Hostname: page-component-8448b6f56d-c4f8m Total loading time: 0 Render date: 2024-04-23T20:22:13.085Z Has data issue: false hasContentIssue false
  • English
  • Français

Rational pharmacotherapy in early psychosis

Published online by Cambridge University Press:  02 January 2018

Gary Remington
Gary Remington*
Affiliation:
Medical Assessment Program for Schizophrenia, Centre for Addiction and Mental Health, Clarke Site, 250 College Street, Toronto, Ontario M5T IR8, and Department of Psychiatry, University of Toronto, Canada. E-mail: gary_remington@camh.net
Rights & Permissions [Opens in a new window]

Abstract

Background

An increased focus in research specific to first-episode schizophrenia has provided a rapidly growing body of evidence that can be directly translated to clinical practice.

Aims

To provide clinical recommendations specific to effective pharmacotherapy of first-episode schizophrenia.

Method

Evidence from clinical trials focused on the first-episode population is combined with data from other areas of investigation.

Results

In first-episode psychosis, when to initiate treatment is not always clear, being intimately linked to challenges regarding early detection and diagnosis. There may be differences in antipsychotic dosing, patterns of response and sensitivity to side-effects. Adherence appears to be even more problematic at this stage.

Conclusions

Clinicians currently treating early psychosis have considerably more information to guide their decision-making. However, the speed at which the field is growing is a reminder totreatthis knowledge as a work in progress.

Type
Research Article
Information
The British Journal of Psychiatry , Volume 187 , Issue S48: Early psychosis: a bridge to the future , August 2005 , pp. s77 - s84
Copyright
Copyright © 2005 The Royal College of Psychiatrists 

It is unlikely that there would have been a call for a paper of this sort even a decade ago. Over the course of many years antipsychotic treatment had come to be viewed as phase-specific, with distinctions really confined to issues of acute v. maintenance treatment. The notion that treatment of psychosis was stage-dependent, that it varied as a function of where an individual was in the course of the illness, was not viewed as particularly relevant.

Within the last decade, however, stage of illness has received considerably more attention, a shift based on evidence arising from opposite ends of the treatment continuum. By the early 1990s clozapine had been reintroduced for clinical use in a number of countries, with accumulating evidence that it was superior even to other second-generation antipsychotics in refractory psychosis (Reference Remington and KapurRemington & Kapur, 2000). Meanwhile, there was a growing body of evidence that individuals in the early stages of psychosis might also be distinguishable in terms of treatment, both in terms of response and side-effects (Lieberman et al, Reference Lieberman, Jody and Geisler1993, Reference Lieberman, Koreen and Chakos1996).

Taken together, the evidence suggested that the pharmacotherapy of psychotic illnesses, such as schizophrenia, needed to consider stage of illness. Decision-making regarding individuals in the initial stages of psychosis is not the same as for those who have experienced multiple episodes, i.e. those in the ‘chronic’ phase of the illness who frequently appear ‘partially responsive’. There is, in addition, this sub-population of individuals who, even in the face of ongoing treatment with various antipsychotics, show a suboptimal response, a group that is defined by the ‘refractory’ form of their illness.

Before proceeding further, it is worth noting that the term ‘psychosis’ is being used generically here. This is, at least in part, related to the focus of the article, i.e. early psychosis. At this particular point in treatment it is often impossible to make a clear diagnosis; however, based on existing knowledge in using antipsychotics, initially the same principles apply. In contrast, over the longer-term course of illness use of antipsychotics may vary as a function of diagnosis.

It also needs to be noted at the outset that the terms ‘typical’ and ‘atypical’ are used here as a means of distinguishing between the older and newer antipsychotics. Readers will be most familiar with such a distinction, but there is reason to challenge this choice of terms and even the underlying concept. With clinical experience, it is apparent that such a clear-cut dichotomy does not exist, particularly as new antipsychotics enter the market and we expand our measures of outcome (Reference RemingtonRemington, 2003). There is, in fact, already ample evidence that the newer agents are not equal on the various domains, making it impossible to distinguish two distinct classes (Reference Waddington and O'CallaghanWaddington & O'Callaghan, 1997).

This article addresses a number of questions thought to be relevant to antipsychotic use in early psychosis: when to intervene, what antipsychotic; what dose; and, for how long. Previous articles published by the author and discussing this topic form the basis for the overview (Remington et al, Reference Remington, Kapur and Zipursky1998, Reference Remington, Kapur and Zipursky2000, Reference Remington, Kapur, Zipursky, Miller, Sarnoff, McGlashan, Libiger and Johannessen2001a ). Recommendations are premised on the notion that we are dealing with a chronic psychotic illness, such as schizophrenia, where antipsychotic treatment represents the cornerstone of effective treatment programmes.

METHOD

When should antipsychotic therapy be introduced?

Evidence from several lines of investigation suggests that early, effective interventions improve outcome. For example, diminishing the duration of untreated psychosis (DUP) has been associated with better outcome (Reference Loebel, Lieberman and AlvirLoebel et al, 1992; Reference Scully, Coakley and KinsellaScully et al, 1997; Reference Wyatt, Green and TumaWyatt et al, 1997; Reference McGorry, Harrigan and AmmingerMcGorry et al, 2001). Similarly, it has been shown that with each episode of psychosis, at least in the early stages, it takes longer to establish response and the degree of response diminishes (Reference Lieberman, Koreen and ChakosLieberman et al, 1996). These types of findings provide support for the hypothesis that psychosis may represent some sort of ‘toxic’ process that incurs progressive damage in its untreated state (Reference WyattWyatt, 1995).

Conceptually, this line of thinking fits with the notion that schizophrenia represents a neurodevelopmental, and possibly neuroprogressive, disorder (Reference Censits, Ragland and GurCensits et al, 1997; Reference LiebermanLieberman, 1999; Reference FinlayFinlay, 2001; Reference WeinbergerWeinberger, 2002). Effective interventions as early as possible should, at least in theory, carry the potential of delaying, arresting, or even possibly reversing various deficits that can be seen as early as the first identified episode.

The idea that early intervention improves outcome has spawned ‘first-episode’ programmes worldwide and amongst their goals has been the identification of cases as soon as possible. That this is a worthy and achievable objective gains support from evidence that in actual practice DUP can be as much as a year or longer, and we now have data to suggest that these types of programmes can effectively reduce this interval (Reference Haas and SweeneyHaas & Sweeney, 1992; Reference Hafner and an der HeidenHafner & an der Heiden, 1997). For example, the combined Norwegian/USA programme reported a dramatic reduction in DUP, from 118 to 20 weeks, with a focused programme that included a public education component (Reference Pelosi and BirchwoodPelosi & Birchwood, 2003).

Clearly there is the opportunity for earlier intervention based on the length of time psychotic symptoms go untreated. But is it possible to intervene even earlier? There is now a growing interest in the prodrome of schizophrenia, a stage lasting on average 5 years before the onset of frank psychotic symptoms (Reference Hafner and an der HeidenHafner & an der Heiden, 1997). Its presentation highlights other symptom domains, for example, affective (depression), cognitive (decreased attention, concentration), deficit (amotivation, social withdrawal), but like later stages of the illness is characterised by a functional decline. It is appealing to imagine that an effective intervention strategy, here too, might favourably alter outcome. Pharmacological intervention with antipsychotics immediately comes to mind, given that use of these medications is integral to the longer-term management of schizophrenia. Moreover, there has been evidence with the newer antipsychotics that their benefits may be seen along these other symptom dimensions, in addition to psychotic symptoms per se (Reference Waddington and O'CallaghanWaddington & O'Callaghan, 1997; Reference BuckleyBuckley, 1999).

