Separation anxiety disorder

Separation anxiety disorder is an excessive and/ or developmentally inappropriate anxiety about separation from attachment figures. Excessive worrying about the figure's welfare may also occur. Impairment might include school refusal (possibly exacerbated by specific school anxiety), avoidance of visiting friends’ homes or difficulty sleeping alone. The ICD-10 criteria include onset before 6 years of age and duration of at least 4 weeks.

Generalised anxiety disorder

Generalised anxiety disorder encompasses multiple and persistent worries (e.g. regarding family, friendships, school or appearance) not restricted to any one situation or object, lasting at least 6 months. Comorbidity (e.g. with depression) is particularly common. In ICD-10, diagnostic criteria for children and adolescents are differentiated from those for adults. The former include an additional ‘difficult-to-control worries’ criterion, and requires three or more physical symptoms from six, a condensed list to reflect the reduced prominence of autonomic arousal in children.

It is not clear yet what modifications will be made in the revised version, ICD-11, although Reference ShearShear (2012) proposes various changes for the adult criteria, including a requirement that worry must occur frequently and/or excessively, focusing the somatic criteria on restlessness and muscle tension, and permitting the diagnosis even in the presence of other anxiety disorders. Interestingly, these criteria are already present in the ICD-10 children's diagnosis.

Social phobia and social anxiety disorder of childhood

Social phobia is accompanied by an excessive fear of embarrassment or scrutiny. Avoidance of particular social situations reinforces the associated anxiety and could eventually impede social skills development and, at the most extreme, result in debilitating social isolation. In DSM-5, ‘social phobia’ is a single category, but in ICD-10 it is differentiated from ‘social anxiety disorder of childhood’ (American Psychiatric Association 2013). Social anxiety disorder of childhood occurs at a developmental stage at which social anxiety reactions are appropriate – diagnostically, it must manifest before 6 years of age – but in an affected child they involve significant severity, persistence or impairment lasting for at least 4 weeks. In contrast, social phobia reflects social anxiety later in life, and includes blushing, shaking, or fear of vomiting, micturition or defecation; no minimum duration of symptoms is given.

Emmelkamp (2012) argues that ICD-11 should also include a minimum symptom duration for social phobia, following the new inclusion of a minimum 6 months’ duration in DSM-5. Reference Wittchen, Stein and KesslerWittchen et al (1999) distinguish between generalised social phobia (across multiple settings) and non-generalised: the former is associated with greater chronicity, impairment and comorbidity. Autism spectrum disorder is a differential (particularly where social isolation is a function of impaired social communication and/or lack of social interest rather than frank anxiety) or commonly comorbid diagnosis.

Specific or simple phobias

Specific or simple phobias are defined by excessive fear of specific objects or situations that provoke an immediate anxiety response on exposure, causing significant distress and/or functional impairment, for example because of avoidance. Reference FyerFyer (1998) describes subtypes relating to: animals, specific situations, nature/environment (e.g. water, heights) and blood injury. Not only do they differ in their triggers, they may also vary with respect to symptomatology, age at onset and heritability. Blood injury phobia, for example, has a distinct biphasic physiological response. Some typical fears held by children and adolescents are described in Table 2. The DSM-5 criteria no longer require the individual to recognise that their anxiety is excessive or unreasonable: instead, the onus is on the clinician to determine whether anxiety is disproportionate to the situation.

This particular DSM-5 criterion of due proportion also relates to agoraphobia, which encompasses an often overlapping cluster of phobias relating to at least two of crowds, public places, leaving home and travelling alone. Various specific worries may reinforce the anxiety, including fears of collapsing, being left helpless in public and being unable to escape. Persistent avoidance may result in the experience of minimal anxiety, so that the agoraphobia escalates until the individual becomes housebound.

Panic disorder

Panic disorder involves repeated and unexpected attacks of severe anxiety not restricted to any particular situation, accompanied by multiple physical symptoms. It often originates from the occasional panic attack in adolescence, although only a small proportion of young people who have such attacks subsequently develop the disorder. Anticipatory anxiety about future attacks or their perceived implications (e.g. losing control, being judged) is common. In keeping with ICD-10, DSM-5 has now separated agoraphobia and panic disorder into distinct entities, particularly as many individuals with agoraphobia do not experience panic symptoms.

