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Safety and efficacy of lithium in children and adolescents: A systematic review in bipolar illness

Published online by Cambridge University Press:  18 July 2018

A. Amerio*
Affiliation:
aDepartment of Mental Health, Mental Health Service of Fidenza, Parma, Italy bMood Disorders Program, Tufts Medical Center, Boston, MAUSA
P. Ossola
Affiliation:
cDepartment of Medicine and Surgery, Unit of Neuroscience, University of Parma, Parma, Italy
F. Scagnelli
Affiliation:
dDepartment of Mental Health, Mental Health Service of Fiorenzuola, Piacenza, Italy
A. Odone
Affiliation:
eSchool of Medicine, Vita-Salute San Raffaele University, Milan, Italy
M. Allinovi
Affiliation:
fNephrology and Dialysis Unit Meyer Children’s Hospital, Florence, Italy
A. Cavalli
Affiliation:
gNeuroscience Centre of Excellence, Meyer Children’s Hospital, Florence, Italy
J. Iacopelli
Affiliation:
hDepartment of Health Sciences, A. Meyer Children's University Hospital, Florence, Italy
M. Tonna
Affiliation:
cDepartment of Medicine and Surgery, Unit of Neuroscience, University of Parma, Parma, Italy
C. Marchesi
Affiliation:
cDepartment of Medicine and Surgery, Unit of Neuroscience, University of Parma, Parma, Italy
S.N. Ghaemi
Affiliation:
bMood Disorders Program, Tufts Medical Center, Boston, MAUSA iDepartment of Psychiatry, Tufts University Medical School, Boston, MA, USA jNovartis Institutes for Biomedical Research, Translational Medicine-Neuroscience, Cambridge, MA, USA
*
*Corresponding author at: Department of Mental Health, Mental Health Service of Fidenza, Via Berenini 153, Fidenza, Parma, Italy. E-mail addresses: [email protected] (A. Amerio), [email protected] (P. Ossola), [email protected] (F. Scagnelli), [email protected] (A. Odone), [email protected] (M. Allinovi), [email protected] (A. Cavalli), [email protected] (J. Iacopelli), [email protected] (M. Tonna), [email protected] (C. Marchesi), [email protected] (S.N. Ghaemi).

Abstract

Introduction:

Many clinicians are reluctant to use traditional mood-stabilizing agents, especially lithium, in children and adolescents. This review examined the evidence for lithium’s safety and efficacy in this population.

Methods:

A systematic review was conducted on the use of lithium in children and adolescents with bipolar disorder (BD). Relevant papers published through June 30th 2018 were identified searching the electronic databases MEDLINE, Embase, PsycINFO and the Cochrane Library.

Results:

30 articles met inclusion criteria, including 12 randomized controlled trials (RCTs). Findings from RCTs demonstrate efficacy for acute mania in up to 50% of patients, and evidence of long-term maintenance efficacy. Lithium was generally safe, at least in the short term, with most common side effects being gastrointestinal, polyuria, or headache. Only a minority of patients experienced hypothyroidism. No cases of acute kidney injury or chronic kidney disease were reported.

Conclusions:

Though the available literature is mostly short-term, there is evidence that lithium monotherapy is reasonably safe and effective in children and adolescents, specifically for acute mania and for prevention of mood episodes.

Type
Review/Meta-analyses
Copyright
Copyright © European Psychiatric Association 2018

1. Introduction

The diagnosis of bipolar disorder (BD) in children and adolescents has been a controversial topic [Reference Goldstein, Birmaher, Carlson, DelBello, Findling and Fristad1], with much concern about risks of treating it [Reference Singh, Ketter and Chang2], with concerns about the harms of antipsychotic agents in particular [Reference Schneider, Taylor, Zalsman, Frangou and Kyriakopoulos3]. An alternative to antipsychotic agents would be mood-stabilizing drugs like lithium, yet clinicians also are reluctant to use that agent, especially with apprehension regarding cognitive side effects [Reference Findling4], as well as about long-term medical risks, such as hypothyroidism and chronic renal insufficiency [Reference McKnight, Adida, Budge, Stockton, Goodwin and Geddes5]. Further, many clinicians seem to be sceptical about the efficacy of lithium in children.

This paper seeks to shed light on these concerns, with the first systematic review on the safety and efficacy of lithium in children and adolescents with BD.

2. Materials and methods

As done before [Reference Amerio, Galvéz, Odone, Dalley and Ghaemi6, Reference Marchesi, Ossola, Amerio, Daniel, Tonna and De Panfilis7], this review was conducted according to methods recommended by the Cochrane Collaboration and the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines [Reference Higgins and Green8, Reference Liberati, Altman, Tetzlaff, Mulrow, Gøtzsche and Ioannidis9].

2.1. Information sources and search strategy

Studies were identified searching the electronic databases MEDLINE, Embase, PsycINFO and the Cochrane Library. We combined the search strategy of free text terms and exploded MESH headings for the topic of treatment with lithium in children and adolescents combined as following: ((((((Lithium) OR Lithium carbonate) OR Lithium carbonate[MeSH Terms])) AND (((Children) OR Adolescent) OR Adolescent[MeSH Terms])) AND (((((((Bipolar disorder) OR BD) OR Bipolar) OR Manic depressive disorder) OR Manic depressive) OR Manic) OR Bipolar disorder[MeSH Terms])) AND ((((treatment*) OR therap*) OR pharmacotherap*) OR Therapeutics[MeSH Terms]). The strategy was first developed in MEDLINE and then adapted for use in the other databases (Appendix A in Supplementary material). Studies published in English through June 30th 2018 were included. In addition, further studies were retrieved from reference listing of relevant articles and consultation with experts in the field.

2.2. Inclusion criteria

2.2.1. Study population and study design

We considered studies that included children and adolescents with BD treated with lithium both in monotherapy and in combination with others psychotropic drugs. BD was considered if diagnostic criteria used were specified. Studies conducted on youths with different disorders than BD (e.g. dysphoric mood dysregulation disorder) were excluded (i.e. [Reference Dickstein, Towbin, Van Der Veen, Rich, Brotman and Knopf10Reference Malone, Delaney, Luebbert, Cater and Campbell12]:). Participants of both sexes younger than 18 years of age were considered. Studies conducted on subjects with physical comorbidities such as epilepsy were excluded as non-representative of the study population [Reference Erwin, Gerber, Morrison and James13].

Among hospital-based studies, inpatients, day-hospital and outpatient subjects were included, while emergency care records were excluded as non-representative. All experimental and observational study designs were included apart from case reports and case series. Narrative and systematic reviews, letters to the editor, and book chapters were excluded.

2.2.2. Outcomes

The primary outcome was lithium effectiveness in children and adolescents with BD. Secondary outcomes were i) starting dose and dosing strategy, ii) brain-to-serum lithium association, and iii) safety and tolerability of lithium.

2.2.3. Study selection and data extraction

Identified studies were independently reviewed for eligibility by two authors (AA, FS) in a two-step process: A first screening was performed based on title and abstract, and then full texts were retrieved for a second screening. At both stages disagreements by reviewers were resolved by consensus. Data were extracted by two authors (AA, FS) and supervised by a third author (SNG) using an ad-hoc developed data extraction spreadsheet. The data extraction spreadsheet was piloted on 10 randomly selected papers and modified accordingly.

3. Results

Two hundred and twelve potential studies were identified from the selected databases and after cross-checking references of relevant articles. After removing duplicates, 152 articles were retrieved. Studies were screened and selected on the basis of pre-specified inclusion and exclusion criteria (Fig. 1). The search identified 30 articles that were included in the systematic review.