The benefit of antipsychotic treatment initiated during the prodromal phase remains unclear, if for no other reason than lack of data. Several uncontrolled reports have supported the symptomatic benefits of antipsychotic therapy (Reference Cannon, Huttunen and DahlstromCannon et al, 2002; Reference Cornblatt, Lencz and CorrellCornblatt et al, 2002), although in one of these it was noted that benefits were seen with other psychotropics as well (Reference Cornblatt, Lencz and CorrellCornblatt et al, 2002). One controlled trial has reported the clinical benefits of low-dose risperidone and cognitive therapy when compared with supportive case management, with 4 of 32 individuals (12.5%) in the former group becoming psychotic during the 6-month treatment period, in contrast to 10 out of 28 (35.7%) in the latter (Reference McGorry, Phillips and YungMcGorry et al, 2000). In an 8-week double-blind placebo-controlled trial, olanzapine at mean doses of 8.0±3.1 mg daily was found to be significantly superior in the control of prodromal symptoms (Reference Woods, Brier and ZipurskyWoods et al, 2003).

In summary, there is evidence to suggest that antipsychotics should be instituted as soon as possible once psychotic symptoms have been identified, and there appears to be considerable room for improvement in identifying these individuals earlier. Although there are substantial data supporting the clinical benefits of early intervention, this topic remains the subject of debate, as various reports have also reported a lack of clinical benefit (Reference Craig, Bromet and FennigCraig et al, 2000; Ho et al, Reference Ho, Andreasen and Flaum2000, Reference Ho, Alicata and Ward2003; Reference Hoff, Sakuma and RaziHoff et al, 2000). There are interesting preliminary data regarding the potential for antipsychotic treatment in the prodrome of schizophrenia, but reports await replication and corroboration with controlled, masked studies. For a number of reasons, clinicians are likely to be hesitant in instituting antipsychotics at this point: a paucity of empirical data; lack of biological markers in the face of non-specific, non-psychotic symptoms; and recognition that even the newer antipsychotics carry with them the potential for significant side-effects.

Finally, a comment is warranted regarding outcome measures. Historically, the focus was confined to positive symptomatology, but this has changed considerably. It is common now to evaluate pharmacological response on a number of clinical dimensions as well as side-effects (Reference RemingtonRemington, 2003). Indeed, the list has expanded to the point where a simple dichotomous distinction between ‘typical’ and ‘atypical’ antipsychotics seems overly simplistic (Reference Waddington and O'CallaghanWaddington & O'Callaghan, 1997). The issue is made more complex by the recent emphasis on distinguishing clinical from functional recovery, as their courses are not necessarily parallel (Reference Tohen, Stoll and StrakowskiTohen et al, 1992; Reference Robinson, Woerner and McMenimanRobinson et al, 2003). In evaluating the benefit of any intervention now, pharmacological or otherwise, ‘response’ must be viewed across a number of domains.

RESULTS

Choosing an antipsychotic

Much has been made regarding the clinical advantages of the newer antipsychotics v. their conventional counterparts, and numerous reports are available to support these claims (Reference Fleischhacker and HummerFleischhacker & Hummer, 1997; Reference TammingaTamminga, 1997; Reference StipStip, 2000). Concluding that the second-generation agents represent first-line treatment for all individuals with psychosis (including those with a first break) seems at this point a foregone conclusion. There are, however, at least three points of clarification that caution against the uncontested acceptance of such an approach:

  1. (a) Most of the double-blind, controlled studies evaluating the newer v. older antipsychotics have been carried out in more chronic patients who have proven partially responsive. In fact, there are very few published investigations (see Table 1) that have focused on the population with first-episode psychosis, and collectively the results have not been particularly convincing that the atypicals offer clinical superiority (Reference Lambert, Keks and McGrathLambert et al, 1995; Emsley et al, 1999; Reference Sanger, Lieberman and TohenSanger et al, 1999; Reference Lieberman, Phillips and GuLieberman et al, 2003). A longer-term study (52 weeks) comparing clozapine and chlorpromazine found differences favouring clozapine at 12 weeks, although the two groups were comparable by end-point (Reference Lieberman, Phillips and GuLieberman et al, 2003). In the one report indicating greater efficacy for the atypical agent, i.e. olanzapine, the definition of first episode was extended to include individuals who could have been ill for as long as 5 years (Reference Sanger, Lieberman and TohenSanger et al, 1999).

    Table 1 Published, double-blind controlled trials in first-episode psychosis

    Study Sample size (n) Drug comparison Mean dose (mg/day) Trial (weeks) Efficacy
    Lambert et al (Reference Lambert, Keks and McGrath1995) 28 Remoxipride v. 348 6 Equal
    Thioridazine 361
    Sanger et al (Reference Sanger, Lieberman and Tohen1999) 83 Olanzapine v. 11.6 6 Olanzapine superior on:
    Haloperidol 10.8 BPRS reduction ≥ 40%
    BPRS: Total
    BPRS: Negative
    PANSS: Total
    PANSS: Positive
    Emsley et al (1999) 183 Risperidone v. 6.1 6 Equal
    Haloperidol 5.6
    Lieberman et al (Reference Lieberman, Phillips and Gu2003) 160 Clozapine v. 3001 52 Equal
    Chlorpromazine 4001

  2. (b) It has been suggested that many of the trials comparing typical and atypical antipsychotics favoured the latter, based on the use of inappropriately high doses of the comparative conventional antipsychotic (Reference Geddes, Freemantle and HarrisonGeddes et al, 2000; Reference Carpenter and GoldCarpenter & Gold, 2002). Although this topic will be addressed in more detail in the next section, suffice it to say that there is compelling evidence to support this claim.

  3. (c) From the standpoint of side-effects, much has been made of the superiority of the newer antipsychotics with respect to extrapyramidal side-effects (EPS), perhaps the most problematic adverse event associated with the conventional agents, especially the high-potency group (e.g. haloperidol). The advantage of the atypicals in this regard again appears to be related, at least in part, to inappropriate dosing of the typical antipsychotics used as the comparator in many of these trials (Reference Leucht, Pitschel-Walz and AbrahamLeucht et al, 1999; Reference Geddes, Freemantle and HarrisonGeddes et al, 2000). Moreover, accumulating experience with the newer antipsychotics has indicated that they are not without the risk of notable side-effects, in particular, weight gain, diabetes and cardiovascular risk (Reference CaseyCasey, 1996; Reference Cunningham OwensCunningham Owens, 1996; Reference Umbricht and KaneUmbricht & Kane, 1996; Wirshing et al, Reference Wirshing, Spellberg and Erhart1998, Reference Wirshing, Wirshing and Kysar1999, Reference Wirshing, Boyd and Meng2002; Reference Allison, Mentore and HeoAllison et al 1999; Reference Allison and CaseyAllison & Casey, 2001). Indeed, it has been suggested that these adverse events have come to represent the ‘EPS’ of this new generation of antipsychotics.

On the other side of the coin, there are several issues that need to be considered before dismissing the idea that the atypicals should be first-line treatment. It has been demonstrated that individuals with a first-episode psychosis respond well to antipsychotic treatment, with as many as 80% recovering symptomatically from their initial episode (Reference Tohen, Stoll and StrakowskiTohen et al, 1992; Reference Lieberman, Jody and GeislerLieberman et al, 1993). With such a high response rate, a ‘ceiling effect’ cannot be ruled out; that is, it becomes difficult to tease apart potential differences between different treatment interventions. In addition, we have expanded our definition of outcome considerably in recent years, no longer focusing only on the control of positive symptoms. Numerous other dimensions (e.g. cognition, affect, quality of life) are now the subject of evaluation and there are a paucity of data that allow a comparison of older and newer agents on these different dimensions (Reference Geddes, Freemantle and HarrisonGeddes et al, 2000; Reference Kapur and RemingtonKapur & Remington, 2000; Reference RemingtonRemington, 2003). It may well be that future work demonstrates detectable differences on one or more of these dimensions, and the potential scope of these differences may extend even beyond clinical symptoms. For example, we now have data to suggest that there are also detectable changes morphologically (Reference Chakos, Lieberman and AlvirChakos et al, 1995; Reference Andersson, Hamer and LawlerAndersson et al, 2002). What these changes mean is not yet fully understood, but it speaks not only to choice of antipsychotic but also to this issue of early intervention and improved outcome.