Temperament

Research suggests a relationship between preexisting personality traits and later anxiety disorders. One such trait is inhibited temperament, or behavioural inhibition, defined by Kagan and colleagues as a tendency to show apprehension to novel or unfamiliar situations, together with raised reactivity of the sympathetic nervous system (Reference Kagan and SnidmanKagan 1999). Such behavioural inhibition in early childhood is a risk factor for anxiety, particularly social phobia, later in childhood and adolescence (Reference Perez-Edgar and FoxPerez-Edgar 2005). Similar associations have been reported for shyness and an anxious-resistant attachment style. The 21-year longitudinal study by Reference Goodwin, Fergusson and HorwoodGoodwin et al (2004) showed that anxious/ withdrawn behaviour at 8 years of age increased the risk of anxiety disorders and depression in adolescence and young adulthood.

However, the relationship is complex, it varies according to the study (Reference Degnan, Almas and FoxDegnan 2010) and much of the association may lie at the extremes of temperament (Reference Kagan, Snidman and McManisKagan 2002). Furthermore, other moderating factors (e.g. peer rejection, exclusion and victimisation) play a significant role as the child develops.

Genetics

Family studies indicate an association between parental anxiety and depression and anxiety disorders in offspring. The association appears to be largely non-specific (in terms of anxiety subcategory), except for a particular relationship between parental panic disorder and offspring separation anxiety disorder (Reference Biederman, Monuteaux and FaraoneBiederman 2004).

Twin studies in adults suggest that generational transmission is primarily accounted for by non-shared environmental and genetic factors, with a heritability of about 40% for panic, generalised and agoraphobic anxiety, and specific phobias (Reference Hettema, Neale and KendlerHettema 2001). Such studies in children show more variation. For example, Reference Bolton, Eley and O'ConnorBolton et al (2006) reported a heritability of 60% for specific phobias and 73% for separation anxiety disorder, whereas Reference Eley, Rijsdijk and PerrinEley et al (2008) found the figures to be 46% and 14% respectively. Both studies show significant influence of non-shared environmental factors. However, the latter study also shows a significant shared environmental contribution for specific phobia (at 0.27, as for non-shared factors), which suggests that familial factors (such as parental overprotection or control) may be as influential as non-shared factors (e.g. conditioning) for this disorder.

Furthermore, research indicates both common and distinct genetic aetiologies across some types of anxiety and affective disorder. For example, generalised anxiety and major depressive disorders appear to share a common genetic aetiology, but diverge in their non-shared environmental factors. Twin studies in adults indicate a similar genetic substrate underlying panic disorder and generalised anxiety disorder, but a distinct one for specific phobias (Reference Hettema, Prescott and MyersHettema 2005). Another twin study showed a shared genetic diathesis between adult-onset panic attacks and earlier separation anxiety disorder, but not for what was previously called childhood overanxious disorder (Reference Roberson-Nay, Eaves and HettemaRoberson-Nay 2012). The paediatric anxiety twin study by Reference Eley, Rijsdijk and PerrinEley et al (2008), however, showed no significant genetic covariation between specific phobias, separation anxiety and social phobia, implying distinct biological substrates for each.

Twin studies therefore indicate that genetic factors endow a broad susceptibility to anxiety in general as opposed to a specific disorder. This again may reflect an evolutionary ‘balancing act’ between specialisation (to deal potently with specific threats) and generalisation (necessary for protection against several types of danger arising from the evolutionary coexistence of multiple threats). There is probably a stronger relationship between genetic factors and various neuropsychological processes (including behavioural inhibition) or traits (e.g. neuroticism), rather than specific psychiatric disorders.

Finally, adult molecular genetic studies suggest serotonin transporter dysfunction, although paediatric studies are few. Reference Fox, Nichols and HendersonFox et al (2005) explored gene–environment interaction and showed that children with a combination of the short 5-HTT allele and low social support had increased risk for behavioural inhibition.

