. In ADHD, some psychologists have proposed that maladaptive schemes such as emotional deprivation develop from childhood. This is the belief that their own emotional needs will not be met by others and that it may be due to poor interaction with parents and/or companions in their childhood. Subjugation is another example, where the individual believes that he should submit to the control of others to avoid rejection by peers at school.56 Likewise, the representations and meanings that a child attributes to each situation that he lives can be different. In an analysis of the narratives of preschool-age children from a community sample, he found that negative representations about parents were related to the presence of ADHD symptoms, without a correlation with what parents reported about the family environment.57

In the same way, coping mechanisms have been conceptualized, which are the cognitive efforts of each person to handle the demands that adversity implies. Various descriptive studies have identified that these mechanisms are different for each person, depending on age and the environment in which adversity occurs. These studies propose that those subjects who focus on managing emotion rather than the problem generated by adversity are those with more externalizing symptoms. On the other hand, the influence of culture has been described on the type and number of adverse events, the capacity and resources to respond to them, as well as the definition of ADHD and its complex association with psychosocial adversity.58