At this point there is still insufficient evidence from the standpoint of efficacy to support the position that the newer antipsychotics represent first-line treatment. The most compelling argument presently rests upon side-effects. First, it has been demonstrated that there is an increased risk of EPS in the early v. late stages of schizophrenia (Reference McEvoy, Hogarty and SteingardMcEvoy et al, 1991; Reference Aguilar, Keshavan and Martinez-QuilesAguilar et al, 1994), and one of the more consistent findings with the newer antipsychotics is their diminished risk of EPS (Reference Leucht, Pitschel-Walz and AbrahamLeucht et al, 1999; Reference Geddes, Freemantle and HarrisonGeddes et al, 2000) (keeping in mind that this finding may be skewed in favour of the newer antipsychotics because of the comparator dose of the conventional antipsychotic, as well as the trend to use a high-potency typical agent, e.g. haloperidol).

The data related to risk of tardive dyskinesia really represent the strongest piece of evidence arguing for the newer antipsychotics as first-line treatment. Although these data are preliminary, they indicate figures in the range of 1% or less per year (Reference Peacock, Solgaard and LublinPeacock et al, 1996; Reference Tollefson, Beasley and TamuraTollefson et al, 1997; Reference Beasley, Dellva and TamuraBeasley et al, 1999), considerably below the figure of approximately 5% that might be predicted following a year's exposure to conventional antipsychotics (Reference Glazer, Morgenstern and DoucetteGlazer et al, 1993). Although the relationship between antipsychotic dose and risk of tardive dyskinesia is not entirely clear, there are reports supporting such a link (Reference Morgenstern and GlazerMorgenstern & Glazer, 1993; Reference Woerner, Alvir and SaltzWoerner et al, 1998), and once again the argument could be made that the use of comparatively higher doses of these drugs could account for these reported differences in tardive dyskinesia rates. However, this does not appear to be the case. A recent study reported a 12-month incidence of probable and persistent tardive dyskinesia to be 12.3% in a group of individuals with first-episode psychosis treated with haloperidol at a mean dose of 2.8 mg/day (Reference Oosthuizen, Emsley and MaritzOosthuizen et al, 2003). Indirect evidence also can be found from looking at high-risk populations, i.e. the geriatric population, individuals with borderline tardive dyskinesia, where evidence once again supports the benefit of atypicals in terms of tardive dyskinesia risk, even when comparable doses of the conventional drugs are employed (Jeste et al, Reference Jeste, Lacro and Bailey1999a ,Reference Jeste, Lacro and Palmer b , Reference Jeste, Okamoto and Napolitano2000; Reference Dolder and JesteDolder & Jeste, 2003).

There are, in addition, data to indicate that across other side-effects the atypical antipsychotics may be better tolerated, as measured by discontinuation rates (Emsley et al, 1999). Having said this, the new antipsychotics have attuned us to a different profile of adverse events that cannot be ignored. For example, weight gain has become a significant issue, particularly with several of the newer compounds (Reference Allison, Mentore and HeoAllison et al, 1999; Reference Wirshing, Wirshing and KysarWirshing et al, 1999; Reference Allison and CaseyAllison & Casey, 2001; Reference NasrallahNasrallah, 2003), and patients with first-episode psychosis exposed to these compounds appear to be at no less a risk (Reference Addington, Mansley and AddingtonAddington et al, 2003). In addition, there are a growing number of reports indicating other potentially significant adverse events (e.g. impaired glucose tolerance/diabetes; Reference Wirshing, Spellberg and ErhartWirshing et al, 1998; Reference Mir and TaylorMir & Taylor, 2001; Reference BaptistaBaptista, 2002; Reference HendersonHenderson, 2002), and lipid abnormalities (Reference MeyerMeyer, 2001; Reference Wirshing, Boyd and MengWirshing et al, 2002; Reference Lindenmayer, Czobor and VolavkaLindenmayer et al, 2003). These risks are only compounded when one considers that treatment is being initiated in late adolescence and may be lifelong. Moreover, this is a population that has a higher propensity of numerous other cardiovascular risk factors (Reference Allebeck and WistedtAllebeck & Wistedt, 1986; Reference Mortensen and JuelMortensen & Juel, 1993; Reference Brown, Inskip and BarracloughBrown et al, 2000; Reference Osby, Correia and BrandtOsby et al, 2000), and for various reasons has diminished access to medical care (Reference Felker, Yazel and ShortFelker et al, 1996). More recent concerns with ziprasidone and sertindole regarding potential cardiac changes, specifically QTc prolongation, have reminded clinicians of potential cardiac risks (Reference Glassman and BiggerGlassman & Bigger, 2001; Reference TaylorTaylor, 2003), and although the risk is low it can be potentially life-threatening. It is impossible to disregard issues of this sort in decision-making regarding antipsychotic choice; indeed, there is reason to argue that these types of side effects are of no less concern than tardive dyskinesia.

To summarise, there is at present a lack of compelling evidence that the newer antipsychotics are clinically superior in the population with first-episode psychosis, and for now the argument regarding choice really rests upon side-effects. The increased risk of tardive dyskinesia with conventional antipsychotics favours using the atypicals; conversely, the risk of adverse events, such as weight gain, diabetes, and other cardiovascular events associated with the newer antipsychotics, counters their straightforward acceptance as first-line treatment. There is, however, a difference with respect to tardive dyskinesia, with the newer agents at a lower risk in this regard (whereas there are differences in acute EPS between the atypicals (Reference Leucht, Pitschel-Walz and AbrahamLeucht et al, 1999), as of yet there is no concrete evidence that they differ in terms of diminished tardive dyskinesia risk). There do appear to be distinguishable differences between these medications regarding such side-effects as weight gain and QTc prolongation. Thus, the clinician may move to the newer antipsychotics as first-line treatment to avoid tardive dyskinesia, and then choose between these based on their relative risk for other relevant side-effects.

What is an appropriate dose?

To address this question properly it is necessary to briefly review what has taken place with antipsychotic dosing over the years. First, schizophrenia is an illness where a significant portion of individuals demonstrate a suboptimal response – with the conventional antipsychotics, for example, data indicate that as many as 25% fail to respond (Reference Brenner, Dencker and GoldsteinBrenner et al, 1990). It is not so surprising that in an effort to achieve response clinicians moved to the use of higher doses; however, the cardiovascular side-effects, i.e. orthostatic hypotension, of the lower-potency antipsychotics to some extent acted as a rate-limiting step in this regard. With the high-potency antipsychotics like haloperidol, this was not such a problem and there was a progressive increase in dosing. By the 1980s high-dose approaches were even advocated (e.g. rapid neuroleptisation), and antipsychotic doses increased to over three times those employed with the low-potency agents (Reference Baldessarini, Katz and CottonBaldessarini et al, 1984). In practice it was not uncommon to see daily doses well in excess of haloperidol 20 mg equivalents.

By the late 1980s, this practice was being called into question. A review of the controlled studies indicated that there was no evidence to support the clinical superiority of high-dose therapy, leading to the recommendation that doses in the range of 3–12 mg haloperidol equivalents reflected a more appropriate therapeutic range (Reference Baldessarini, Cohen and TeicherBaldessarini et al, 1988). Subsequent analyses supported this finding (Reference Bollini, Pampallona and OrzaBollini et al, 1994).