Fig. 1. Flow diagram of selected articles.

*Search strategy limited to June 2018, English language, human subjects younger than 18 years old, and clinical trial.

3.1. Included studies

The characteristics of included studies are reported in Table 1. Twelve (40%) of the 30 studies were randomized controlled trials (RCTs) of which only one was longer than 6 months in duration. Most studies (n = 19, 63%) were short-term (8 weeks or less), while 4 studies (13%) provided long-term data of 6 months or longer. The smallest study included 6 subjects while the largest considered a sample of 279 subjects. The majority of the studies were conducted in North America (N = 28, 93%). In all the considered studies, diagnosis were based on the Diagnostic and Statistical Manual (DSM) criteria and were established using validated assessment scales (Table 1).

Table 1 Studies that met inclusion criteria for systematic review.

BD: Bipolar disorder; PMDD: Prepubertal major depressive disorder; MDD: Major Depressive Disorder; DBD: Disruptive behavior disorder; SDD: Substance dependency disorders; EUCD: Emotionally Unstable Character Disorder; ADD: Attention Defict Disorder; CD: Conduct disorder; Li+: lithium carbonate; DVPX: divalproex sodium; CBZ: carbamazepine; MPH: Methylphenidate; SGA: Second generation antipsychotic; DSM: Diagnostic and Statistical Manual of Mental Disorders; TEAM: Treatment of Early Age Mania; K-SADS: Kiddie Schedule for Affective Disorders and Schizophrenia; K-SADS-P: Kiddie Schedule for Affective Disorders and Schizophrenia for Psychopatology; K-SADS-E: Kiddie Schedule for Affective Disorders and Schizophrenia for School-Age Children-Epidemiologic Version; K-SADS-PL: Schedule for Affective Disorders and Schizophrenia for School Age Children-Present and Lifetime Version; WASH-U-KSADS: Washington University in St. Louis Kiddie Schedule for Affective Disorders and Schizophrenia; CGI: Clinical Global Impression Scale; CGI-I: Clinical Global Impression-Improvement Scale; CGI-S: Clinical Global Impression-Severity Scale; CGI-BD: Clinical Global Impressions Improvement Scale for Bipolar Disorder; CGI-BP-IM: Clinical Global Impressions for Bipolar Disorder Improvement-Mania; YMRS: Young Mania Rating Scale; CDRS-R: Children’s Depression Rating Scale Revised; CGAS: Children’s Global Assessment Scale; BPRS: Brief Psychiatric Rating Scale; HAM-D: Hamilton Depression Rating Scale; ABC-C: Aberrant Behavior Checklist – Community Edition; VAS: Visual analog scale for behavior; VABS: Vineland Adaptive Behavior Scale; FH-RDC: Family History Research Diagnostic Criteria; SMD: Severe Mood Dysregulation; PANSS: Positive and Negative Syndrome Scale; CPT: Continuous Performance Test; K-PAL: Kinsbourne’s computerized version of the Paired Associated Learning paradigm; ACTeRS: Attention Deficit Disorder-Hyperactivity Comprehensive Teacher Rating Scale; IGRS: Inpatient Global Rating Scale; OAS: Overt Aggression Scale; MAOS: Modified Overt Aggression Scale; CBRS: Conners Bahavior Rating Scale; CTRS: Conners Teacher Rating Scale; RT: Reaction Time Task; CSRS: Conner's Symptom Rating Scale; MFF: Matching Familiar Figures: STRM: Short-term Recognition Memory; CAT: Concept Attainment Task; PANESS: Physical and Neurological Examination for Soft Signs; MPA: Minor Physical Anomalies; WISC-R: Wechsler Intelligence Scale for Children Revised; CPRS: Children’s Psychiatric Rating Scale; CTQ: Conners Teacher Questionnaire; PTQ: Parent Teacher Questionnaire; TORSA: Timed Objective Rating Scale for Aggression; DOTES: Dosage Record and Treatment Emergent Symptoms; GCCR: Global Clinical Consensus Rating; TESS: Treatment Emergent Symptoms Scale; GCJCS: Global Clinical Judgements Consesus Scale; POMS: Profile of Mood States; TSCRS: Teacher’s Self Control Rating Scale; Mini-Kid: Mini International Neuropsychiatric Interview for Children and Adolescents; CGI-BP-IM: Clinical Global Impressions for Bipolar Illness-Improvement Mania Scale; DICA-R: Diagnostic Interview for Children and Adolescents Revised; GAS: Global Assessment Scale (for subjects who were over 16 years of age at follow-up); MSEFCA: Modified Side Effect Form for Children and Adolescent; ALSES: Acute Lithium Side Effects Scale; FH-RDC: Family History Research Diagnostic Criteria; CARS: Children’s Affective Rating Scale; AIMS: Modified Abnormal Involuntary Movement Scale; PSSAC-R: Psychosocial Schedule for School-Age Children Revised; WASI: Wechsler Abbreviated Scales of Intelligence; CDRS-R: Children’s Depression Rating Scale-Revised; RCT: Randomized controlled trial.

3.2. Outcomes

Selected studies included children and adolescents with BD treated with lithium. Both lithium monotherapy and lithium in combination with adjunctive agents were included. Data about starting dose and dosing strategy, brain-to-serum lithium association, safety and tolerability were also reported (Table 2).

Table 2 Efficacy results and side effects of selected studies.

BD: bipolar disorder; EUCD: emotionally unstable character disorder; ADD: attention defict disorder; CD: conduct disorder; ADHD: attention deficit/hyperactivity disorder; SMD: Severe mood dysregulation; SDD: substance dependency disorders; Li+: lithium carbonate; DVPX: divalproex sodium; CBZ: carbamazepine; BDZ: benzodiazepines; AP: Antipsychotics; AD: Antidepressants; MS: Mood stabilizers; MPH: Methylphenidate; NAA: N-acetyl-aspartate; YMRS: Young Mania Rating Scale; CPRS: Children’s Psychiatric Rating Scale; GCJCS: Global Clinical Judgments Consensus Scale; BRMS: Bech–Rafaelsen Mania Scale; ABC-C: Aberrant Behavior Checklist – Community Edition; CGI: Clinical Global Impression Scale; OAS: Overt Aggression Scale; VABS: Vineland Adaptive Behavior Scale; RBANS: Repeatable Battery for the Assessment of Neuropsychological Status; CPT: Continuus Performance Test; K-PAL: Kinsbourne’s computerized version of the Paired Associated Learning paradigm; PSSAC-R: Psychosocial Schedule for School-Age Children Revised; CGAS: Children’s Global Assessment Scale; CDRS-R: Children’s Depression Rating Scale Revised; MTD: maximum tolerated dosage; GI: Gastrointestinal; TSH: thyroid stimulating hormone; SD: standard deviation; RR: response ratio; pts: patients; RT: reaction time; NS: Not specified; Vs.: Versus; EP: evoked potentials; NNT: Number needed to treat; *Related to the use of lithium; RCT: Randomized controlled trial; Differences statistically significant (p < 0.05).

4. Bipolar illness

Thirty studies assessed the use of lithium in children and adolescents with BD (Table 2). The majority of the selected studies (N = 22/30, 73%) were conducted on BD patients treated with lithium monotherapy. Eleven studies (37%) were specific for BD-I patients.

