Cross-sectional studies

Most of the key cross-sectional studies listed in Table DS1 found an increased prevalence of major depressive disorder, dysthymia, anxiety disorders and bipolar disorders (bipolar I, bipolar II and bipolar disorder not otherwise specified) in the familial-risk groups. The results include data from three prospective studies that have reported findings from an initial baseline cross-sectional assessment of different offspring samples (Reference Birmaher, Axelson and MonkBirmaher 2009, Reference Birmaher, Axelson and Goldstein2010; Reference Nurnberger, McInnis and ReichNurnberger 2011).

Prospective longitudinal studies

In one of the first published offspring studies in bipolar disorder, Reference Akiskal, Downs and JordanAkiskal et al (1985) reported increased rates of anxiety disorders, minor mood disorders and adjustment disorders in a small sample (n = 68) of children and younger siblings of adults with bipolar disorder investigated over a 3-year period (Table DS2). Affective disorders began in adolescence and were depressive in nature (median age at onset ∼16 years). Subsequent longitudinal studies with larger samples and longer follow-up periods of 12, 15 and 16 years have largely replicated those findings (Reference Duffy, Alda and HajekDuffy 2010; Reference Egeland, Endicott and HostetterEgeland 2012; Reference Mesman, Nolen and ReichartMesman 2013).

All of the prospective studies shown in Table DS2 reported increased mood and non-mood psychopathology in the offspring of parents with bipolar disorder compared with offspring of healthy controls. However, in contrast to retrospective reporting of childhood-onset bipolar disorder in the cross-sectional studies (Table DS1), none of the prospective studies has reported prepubertal onset of mania. The prospective studies consistently report that the first major affective episode in familial-risk offspring is depressive in polarity and usually begins in mid-to-late adolescence. Also the depressive episode precedes the first (hypo) manic episode by about 3–5 years. Although the trajectories show some consistency (non-specific childhood problems or anxiety, followed by depression, then by mania), it is noteworthy that the overall transition rates to syndromal bipolar disorder are low. Having said that, many of the studies were instigated in the past decade, and not all the familial-risk samples have passed through the peak period for onset of bipolar disorder. For example, Reference Egeland, Endicott and HostetterEgeland et al (2012) calculated that 68% of their sample (age range: 13–29 years) were still within the period of maximum risk for onset of bipolar I disorder, while the mean ages at follow-up in the studies by Reference Duffy, Alda and HajekDuffy et al (2010) and Reference Mesman, Nolen and ReichartMesman et al (2013) were about 24 (range 8–30) and 28 (s.d. = 3) years respectively. As more follow-up data become available it is possible that there will be a small increment in ‘caseness’ in the familial-risk samples.

Three studies recorded detailed illness trajectories for their study cohorts (Reference Duffy, Alda and HajekDuffy 2010; Reference Egeland, Endicott and HostetterEgeland 2012; Reference Mesman, Nolen and ReichartMesman 2013). These showed similar patterns, with the emergence of non-mood psychopathology (such as anxiety symptoms, sleeping problems and increased sensitivity in early childhood), with progression to adjustment disorders, mood symptoms and minor mood disorders, followed by the onset of a major affective episode. Reference Duffy, Alda and HajekDuffy et al (2010) reported that 71% of cohort participants demonstrated this temporal sequence of psychopathology and that preceding anxiety increased the age-adjusted risk of mood disorder from 40% to 85%. Also the presence of a mood disorder increased the morbid age-adjusted risk of substance misuse to 35%, compared with 18% in participants without mood disorders. Reference Mesman, Nolen and ReichartMesman et al (2013) observed a later onset of comorbid anxiety in offspring with a bipolar spectrum disorder than Reference Duffy, Alda and HajekDuffy et al (2010), although this may have reflected the later mean age at enrolment. In the Dutch study, prevalence rates for substance use disorder were similar to those found in the general population and may have reflected recruitment methods, as participants were recruited from patient associations who were sensitised to the effects of substance misuse on bipolar disorder (Reference Mesman, Nolen and ReichartMesman 2013).