More recently there has been even further support for these lower doses based on in vivo evidence arising from neuroimaging, in particular positron emission tomography (PET). For example, it has been demonstrated that antipsychotic response is optimised at a threshold of approximately 65–70% dopamine D2 occupancy, whereas exceeding 80% leads to a substantial increase in the risk of EPS (Reference Farde, Nordstrom and WieselFarde et al, 1992; Reference Nordstrom, Farde and WieselNordstrom et al, 1993; Reference Kapur, Remington and JonesKapur et al, 1999). Moreover, several reports have demonstrated that lack of clinical response is not associated with inadequate dopamine blockade (Reference Wolkin, Barouche and WolfWolkin et al, 1989; Reference Coppens, Slooff and PaansCoppens et al, 1991; Reference Pilowsky, Costa and EllPilowsky et al, 1993).

How do these findings translate into clinical practice? Using haloperidol for comparison purposes, 2 mg results in mean D2 occupancy of 67%, whereas 5 mg approximates the 80% threshold associated with EPS (Kapur et al, Reference Kapur, Remington and Jones1996, Reference Kapur, Zipursky and Roy1997). These data support a therapeutic range of approximately 2–5 mg haloperidol equivalents daily to optimise clinical response and minimise the risk of EPS.

There are now clinical data that offer credence to this notion, data involving patients with first-episode psychosis. This is an important methodological issue as these individuals appear to differ from the more chronic population in terms of treatment response as well as sensitivity to side-effects, such as EPS (Reference McEvoyMcEvoy, 1986; Lieberman et al, Reference Lieberman, Jody and Geisler1993, Reference Lieberman, Koreen and Chakos1996; Reference Aguilar, Keshavan and Martinez-QuilesAguilar et al, 1994; Reference Robinson, Woerner and AlvirRobinson et al, 1999b ). Zhang-Wong and colleagues, for example, found that 82% of their patients with first-episode psychosis were treated effectively with haloperidol 2–5 mg daily. Their study allowed those who had not responded to then be treated with higher doses (10–20 mg/day), but this subgroup continued to be less responsive. EPS were reported in 13% of the 2 mg group, in contrast to 55% for those who receive 5 mg (Reference Zhang-Wong, Zipursky and BeiserZhang-Wong et al, 1999). In a double-blind fixed, flexible design comparing risperidone with haloperidol over 6 weeks, Emsley et al (1999) reported mean end-point doses of 6.1 mg and 5.6 mg, respectively, despite the fact that doses could be increased to 16 mg daily for each.

A more recent double-blind study completed at this centre evaluated the relationship between D2 occupancy and clinical response, as well as side-effects, in 23 patients with first-episode psychosis (Reference Kapur, Remington and JonesKapur et al, 1999). Patients were randomly assigned to haloperidol 1 mg or 2.5 mg daily. If they failed to demonstrate ‘much’ or ‘very much’ improvement over 2 weeks, the dose was increased to 5 mg for another 2 weeks. Results indicated that D2 occupancy could be used to predict clinical response, in that a threshold set at 65% was predictive of response with 80% sensitivity. Of the 10 identified responders after 2 weeks, 2 were receiving haloperidol 1 mg whereas 8 received 2.5 mg. Only 2 of these 10 individuals had D2 occupancy below 65%. Completed data were available for 11 of the identified non-responders who went on to receive haloperidol 5 mg/day. Seven of this group had D2 occupancies below 65% prior to this increase, and of these 6 (85.7%) improved with the higher dose. In contrast, 1 out of 4 (25%) who already had occupancies beyond 65% before the dose increment showed improvement. In terms of EPS, 3 out of the 23 (13%) treated with either haloperidol 1 mg or 2.5 mg developed EPS, whereas 7 out of 12 (58%) experienced EPS with the dose increase to 5 mg. From the standpoint of D2 occupancy, blockade below 78% was not associated with EPS. These data suggest that clinical response is increased with D2 occupancy exceeding 65–70%, whereas EPS risk increased with occupancy above 78%. Haloperidol 2.5 mg is more likely than 1 mg to exceed the clinical threshold of 65%, the latter demonstrating mean D2 occupancy of approximately 58%, but haloperidol 5 mg has a substantial increase in EPS risk v. these lower doses.

Are these types of doses also appropriate in later stages of the illness? The clinical evidence drawn from more chronic patient samples suggests somewhat higher doses (e.g. 3–12 mg/daily) in this population (Reference Baldessarini, Cohen and TeicherBaldessarini et al, 1988), but certainly not of the magnitude that have frequently been employed in past years. It is appealing to speculate that the slight increment may reflect D2 upregulation seen following chronic antipsychotic exposure (Reference Schroder, Silvestri and BubeckSchroder et al, 1998; Reference Silvestri, Seeman and NegreteSilvestri et al, 2000). At the same time however, the ageing process is associated with progressive loss of D2 receptors, at least as observed in control populations (Reference Seeman, Bzowej and GuanSeeman et al, 1987), and this may account for the progressively lower doses that are required in older individuals.

It is interesting to note that the data do not support the position of clinical superiority with doses in excess of haloperidol 12 mg equivalents daily. This finding dovetails with a more recent meta-analysis comparing the benefits of the newer antipsychotics v. conventional antipsychotics. When haloperidol doses ≤12 mg daily were evaluated, the atypicals had no benefits in terms of efficacy or tolerability (although they did show fewer EPS) (Reference Geddes, Freemantle and HarrisonGeddes et al, 2000).

Having information regarding equipotent dosing guidelines for the different antipsychotics is important for clinicians, who must often switch antipsychotics because of issues related to efficacy and/or side-effects. Past guidelines have depended on pharmacokinetic and clinical data, but the more recent PET evidence allows for greater precision in these calculations. This line of thinking is based on the premise that D2 occupancy is shared in common by all antipsychotics, typical as well as atypical, and that the in vitro affinity of a drug for the D2 receptor remains the single best predictor of its dose in the clinical setting (Reference Creese, Burt and SnyderCreese et al, 1976; Reference Seeman, Lee and Chau-WongSeeman et al, 1976). There are two newer antipsychotics where evaluation of their D2 occupancy is markedly influenced by their fast dissociation values (clozapine and quetiapine) (Reference Seeman and TallericoSeeman & Tallerico, 1999; Reference Kapur and SeemanKapur & Seeman, 2000), making the precise calculation of their equipotent values more difficult. Acknowledging this caveat, however, Table 2 outlines comparative doses between several conventional antipsychotics, including haloperidol, evaluated at our centre with PET and several of the newer agents (olanzapine, risperidone, ziprasidone).

Table 2 Dose equivalents (mg) for different antipsychotics

Antipsychotic Approximate dose equivalent based on D2 occupancy
Haloperidol 2
Loxapine 15
Olanzapine 10
Risperidone 2.5-3.0
Ziprasidone 80

How long should antipsychotic therapy be employed?

This question really entails two components: (a) how long should a trial last to establish response; and (b) how long should someone who has been successfully treated continue with antipsychotic therapy?

For many years it has been customary to carry out a trial of 6–8 weeks to establish response. Work specifically involving patients with first-episode psychosis reported mean and median times to remission of 35.7 and 11 weeks, respectively (Reference Lieberman, Jody and GeislerLieberman et al, 1993). It is important to keep in mind that this same line of investigation found time to response increased with subsequent episodes (Reference Lieberman, Koreen and ChakosLieberman et al, 1996), a finding that is in keeping with reports involving more refractory patients indicating that a longer trial may be required, perhaps in the range of 3 months or more (Reference MeltzerMeltzer, 1989; Reference Smith, Chua and LipetskerSmith et al, 1996; Reference WilsonWilson, 1996).