4.1. Lithium monotherapy

4.1.1. Manic or mixed episodes

Three RCTs reported improvements in manic or mixed symptoms and overall functioning in manic BD children and adolescents with lithium treatment [Reference Findling, Kafantaris, Pavuluri, McNamara, McClellan and Frazier14, Reference Findling, Robb, McNamara, Stansbrey and Calabrese20, Reference Landersdorfer, Findling, Frazier, Kafantaris and Kirkpatrick21]. Over 50% of patients met response and remission criteria in one out of three of the cited studies [Reference Findling, Kafantaris, Pavuluri, McNamara, McClellan and Frazier14]. These results were supported by three prospective non-randomized cohort studies [Reference Kafantaris, Dicker, Coletti and Kane18, Reference Kafantaris, Coletti, Dicker, Padula and Kane22, Reference Strober, Morrell, Burroughs, Lampert, Danforth and Freeman23] and one retrospective cohort study [Reference Kafantaris, Coletti, Dicker, Padula and Pollack24]. No significant difference in exacerbation rates between subjects treated with lithium and those switched to placebo was detected in only one RCT with a very short stabilization period (two weeks) [Reference Kafantaris, Coletti, Dicker, Padula, Pleak and Alvir25].

Considering bipolar subgroups, lithium effectiveness for manic symptoms was greater in adolescent-onset compared to prepubertal-onset patients in one study [Reference Strober, Morrell, Burroughs, Lampert, Danforth and Freeman23]. Manic adolescents with comorbid attention deficit hyperactivity disorder (ADHD) showed less robust and slower improvement with lithium compared to non-comorbid patients, both in a randomized and in a non-randomized trial [Reference Vitiello, Riddle, Yenokyan, Axelson, Wagner and Joshi26, Reference Strober, DeAntonio, Schmidt-Lackner, Freeman, Lampert and Diamond27]. In patients with substance abuse and BD, lithium was an effective for both conditions in one RCT [Reference Geller, Cooper, Sun, Zimerman, Frazier and Williams15].

4.1.2. Depressive episodes

A 6-week prospective non-randomized cohort study in BD-I depressed children and adolescents treated with lithium reported response and remission rates of 48% and 30%, respectively, with a large reduction in Children’s Depression Rating Scale-Revised (CDRS-R) scores (standardized effect size Cohen’s d = 1.7) [Reference Patel, DelBello, Bryan, Adler, Kowatch and Stanford28].

4.1.3. Prophylaxis

Three prospective non-randomized cohort studies reported long-term positive response to lithium treatment [Reference DeLong and Aldershof29, Reference Strober, Morrell, Lampert and Burroughs30], especially in those who responded to acute treatment with lithium [Reference Findling, Kafantaris, Pavuluri, McNamara, Frazier and Sikich31].

In a 18-month prospective non-randomized cohort study, 35% (N = 13/37) of patients who discontinued prophylactic lithium therapy showed nearly three times higher relapse rates compared to patients who continued lithium prophylaxis [Reference Strober, Morrell, Lampert and Burroughs30]. Early relapse was associated with a greater risk of future relapse.

In contrast, an Indian prospective non-randomized cohort study found that 64% (N = 16/25) of lithium-treated subjects relapsed after 18 ± 16.4 months (mean total follow-up duration 51.6 ± 4.1 months). The majority of the relapses (72.4%) occurred during prophylactic treatment. 28% (N = 7/25) and 36% (N = 9/25) of relapsing patients had single and multiple relapses respectively, with manic episodes being the most common polarity (N = 14/25, 58%) [Reference Jairam, Srinath, Girimaji and Seshadri32].

4.1.4. Offspring of manic-depressive patients

In a small RCT, 33% (N = 2/6) children, who met DSM-III criteria for BD and were offspring of manic-depressive patients, responded to lithium on both child and parent ratings and showed augmentation of evoked potentials (EPs) similar to what is seen in adults treated with lithium [Reference McKnew, Cytryn, Buchsbaum, Hamovit, Lamour and Rapoport33].

4.1.5. Lithium monotherapy vs. other psychotropic drugs

Five RCTs compared lithium monotherapy to other mood stabilizers or antipsychotics [Reference Findling, McNamara, Youngstrom, Stansbrey, Gracious and Reed34Reference Walkup, Wagner, Miller, Yenokyan, Luby and Joshi38]. In a 18-month RCT, divalproex was not found to be superior to lithium as maintenance treatment in BD youths who had been stabilized on combined lithium plus divalproex for four weeks [Reference Findling, McNamara, Youngstrom, Stansbrey, Gracious and Reed34].

In a prospective non-randomized cohort study, lithium, divalproex, and carbamazepine all showed a large and similar effect size in treatment of acute manic or mixed episodes [Reference Kowatch, Suppes, Carmody, Bucci, Hume and Kromelis36].

Compared to antipsychotics for initial treatment of acute manic or mixed episode in children and adolescents, risperidone was more efficacious than mood stabilizers but had more metabolic side effects [Reference Geller, Luby, Joshi, Wagner, Emslie and Walkup35, Reference Salpekar, Joshi, Axelson, Reinblatt, Yenokyan and Sanyal37]. Also, risperidone was more effective than lithium or divalproex for children with BD-I who were nonresponders or partial responders to another prior antimanic agent [Reference Walkup, Wagner, Miller, Yenokyan, Luby and Joshi38].

4.2. Lithium in combination with adjunctive agents

As in adults, children and adolescents with BD frequently required long-term combination therapy [Reference Kowatch, Sethuraman, Hume, Kromelis and Weinberg39]. Therefore, adherence became important [Reference Drotar, Greenley and Demeter19]. A 6-month prospective non-randomized cohort study demonstrated that lithium or divalproex plus risperidone were equally efficacious and safe for manic and mixed symptoms in pediatric mania [Reference Pavuluri, Henry, Carbray, Sampson, Naylor and Janicak40]. In psychotic mania, one study found that adjunctive antipsychotic medication needed to be maintained longer than 4 weeks in the majority of adolescents [Reference Kafantaris, Coletti, Dicker, Padula and Kane17].

As demonstrated by two prospective non-randomized cohort studies, the combination of lithium and divalproex was effective in treating acute manic and depressive symptoms in juvenile BD and in restabilizing BD patients who had treated with combined lithium plus divalproex sodium but later relapsed with monotherapy of one agent [Reference Findling, McNamara, Gracious, Youngstrom, Stansbrey and Reed41, Reference Findling, McNamara, Stansbrey, Gracious, Whipkey and Demeter42].

5. Starting dose and dosing strategy

In patients with BD-I, two phases in the distribution of lithium was observed, with an initial half-life of 2.4 h and a later half-life of 27 h [Reference Findling, Landersdorfer, Kafantaris, Pavuluri, McNamara and McClellan43]. Multiple dose simulations suggested that a starting dose of 300 mg once daily for those weighing less than 30 kg, and 300 mg twice or three times daily for youths weighing 30 kg or more, appear to be appropriate based on safety margins for trough concentrations. Later trials from the same research group observed a good tolerability of starting dose of 900 mg/day for most subjects [Reference Findling, Kafantaris, Pavuluri, McNamara, McClellan and Frazier14, Reference Findling, Robb, McNamara, Stansbrey and Calabrese20].

6. Brain-to-serum lithium association

A cross-sectional study conducted on BD-I patients showed a positive correlation between serum and brain lithium concentrations, with younger subjects having lower brain-to-serum concentration ratios than adults (0.58, SD = 0.24 vs. 0.92, SD = 0.36) [Reference Moore, Demopulos, Henry, Steingard, Zamvil and Katic44]. According to these results, children and adolescents may need higher maintenance serum lithium concentrations than adults to reach similar brain lithium concentrations.