In the USA, Reference Egeland, Endicott and HostetterEgeland et al (2012) observed progression of symptoms, with early-childhood anxiety, worry and increased sensitivity giving way at mid-adolescence to decreased concentration, high energy, excessive talking, unruly behaviour and depressed mood. Egeland et al did not report increased substance use disorder in their sample, but this might be partly explained by cultural factors, as they recruited families from the Amish community (a religious group who are largely abstinent).

It is important to note that none of the prospective longitudinal offspring studies demonstrates an increased rate of ADHD, various learning difficulties, childhood manic or hypomanic episodes among offspring of parents with bipolar disorder. This is contrary to the findings of cross-sectional and community-based studies (Reference Faedda, Serra and MarangoniFaedda 2014). The absence of an increased rate of ADHD in the Amish study is particularly interesting, given the characteristics of the population investigated (high genetic loading and sociocultural buffers such as strong social links, minimal rates of substance use disorder, etc.). However, it is clear that the associations between ADHD and bipolar disorder are still being investigated. For example, Reference Duffy, Horrocks and DoucetteDuffy et al (2014) described a subgroup of offspring of ‘lithium non-responder’ parents with bipolar disorder, who, in comparison with offspring of ‘lithium-responder’ parents with the disorder, had double the rates of ADHD, learning disability (intellectual disability) antecedents and DSM Cluster A personality traits and non-remitting mood disorders (14% v. 8%). However, the differences were not statistically significant, possibly owing to insufficient sample size. Also, all cases of schizoaffective disorder were observed in the offspring of lithium non-responder parents. Duffy et al discussed several explanations, including the possibility that there may be a subtype of bipolar disorder characterised by the emergence of ‘ADHD-like’ behaviours in childhood and early onset of bipolar disorder associated with psychotic symptoms and resistance to lithium treatment.

Paternal and maternal age

Advanced paternal age has been reported as a risk factor for neurodevelopmental disorders and studies have demonstrated an increased risk for bipolar disorder in offspring of older fathers (>50) in comparison with the offspring of younger fathers (Reference Frans, Sandin and ReichenbergFrans 2008; Reference Chudal, Gissler and SucksdorffChudal 2014). Reference Grigoriou-Serbanescu, Wickramaratne and MihailescuGrigoriou-Serbanescu et al (2012) reported paternal age to have the greatest effect on age at onset of sporadic (non-familial) bipolar I disorder, especially in females. In contrast, all studies have failed to show a relationship between maternal age and risk for bipolar disorder, with the exception of one by Reference Menezes, Lewis and RasmussenMenezes et al (2010).

Gestational factors

A study by Reference Wals, Reichart and HillegersWals et al (2003) demonstrated an association between low birth weight and both affective and non-affective disorders in familial-risk offspring that was independent of familial loading for bipolar disorder, unipolar disorder and substance use disorder. Other environmental factors interacting with the underlying genotype may be early parental loss (Reference Mortensen, Pedersen and MelbyeMortensen 2003) and maternal influenza during pregnancy (Reference Parboosing, Bao and ShenParboosing 2013). Although there are conflicting results regarding the latter, a recent study suggested that maternal influenza was not associated with an increased risk of bipolar disorder in offspring, but was associated with a fivefold risk of bipolar disorder with psychotic features (Reference Canetta, Bao and EnnisCanetta 2014).