A troubling question for many clinicians is how long to continue antipsychotic therapy in those with a first-episode psychosis who have responded effectively to antipsychotic therapy. It is known that as many as 80% of patients with first-episode psychosis will show symptom resolution with treatment (Reference Tohen, Stoll and StrakowskiTohen et al, 1992; Reference Lieberman, Jody and GeislerLieberman et al, 1993), making this a common dilemma with this population. The notion of taking antipsychotic medication for a lifetime following a single psychotic episode is not an appealing option. Studies have indicated that there is a relapse rate of 40–60% during the first year in individuals who go untreated following recovery from a first-episode psychosis (Reference Kane, Rifkin and QuitkinKane et al, 1982; Reference Crow, MacMillan and JohnsonCrow et al, 1986), leading to the recommendation that pharmacological treatment continues for at least 1–2 years (Reference KisslingKissling, 1991; Frances, 1998). There is an appeal to these guidelines, as they offer a compromise for both patients and clinicians. For patients it means that there is a potential ‘end’ in sight to medication use; for clinicians, it also offers some type of end-point to the prescribing of antipsychotics in individuals where the diagnosis may be less than clear. However, more recent evidence injects a note of caution to the goal of antipsychotic discontinuation (Reference Robinson, Woerner and AlvirRobinson et al, 1999a ). Specifically, in a 5-year follow-up of 104 individuals who had responded to treatment of their index episode, discontinuing antipsychotic therapy increased the risk of relapse by almost 5 times. Moreover, of 15 individuals who had their first relapse after 2 years of stability, 8 had discontinued medication. Even more sobering are data indicating that in a group of individuals with recent-onset schizophrenia who discontinued antipsychotic medication 78% experienced symptom exacerbation or relapse within 1 year, with the figure climbing to 96% by 2 years (Reference Gitlin, Nuechterlein and SubotnikGitlin et al, 2001).

This raises the possibility that an even more conservative approach may need to be considered, i.e. continuous antipsychotic treatment at the lowest possible dose, at least for those where there is convincing evidence that the diagnosis is compatible with schizophrenia. Unfortunately, longer-term treatment adherence is a major hurdle with this population, perhaps even more so than with those in later stages of the illness. This has been brought home in a recent study that followed individuals with first-episode psychosis for a 1-year period after discharge. Only 37% maintained their medication over this interval; in contrast, 51% had gaps of 30 days or longer, with an average total time off medication of approximately 7 months (Reference Mojtabai, Lavelle and GibsonMojtabai et al, 2002). Although continuous low-dose antipsychotic therapy may represent the ideal ‘gold standard’ to minimise relapse, clinical reality may dictate the use of alternative strategies. Close monitoring with rapid medication reinstatement (e.g. ‘targeted therapy’; Reference CarpenterCarpenter, 2001; Reference Gitlin, Nuechterlein and SubotnikGitlin et al, 2001) or ‘extended dosing’ (Reference Remington, Kapur and ShammiRemington et al, 2001b ) may offer approaches that can address the practical limitations nonadherence brings to bear on the successful management of these individuals.

DISCUSSION

Just as we now acknowledge that schizophrenia is heterogeneous in its nature, we must also recognise that its pharmacotherapy varies over the illness’ course in ways that are not confined to acute v. maintenance treatment. The issues and decision-making that apply to first-episode psychosis may not be the same for those who are in later stages of the illness, or those who have remained refractory to standard interventions. Individuals in a first-episode psychosis are unique. Diagnosis is often less clear than for those who have been followed over a longer interval; patients with first-episode psychosis seem more sensitive to antipsychotic medications in terms of side-effects but, at the same time, appear more responsive; dosing may be somewhat different in these individuals v. those in later stages of the illness; and, the notion of antipsychotic discontinuation is more of an issue in this group. Current evidence has been reviewed with respect to recommendations that can be used in the clinical setting. It almost goes without saying, however, that this is a work in progress – further advances will undoubtedly shed more light on these issues but raise yet more questions. For clinicians this is a double-edged sword. These advances add additional layers of complexity to their decision-making and demand that they stay abreast of changes in a field that is expanding rapidly, while at the same time setting the stage for more refined interventions and, ideally, better outcomes.

Clinical Implications and Limitations

CLINICAL IMPLICATIONS

  1. The notion that early intervention improves outcome has now been extended to investigations addressing the prodrome stage of schizophrenia.

  2. Evidence indicates superior clinical response to antipsychotic treatment in early psychosis, but also increased sensitivity to side-effects.

  3. Relapse rates are high over time and medication discontinuation, even after extended periods of stabilisation, can increase this risk.

CLINICAL LIMITATIONS

  1. Evidence regarding the benefits of early intervention is conflicting, with studies also failing to support this position.

  2. Early intervention studies are particularly sensitive to the issues of diagnostic sensitivity and specificity.

  3. In evaluating outcome there is a need to distinguish between clinical and functional recovery, as these do not necessarily follow a parallel course.