7. Safety and tolerability

Lithium’s recommended target dose in children and adolescents is 30 mg/kg/day, with 0.6–1.2 mEq/L serum levels [Reference Martin, Charney and Leckman45] even though other authors [Reference Findling, Kafantaris, Pavuluri, McNamara, McClellan and Frazier14, Reference Findling, Robb, McNamara, Stansbrey and Calabrese20] suggest more aggressive dosing, particularly for acute manic or mixed episodes. For instance, the FDA recommends dosing lithium until therapeutic response or a maximal blood level of 1.4 mEq/L is achieved or a dose-limiting side effect is present. Studies in this review tended to be within those guidelines, with 10–30 mg/kg/day dosages range, 0.6–1.5 mEq/L serum levels (Table 1). Most of the selected studies reported side effects in the mild to moderate range, with low dropout rates. No serious adverse events were reported either with lithium monotherapy or in combination with other psychotropic drugs (Table 1). Obviously, close serum level monitoring is required to ensure that lithium is safe and well-tolerated.

The most common side effects of lithium in children and adolescents were gastrointestinal symptoms (including nausea, vomiting, diarrhea, abdominal cramps, stomach pain), tremor, polyuria, polydipsia, and enuresis (Table 1). Only a minority of patients presented hypothyroidism with increased thyroid stimulating hormone [Reference Findling, Robb, McNamara, Stansbrey and Calabrese20] and/or thyroid enlargement [Reference Findling, Kafantaris, Pavuluri, McNamara, McClellan and Frazier14, Reference DeLong and Aldershof29]. Most of the studies report an increase in appetite and weight gain, which is a problem with several other BD agents [Reference Findling and Chang46]. However, this difference was not statistically different from placebo [Reference Findling, Robb, McNamara, Stansbrey and Calabrese20]. No cases of acute kidney injury or chronic kidney disease were reported.

8. Discussion

This study is the first systematic review to look specifically at the use of lithium in children and adolescents with BD. Thirty studies were included. Almost sixty percent of subjects were studied in RCTs (n = 12 studies) that evaluated lithium efficacy in acute manic-mixed episodes, and as a prophylactic agent. Lithium was effective in monotherapy and in combination with antipsychotics for treating acute manic and mixed episodes. Lithium showed a greater response in manic episodes without psychotic symptoms, and in the absence of ADHD comorbidity. Adolescents had a better response than prepubescent children, and prophylactic efficacy was superior to divalproex and proportional to acute response [Reference Findling, Kafantaris, Pavuluri, McNamara, Frazier and Sikich31]. Lithium also was effective in treating BD with secondary substance use disorder.

It is unclear whether lithium is effective in treating bipolar depression in children and adolescents. The only study that evaluated lithium efficacy on bipolar depression in youth [Reference Patel, DelBello, Bryan, Adler, Kowatch and Stanford28] found relatively low response rates that are in line with previous results in depressed children with a family history of BD [Reference Geller, Cooper, Zimerman, Frazier, Williams and Heath16] and in adults [Reference Selle, Schalkwijk, Vazquez and Baldessarini47].

Lithium appears generally safe for use by children and adolescents with only mild-moderate side effects. Its long-term risks also do not appear to be notable, at least as identified so far, and seem consistent with the adult literature. No cases of renal failure were observed in the sample of over 2000 subjects included in this systematic review, but this is probably explained by the short follow-up. In fact, accordingly to the literature, long-term patients (generally after 10–20 years of treatment) have an increased risk to develop impaired renal function due to a slowly progressive chronic interstial nephritis. Hypothyroidism was observed, though only in a minority of patients.

All the RCTs that found a lower efficacy of lithium compared to risperidone [Reference Vitiello, Riddle, Yenokyan, Axelson, Wagner and Joshi26, Reference Geller, Luby, Joshi, Wagner, Emslie and Walkup35, Reference Salpekar, Joshi, Axelson, Reinblatt, Yenokyan and Sanyal37, Reference Walkup, Wagner, Miller, Yenokyan, Luby and Joshi38] were from the Treatment of Early Age Mania Study (TEAM).

8.1. Epidemiological and clinical background of BD in children and adolescents

In the past, with the exception of a few experts, like Kraepelin and Ziehen, bipolar illness in children essentially was not considered a diagnostic possibility until recently. Estimated prevalence in adolescence varies from 1.8% [Reference Van Meter, Moreira and Youngstrom48] to 2.5% [Reference Merikangas, Cui, Kattan, Carlson, Youngstrom and Angst49], being slightly higher in the US than in Europe. In 2011, the World Health Organization listed bipolar spectrum disorder as the fourth leading cause of disability among adolescent ages 15–19 years worldwide [Reference Gore, Bloem, Patton, Ferguson, Joseph and Coffey50]. Annual rates of BD diagnosis [Reference Blader and Carlson51] and related hospitalization [Reference Shapiro, Timmins, Swampillai, Scavone, Collinger and Boulos52] in youth are increasing. Compared to adult-onset BD, children and adolescents experience more symptoms, comorbidities and mood switches and have a poorer prognosis [Reference Baldessarini, Tondo, Vazquez, Undurraga, Bolzani and Yildiz53, Reference Holtzman, Miller, Hooshmand, Wang, Chang and Hill54]. Because BD is a recurrent condition with more than 70% of subjects relapsing by early adulthood [Reference Geller, Tillman, Bolhofner and Zimerman55], it is important to treat prophylactically even in childhood, when it is often misdiagnosed [Reference Baethge, Glovinsky and Baldessarini56] or left untreated [Reference Khazanov, Cui, Merikangas and Angst57].

8.2. Comparison with FDA recommendations and main guidelines

In the paediatric population, lithium is the only mood stabilizer with a US Food and Drug Administration (FDA) indication for acute mania and maintenance treatment of BD and it is licensed for treatment of acute mania in the UK [Reference Giles and Martini58, Reference Goodwin, Haddad, Ferrier, Aronson, Barnes and Cipriani59]. Clinicians still display qualms about lithium [Reference Ko, Swampillai, Timmins, Scavone, Collinger and Goldstein60, Reference Strejilevich, Urtueta-Baamonde, Teitelbaum, Martino, Marengo and Igoa61], with BD children and adolescents receiving complex treatment regimens, often involving multiple psychotropic drugs; only 2% receive lithium monotherapy [Reference Dusetzina, Weinberger, Gaynes, Farley, Sleath and Hansen62].

Effective treatments in BD youths are still withheld or underused. More than one third of children with BD receive two or more medications belonging to different classes (i.e. mood stabilizers, antipsychotics, antidepressants or stimulants) feeding the problem of off-label prescriptions [Reference Sharma, Arango, Coghill, Gringras, Nutt and Pratt63].

The US FDA also has approved risperidone, aripiprazole, quetiapine, olanzapine, olanzapine in association with fluoxetine, lurasidone and asenapine for the treatment of BD in youth; the higher efficacy of risperidone above lithium in the two trials available might have been driven by the high comorbidity rates in the study populations, or it may reflect more rapid acute onset of effect [Reference Giles and Martini58]. Aripiprazole, the only antipsychotic licensed in the UK for paediatric BD, is comparable in efficacy to traditional mood stabilizers [Reference Meduri, Gregoraci, Baglivo, Balestrieri, Isola and Brambilla64].