Neuroimaging and neuropsychology

The few neuroimaging studies conducted with children have shown some interesting structural findings. Replicating results in adults, Reference Koolschijn, van IJzendoorn and Bakermans-KranenburgKoolschijn et al (2013) found an association between reduced left hippocampal volume and higher scores for anxiety and depression on the Child Behavior Checklist. Reference Milham, Nugent and DrevetsMilham et al (2005) found reduced left amygdala grey matter volume associated with anxiety disorders. Intriguingly, a pilot follow-up study showed recoveries in amygdala grey matter volume after successful 8-week intervention with selective serotonin reuptake inhibitors (SSRIs) or psychotherapy.

Various studies have explored relationships between early temperament and neuroanatomy or neurophysiology. Reference Schwartz, Wright and ShinSchwartz et al (2003) used functional magnetic resonance imaging (MRI) to show that adults who had had an inhibited (compared with uninhibited) temperament at 2 years old showed greater amygdala signal response to novel faces. Reference Schwartz, Kunwar and GreveSchwartz et al (2010) subsequently used structural MRI to show that adults who had had a low-reactive temperament in infancy showed greater left orbitofrontal cortex thickness, whereas those who had had high reactivity showed greater right ventromedial prefrontal cortex thickness. Functional MRI research in young people with generalised anxiety disorder has shown that variations in state anxiety modulate associations between attention and activation in a ‘fear circuit’ encompassing the amygdala, ventral prefrontal cortex and the anterior cingulate cortex (Reference McClure, Monk and NelsonMcClure 2007).

Reference PinePine (2007) has attempted to unify neuroimaging research (e.g. amygdala–prefrontal circuitry abnormalities) with affective and cognitive research (e.g. memory, learning, emotional regulation and fear conditioning) in a single neuropsychological model. This describes various information-processing biases in anxiety disorder: for example, the tendency to direct attention towards environmental threats, and appraise such threats as particularly meaningful and dangerous. The development of neural substrates underlying the fear response and anxiety is likely to involve complex gene–environment interplay, including the influence of early life experiences (Reference Fox, Nichols and HendersonFox 2005).

Parent–child interactions and the family environment

Retrospective and observational studies have found that parental over control, rejection and modelling of anxious behaviours are consistently and significantly associated with childhood shyness and paediatric anxiety disorders (Reference Degnan, Almas and FoxDegnan 2010). Specifically, aspects of parenting behaviour (e.g. oversolicitous, intrusive or controlling parenting), style (e.g. authoritarian, permissive, low-proactive and low-supportive parenting as perceived by children, or overprotective parenting as reported by parents), psychopathology (e.g. parents diagnosed with panic disorder and/or depression), personality (e.g. maternal neuroticism) and the parent–child relationship (e.g. insecure attachment) have been linked to heightened behavioural inhibition and/or anxiety in children. Parenting factors are therefore likely moderators of the relationship between behavioural inhibition and the development of childhood anxiety. However, the degree to which the child's anxiety has a reverse influence on parenting is unclear. These parenting styles are also implicated in other child psychiatric disorders.

Such parenting may hinder the development of autonomy, resulting in a child who experiences the environment as more threatening and less safe. Lack of parental emotional availability, for example as a result of social adversities such as overcrowding, poverty and marital discord, may impede parents’ ability to help contain their children's anxieties; children living in families where there are such chronic stressors are more likely to experience insecurity and to feel anxious and fearful. Also, parents who themselves have increased trait anxiety and sense of threat may exacerbate the perception of threat in these children and obstruct the development of coping skills; modelling may therefore be a significant contributing factor.

Parent–child interaction also, of course, occurs in utero, and research shows that maternal stress or anxiety in pregnancy can influence psychopathology in the offspring (Reference GloverGlover 2011). Reference Bergman, Sarkar and O'ConnorBergman et al (2007) showed that prenatal stress predicts observed fearfulness in the offspring. Reference Van den Bergh and MarcoenVan den Bergh & Marcoen (2004) used multiple regression analysis to show that maternal state anxiety in the second (but not the third) trimester correlates with anxiety in 8- and 9-year-olds. Reference O'Connor, Heron and GloverO'Connor et al (2002) showed that antenatal anxiety (but not depression) in late pregnancy is independently associated with behavioural/emotional problems in 4-year-olds.