References

Addington, J., Mansley, C. & Addington, D. (2003) Weight gain in first-episode psychosis. Canadian Journal of Psychiatry, 48, 272276.CrossRefGoogle ScholarPubMed
Aguilar, E. J., Keshavan, M. S., Martinez-Quiles, M. D., et al (1994) Predictors of acute dystonia in first-episode psychotic patients. American Journal of Psychiatry, 151, 18191821.Google ScholarPubMed
Allebeck, P. & Wistedt, B. (1986) Mortality in schizophrenia. A ten-year follow-up based on the Stockholm County inpatient register. Archives of General Psychiatry, 43, 650653.CrossRefGoogle ScholarPubMed
Allison, D. B. & Casey, D. E. (2001) Antipsychotic-induced weight gain: a review of the literature. Journal of Clinical Psychiatry, 62, 2231.Google ScholarPubMed
Allison, D. B., Mentore, J. L., Heo, M., et al (1999) Antipsychotic-induced weight gain: a comprehensive research synthesis. American Journal of Psychiatry, 156, 16861696.CrossRefGoogle ScholarPubMed
Andersson, C., Hamer, R. M., Lawler, C. P., et al (2002) Striatal volume changes in the rat following long-term administration of typical and atypical antipsychotic drugs. Neuropsychopharmacology, 27, 143151.CrossRefGoogle ScholarPubMed
Baldessarini, R. J., Katz, B. & Cotton, P. (1984) Dissimilar dosing with high-potency and low-potency neuroleptics. American Journal of Psychiatry, 141, 748752.Google ScholarPubMed
Baldessarini, R. J., Cohen, B. M. & Teicher, M. H. (1988) Significance of neuroleptic dose and plasma level in the pharmacological treatment of psychoses. Archives of General Psychiatry, 45, 7991.CrossRefGoogle ScholarPubMed
Baptista, T. (2002) Atypical antipsychotic drugs and glucose dysregulation. Canadian Journal of Psychiatry, 47, 9496.Google ScholarPubMed
Beasley, C. M., Dellva, M. A., Tamura, R. N., et al (1999) Randomised double-blind comparison of the incidence of tardive dyskinesia in patients with schizophrenia during long-term treatment with olanzapine or haloperidol. British Journal of Psychiatry, 174, 2330.CrossRefGoogle ScholarPubMed
Bollini, P., Pampallona, S., Orza, M. J., et al (1994) Antipsychotic drugs: is more worse? A meta-analysis of the published randomized control trials. Psychological Medicine, 24, 307316.CrossRefGoogle ScholarPubMed
Brenner, H. D., Dencker, S. J., Goldstein, M. J., et al (1990) Defining treatment refractoriness in schizophrenia. Schizophrenia Bulletin, 16, 551561.CrossRefGoogle ScholarPubMed
Brown, S., Inskip, H. & Barraclough, B. (2000) Causes of the excess mortality of schizophrenia. British Journal of Psychiatry, 177, 212217.CrossRefGoogle ScholarPubMed
Buckley, P. F. (1999) New antipsychotic agents: emerging clinical profiles. Journal of Clinical Psychiatry, 60, 1217.Google ScholarPubMed
Cannon, T. D., Huttunen, M. O., Dahlstrom, M., et al (2002) Antipsychotic drug treatment in the prodromal phase of schizophrenia. American Journal of Psychiatry, 159, 12301232.CrossRefGoogle ScholarPubMed
Carpenter, W. T. Jr (2001) Evidence-based treatment for first-episode schizophrenia? American Journal of Psychiatry, 158, 17711773.CrossRefGoogle ScholarPubMed
Carpenter, W. T. Jr & Gold, J. M. (2002) Another view of therapy for cognition in schizophrenia. Biological Psychiatry, 51, 969971.CrossRefGoogle ScholarPubMed
Casey, D. E. (1996) Side effect profiles of new antipsychotic agents. Journal of Clinical Psychiatry, 57, 4045.Google ScholarPubMed
Censits, D. M., Ragland, J. D., Gur, R. C., et al (1997) Neuropsychological evidence supporting a neurodevelopmental model of schizophrenia: a longitudinal study. Schizophrenia Research, 24, 289298.CrossRefGoogle ScholarPubMed
Chakos, M. H., Lieberman, J. A., Alvir, J., et al (1995) Caudate nuclei volumes in schizophrenic patients treated with typical antipsychotics or clozapine. Lancet, 345, 456457.CrossRefGoogle ScholarPubMed
Coppens, H. J., Slooff, C. J., Paans, A. M., et al (1991) High central D2-dopamine receptor occupancy as assessedwith positron emission tomography in medicated but therapy-resistant schizophrenic patients. Biological Psychiatry, 29, 629634.CrossRefGoogle Scholar
Cornblatt, B., Lencz, T., Correll, C., et al (2002) Treating the prodrome: naturalistic findings from the RAP program. Acta Psychiatrica Scandinavica, 106, 44.Google Scholar
Craig, T. J., Bromet, E. J., Fennig, S., et al (2000) Is there an association between duration of untreated psychosis and 24-month clinical outcome in a first-admission series? American Journal of Psychiatry, 157, 6066.CrossRefGoogle Scholar
Creese, I., Burt, D. R. & Snyder, S. H. (1976) Dopamine receptor binding predicts clinical and pharmacological potencies of antischizophrenic drugs. Science, 192, 481483.CrossRefGoogle ScholarPubMed
Crow, T. J., MacMillan, J. F., Johnson, A. L., et al (1986) A randomised controlled trial of prophylactic neuroleptic treatment. British Journal of Psychiatry, 148, 120127.CrossRefGoogle ScholarPubMed
Cunningham Owens, D. (1996) Adverse effects of antipsychotic agents: do newer agents offer advantages? Drugs, 51, 895930.CrossRefGoogle Scholar
Dolder, C. R. & Jeste, D. V. (2003) Incidence of tardive dyskinesia with typical versus atypical antipsychotics in very high risk patients. Biological Psychiatry, 53, 11421145.CrossRefGoogle ScholarPubMed
Emsley, R. A. & The Risperidone Working Group (1999) Risperidone in the treatment of first-episode psychotic patients: a double-blind multicenter study. Schizophrenia Bulletin, 25, 721729.CrossRefGoogle Scholar
Farde, L., Nordstrom, A. L., Wiesel, F. A., et al (1992) Positron emission tomographic analysis of central D1 and D2 dopamine receptor occupancy in patients treated with classical neuroleptics and clozapine. Archives of General Psychiatry, 49, 538544.CrossRefGoogle ScholarPubMed
Felker, B., Yazel, J. J. & Short, D. (1996) Mortality and medical comorbidity among psychiatric patients: a review. Psychiatric Services, 47, 13561363.Google ScholarPubMed
Finlay, J. M. (2001) Mesoprefrontal dopamine neurons and schizophrenia: role of developmental abnormalities. Schizophrenia Bulletin, 27, 431442.CrossRefGoogle ScholarPubMed
Fleischhacker, W. W. & Hummer, M. (1997) Drug treatment of schizophrenia in the 1990s. Achievements and future possibilities in optimising outcomes. Drugs, 53, 915929.CrossRefGoogle ScholarPubMed
Frances, A., Docherty, J. P. & Kahn, D. A. (1998) Treatment of schizophrenia. The Expert Consensus Guideline Series. Journal of Clinical Psychiatry, 57 (suppl. 12B), s1s57.Google Scholar
Geddes, J., Freemantle, N., Harrison, P., et al (2000) Atypical antipsychotics in the treatment of schizophrenia: systematic overview and meta-regression analysis. BMJ, 321, 13711376.CrossRefGoogle ScholarPubMed
Gitlin, M., Nuechterlein, K., Subotnik, K. L., et al (2001) Clinical outcome following neuroleptic discontinuation in patients with remitted recent-onset schizophrenia. American Journal of Psychiatry, 158, 18351842.CrossRefGoogle ScholarPubMed
Glassman, A. H. & Bigger, J. T. Jr (2001) Antipsychotic drugs: prolonged QTc interval, torsade de pointes, and sudden death. American Journal of Psychiatry, 158, 17741782.CrossRefGoogle ScholarPubMed
Glazer, W. M., Morgenstern, H. & Doucette, J. T. (1993) Predicting the long-term risk of tardive dyskinesia in outpatients maintained on neuroleptic medications. Journal of Clinical Psychiatry, 54, 133139.Google ScholarPubMed
Haas, G. L. & Sweeney, J. A. (1992) Premorbid and onset features of first-episode schizophrenia. Schizophrenia Bulletin, 18, 373386.CrossRefGoogle ScholarPubMed
Hafner, H. & an der Heiden, W. (1997) Epidemiology of schizophrenia. Canadian Journal of Psychiatry, 42, 139151.CrossRefGoogle ScholarPubMed