8.3. Tolerability

Many second-generation antipsychotics are associated with a greater burden of metabolic side effects that, along with the recent warning about the use of antipsychotic in children and adolescents, could argue in favour of mood stabilizers [Reference Correll, Detraux, De Lepeleire and De Hert65Reference Samaras, Correll, Mitchell and De Hert67]. In fact, lithium side effects (e.g. nausea, hand tremor, thirst and polyuria, diarrhoea) are dose-dependent and, although relatively frequent [Reference Licht, Vestergaard, Kessing, Larsen and Thomsen68], are only mild-moderate in effect size. Cognitive effects also need to be considered, with a recent study finding impairment in executive control in adolescents treated with lithium [Reference Lera-Miguel, Andres-Perpina, Fatjo-Vilas, Fañanás and Lázaro69]; another prior study did not find such cognitive impairment though [Reference Muralidharan, Kozicky, Bucker, Silveira, Torres and Yatham70]. Lithium treatment in adolescents is associated with an increase in blood TSH levels in up to 25% of the subjects [Reference Amitai, Zivony, Kronenberg, Nagar, Saar and Sever71]. In this systematic review, only one subject had clinically significant thyroid impairment.

It also is important to note that no cases of acute kidney injury or chronic kidney disease were observed. Still, serial monitoring of renal and thyroid functioning is recommended [Reference Amitai, Zivony, Kronenberg, Nagar, Saar and Sever71, Reference Scahill, Farkas and Hamrin72].

In sum, special concern about the use of lithium in children and adolescents, at least on safety grounds, seems unwarranted based on this systematic review.

9. Limitations

The main limitation of this systematic review is linked to the characteristics of the selected studies, such as brevity of follow-up periods, small sample sizes, and analysis strategies (Table 1). Small sample sizes and enrolment of subjects mainly from US sites (almost 94%) may limit generalizability. Potential confounding factors in these studies include demographic and historical illness variables in non-randomized trials, which often were not appropriately analysed through multivariate modelling. The inclusion of only BD studies might limit the results regarding lithium tolerability in children and adolescents [Reference Campbell, Silva, Kafantaris, Locascio, Gonzalez and Lee11, Reference Malone, Delaney, Luebbert, Cater and Campbell12].

The main strength of this systematic review is linked to the inclusion of 12 RCTs (Table 1), which would limit the effect of confounding variables Further, this review was systematic, including the entire scientific evidence published so far. Also, diagnoses were consistently based on DSM criteria and were established by trained investigators using validated assessment scales mainly with interrater reliability. This is particularly relevant because one of the main features of BD is mood instability and it is easy to attribute mood swings to the behavioural vicissitudes of adolescence or to psychosocial changes [Reference Harrison, Cipriani, Harmer, Nobre, Saunders and Goodwin73]. Moreover the comorbidity rate in BD in youth is more than 80% [Reference Birmaher, Axelson, Goldstein, Strober, Gill and Hunt74Reference Kowatch, Youngstrom, Danielyan and Findling76], with up to 50% for anxiety disorders [Reference Frias, Palma and Farriols77]. Thus, in mild cases, adjustment disorders are frequently diagnosed [Reference Kessing, Vradi, McIntyre and Andersen78]. The debate about the possibility of broadening the diagnosis of BD in youth to a larger spectrum remains open [Reference Birmaher, Gill, Axelson, Goldstein, Goldstein and Yu79]. Future studies should better define this diagnostic spectrum in order to allow better study of drug efficacy.

10. Clinical implications

The results of this systematic review, showing efficacy and safety of lithium in children with BD, are in line with clinical recommendations in literature. According to guidelines for children and adolescents with BD [Reference McClellan, Kowatch and Findling80, Reference Kowatch, Fristad, Birmaher, Wagner, Findling and Hellander75, Reference Kowatch, Youngstrom, Danielyan and Findling76], lithium is considered a first line treatment and can be prescribed in monotherapy for up to 8 weeks, if there are no psychotic features. If there are psychotic features, treatment combining a mood stabilizer and an antipsychotic is recommended.

Lithium should be considered if there is a comorbid substance use disorder, which has high frequency in this population and portends poor prognosis [Reference Dickstein, Towbin, Van Der Veen, Rich, Brotman and Knopf10].

Overall, these results in children somehow overlap with those in adults which find efficacy with lithium [Reference Miura, Noma, Furukawa, Mitsuyasu, Tanaka and Stockton81, Reference Lähteenvuo, Tanskanen, Taipale, Hoti, Vattulainen and Vieta82], benefit with lithium in preventing suicide [Reference Cipriani, Hawton, Stockton and Geddes83], and general tolerability of lithium [Reference McKnight, Adida, Budge, Stockton, Goodwin and Geddes5]. Similarly, when accounting for body size, the pharmacokinetic parameters in paediatric patients were within the range of estimates from adults [Reference Landersdorfer, Findling, Frazier, Kafantaris and Kirkpatrick21]. As in adults [Reference Biel, Peselow, Mulcare, Case and Fieve84], lithium discontinuation in BD after successful maintenance monotherapy is not advisable.

Moreover, children who are treated with lithium are less likely to show mood instability, impulsivity and self-injurious behaviour, identity confusion, and interpersonal problems [Reference Ko, Swampillai, Timmins, Scavone, Collinger and Goldstein60], all of which are poor prognostic factors [Reference Miklowitz85].

To date, the field of child and adolescent psychiatry lacks validated prophylactic therapy for depressive and bipolar illness, and little is known about the benefit-cost ratio of long-term treatment with lithium. Progress in this area would serve to shed light on the best balance between efficacy and side effects in clinical settings. Future research efforts may lead to more grounded guidelines, which are greatly needed in child and adolescent psychiatry.

Contributors

Authors AA, AO, JC, MT, CM and SNG designed the study and wrote the protocol. Studies were identified and independently reviewed for eligibility by two authors (AA, FS) in a two-step based process. Data were extracted by two authors (AA, FS) and supervised by a third author (SNG) using an ad-hoc developed data extraction spreadsheet. Authors AA, PO, AO, MA, AC and SNG wrote the first draft of the manuscript. Our manuscript has been approved by all authors.

Funding

This research received no specific grant from any funding agency in the public, commercial or not-for-profit sectors.

Competing interests

Dr. Amerio, Dr. Ossola, Dr. Scagnelli, Dr. Odone, Dr. Allinovi, Dr. Cavalli, Dr. Iacopelli, Dr. Tonna, and Dr. Marchesi report no conflicts of interest. Dr. Ghaemi has provided research consulting to Sunovion in the past year, and is employed by Novartis Institutes for Biomedical Research. Neither he nor his family hold equity positions in pharmaceutical corporations.

Acknowledgements

The authors would like to thank Luigi Rolli for his help and support.

Appendix A. Supplementary data

Supplementary material related to this article can be found, in the online version, at doi: https://doi.org/10.1016/j.eurpsy.2018.07.012.

