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Long-term clinical effectiveness of lithium maintenance treatment in types I and II bipolar disorders

Published online by Cambridge University Press:  02 January 2018

Leonardo Tondo*
Affiliation:
Department of Psychology, University of Cagliari, Sardinia, Italy and McLean Hospital, Department of Psychiatry, Harvard Medical School, Boston, USA
Ross J. Baldessarini
Affiliation:
International Consortium for Bipolar Disorders Research, Bipolar and Psychotic Disorders Program, McLean Division of Massachusetts General Hospital, Belmont, Massachusetts, and Consolidated Department of Psychiatry Harvard Medical School, Boston, Massachusetts, USA
Gianfranco Floris
Affiliation:
Centro Lucio Bini, Cagliari, and Department of Psychology, University of Cagliari, Sardinia
*
Dr Leonardo Tondo, Centro Lucio Bini, 28 Via Cavalcanti, 09128 Cagliari, Italy. Tel: +39 070 486 624; fax: +39 070 496 354; e-mail: [email protected]
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Abstract

Background

The effectiveness of lithium is being questioned increasingly and requires clarification.

Aims

To assess the effectiveness of lithium treatment in depression and mania, syndromal types I and II, with predominantly mixed or psychotic episodes or rapid cycling, during treatment resumed following discontinuation, and across three decades.

Method

The longitudinal course of 360 patients with bipolar disorder compliant with lithium treatment for at least 1 year and without comorbidity for substance use disorder was reviewed.

Results

Risk of single-episode recurrences, a common index of treatment failure, was similar to that in other reports. Both episode frequency and ‘time ill’ improved more in type II than type I cases. Reduced morbidity during treatment was similar in patients with mixed or psychotic episodes, or rapid cycling, and in less complex cases. Retreatment yielded minor decrements in response, and there was no tendency for lesser responses in more recent years.

Conclusions

Based on overall affective morbidity, long-term lithium treatment in compliant patients without comorbid substance use disorder, though imperfect, remains effective, even in subgroups of supposedly poor prognosis.

Type
Papers
Copyright
Copyright © 2001 The Royal College of Psychiatrists 

Lithium opened the modern era of psychopharmacology, following rediscovery of its antimanic effects by John Cade 50 years ago (Reference HammondHammond, 1871; Reference CadeCade, 1949; Reference Baldessarini, Hardman, Limbird and MolinoffBaldessarini, 1996). Its slowness of onset and limited tolerability when administered aggressively limit its usefulness in the treatment of acute mania. However, since the 1960s, lithium has proved its clinical value for preventing or modifying recurrences of both mania and depression in bipolar manic—depressive disorders. The effectiveness of long-term treatment with lithium to prevent recurrences in manic—depressive disorder is supported by many open studies, and at least 10 controlled, double-blind studies (Reference Goodwin and JamisonGoodwin & Jamison, 1990; Reference Alastair and WoodAlastair & Wood, 1994; Reference Price and HeningerPrice & Heninger, 1994; Reference Baldessarini, Tondo, Suppes, Shulman, Tohen and KutcherBaldessarini et al, 1996). This evidence far exceeds the available support for possible alternatives to lithium treatment, including recently emerging empirical applications of anticonvulsant, antipsychotic or sedative agents. Several of these alternatives have proven, or probable, antimanic activity, but their long-term mood-stabilising effectiveness remains largely untested (Reference Ahlfors, Baastrup and DenckerAhlfors et al, 1981; Reference Watkins, Callender and ThomasWatkins et al, 1987; Reference Prien and PotterPrien & Potter, 1990; American Psychiatric Association, 1994a ; Reference Price and HeningerPrice & Heninger, 1994; Reference Baldessarini, Hardman, Limbird and MolinoffBaldessarini, 1996; Reference Baldessarini, Tondo, Suppes, Shulman, Tohen and KutcherBaldessarini et al, 1996). Moreover, only lithium has substantial evidence of long-term reduction of suicide risk (Reference Tondo, Baldessarini and HennenTondo et al, 1998a ; Reference Baldessarini and JamisonBaldessarini & Jamison, 1999; Tondo & Baldessarini, 2001). Increased off-label use of alternatives to lithium may be encouraged by reports emphasising poor outcome in some patients treated with lithium, although the superiority of alternative treatments for such patients also remains unproven. Many of the negative reports about lithium arise from clinical samples from specialised referral centres that may overrepresent diagnostically atypical, comorbid and otherwise complex patients unlikely to respond well to any treatment, or may reflect sub-optimal care encountered within ordinary clinical conditions (Reference Dunner and FieveDunner & Fieve, 1974; Reference Dickson and KendellDickson & Kendell, 1986; Reference Page, Beniam and LappinPage et al, 1987; Maj et al, Reference Maj, Pirozzi and Starace1989, Reference Maj, Pirozzi and Magliano1998; Reference Marker and ManderMarkar & Mander, 1989; Reference Harrow, Goldberg and GrossmanHarrow et al, 1990; Reference Tohen, Waternaux and TsuangTohen et al, 1990; Reference O'Connell, Mayo and FlatowO'Connell et al, 1991; Reference Keller, Lavori and CoryellKeller et al, 1993; Reference Guscott and TaylorGuscott & Taylor, 1994; Reference Peselow, Fieve and DifigliaPeselow et al, 1994; Reference Sachs, Lafer and TrumanSachs et al, 1994; Reference Gitlin, Swendsen and HellerGitlin et al, 1995; Goldberg et al, Reference Goldberg, Harrow and Grossman1995, Reference Goldberg, Harrow and Leon1996; Reference Winokur, Coryell and AkiskalWinokur et al, 1995; Reference Gitlin and AltshulerGitlin & Altshuler, 1997; Reference GrofGrof, 1998).