Prenatal stress may also lead to neuroanatomical changes in offspring, such as reduced hippocampal and grey matter volume (Reference GloverGlover 2011), consistent with neuroimaging data discussed above. From an evolutionary perspective, the effects of prenatal stress on fetal neurodevelopment may allow offspring to readily adapt to the same potentially stress-inducing environment as experienced by the mother. Reference GloverGlover (2011) also suggests that outcomes become non-adaptive if the manifesting anxiety is excessively extreme for the respective environment.

Traumatic life events

Traumatic events predispose not only to PTSD, but also to various anxiety disorders, particularly specific phobia and social phobia (Reference McLaughlin, Greif Green and GruberMcLaughlin 2012). Reference Pine, Cohen and JohnsonPine et al (2002) longitudinal study found that adverse life events in adolescence were associated with symptoms of generalised anxiety disorder in adulthood, but only in females.

Respiratory dysregulation

Recurrent dyspnoea, particularly in asthma, is a risk factor for paediatric anxiety disorders such as panic and separation anxiety (Reference Goodwin, Pine and HovenGoodwin 2003). Sensitivity to carbon dioxide, a respiratory stimulant, has also been found in children with anxiety disorders, particularly separation anxiety (Reference Pine, Klein and Roberson-NayPine 2005).

CBT and psychological therapy

As already mentioned, the NICE guideline recommends CBT for anxiety disorders. It incorporates both cognitive (e.g. reframing, positive self-talk, challenging unhelpful thoughts, and weighing up evidence for and against expected events) and behavioural processes (e.g. systematic desensitisation, exposure and response prevention for specific phobias, relaxation training, modelling and rewarding wanted behaviour, and role-play).

Depending on the anxiety disorder and the child's age, either cognitive or behavioural strategies can be emphasised. Various manuals (e.g. Reference StallardStallard 2002) provide accessible material for both clinician and patient. Family and school can support the child and help with graded exposure tasks and experiments such as those described by Reference Kendall, Robin and HedtkeKendall et al (2005).

Two relatively recent meta-analyses of psychological therapies for anxiety disorders in children and young people (Reference Ishikawa, Okajima and MatsuokaIshikawa 2007; Reference Reynolds, Wilson and AustinReynolds 2012) also included a few trials relating to PTSD and OCD (Table 5). Both meta-analyses showed significant effect sizes for CBT, which remained significant but attenuated when analysis was limited to studies with an active control methodology (as opposed to waiting-list or treatment-as-usual groups). Both reported that involving parents had a positive but, perhaps surprisingly, relatively minor effect.

TABLE 5 A comparison of two meta-analyses of the efficacy of psychological therapies for anxiety disorders

These two meta-analyses also yielded some divergent data, possibly because of their differing inclusion criteria, number of studies included, date of publication and outcome measures. While the Ishikawa team found little difference in effect size between delivering fewer versus many sessions, the Reynolds team showed that having less than 9 hours of therapy reduced the effect size and less than 4 hours had minimal therapeutic effect. And whereas the Ishikawa team demonstrated little difference in effect size between group and individual CBT, the Reynolds team showed a particularly high effect size for individual CBT. However, delivering CBT to a group may arguably enhance efficiency and provide peer support and reassurance. An open trial has recently shown evidence supporting a novel CBT package (Emotion Detectives Treatment Protocol) delivered to a group of children with various anxiety and depressive disorders (Reference Bilek and Ehrenreich-MayBilek 2012).

Computerised CBT packages such as Stressbusters (Reference Abeles, Verduyn and RobinsonAbeles 2009) have now been developed for childhood anxiety disorders. Their advantages and disadvantages are listed in Box 1 (Reference Richardson, Stallard and VellemanRichardson 2010). Two randomised controlled trials (RCTs), each with over 70 participants, showed significant differences between CBT (using the BRAVE-ONLINE package) and control groups. Furthermore, remission rates in the treatment groups were approximately 75% at 6 months (Reference March, Spence and DonovanMarch 2009) and at 12 months (Reference Spence, Holmes and MarchSpence 2006). Spence et al's study also included a clinic-based CBT arm; overall results showed no significant difference between internet- and clinic-delivered CBT.

The evidence base for other forms of psychological therapy is less robust. Family therapy may help where dysfunctional patterns of family interaction influence the child's anxiety symptoms. Parents may also need support for their own difficulties with anxiety and/or separation to prevent them from exacerbating their child's symptoms.