Concepts of developmental psychobiology

The first strand of the case for early intervention is, in some ways, a return to the roots of psychobiological child guidance as prevention of psychiatric disorders across the lifespan. There has been an increasing body of evidence consistent with developmental psycho biological concepts, such as psychobiological developmental pathways to physical and mental difficulties. For example, postnatal depression is associated with children’s sleep difficulties, poor weight gain and increased minor physical problems at 9 months, impaired cognition at 16 months, impaired growth as well as behavioural problems at age 2, and increased negative parenting behaviours, which persist, predicting increased behavioural and emotional problems by age 7. Extreme prematurity, a physical perinatal stressor, is associated with subsequent impaired cognition (including executive function) and attention and internalising (though not externalising) behavioural problems (Reference Aarnoudse-Moens, Weisglas-Kuperus and van GoudoeverAarnoudse-Moens 2009). However, there is little impact on family functioning in the long term, despite some restriction in opportunities for mothers, even in the presence of enduring neurodisability (Reference Saigal, Pinelli and StreinerSaigal 2010). Environmental toxins and recreational drugs are increasingly found to adversely affect the developing fetus, contributing to the risk for subsequent mental health problems. Recreational drugs are more associated with attentional problems, whereas environmental toxins have a general effect on brain development. Early chronic psychosocial trauma, stress and economic disadvantage have also been associated with subsequent neoplastic, gastrointestinal, cardiovascular and immunological illness, possibly via long-term immunological activation of macrophages or monocytes and subsequent hypersensitivity (Reference Ford, Lanius, Vermetten and PainFord 2010; Reference Miller, Chen and ParkerMiller 2011).

Among disorders more apparent in teenagers and adults, vulnerability to depression has been associated with the interaction between serotonin transporter gene polymorphisms and early psychological trauma, possibly mediated by impaired coupling between the amygdala and anterior cingulate cortex, as well as such trauma leading to hypothalamic–pituitary–adrenal (HPA) axis and oestrogenic dysregulation; the former is associated with impaired stress management, the latter potentially affects caregiving in subsequent generations. Chronic stress affects both the HPA axis and brain-derived neurotrophic factor (BDNF), leading to reduced hippocampal size and neuronal complexity, especially in the periventricular nuclei (Reference Ansorge, Hen and GingrichAnsorge 2007). Our understanding of schizophrenia is also now neurodevelopmental, with obstetric complications and childhood or adolescent psychosocial stress both contributing to its eventual expression in genetically vulnerable people. Obstetric complications, in particular hypoxia, lead to more severe illness with earlier onset, and a greater likelihood for conversion of prodromal symptoms to the full syndrome. They have also been associated with ventricular enlargement (crucial evidence for the ‘over-pruning hypothesis’ of excessive brain apoptosis in schizophrenia) and unusual movements at age 4, which both predicted incidence of schizophrenia. Brain-derived neurotrophic factor is implicated here as well: among individuals who begin life with obstetric complications, those who develop schizophrenia have lower than normal levels of this neuroprotective hormone, rather than the higher than normal levels in those who do not (Reference Karlsgodt, Ellman, Sun, David, Kapur and McGuffinKarlsgodt 2012). Early trauma also mediates this effect, possibly via inflammatory processes (Reference Dennison, McKernan and CryanDennison 2012).

Developmental psychopathology has thus proved to be essential to our understanding of the major disorders treated in adult psychiatry, as well as those most prevalent in childhood and adolescence, and it highlights many potential areas for early intervention. The overall picture seems to be that similar stressors and risk factors (physical and psychological trauma and adversity early in life) produce a range of adverse results, the profile of which depends on the interaction between the insult and the individual’s genotype, with families being more resilient to the sequelae of physical stressors than psychological or economic ones.

The economic argument

In the second strand of research supporting early intervention, Reference HeckmanHeckman (2008) developed an economic model based on developmental psycho-pathological findings, which suggested that the benefits across the lifespan of the ratio of early to later intervention in childhood followed a positive curvilinear relationship, i.e. early intervention was disproportionally beneficial compared with later. Data collection problems make this model difficult to test, but Knapp and colleagues have undertaken long-term (6-year) economic reviews of 15 early intervention strategies, with supportive results (Reference Knapp, McDaid and ParsonageKnapp 2011). For example, they found that early intervention for conduct disorder (which typically has a childhood onset) had a 20% greater return on investment than early detection of psychosis (which typically begins in adolescence), but even early intervention for conduct disorder has only 10% of the return on investment from prevention of conduct disorder through social and emotional learning programmes. Although these latter were evaluated in school, at 10 years, around 74% of conduct disorders are likely to have begun before then (Reference Meltzer, Gatward and GoodmanMeltzer 2000) and social education programmes may be successfully adapted for preschool children. It therefore seems likely that the economic benefits of social and emotional learning programmes will be greater if used with preschool children. An interesting example is postnatal depression. Reference Knapp, McDaid and ParsonageKnapp et al’s (2011) review, which did not consider children, failed to identify any return on investment in the deployment of health visitors. However, other studies obtained more positive results (Reference McDaid and ParkMcDaid 2011) and Knapp et al’s most recent study (Reference Bauer, Parsonage and KnappBauer 2014) found that 72% of the costs of perinatal depression, anxiety and psychosis arose from the impact on the children, in which context interventions became highly cost-effective.