Given the recent questioning as to whether lithium remains an effective option in the long-term treatment of bipolar manic—depressive disorder, we reviewed three decades of clinical experience at a private, university-affiliated research clinic that has not selected for complex, atypical or treatment-resistant cases. In response to the literature cited above, we specifically addressed the hypotheses that lithium is more effective:

  1. (a) in bipolar type II than in type I disorder;

  2. (b) in mania than in bipolar depression;

  3. (c) in patients without psychotic features, dysphoric-mixed episodes or rapid cycling;

  4. (d) initial trials than in treatment resumed following discontinuation;

  5. (e) in earlier than in later years of its use.

METHOD

Adult participants with bipolar I (mania and depression) and II (depression and hypomania) disorder meeting DSM—IV (American Psychiatric Association, 1994b ) diagnostic criteria for syndromes and episodes were evaluated while undergoing long-term clinical maintenance treatment with lithium carbonate and follow-up at the Lucio Bini mood disorders centre in Cagliari, Sardinia, a Stanley Foundation research centre. Confidentiality was assured, and participants provided written informed consent for analysis and anonymous reporting of information obtained from their clinical and research records (Tondo et al, Reference Tondo, Baldessarini and Hennen1998a ,Reference Tondo, Baldessarini and Hennen b ). Excluded from the study were those exposed to mood-altering drugs other than for brief treatment of breakthrough symptoms (≤ 12 weeks), those receiving long-term anticonvulsant treatment, those misusing drugs or alcohol during treatment, those treated continuously for less than 12 months and those considered non-compliant with treatment recommendations because of repeated interruptions lasting 2 or more days or self-reduction of dosage.

Clinical assessments made by research psychiatrists (L.T., G.F.) in follow-up visits (four to 12 times per year) were recorded on research data forms and monthly life charts to document treatments given (type, doses and duration of psychotropic agents and their adverse effects), as well as the type, severity and duration of recurrent episodes of affective illness. Demographic data included gender, birth date and educational level, as well as marital and employment status at the start of maintenance treatment. Clinical data included diagnostic type based on most recent assessments, probable presence of psychotic features or mixed mood states in a majority of episodes, relevant family history, age at illness onset, length of first interval between episodes, number and duration of all episodes of mania (or hypomania in type II patients), depression and psychiatric hospitalisation, majority sequence of episode polarities in at least three cycles of illness (mania before depression, or the opposite), presence of a rapid-cycling course (four or more episodes in any year), time from illness onset to the start of regular maintenance treatment (treatment latency), occurrences of suicide attempts or fatalities and doses and average of approximately semi-annual serum concentrations of lithium.

This information yielded annual morbidity rates as manic or depressive episodes, or hospitalisations per year, and proportion (percentage) of time in DSM—IV mania (or hypomania) or depression before and during lithium maintenance treatment. Statistical analysis employed paired t-tests or analysis of variance (ANOVA) (F) for unpaired continuous data; categorical data were compared by contingency tables (χ2), with defined degrees of freedom (d.f.). Data are means (s.d.) unless stated otherwise. Non-significance (NS) is at P>0.05 in two-tailed tests.