References

Goldstein, BIBirmaher, BCarlson, GADelBello, MPFindling, RLFristad, M et al. The International Society for Bipolar Disorders Task Force report on pediatric bipolar disorder: knowledge to date and directions for future research. Bipolar Disord 2017; 19:524543.CrossRefGoogle ScholarPubMed
Singh, MKKetter, TChang, KDDistinguishing bipolar disorder from other psychiatric disorders in children. Curr Psychiatry Rep 2014; 16:516.CrossRefGoogle ScholarPubMed
Schneider, CTaylor, DZalsman, GFrangou, SKyriakopoulos, MAntipsychotics use in children and adolescents: an on-going challenge in clinical practice. J Psychopharmacol 2014; 28:615623.CrossRefGoogle ScholarPubMed
Findling, RLSafety and tolerability of bipolar disorder treatment in youth. J Clin Psychiatry 2009; 70:e44.CrossRefGoogle ScholarPubMed
McKnight, RFAdida, MBudge, KStockton, SGoodwin, GMGeddes, JRLithium toxicity profile: a systematic review and meta-analysis. Lancet 2012; 379:721728.CrossRefGoogle ScholarPubMed
Amerio, AGalvéz, JFOdone, ADalley, SAGhaemi, SNCarcinogenicity of psychotropic drugs: a systematic review of FDA-required preclinical in vivo studies. Aust N Z J Psychiatry 2015; 49:686696.CrossRefGoogle Scholar
Marchesi, COssola, PAmerio, ADaniel, BDTonna, MDe Panfilis, CClinical management of perinatal anxiety disorders: a systematic review. J Affect Disord 2015; 190:543550.CrossRefGoogle ScholarPubMed
Higgins, JGreen, SCochrane handbook for systematic reviews of interventions, version 5.1.0. 2011, The Cochrane Collaboration.Google Scholar
Liberati, AAltman, DGTetzlaff, JMulrow, CGøtzsche, PCIoannidis, JP et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate healthcare interventions: explanation and elaboration. BMJ 2009; 339:b2700.CrossRefGoogle ScholarPubMed
Dickstein, DPTowbin, KEVan Der Veen, JWRich, BABrotman, MAKnopf, L et al. Randomized double-blind placebo-controlled trial of lithium in youths with severe mood dysregulation. J Child Adolesc Psychopharmacol 2009; 19:6173.CrossRefGoogle ScholarPubMed
Campbell, MSilva, RRKafantaris, VLocascio, JJGonzalez, NMLee, D et al. Predictors of side effects associated with lithium administration in children. Psychopharmacol Bull 1991;27(3):373380.Google ScholarPubMed
Malone, RPDelaney, MALuebbert, JFCater, JCampbell, MA double-blind placebo-controlled study of lithium in hospitalized aggressive children and adolescents with conduct disorder. Arch Gen Psychiatry 2000; 57:649654.CrossRefGoogle ScholarPubMed
Erwin, CWGerber, CJMorrison, SDJames, JFLithium carbonate and convulsive disorders. Arch Gen Psychiatry 1973; 28:646648.CrossRefGoogle ScholarPubMed
Findling, RLKafantaris, VPavuluri, MMcNamara, NKMcClellan, JFrazier, JA et al. Dosing strategies for lithium monotherapy in children and adolescents with bipolar I disorder. J Child Adolesc Psychopharmacol 2011; 21:195205.CrossRefGoogle ScholarPubMed
Geller, BCooper, TBSun, KZimerman, BFrazier, JWilliams, M et al. Double-blind and placebo-controlled study of lithium for adolescent bipolar disorders with secondary substance dependency. J Am Acad Child Adolesc Psychiatry 1998; 37:171178.CrossRefGoogle ScholarPubMed
Geller, BCooper, TBZimerman, BFrazier, JWilliams, MHeath, J et al. Lithium for prepubertal depressed children with family history predictors of future bipolarity: a double-blind, placebo-controlled study. J Affect Disord 1998; 51:165175.CrossRefGoogle ScholarPubMed
Kafantaris, VColetti, DJDicker, RPadula, GKane, JMAdjunctive antipsychotic treatment of adolescents with bipolar psychosis. J Am Acad Child Adolesc Psychiatry 2001; 40:14481456.CrossRefGoogle ScholarPubMed
Kafantaris, VDicker, RColetti, DJKane, JMAdjunctive antipsychotic treatment is necessary for adolescents with psychotic mania. J Child Adolesc Psychopharmacol 2001; 11:409413.CrossRefGoogle ScholarPubMed
Drotar, DGreenley, RNDemeter, CA et al. Adherence to pharmacological treatment for juvenile bipolar disorder. J Am Acad Child Adolesc Psychiatry 2007; 46:831839.CrossRefGoogle ScholarPubMed
Findling, RLRobb, AMcNamara, NKStansbrey, RJCalabrese, JR et al. Lithium in the acute treatment of bipolar I disorder: a double-blind, placebo-controlled study. Pediatrics 2015; 136:885894.CrossRefGoogle ScholarPubMed
Landersdorfer, CBFindling, RLFrazier, JAKafantaris, VKirkpatrick, CMLithium in paediatric patients with bipolar disorder: implications for selection of dosage regimens via population Pharmacokinetics/Pharmacodynamics. Clin Pharmacokinet 2017; 56:7790.CrossRefGoogle ScholarPubMed
Kafantaris, VColetti, DDicker, RPadula, GKane, JMLithium treatment of acute mania in adolescents: a large open trial. J Am Acad Child Adolesc Psychiatry 2003; 42:10381045.CrossRefGoogle ScholarPubMed
Strober, MMorrell, WBurroughs, JLampert, CDanforth, HFreeman, RA family study of bipolar I disorder in adolescence. Early onset of symptoms linked to increased familial loading and lithium resistance. J Affect Disord 1988; 15:255268.CrossRefGoogle ScholarPubMed
Kafantaris, VColetti, DJDicker, RPadula, GPollack, SAre childhood psychiatric histories of bipolar adolescents associated with family history, psychosis, and response to lithium treatment?. J Affect Disord 1998; 51:153164.CrossRefGoogle ScholarPubMed
Kafantaris, VColetti, DJDicker, RPadula, GPleak, PRAlvir, JMLithium treatment of acute mania in adolescents: a placebo-controlled discontinuation study. J Am Acad Child Adolesc Psychiatry 2004; 43:984993.CrossRefGoogle ScholarPubMed
Vitiello, BRiddle, MAYenokyan, GAxelson, DAWagner, KDJoshi, P et al. Treatment moderators and predictors of outcome in the Treatment of Early Age Mania (TEAM) study. J Am Acad Child Adolesc Psychiatry 2012; 51:867878.CrossRefGoogle ScholarPubMed
Strober, MDeAntonio, MSchmidt-Lackner, SFreeman, RLampert, CCDiamond, JEarly childhood attention deficit hyperactivity disorder predicts poorer response to acute lithium therapy in adolescent mania. J Affect Disord 1998; 51:145151.CrossRefGoogle ScholarPubMed
Patel, NCDelBello, MPBryan, HSAdler, CMKowatch, RAStanford, K et al. Open-label lithium for the treatment of adolescents with bipolar depression. J Am Acad Child Adolesc Psychiatry 2006; 45:289297.CrossRefGoogle ScholarPubMed
DeLong, GRAldershof, ALLong-term experience with lithium treatment in childhood: correlation with clinical diagnosis. J Am Acad Child Adolesc Psychiatry 1987; 26:389394.CrossRefGoogle ScholarPubMed