The public mental health imperative

The third strand supporting early intervention refers to cross-sectional, rather than longitudinal, findings. For adult and child health problems, the mean population score is closely related to the number of individuals with extreme values, i.e. the prevalence of relevant cases in the population (Reference Goodman and GoodmanGoodman 2011). Therefore, whole-population interventions that reduce mean scores will also reduce associated case prevalences, so effective interventions may offer significant benefit in reducing case-load even if applied to at-risk or whole populations, rather than restricting them to diagnosed patients. From the last paragraph of the previous section, it follows that smaller, or even absent cross-sectional effect sizes may be accepted if the intent of an intervention is to reduce disability across the lifespan, given the potential offset in costs. An example where these principles could be applied is in preschool social education (Reference Hamre, Pianta and MashburnHamre 2012). Although prosocial behaviour in the preschoolers studied was significantly improved, there was no detectable change in the rate of behavioural disorders. However, this was because the base rate was so low in the study population that such change was hard to detect. The results suggested that the intervention would still be valuable in reducing the risk of future behavioural disorders, given their close negative association with prosocial behaviour.

A case can thus be made for child psychiatrists to involve themselves with 0- to 4-year-olds at the population level, as well as treating individual children, i.e. to engage with the public mental health of this age range. External observers consider that the UK (with The Netherlands) already leads the USA in this, and some of this work is undertaken as consultation-liaison to primary care teams and agencies (Reference EmbryEmbry 2011). In the UK, such teams can provide, jointly, around one potential worker for every 30 children with a diagnosable psychiatric disorder, and there is an appetite for appropriate training supported by management. In the USA, home-based treatment by such professionals has been shown to be feasible and effective for preschoolers (Reference Lowell, Carter and GodoyLowell 2011) and, in general, interventions in this age group produce enduring benefit, which may be enhanced for mental health problems if provided in toddlerhood (Reference Nores and BarnettNores 2010). Despite this, and the theoretical account given above, a recent meta-analytic review found no prevention studies for depression covering the preschool age range (Reference Merry, Hetrick and CoxMerry 2012), though a randomised controlled trial for prevention of anxiety disorders in preschoolers is in progress (Reference Bayer, Rapee and HiscockBayer 2011).

Physical treatments

Psychological and social treatments

The treatment of ADHD illustrates how approaches for older children might have to be modified for those of preschool age. It is frequently forgotten that, even for school-age children, well-designed psychological treatments for ADHD have an effect, albeit less than medication, and with little evidence of additive benefit. With preschool children, the picture is different. Reference Greenhill, Kollins and AbikoffGreenhill et al (2006) report an effect size for methylphenidate of 0.55 (probability of replication: 0.95) following behavioural treatment. The Incredible Years parenting programme has been reported to have an effect size of 0.73 (probability of replication: 0.96) for immediate effect on ADHD symptoms, which was maintained at 18-month follow-up (Reference Jones, Daley and HutchingsJones 2008). A parenting intervention specifically designed to target ADHD symptoms achieved an effect size of 0.79 (probability of replication: 0.99), maintained at 15 weeks. However, the programme could not be implemented effectively by newly trained staff outside the envelope of specialist care (Reference Sonuga-Barke, Thompson and DaleySonuga-Barke 2004). The success of this approach using specialist delivery may have been replicated (Reference Thompson, Laver-Bradbury and AyresThompson 2009), although the very high effect sizes reported could reflect the combination of a high drop-out rate and failure to analyse using intention to treat. However, a meta-analysis (Reference Sonuga-Barke, Brandeis and CorteseSonuga-Barke 2013) conducted to remove ‘founder effects’ (i.e. bias associated with assessments by the developer of the intervention) found that, overall, psychological treatment had no significant effect on the core ADHD symptoms (overactivity, impulsivity and inattention). This same meta-analysis confirmed modest effect sizes for the benefit of free fatty acid supplementation and artificial food colour exclusion, suggesting their utility in a public mental health, though not clinical, context.

High levels of heterogeneity between studies and variable study quality have also characterised early interventions for autism, although effect sizes at least as large as for drug treatment have been reported, and some trends are evident. Guidelines based on a systematic review of studies reporting outcomes in the preschool period concluded that children with autism spectrum disorders require a minimum of 25 h a week of behaviourally focused programmes, possibly including a developmental component (Reference Maglione, Gans and DasMaglione 2012). Not only does there seem to be a dose–response relationship between time taken and effectiveness, but a large well-designed study in preschoolers using a focused parent-training approach achieved only small effect sizes on an intervention lasting 6.5 h a week (2.5 h of which were dedicated to unsupported homework) (Reference Green, Charman and McConachieGreen 2010). Despite the large initial outlay required, the return on investment for such intensive treatments, estimated by cost-offset modelling and assuming intervention at 3 years of age, is around 11 to 1 (Reference Peters-Scheffer, Didden and KorziliusPeters-Scheffer 2012) by 65 years, consistent with Heckman’s model discussed above, and is equivalent to an annualised return of about 16%. It seems unlikely that treatments of the intensity and specificity required could be delivered outside specialist settings.

The implication of the admittedly sparse literature is that psychological treatment of preschoolers with significant autistic symptoms is to be preferred to drug treatment where possible, and is best delivered from specialist centres rather than in primary care. For ADHD, the failure to demonstrate the impact of psychological treatment on its core symptoms should not undermine decisions to prescribe it for associated comorbidity and disability, where indicated. However, it seems likely that this will require significant reconfiguration of current secondary care services. In the UK at present it takes, on average, 500 days for a referral for ADHD to lead to treatment, which is clearly far too long for a preschool intervention, while the implementation of intensive treatment for autism will require quite different resourcing from that offered by the typical current CAMHS team (Reference ForemanForeman 2010). Resolving these issues will require skilled clinical leadership.