RESULTS

The 360 bipolar (BP) disorder subjects participating in the study included type I (BP-I; n=218; 60.6%) and type II (BP-II; n=142; 39.4%) cases; women (64.7%) outnumbered men (35.3%); most were ‘employed’ — working, homemakers, students or retired (81.7%); and a minority had more than 8 years of education (39.4%) or were married (46.4%) at the start of treatment. Patients with ‘typical’ or non-complex BP-I without prominent psychotic features or episodes of mixed moods represented a minority of all 360 patients (28.9%); those with mainly psychotic episodes accounted for 27.8% of all cases (45.9% of BP-I cases) and those with predominantly mixed states were the least common BP-I subtype (6.4% of BP-I; 3.89% of all cases). A family history of affective disorder in a first-degree relative was recorded in 56.1% of subjects, with suicidal acts by a close relative in 1.82% of cases, whereas suicide attempts were recorded in 18.3% of probands themselves. Age at onset of first life time bipolar illness averaged 29.2 years; in 63.6% of cases the onset episode polarity was depressive. A regular course of the illness with at least three cycles of the same sequence of mania (M), depression (D) and euthymic interval (I) was found in 74.7% of cases, including a rapid-cycling course in 14.7% of subjects plus another 14.2% with a slower but continuously cycling course. Patients started maintenance lithium treatment after an average of 8.3 years from the onset of bipolar illness, or at 37.4 years of age, and were treated for 6.0 years at moderate average serum lithium concentrations of 0.615 mmol/l, in accord with common international practice aimed at enhancing tolerability and compliance (Reference Jamison and AkiskalJamison & Akiskal, 1983; Reference Maj, Starace and NolfeMaj et al, 1986; Reference Baldessarini, Tondo and FlorisBaldessarini et al, 1997; Reference Tondo, Baldessarini and HennenTondo et al, 1998b ). This information is summarised in Table 1.

Table 1 Sample characteristics (n=360)

Characteristic Percentage or mean
Demographic factors (% of cases)
Women 64.7
Educated > 8 years 39.4
Employed1 81.7
Married2 46.4
Family history (% of cases)
All mood disorders 56.1
Bipolar 29.4
Unipolar 29.7
Suicide 1.82
Suicidal acts (% of cases) 18.3
Onset episode (% of cases)
Depressive 63.6
Manic 36.4
Diagnostic types (% of all cases)
Bipolar I3 60.6
typical 28.9
psychotic 27.8
mixed 3.89
Bipolar II 39.4
Course (% of cases)4
M-D-I 30.5
D-M-I 15.3
RC 14.7
Continuous non-RC 14.2
Erratic 25.3
Onset and treatment latency, years (mean (s.d.))
Onset age 29.2 (12.0)
Age at lithium start 37.4 (14.2)
Latency: onset to lithium 8.30 (8.23)
Lithium maintenance (mean (s.d.))
Duration of treatment (years) 6.00 (5.03)
Serum lithium concentrations (mmol/l) 0.615 (0.137)

Clinical effectiveness of long-term lithium treatment was evaluated using several measures, including annual rates of recurrent episodes of mania and depression, considered separately or together, and of psychiatric hospital admissions. Overall morbidity was also rated as the proportion of time-at-risk in all affective illness, or in mania or depression. We also considered estimates of mean episode duration. All measures were compared for years of assessment (mainly retrospective) prior to lithium maintenance treatment and years of prospective follow-up during lithium treatment, and reductions of episode frequency or percentage of time ill were computed (Table 2). All measures of morbidity showed significant reductions, including 55.7% fewer episodes per year and 56.5% less time ill during treatment. On average, episode frequency was reduced somewhat more for mania than for bipolar depression (63.6% v. 46.4%), but reductions in the proportion of time in mania and in depression were more similar (61.2% v. 52.8%). Moreover, the average duration of episodes was reduced substantially more for depression than for mania (32.4% v. 19.4%), in part reflecting the longer duration of depressive episodes compared with manic episodes prior to lithium treatment: 4.84 v. 3.14 months (Table 2). The majority of patients showed substantial reductions in episode frequency and the proportion of time ill; 28.9% had no new episodes of mania or depression during lithium maintenance treatment, and about a quarter of patients showed no improvement (Table 3).