Henderson, D. C. (2002) Atypical antipsychotic-induced diabetes mellitus: how strong is the evidence? CNS Drugs, 16, 7789.CrossRefGoogle ScholarPubMed
Ho, B. C., Andreasen, N. C., Flaum, M., et al (2000) Untreated initial psychosis: its relation to quality of life and symptom remission in first-episode schizophrenia. American Journal of Psychiatry, 157, 808815.CrossRefGoogle ScholarPubMed
Ho, B. C., Alicata, D., Ward, J., et al (2003) Untreated initial psychosis: relation to cognitive deficits and brain morphology in first-episode schizophrenia. American Journal of Psychiatry, 160, 142148.CrossRefGoogle ScholarPubMed
Hoff, A. L., Sakuma, M., Razi, K., et al (2000) Lack of association between duration of untreated illness and severity of cognitive and structural brain deficits at the first episode of schizophrenia. American Journal of Psychiatry, 157, 18241828.CrossRefGoogle ScholarPubMed
Jeste, D. V., Lacro, J. P., Bailey, A., et al (1999a) Lower incidence of tardive dyskinesia with risperidone compared with haloperidol in older patients. Journal of the American Geriatric Society, 47, 716719.CrossRefGoogle ScholarPubMed
Jeste, D. V., Lacro, J. P., Palmer, B., et al (1999b) Incidence of tardive dyskinesia in early stages of low-dose treatment with typical neuroleptics in older patients. American Journal of Psychiatry, 156, 309311.CrossRefGoogle ScholarPubMed
Jeste, D. V., Okamoto, A., Napolitano, J., et al (2000) Low incidence of persistent tardive dyskinesia in elderly patients with dementia treated with risperidone. American Journal of Psychiatry, 157, 11501155.CrossRefGoogle ScholarPubMed
Kane, J. M., Rifkin, A., Quitkin, F., et al (1982) Fluphenazine vs placebo in patients with remitted, acute first-episode schizophrenia. Archives of General Psychiatry, 39, 7073.CrossRefGoogle ScholarPubMed
Kapur, S. & Remington, G. (2000) Atypical antipsychotics. BMJ, 321, 13601361.CrossRefGoogle ScholarPubMed
Kapur, S. & Seeman, P. (2000) Antipsychotic agents differ in how fast they come off the dopamine D2 receptors. Implications for atypical antipsychotic action. Journal of Psychiatry & Neuroscience, 25, 161166.Google ScholarPubMed
Kapur, S., Remington, G., Jones, C., et al (1996) High levels of dopamine D2 receptor occupancy with low-dose haloperidol treatment: a PET study. American Journal of Psychiatry, 153, 948950.Google ScholarPubMed
Kapur, S., Zipursky, R., Roy, P., et al (1997) The relationship between D2 receptor occupancy and plasma levels on low dose oral haloperidol: a PET study. Psychopharmacology, 131, 148152.CrossRefGoogle ScholarPubMed
Kapur, S., Remington, G. J., Jones, C., et al (1999) Does dopamine D2 occupancy predict antipsychotic response and side effects? A randomised double-blind test of the hypothesis. Schizophrenia Research, 36, 242.Google Scholar
Kissling, W. E. (1991) Guidelines for Neuroleptic Relapse Prevention in Schizophrenia. Berlin: Springer.CrossRefGoogle Scholar
Lambert, T., Keks, N., McGrath, J., et al (1995) Remoxipride versus thioridazine in the treatment of first episodes of schizophrenia in drug-naive patients: a case for specific, low potency D2 antagonists. Human Psychopharmacology, 10, 455460.CrossRefGoogle Scholar
Leucht, S., Pitschel-Walz, G., Abraham, D., et al (1999) Efficacy and extrapyramidal side-effects of the new antipsychotics olanzapine, quetiapine, risperidone, and sertindole compared to conventional antipsychotics and placebo. A meta-analysis of randomized controlled trials. Schizophrenia Research, 35, 5168.CrossRefGoogle ScholarPubMed
Lieberman, J., Jody, D., Geisler, S., et al (1993) Time course and biologic correlates of treatment response in first-episode schizophrenia. Archives of General Psychiatry, 50, 369376.CrossRefGoogle ScholarPubMed
Lieberman, J. A. (1999) Is schizophrenia a neurodegenerative disorder? Aclinical and neurobiological perspective. Biological Psychiatry, 46, 729739.CrossRefGoogle Scholar
Lieberman, J. A., Koreen, A. R., Chakos, M., et al (1996) Factors influencing treatment response and outcome of first-episode schizophrenia: implications for understanding the pathophysiology of schizophrenia. Journal of Clinical Psychiatry, 57, 59.Google ScholarPubMed
Lieberman, J. A., Phillips, M., Gu, H., et al (2003) Atypical and conventional antipsychotic drugs in treatment-naive first-episode schizophrenia: a 52-week randomized trial of clozapine vs chlorpromazine. Neuropsychopharmacology 28, 9951003.CrossRefGoogle ScholarPubMed
Lindenmayer, J. P., Czobor, P., Volavka, J., et al (2003) Changes in glucose and cholesterol levels in patients with schizophrenia treated with typical or atypical antipsychotics. American Journal of Psychiatry, 160, 290296.CrossRefGoogle ScholarPubMed
Loebel, A. D., Lieberman, J. A., Alvir, J. M., et al (1992) Duration of psychosis and outcome in first-episode schizophrenia. American Journal of Psychiatry, 149, 11831188.Google ScholarPubMed
McEvoy, J. P. (1986) The neuroleptic threshold as a marker of minimum effective neuroleptic dose. Comprehensive Psychiatry, 27, 327335.CrossRefGoogle ScholarPubMed
McEvoy, J. P., Hogarty, G. E. & Steingard, S. (1991) Optimal dose of neuroleptic in acute schizophrenia. A controlled study of the neuroleptic threshold and higher haloperidol dose. Archives of General Psychiatry, 48, 739745.CrossRefGoogle ScholarPubMed
McGorry, P. D., Phillips, L. J., Yung, A. R., et al (2000) A randomised controlled trial of interventions in the pre-psychotic phase of psychotic disorders. Schizophrenia Research, 41, 9.CrossRefGoogle Scholar
McGorry, P. D., Harrigan, S. M., Amminger, P., et al (2001) Untreated initial psychosis. American Journal of Psychiatry, 158, 11611163.CrossRefGoogle ScholarPubMed
Meltzer, H. Y. (1989) Duration of a clozapine trial in neuroleptic-resistant schizophrenia. Archives of General Psychiatry, 46, 672.CrossRefGoogle ScholarPubMed
Meyer, J. M. (2001) Novel antipsychotics and severe hyperlipidemia. Journal of Clinical Psychopharmacology, 21, 369374.CrossRefGoogle ScholarPubMed
Mir, S. & Taylor, D. (2001) Atypical antipsychotics and hyperglycaemia. International Clinical Psychopharmacology, 16, 6373.CrossRefGoogle ScholarPubMed
Mojtabai, R., Lavelle, J., Gibson, P. J., et al (2002) Gaps in use of antipsychotics after discharge by first-admission patients with schizophrenia, 1989 to 1996. Psychiatric Services, 53, 337339.CrossRefGoogle ScholarPubMed
Morgenstern, H. & Glazer, W. M. (1993) Identifying risk factors for tardive dyskinesia among long-term outpatients maintained with neuroleptic medications. Archives of General Psychiatry, 50, 723733.CrossRefGoogle ScholarPubMed
Mortensen, P. B. & Juel, K. (1993) Mortality and causes of death in first admitted schizophrenic patients. British Journal of Psychiatry, 163, 183189.CrossRefGoogle ScholarPubMed
Nasrallah, H. (2003) A review of the effect of atypical antipsychotics on weight. Psychoneuroendocrinology 28 (suppl. 1), s83s96.CrossRefGoogle ScholarPubMed
Nordstrom, A. L., Farde, L., Wiesel, F. A., et al (1993) Central D2-dopamine receptor occupancy in relation to antipsychotic drug effects: a double-blind PET study of schizophrenic patients. Biological Psychiatry, 33, 227235.CrossRefGoogle ScholarPubMed
Oosthuizen, P., Emsley, R. A., Maritz, J. S., et al (2003) Treatment with low-dose haloperidol does not protect against tardive dyskinesia. Schizophrenia Research, 60 (suppl) s364.CrossRefGoogle Scholar
Osby, U., Correia, N., Brandt, L., et al (2000) Mortality and causes of death in schizophrenia in Stockholm county, Sweden. Schizophrenia Research, 45, 2128.CrossRefGoogle ScholarPubMed
Peacock, L., Solgaard, T., Lublin, H., et al (1996) Clozapine versus typical antipsychotics. A retro- and prospective study of extrapyramidal side effects. Psychopharmacology, 124, 188196.CrossRefGoogle ScholarPubMed