Socioenvironmental factors

Offspring of parents with bipolar disorder are reported to live in more dysfunctional families than children of parents without mental disorders (Reference Chang, Blasey and KellerChang 2001; Reference Moreno, Bio and PetrescoMoreno 2012), and the studies of Reference Ferreira, Moreira and KleinmanFerreira et al (2013), Reference Vandeleur, Rothen and Gholam-RezaeeVandeleur et al (2012) and Reference Hammen, Burge and BurneyHammen et al (1990) all reported an association between living in such an environment and the risk of psychopathology in the former group. Also, Reference Hillegers, Burger and WalsHillegers et al (2004) demonstrated that stress load (frequency of life events) increased the liability to develop mood disorders in familial-risk offspring during adolescence. In wider research, it is hypothesised that people who develop bipolar disorder are more likely to have been raised in families that are characterised by less cohesion and organisation, more conflicts (Reference Chang, Blasey and KellerChang 2001; Reference Romero, Delbello and SoutulloRomero 2005), less reward (Reference Heru and RyanHeru 2004) or with higher levels of expressed emotion, including critical, hostile or overinvolved attitudes (Reference Ogilvie, Morant and GoodwinOgilvie 2005). Burden on the informal carers of people with bipolar disorder is also associated with more depressive symptoms, which could result in low-quality interactions between parents and their affected offspring or even to increased levels of emotional neglect (Reference Ogilvie, Morant and GoodwinOgilvie 2005).

Substance misuse

Reference Duffy, Horrocks and MilinDuffy et al (2012) found that substance use disorder in high-risk offspring was associated with a threefold increase in the risk of developing a mood disorder and also with an increased risk of developing psychotic symptoms. The relationship between substance use disorder, in particular cannabis misuse, and bipolar disorder is complex. The strong bidirectional associations may reflect gene–environment interactions involving several different genes and environmental factors, including the increased vulnerability of the adolescent brain to the toxic effects of cannabis (Reference Henquet, Di Forti and MorrisonHenquet 2008); it might also be associated with an above average level of risk-taking behaviour in those at risk of bipolar disorders or an attempt at ‘self-medication’ in those with recent-onset bipolar disorder.

Genetic counselling

Genetic testing is now commercially available in some countries, and can even be bought over the counter at a national chain store in the UK. Although this is seen as an advance by some, it also raises significant concerns, as there is a lack of regulation and supportive genetic counselling services (Reference Delisi and LynnDelisi 2014). In bipolar disorders, attitudes to genetic testing have been explored with patients and their families (Reference Jones, Scourfield and McCandlessJones 2002; Reference Meiser, Mitchell and McGirrMeiser 2005). These studies have shown that the majority of participants expressed an interest in testing if it would provide a definite answer. About half of the individuals questioned were in favour of genetic testing for at-risk adolescents, but only if early preventive therapeutic interventions were available.

However, genetic testing is not synonymous with genetic counselling, and the latter may be important regardless of the availability of a test. Some education about the likelihood of inheritance is important for families as, at the very least, misunderstandings such as an overestimation of risk can be clarified (Reference Hill and SahharHill 2006). Genetic counselling can also alert families to the concurrent risk of non-mood disorders within families and encourage better management of risk through increased awareness of environmental stressors or modifiable factors. Anecdotal evidence suggests, however, that parents with bipolar disorder are sometimes keener on input for their offspring than are the young people themselves. Although many do wish to understand the possible risk, others express the view that they prefer to ‘live their lives’ in the same way as their peer group, and do not wish to consider using additional self-management strategies (such as sleep hygiene), for fear of medicalisation or stigmatisation.

Psychological interventions

In asymptomatic young people who wish to explore stress management, two promising approaches would appear to be sleep regulation and anti-rumination strategies. The former has greater impact on risk for elevated or unstable mood, and the latter for depressed mood or substance use (Reference Vallarino, Scott and DuffyVallarino 2014). In those who manifest other problems or subsyndromal mood symptoms, attenuated models of currently available psychological therapies such as cognitive–behavioural therapy, interpersonal therapy or family-focused therapy can all improve sleep, reduce depression and improve functioning (Reference Vallarino, Scott and DuffyVallarino 2014, Reference Vallarino and Scott2015). The only randomised trial to date in offspring of parents with bipolar disorder demonstrates that family-focused therapy may be especially useful to families with high levels of expressed emotion, but that gains for other families are modest compared with usual treatments (Reference Miklowitz, Schneck and GeorgeMiklowitz 2014).