Table 2 Morbidity before and during lithium maintenance

Measure Before During Reduction (%)
Annual rates (mean (s.d.))
Episodes 1.83 (2.14) 0.81 (1.11) 55.7
Manias1 0.99 (1.48) 0.36 (0.53) 63.6
Depressions 0.84 (1.03) 0.45 (0.84) 46.4
Hospitalisations2 0.33 (0.86) 0.06 (0.22) 81.8
Morbidity (% of time (s.d.))
Total illness 45.7 (30.6) 19.9 (21.8) 56.5
Mania/hypomania 20.9 (22.3) 8.11 (12.8) 61.2
Depression 24.8 (22.5) 11.7 (16.7) 52.8
Episode duration (months (s.d.))
Mania/hypomania 3.14 (2.03) 2.53 (1.95) 19.4
Depression 4.84 (4.16) 3.27 (2.55) 32.4

Table 3 Percentage of cases at levels of improvement during lithium maintenance

Level of improvement Percentage of patients
Episodes/year Time ill (%)
None 27.2 21.4
0-49% 13.3 14.2
50-99% 30.6 35.5
100% 28.9 28.9
All levels 100.0 100.0

Affective morbidity, as reflected in the proportion of time ill during lithium treatment, was significantly lower in BP-II than in BP-I, as we reported previously based on an analysis that included many of the present subjects (Reference Tondo, Baldessarini and HennenTondo et al, 1998b ). However, there were only minor, non-significant, differences among typical, psychotic and mixed-episode types of BP-I patients, between those with a majority of polarity sequences starting with mania or depression and in those with rapid cycling in any year prior to starting lithium maintenance treatment (Table 4).

Table 4 Clinical factors: morbidity during lithium maintenance

Variable Time ill (% (s.d.))
Diagnostic type1
Bipolar I 22.0 (22.0)
Bipolar II 16.5 (21.0)
Bipolar I subtypes
Typical 23.9 (24.2)
Psychotic 19.9 (19.5)
Mixed 23.3 (22.1)
Polarity sequence
M-D-I 17.7 (15.7)
D-M-I 19.2 (21.4)
Cycling rate
RC 22.0 (23.8)
Non-RC 19.5 (21.4)

In addition, several factors were significantly associated with a superior treatment response, as defined by at least a 75% reduction in the proportion of time ill before treatment v. time ill during lithium maintenance — the approximate median level of improvement (Table 5). These factors were:

Table 5 Clinical factors: quality of improvement associated with lithium maintenance treatment

Variable Superior (n=181) Inferior (n=179) F test P
Onset age (years (s.d)) 30.9 (12.8) 27.4 (11.0) 7.99 0.005
First euthymic interval (months (s.d.))1 16.7 (45.5 35.2 (66.2) 9.64 0.002
Episodes/year before treatment (s.d.) 2.14 (2.24) 1.52 (1.87) 7.66 0.006
Percentage time ill before treatment (s.d.) 53.2 (31.3) 38.2 (28.1) 22.8 <0.0001
Latency: onset to treatment (years (s.d.)) 7.31 (8.02) 9.30 (8.34) 5.35 0.021
Index recovery (months (s.d.))2 2.21 (1.86) 4.15 (4.90) 24.8 <0.0001
First on-lithium interval (months (s.d.))3 45.4 (44.7) 13.6 (23.9) 70.5 <0.0001
Serum lithium concentration (mmol/l (s.d.)) 0.57 (0.11) 0.66 (0.14) 50.5 <0.0001

  1. (a) older age at onset of bipolar illness;

  2. (b) a shorter interval between first and second life time episodes;

  3. (c) greater morbidity before lithium therapy (as episode frequency or proportion of time ill, yielding a greater contrast to morbidity during treatment);

  4. (d) a shorter latency period between illness onset and the start of lithium treatment (associated with greater pretreatment morbidity);

  5. (e) a shorter recovery time for the episode associated with the start of lithium treatment;

  6. (f) a longer stable interval between the end of this index episode and the first recurrence during lithium treatment;

  7. (g) requirement for less lithium (lower mean serum concentration).