Pelosi, A. J. & Birchwood, M. (2003) Is early intervention for psychosis a waste of valuable resources? British Journal of Psychiatry, 182, 196198.CrossRefGoogle ScholarPubMed
Pilowsky, L. S., Costa, D. C., Ell, P. J., et al (1993) Antipsychotic medication, D2 dopamine receptor blockade and clinical response: a [1231] IBZM SPET study. Psychological Medicine, 23, 791797.CrossRefGoogle Scholar
Remington, G. (2003) Understanding antipsychotic ‘atypicality’: a clinical and pharmacological moving target. Journal of Psychiatry & Neuroscience, 28, 275284.Google ScholarPubMed
Remington, G. & Kapur, S. (2000) Atypical antipsychotics: are some more atypical than others? Psychopharmacology, 148, 315.CrossRefGoogle ScholarPubMed
Remington, G., Kapur, S. & Zipursky, R. B. (1998) Pharmacotherapy of first-episode schizophrenia. British Journal of Psychiatry, 172 (suppl. 33): 6670.CrossRefGoogle ScholarPubMed
Remington, G., Kapur, S. & Zipursky, R. B. (2000) Antipsychotic use in first-episode psychosis. Primary Psychiatry, 7, 5862.Google Scholar
Remington, G., Kapur, S., Zipursky, R. B. (2001a) Pharmacotherapy of first episode psychosis. In Early Intervention In Psychotic Disorders (eds Miller, T., Sarnoff, A., McGlashan, T. H., Libiger, J. & Johannessen, J. O.), pp. 167180. London: Kluwer.CrossRefGoogle Scholar
Remington, G. J., Kapur, S., Shammi, C., et al (2001b) ‘Extended’ dosing as an alternative to ‘intermittent’ or targeted' antipsychotic therapy: rationale and pilot study. Schizophrenia Research, 49, 243.Google Scholar
Robinson, D. G., Woerner, M. G., Alvir, J. M., et al (1999a) Predictors of relapse following response from a first episode of schizophrenia or schizoaffective disorder. Archives of General Psychiatry, 56, 241247.CrossRefGoogle ScholarPubMed
Robinson, D. G., Woerner, M. G., Alvir, J. M., et al (1999b) Predictors of treatment response from a first episode of schizophrenia or schizoaffective disorder. American Journal of Psychiatry, 156, 544549.CrossRefGoogle ScholarPubMed
Robinson, D. G., Woerner, M. G. & McMeniman, M. (2003) Recovery in first episode schizophrenia. Schizophrenia Research, 60 (suppl.), s301.CrossRefGoogle Scholar
Sanger, T. M., Lieberman, J. A., Tohen, M., et al (1999) Olanzapine versus haloperidol treatmentin first-episode psychosis. American Journal of Psychiatry, 156, 7987.CrossRefGoogle Scholar
Schroder, J., Silvestri, S., Bubeck, B., et al (1998) D2 dopamine receptor up-regulation, treatment response, neurological soft signs, and extrapyramidal side effects in schizophrenia. Biological Psychiatry, 43, 660665.CrossRefGoogle ScholarPubMed
Scully, P. J., Coakley, G., Kinsella, A., et al (1997) Psychopathology, executive (frontal) and general cognitive impairment in relation to duration of initially untreated versus subsequently treated psychosis in chronic schizophrenia. Psychological Medicine, 27, 13031310.CrossRefGoogle ScholarPubMed
Seeman, P., Bzowej, N. H., Guan, H. C., et al (1987) Human brain dopamine receptors in children and aging adults. Synapse, 1, 399404.CrossRefGoogle ScholarPubMed
Seeman, P. & Tallerico, T. (1999) Rapid release of antipsychotic drugs from dopamine D2 receptors: an explanation for low receptor occupancy and early clinical relapse upon withdrawal of clozapine or quetiapine. American Journal of Psychiatry, 156, 876884.CrossRefGoogle ScholarPubMed
Seeman, P., Lee, T., Chau-Wong, M., et al (1976) Antipsychotic drug doses and neuroleptic/dopamine receptors. Nature, 261, 717719.CrossRefGoogle ScholarPubMed
Silvestri, S., Seeman, M. V., Negrete, J. C., et al (2000) Increased dopamine D2 receptor binding after long-term treatment with antipsychotics in humans: a clinical PET study. Psychopharmacology, 152, 174180.CrossRefGoogle ScholarPubMed
Smith, R. C., Chua, J. W., Lipetsker, B., et al (1996) Efficacy of risperidone in reducing positive and negative symptoms in medication-refractory schizophrenia: an open prospective study. Journal of Clinical Psychiatry, 57, 460466.CrossRefGoogle ScholarPubMed
Stip, E. (2000) Novel antipsychotics: issues and controversies. Typicality of atypical antipsychotics. Journal of Psychiatry & Neuroscience, 25, 137153.Google ScholarPubMed
Tamminga, C. A. (1997) The promise of new drugs for schizophrenia treatment. Canadian Journal of Psychiatry, 42, 265273.CrossRefGoogle ScholarPubMed
Taylor, D. M. (2003) Antipsychotics and QT prolongation. Acta Psychiatrica Scandinavica, 107, 8595.CrossRefGoogle ScholarPubMed
Tohen, M., Stoll, A. L., Strakowski, S. M., et al (1992) The McLean First-Episode Psychosis Project: six-month recovery and recurrence outcome. Schizophrenia Bulletin, 18, 273282.CrossRefGoogle ScholarPubMed
Tollefson, G. D., Beasley, C. M. Jr., Tamura, R. N., et al (1997) Blind, controlled, long-term study of the comparative incidence of treatment-emergent tardive dyskinesia with olanzapine or haloperidol. American Journal of Psychiatry, 154, 12481254.Google ScholarPubMed
Umbricht, D. & Kane, J. M. (1996) Medical complications of new antipsychotic drugs. Schizophrenia Bulletin, 22, 475483.CrossRefGoogle ScholarPubMed
Waddington, J. L. & O'Callaghan, E. (1997) What makes an antipsychotic ‘atypical’? CNS Drugs, 7, 341346.CrossRefGoogle Scholar
Weinberger, D. R. (2002) Schizophrenia, the prefrontal cortex, and a mechanism of genetic susceptibility. European Psychiatry, 17 (suppl. 4), s355s362.CrossRefGoogle Scholar
Wilson, W. H. (1996) Time required for initial improvement during clozapine treatment of refractory schizophrenia. American Journal of Psychiatry, 153, 951952.Google ScholarPubMed
Wirshing, D. A., Spellberg, B. J., Erhart, S. M., et al (1998) Novel antipsychotics and new onset diabetes. Biological Psychiatry, 44, 778783.CrossRefGoogle ScholarPubMed
Wirshing, D. A., Wirshing, W. C., Kysar, L., et al (1999) Novel antipsychotics: comparison of weight gain liabilities. Journal of Clinical Psychiatry, 60, 358363.CrossRefGoogle ScholarPubMed
Wirshing, D. A., Boyd, J. A., Meng, L. R., et al (2002) The effects of novel antipsychotics on glucose and lipid levels. Journal of Clinical Psychiatry, 63, 856865.CrossRefGoogle ScholarPubMed
Woerner, M. G., Alvir, J. M., Saltz, B. L., et al (1998) Prospective study of tardive dyskinesia in the elderly: rates and risk factors. American Journal of Psychiatry, 155, 15211528.CrossRefGoogle ScholarPubMed
Wolkin, A., Barouche, F., Wolf, A. P., et al (1989) Dopamine blockade and clinical response: evidence for two biological subgroups of schizophrenia. American Journal of Psychiatry, 146, 905908.Google ScholarPubMed
Woods, S., Brier, A., Zipursky, R., et al (2003) Randomized trial of olanzapine versus placebo in the symptomatic treatment of the schizophrenic prodrome. Biological Psychiatry, 54, 453464.CrossRefGoogle ScholarPubMed
Wyatt, R. J. (1995) Early intervention for schizophrenia: can the course of the illness be altered? Biological Psychiatry, 38, 13.CrossRefGoogle ScholarPubMed
Wyatt, R. J., Green, M. F. & Tuma, A. H. (1997) Long-term morbidity associated with delayed treatment of first admission schizophrenic patients: a re-analysis of the Camarillo State Hospital data. Psychological Medicine, 27, 261268.CrossRefGoogle ScholarPubMed
Zhang-Wong, J., Zipursky, R. B., Beiser, M., et al (1999) Optimal haloperidol dosage in first-episode psychosis. Canadian Journal of Psychiatry, 44, 164167.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 Published, double-blind controlled trials in first-episode psychosis

Figure 1

Table 2 Dose equivalents (mg) for different antipsychotics

Submit a response

eLetters

No eLetters have been published for this article.