Strober, MMorrell, WLampert, CBurroughs, JRelapse following discontinuation of lithium maintenance therapy in adolescents with bipolar I illness: a naturalistic study. Am J Psychiatry 1990; 147:457461.Google ScholarPubMed
Findling, RLKafantaris, VPavuluri, MMcNamara, NKFrazier, JASikich, L et al. Post-acute effectiveness of lithium in pediatric bipolar I disorder. J Child Adolesc Psychopharmacol 2013; 23:8090.CrossRefGoogle ScholarPubMed
Jairam, RSrinath, SGirimaji, SCSeshadri, SPA prospective 4-5 year follow-up of juvenile onset bipolar disorder. Bipolar Disord 2004; 6:386394.CrossRefGoogle ScholarPubMed
McKnew, DHCytryn, LBuchsbaum, MSHamovit, JLamour, MRapoport, JL et al. Lithium in children of lithium-responding parents. Psychiatry Res 1981; 4:171180.CrossRefGoogle ScholarPubMed
Findling, RLMcNamara, NKYoungstrom, EAStansbrey, RGracious, BLReed, MD et al. Double-blind 18-month trial of lithium versus divalproex maintenance treatment in pediatric bipolar disorder. J Am Acad Child Adolesc Psychiatry 2005; 44:409417.CrossRefGoogle ScholarPubMed
Geller, BLuby, JLJoshi, PWagner, KDEmslie, GWalkup, JT et al. A randomized controlled trial of risperidone, lithium, or divalproex sodium for initial treatment of bipolar I disorder, manic or mixed phase, in children and adolescents. Arch Gen Psychiatry 2012; 69:515528.CrossRefGoogle ScholarPubMed
Kowatch, RASuppes, TCarmody, TJBucci, JPHume, JHKromelis, M et al. Effect size of lithium, divalproex sodium, and carbamazepine in children and adolescents with bipolar disorder. J Am Acad Child Adolesc Psychiatry 2000; 39:713720.CrossRefGoogle ScholarPubMed
Salpekar, JAJoshi, PTAxelson, DAReinblatt, SPYenokyan, GSanyal, A et al. Depression and suicidality outcomes in the treatment of early age mania study. J Am Acad Child Adolesc Psychiatry 2015; 54:9991007e1004.CrossRefGoogle ScholarPubMed
Walkup, JTWagner, KDMiller, LYenokyan, GLuby, JLJoshi, PT et al. Treatment of early-age mania: outcomes for partial and nonresponders to initial treatment. J Am Acad Child Adolesc Psychiatry 2015; 54:10081019.CrossRefGoogle ScholarPubMed
Kowatch, RASethuraman, GHume, JHKromelis, MWeinberg, WACombination pharmacotherapy in children and adolescents with bipolar disorder. Biol Psychiatry 2003; 53:978984.CrossRefGoogle ScholarPubMed
Pavuluri, MNHenry, DBCarbray, JASampson, GNaylor, NWJanicak, PGOpen-label prospective trial of risperidone in combination with lithium or divalproex sodium in pediatric mania. J Affect Disord 82(Suppl. 1)2004; S103111.CrossRefGoogle ScholarPubMed
Findling, RLMcNamara, NKGracious, BLYoungstrom, EAStansbrey, RJReed, MD et al. Combination lithium and divalproex sodium in pediatric bipolarity. J Am Acad Child Adolesc Psychiatry 2003; 42:895901.CrossRefGoogle ScholarPubMed
Findling, RLMcNamara, NKStansbrey, RGracious, BLWhipkey, REDemeter, CA et al. Combination lithium and divalproex sodium in pediatric bipolar symptom re-stabilization. J Am Acad Child Adolesc Psychiatry 2006; 45:142148.CrossRefGoogle ScholarPubMed
Findling, RLLandersdorfer, CBKafantaris, VPavuluri, MMcNamara, NKMcClellan, J et al. First-dose pharmacokinetics of lithium carbonate in children and adolescents. J Clin Psychopharmacol 2010; 30:404410.CrossRefGoogle ScholarPubMed
Moore, CMDemopulos, CMHenry, MESteingard, RJZamvil, LKatic, A et al. Brain-to-serum lithium ratio and age: an in vivo magnetic resonance spectroscopy study. Am J Psychiatry 2002; 159:12401242.CrossRefGoogle ScholarPubMed
Martin, ASLCharney, DSLeckman, JFPediatric psychopharmacology: principles and practice 2003, Oxford University Press New York.Google Scholar
Findling, RLChang, KDImproving the diagnosis and treatment of pediatric bipolar disorder. J Clin Psychiatry 2018; 79:6269.CrossRefGoogle ScholarPubMed
Selle, VSchalkwijk, SVazquez, GHBaldessarini, RJTreatments for acute bipolar depression: meta-analyses of placebo-controlled, monotherapy trials of anticonvulsants, lithium and antipsychotics. Pharmacopsychiatry 2014; 47:4352.Google ScholarPubMed
Van Meter, ARMoreira, ALYoungstrom, EAMeta-analysis of epidemiologic studies of pediatric bipolar disorder. J Clin Psychiatry 2011; 72:12501256.CrossRefGoogle ScholarPubMed
Merikangas, KRCui, LKattan, GCarlson, GAYoungstrom, EAAngst, JMania with and without depression in a community sample of US adolescents. Arch Gen Psychiatry 2012; 69:943951.CrossRefGoogle Scholar
Gore, FMBloem, PJPatton, GCFerguson, JJoseph, VCoffey, C et al. Global burden of disease in young people aged 10-24 years: a systematic analysis. Lancet 2011; 377:20932102.CrossRefGoogle ScholarPubMed
Blader, JCCarlson, GAIncreased rates of bipolar disorder diagnoses among U.S. child, adolescent, and adult inpatients, 1996-2004. Biol Psychiatry 2007; 62:107114.CrossRefGoogle ScholarPubMed
Shapiro, JTimmins, VSwampillai, BScavone, ACollinger, KBoulos, C et al. Correlates of psychiatric hospitalization in a clinical sample of Canadian adolescents with bipolar disorder. Compr Psychiatry 2014; 55:18551861.CrossRefGoogle Scholar
Baldessarini, RJTondo, LVazquez, GHUndurraga, JBolzani, LYildiz, A et al. Age at onset versus family history and clinical outcomes in 1, 665 international bipolar-I disorder patients. World Psychiatry 2012; 11:4046.CrossRefGoogle ScholarPubMed
Holtzman, JNMiller, SHooshmand, FWang, PWChang, KDHill, SJ et al. Childhood-compared to adolescent-onset bipolar disorder has more statistically significant clinical correlates. J Affect Disord 2015; 179:114120.CrossRefGoogle ScholarPubMed
Geller, BTillman, RBolhofner, KZimerman, BChild bipolar I disorder: prospective continuity with adult bipolar I disorder; characteristics of second and third episodes; predictors of 8-year outcome. Arch Gen Psychiatry 2008; 65:11251133.CrossRefGoogle ScholarPubMed
Baethge, CGlovinsky, IBaldessarini, RJManic-depressive illness in children: an early twentieth-century view by Theodor Ziehen (1862-1950). Introduction. Hist Psychiatry 2004; 15:201226.CrossRefGoogle ScholarPubMed
Khazanov, GKCui, LMerikangas, KRAngst, JTreatment patterns of youth with bipolar disorder: results from the National Comorbidity Survey-Adolescent Supplement (NCS-A). J Abnorm Child Psychol 2015; 43:391400.CrossRefGoogle Scholar
Giles, LLMartini, DRChallenges and promises of pediatric psychopharmacology. Acad Pediatr 2016; 16:508518.CrossRefGoogle ScholarPubMed
Goodwin, GMHaddad, PMFerrier, INAronson, JKBarnes, TCipriani, A et al. Evidence-based guidelines for treating bipolar disorder: revised third edition recommendations from the British Association for Psychopharmacology. J Psychopharmacol 2016; 30:495553.CrossRefGoogle ScholarPubMed