Other factors that were not significantly related to improvement quality based on the preceding definition were gender (χ2=1.15); family history of affective illness (χ2=0.31); more than 8 years of education (χ2=0.60); polarity of first life time episode (χ2=2.26); age at starting lithium (F=1.51); and marital status at the start of lithium treatment (χ2=2.21). However, there was a slightly higher proportion of employment (working, homemaker, student or retired) at the start of lithium treatment in superior responders (86.2% v. 77.1%; χ2=4.97, P=0.026). A median split for high (n=181) v. low (n=179) improvement in percentage time ill was also used for a logistic regression analysis. A higher percentage of improvement was significantly associated with the following factors in rank order: longer first interval on lithium, shorter recovery of first episode on lithium, shorter time before starting lithium and more episodes per year before lithium (overall model: χ2=91.2, P<0.0001) (Table 5).

A subgroup of patients (n=85) discontinued lithium in a non-experimental fashion, experienced a recurrence, and then returned to lithium maintenance for at least another year. During these repeat lithium treatment trials, patients showed only minor and non-significant increases in annual rates of recurrence or in the proportion of time ill compared with their first long-term trial, and hospitalisation rates were non-significantly less frequent during retreatment.

Similarly, the proportion of fully protected patients experiencing no recurrences during lithium treatment also showed only minor losses during secondary retreatment. The proportions of time ill during initial treatment and later retreatment were very similar in the BP-I and BP-II groups considered separately (Table 6).

Table 6 Comparisons of initial and repeat lithium maintenance treatment trials

Measures on lithium Initial Repeat Statistic
Duration (years (s.d.)) 4.90 (3.98) 4.42 (3.49) t=0.77
Episodes/year (s.d.) 0.842 (1.172) 0.959 (1.243) t=0.67
Percentage of time ill (s.d.) 17.0 (22.0) 22.8 (25.4) t=1.71
Hospitalisations/year (s.d.) 0.091 (0.315) 0.057 (0.158) t=1.02
Having no recurrences (%) 30.6 25.9 χ2=0.46

Finally, to evaluate whether there was a secular loss of long-term benefits of lithium, we compared the improvement among patients who started taking lithium in the 1970s, 1980s and 1990s. There was no indication that morbidity (as a proportion of time ill per year) increased in later years; rather, the percentage of patients with no new episodes during treatment tended to increase non-significantly over the three decades studied (Table 7).

Table 7 Historical trends in morbidity during lithium maintenance treatment

Decade n Percentage time ill (s.d.)1 Episodes/year (s.d.)2 Episode-free3 (%)
1970s 90 16.4 (20.4) 0.860 (1.102) 25.6
1980s 148 18.3 (21.4) 0.829 (1.138) 31.8
1990s 122 18.3 (23.3) 0.751 (1.126) 38.5
Total 360 17.8 (21.8) 0.810 (1.123) 32.5

DISCUSSION

The findings presented here indicate substantial levels of improvement in a large sample of consecutive and clinically heterogeneous patients with BP-I and BP-II unselected for outcome, but requiring treatment and observation for at least a year during lithium maintenance treatment. These patients were followed systematically over a total average of 14.3 years, including 8.3 years before and 6.0 years during lithium treatment used as monotherapy for maintenance, with only brief supplementation during acute recurrences. Beneficial effects of this long-term lithium treatment included reduction of episode frequency by 56% overall, and by 64% for manias and 46% for depressions. The duration of both manic and depressive recurrent episodes was also reduced (by 19% and 32%, respectively), and, consistent with our previous findings with many of the same subjects, BP-II syndromes benefited somewhat more than BP-I (Reference Tondo, Baldessarini and HennenTondo et al, 1998b ). The net impact of reduced episode frequency and duration was to yield major reductions in the proportion of time ill during follow-up, by 56% overall, and by 61% for mania and 53% for bipolar depression. Evidently, benefits to overall morbidity (proportion of time ill) reflect reductions in both episode frequency and duration. These gains would not be appreciated by recording the time to occurrence of a new episode, or even by episode-counting alone. Such measures have commonly, but potentially misleadingly, been used to define ‘treatment failure’ (Reference Goodwin and JamisonGoodwin & Jamison, 1990; Reference Baldessarini, Tondo, Suppes, Shulman, Tohen and KutcherBaldessarini et al, 1996).

The most striking numerical impact of lithium treatment was found for the hospitalisation rate, which fell by 82%. This finding has considerable economic significance, since hospitalisation accounts for a major proportion of direct costs in major psychiatric illness (Reference Wyatt and HenterWyatt & Henter, 1995; Reference Frankenburg and HegartyFrankenburg & Hegarty, 1996). Additional economic impact can be expected in the major reduction of overall morbidity, which is likely to limit ability to work or to live independently, and, presumably, premature mortality and loss of income due to suicide or stress-related medical illness (Reference Angst, Sellaro and AngstAngst et al, 1998; Reference Baldessarini and JamisonBaldessarini & Jamison, 1999).

It is important to emphasise that only about a quarter of the patients in this study (29%) experienced complete remission from all recurrences of affective illness during maintenance treatment (see Table 3). This level of protection is in keeping with past reports suggesting that full protection is not commonly achieved with lithium or with alternative treatments (Reference Rybakowsky, Chlopocka-Wozniak and KapelskiRybakowsky et al, 1980; Reference Prien, Himmelhoch and KupferPrien et al, 1988; Reference Gelenberg, Kane and KellerGelenberg et al, 1989; Reference Goodwin and JamisonGoodwin & Jamison, 1990; Reference Tohen, Waternaux and TsuangTohen et al, 1990; Reference Keller, Lavori and CoryellKeller et al, 1993; Reference Koukopoulos, Reginaldi, Minnai, Gessa, Fratta and PaniKoukopoulos et al, 1995a ; Reference Baldessarini, Tondo, Suppes, Shulman, Tohen and KutcherBaldessarini et al, 1996; Reference Greil, Ludwig-Mayerhofer and ErazoGreil et al, 1997; Reference Maj, Pirozzi and MaglianoMaj et al, 1998; Reference Baldessarini and TondoBaldessarini & Tondo, 2000). Although perfect prophylaxis was uncommon, at least 60% of patients experienced reductions in episode frequency and in the proportion of time ill by at least one-half (see Table 3). These considerations strongly suggest that requiring complete protection against all recurrences of mania or bipolar depression as a test of effectiveness of a mood-stabilising agent is unrealistic and, specifically, would tend to lead to underestimates of the substantial, long-term, overall beneficial effects of lithium.

Another difficulty of measuring treatment effectiveness is the risk of artefactual inflation of change scores, or decreases in recurrence rates or the proportion of time ill, such that a higher level of pretreatment morbidity can lead to overestimation of benefit of treatment. For example, the apparent gains found with shorter latency from illness onset to the start of lithium maintenance treatment are probably associated with the need to intervene earlier in more severe illness (see Table 5). This view is supported by the failure to find a relationship between latency from illness onset to the start of lithium maintenance treatment, and clinical status during lithium treatment, in many of the same patients (Reference Baldessarini, Tondo and HennenBaldessarini et al, 1999).

Several factors expected to predict poor treatment response had little effect on the proportion of time ill during lithium treatment. These factors include prominent psychotic features (Reference Prien, Himmelhoch and KupferPrien et al, 1988; Reference Keller, Lavori and CoryellKeller et al, 1993; Reference Solomon, Keitner and MillerSolomon et al, 1995; Reference Kusumakar, Yatham and HaslamKusumakar et al, 1997); mixed states (Reference Koukopoulos, Pani and SerraKoukopoulos et al, 1995b ; Reference Goldberg, Garno and LeonGoldberg et al, 1998); and rapid cycling (Reference Prien, Klett and CaffeyPrien et al, 1974; Dunner & Fieve, Reference Dunner and Fieve1974, 1977; Reference Koukopoulos, Reginaldi and LaddomadaKoukopoulos et al, 1980; Reference Wehr, Sack and RosenthalWehr et al, 1988; Reference Maj, Pirozzi and StaraceMaj et al, 1989; Reference Bauer, Whybrow and AmsterdamBauer & Whybrow, 1991; Reference Koukopoulos, Reginaldi, Minnai, Gessa, Fratta and PaniKoukopoulos et al, 1995a ; Reference Solomon, Keitner and MillerSolomon et al, 1995; Reference Calabrese, Fatemi and KujawaCalabrese et al, 1996; Reference Post, Leverich and DenicoffPost et al, 1997). In contrast to expectations, diagnostic type, psychotic or mixed BP-I subtypes and rapid cycling were not predictive of inferior benefits, in terms of the proportion of time well or ill during lithium maintenance treatment (see Table 4). Moreover, despite repeated suggestions that such features routinely predict a poor outcome or inferior treatment response, the evidence on which such conclusions are based is much less secure than is sometimes realised.