Ko, ASwampillai, BTimmins, VScavone, ACollinger, KGoldstein, BIClinical characteristics associated with lithium use among adolescents with bipolar disorder. J Child Adolesc Psychopharmacol 2014; 24:382389.CrossRefGoogle ScholarPubMed
Strejilevich, SAUrtueta-Baamonde, MTeitelbaum, JMartino, DJMarengo, EIgoa, A et al. [Clinical concepts associated with lithium underutilization in the treatment of bipolar disorder]. Vertex 2011; 22:Suppl: 3-20.Google Scholar
Dusetzina, SBWeinberger, MGaynes, BNFarley, JFSleath, BHansen, RAPrevalence of bipolar disorder diagnoses and psychotropic drug therapy among privately insured children and adolescents. Pharmacotherapy 2012; 32:10851094.CrossRefGoogle ScholarPubMed
Sharma, ANArango, CCoghill, DGringras, PNutt, DJPratt, P et al. BAP Position Statement: off-label prescribing of psychotropic medication to children and adolescents. J Psychopharmacol 2016; 30:416421.CrossRefGoogle ScholarPubMed
Meduri, MGregoraci, GBaglivo, VBalestrieri, MIsola, MBrambilla, PA meta-analysis of efficacy and safety of aripiprazole in adult and pediatric bipolar disorder in randomized controlled trials and observational studies. J Affect Disord 2016; 191:187208.CrossRefGoogle ScholarPubMed
Correll, CUDetraux, JDe Lepeleire, JDe Hert, MEffects of antipsychotics, antidepressants and mood stabilizers on risk for physical diseases in people with schizophrenia, depression and bipolar disorder. World Psychiatry 2015; 14:119136.CrossRefGoogle ScholarPubMed
DelBello, MPCorrell, CUPrimum non nocere: balancing the risks and benefits of prescribing psychotropic medications for youth with bipolar disorder. Bipolar Disord 2010; 12:113115.CrossRefGoogle ScholarPubMed
Samaras, KCorrell, CUMitchell, AJDe Hert, MDiabetes risk potentially underestimated in youth and children receiving antipsychotics. JAMA Psychiatry 2014; 71:209210.CrossRefGoogle ScholarPubMed
Licht, RWVestergaard, PKessing, LVLarsen, JKThomsen, PHPsychopharmacological treatment with lithium and antiepileptic drugs: suggested guidelines from the Danish Psychiatric Association and the Child and Adolescent Psychiatric Association in Denmark. Acta Psychiatr Scand Suppl 2003; 122.CrossRefGoogle ScholarPubMed
Lera-Miguel, SAndres-Perpina, SFatjo-Vilas, MFañanás, LLázaro, LTwo-year follow-up of treated adolescents with early-onset bipolar disorder: changes in neurocognition. J Affect Disord 2015; 172:4854.CrossRefGoogle ScholarPubMed
Muralidharan, KKozicky, JMBucker, JSilveira, LETorres, IJYatham, LNAre cognitive deficits similar in remitted early bipolar I disorder patients treated with lithium or valproate? Data from the STOP-EM study. Eur Neuropsychopharmacol 2015; 25:223230.CrossRefGoogle ScholarPubMed
Amitai, MZivony, AKronenberg, SNagar, LSaar, SSever, J et al. Short-term effects of lithium on white blood cell counts and on levels of serum thyroid-stimulating hormone and creatinine in adolescent inpatients: a retrospective naturalistic study. J Child Adolesc Psychopharmacol 2014; 24:494500.CrossRefGoogle ScholarPubMed
Scahill, LFarkas, LHamrin, VLithium in children and adolescents. J Child Adolesc Psychiatr Nurs 2001; 14:8993.CrossRefGoogle ScholarPubMed
Harrison, PJCipriani, AHarmer, CJNobre, ACSaunders, KGoodwin, GM et al. Innovative approaches to bipolar disorder and its treatment. Ann N Y Acad Sci 2016; 1366:7689.CrossRefGoogle ScholarPubMed
Birmaher, BAxelson, DGoldstein, BStrober, MGill, MKHunt, J et al. Four-year longitudinal course of children and adolescents with bipolar spectrum disorders: the course and outcome of bipolar youth (COBY) study. Am J Psychiatry 2009; 166:795804.CrossRefGoogle ScholarPubMed
Kowatch, RAFristad, MBirmaher, BWagner, KDFindling, RLHellander, MTreatment guidelines for children and adolescents with bipolar disorder. J Am Acad Child Adolesc Psychiatry 2005; 44:213235.CrossRefGoogle ScholarPubMed
Kowatch, RAYoungstrom, EADanielyan, AFindling, RLReview and meta-analysis of the phenomenology and clinical characteristics of mania in children and adolescents. Bipolar Disord 2005; 7:483496.CrossRefGoogle ScholarPubMed
Frias, APalma, CFarriols, NComorbidity in pediatric bipolar disorder: prevalence, clinical impact, etiology and treatment. J Affect Disord 2015; 174:378389.CrossRefGoogle ScholarPubMed
Kessing, LVVradi, EMcIntyre, RSAndersen, PKCauses of decreased life expectancy over the life span in bipolar disorder. J Affect Disord 2015; 180:142147.CrossRefGoogle ScholarPubMed
Birmaher, BGill, MKAxelson, DAGoldstein, BIGoldstein, TRYu, H et al. Longitudinal trajectories and associated baseline predictors in youths with bipolar spectrum disorders. Am J Psychiatry 2014; 171:990999.CrossRefGoogle ScholarPubMed
McClellan, JKowatch, RFindling, RLPractice parameter for the assessment and treatment of children and adolescents with bipolar disorder. J Am Acad Child Adolesc Psychiatry 2007; 46:107125.CrossRefGoogle ScholarPubMed
Miura, TNoma, HFurukawa, TAMitsuyasu, HTanaka, SStockton, S et al. Comparative efficacy and tolerability of pharmacological treatments in the maintenance treatment of bipolar disorder: a systematic review and network meta-analysis. Lancet Psychiatry 2014; 1:351359.CrossRefGoogle ScholarPubMed
Lähteenvuo, MTanskanen, ATaipale, HHoti, FVattulainen, PVieta, E et al. Real-world effectiveness of pharmacologic treatments for the prevention of rehospitalization in a finnish nationwide cohort of patients with bipolar disorder. JAMA Psychiatry 2018; 75:347355.CrossRefGoogle Scholar
Cipriani, AHawton, KStockton, SGeddes, JRLithium in the prevention of suicide in mood disorders: updated systematic review and meta-analysis. BMJ 2013; 346:f3646.CrossRefGoogle ScholarPubMed
Biel, MGPeselow, EMulcare, LCase, BGFieve, RContinuation versus discontinuation of lithium in recurrent bipolar illness: a naturalistic study. Bipolar Disord 2007; 9:435442.CrossRefGoogle ScholarPubMed
Miklowitz, DJFunctional impairment, stress, and psychosocial intervention in bipolar disorder. Curr Psychiatry Rep 2011; 13:504512.CrossRefGoogle ScholarPubMed
Figure 0

Fig. 1. Flow diagram of selected articles.*Search strategy limited to June 2018, English language, human subjects younger than 18 years old, and clinical trial.

Figure 1

Table 1 Studies that met inclusion criteria for systematic review.

Figure 2

Table 2 Efficacy results and side effects of selected studies.

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