The sequence of manic and depressive episodes was also not associated with treatment response (see Table 4). This result was not expected in view of previous reports indicating that the sequence of mania before depression and a euthymic interval (M—D—I) is more likely to be followed by successful lithium maintenance treatment than the D—M—I pattern, or depression before mania (Reference Koukopoulos, Reginaldi and LaddomadaKoukopoulos et al, 1980; Reference Haag, Heidorn and HaagHaag et al, 1987; Reference Grof, Haag and GrofGrof et al, 1987; Reference Maj, Pirozzi and StaraceMaj et al, 1989; Reference Faedda, Baldessarini and TohenFaedda et al, 1991; Reference Koukopoulos, Reginaldi, Minnai, Gessa, Fratta and PaniKoukopoulos et al, 1995a ). Our results may reflect the requirement of at least three cycles in which the same sequences of mania and depression were found.

On the other hand, some clinical factors found early in the course of illness (e.g. age at illness onset, and a longer interval between first and second life time episodes) or early in treatment with lithium (e.g. rapidity of recovery from the index episode at the start of lithium treatment, and a longer interval to the first subsequent recurrence) were significantly associated with a better long-term treatment response as indicated by the overall proportion of time ill during treatment (see Table 5).

Finally, we found no evidence of significant degradation of treatment responses during repeated long-term maintenance treatment with lithium (see Table 6) or over decades of following patients at the research clinic from which our sample was drawn. Some reports have indicated that a second treatment trial with lithium following its discontinuation may be less effective than the initial trial (Reference Post, Leverich and AltshulerPost et al, 1992; Reference Maj, Pirozzi and MaglianoMaj et al, 1995). Our findings, however, agree with those of an earlier study that included many of the same subjects (Reference Tondo, Baldessarini and FlorisTondo et al, 1997), and with another independent study by Coryell et al (Reference Coryell, Solomon and Leon1998). The stability of results over three decades accords well with our meta-analysis of studies reported within the same era, in which there has actually been a non-significant trend toward superior responses in more recent times (Reference Baldessarini and TondoBaldessarini & Tondo, 2000).

Although the participants in this study were not selected for ability to tolerate or benefit from lithium treatment there is likely to be bias in any naturalistic, clinical sample that is not based on random assignment to treatment. On the other hand, if patients are not treated for prolonged periods with any accepted or investigational agent, it is not possible to assess its effects. It seems likely that reliance on naturalistic or only partially controlled treatment trials will be necessary since blinded, randomised trials for testing of long-term effectiveness over several years are becoming increasingly impracticable (Reference Calabrese and RapportCalabrese & Rapport, 1999). Systematic observations of treatment effects in patients with bipolar disorder for longer than 1-2 years are rare, extremely rare for maintenance treatments other than lithium, and few have been carried out under industrial sponsorship.

Clinical Implications and Limitations

CLINICAL IMPLICATIONS

  • The mood-stabilising effectiveness of lithium is supported by many open trials, and at least 10 controlled and blind studies. The long-term effectiveness of alternative treatments remains largely untested.

  • Lithium treatment was found to be somewhat more effective in type II than in type I bipolar disorder, similar in patients with typical syndromes and those with psychotic or mixed features, with different majority polarity sequences, as well as in rapid-cycling and non-rapid-cycling forms of the disorder.

  • Treatment response did not significantly deteriorate on treatment resumption following discontinuation of lithium, nor across years 1970-1998.

LIMITATIONS

  • The study design was naturalistic and clinical.

  • The requirement of a minimum duration of treatment of 1 year may select for motivated patients, and perhaps those with greater responsiveness to lithium, and would eliminate patients who drop out because of poor initial response or intolerance to lithium.

  • The findings may not be generalisable in ordinary clinical settings.

Footnotes

Declaration of interest

R. B. has recently served as a consultant or received research support from: Biostream, Janssen, Eli Lilly Protarga and Solvay.

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Figure 0

Table 1 Sample characteristics (n=360)

Figure 1

Table 2 Morbidity before and during lithium maintenance

Figure 2

Table 3 Percentage of cases at levels of improvement during lithium maintenance

Figure 3

Table 4 Clinical factors: morbidity during lithium maintenance

Figure 4

Table 5 Clinical factors: quality of improvement associated with lithium maintenance treatment

Figure 5

Table 6 Comparisons of initial and repeat lithium maintenance treatment trials

Figure 6

Table 7 Historical trends in morbidity during lithium maintenance treatment

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