Withdrawal-emergent dyskinesia in patients with schizophrenia during antipsychotic discontinuation

Current strategies for tapering psychiatric drugs: Differing recommendations, impractical doses, and other barriers

While effective ways to prevent withdrawal symptoms from psychiatric drugs remain unclear, a highly accepted clinical approach for treatment discontinuation is to gradually reduce doses over time. The objective of this review is to gather the current strategies for tapering of psychiatric drugs described in the literature and guidelines in an attempt to identify the most promising one. Literature review and search for practice guidelines provided by government agencies and medical organizations were performed. Different strategies for tapering were found: linear tapering, hyperbolic tapering (by exponential dose reduction and pre-established dose-response curves), extended dosing, and substitution for a long half-life drug. The use of guidelines offers support for patients and prescribers, increasing the likelihood of achieving effective drug discontinuation. Nevertheless, the lack of standardization found among the guidelines makes any attempt to reduce or stop the drug very difficult for prescribers. Hyperbolic tapering by exponential dose reduction appears to be the most promising strategy for psychiatric drug discontinuation. Yet, we still face a constant challenge: how to safely obtain flexible doses for the discontinuation of drugs, particularly during the last steps in which lower doses are required. Further studies are needed to reduce the barriers associated with psychiatric drug discontinuation.

Treatable Hyperkinetic Movement Disorders Not to Be Missed

Hyperkinetic movement disorders are characterized by the presence of abnormal involuntary movements, comprising most notably dystonia, chorea, myoclonus, and tremor. Possible causes are numerous, including autoimmune disorders, infections of the central nervous system, metabolic disturbances, genetic diseases, drug-related causes and functional disorders, making the diagnostic process difficult for clinicians. Some diagnoses may be delayed without serious consequences, but diagnosis delays may prove detrimental in treatable disorders, ranging from functional disabilities, as in dopa-responsive dystonia, to death, as in Whipple's disease. In this review, we focus on treatable disorders that may present with prominent hyperkinetic movement disorders.

A Method for Tapering Antipsychotic Treatment That May Minimize the Risk of Relapse

The process of stopping antipsychotics may be causally related to relapse, potentially linked to neuroadaptations that persist after cessation, including dopaminergic hypersensitivity. Therefore, the risk of relapse on cessation of antipsychotics may be minimized by more gradual tapering. There is converging evidence that suggests that adaptations to antipsychotic exposure can persist for months or years after stopping the medication-from animal studies, observation of tardive dyskinesia in patients, and the clustering of relapses in this time period after the cessation of antipsychotics. Furthermore, PET imaging demonstrates a hyperbolic relationship between doses of antipsychotic and D2 receptor blockade. We, therefore, suggest that when antipsychotics are reduced, it should be done gradually (over months or years) and in a hyperbolic manner (to reduce D2 blockade "evenly"): ie, reducing by one quarter (or one half) of the most recent dose of antipsychotic, equivalent approximately to a reduction of 5 (or 10) percentage points of its D2 blockade, sequentially (so that reductions become smaller and smaller in size as total dose decreases), at intervals of 3-6 months, titrated to individual tolerance. Some patients may prefer to taper at 10% or less of their most recent dose each month. This process might allow underlying adaptations time to resolve, possibly reducing the risk of relapse on discontinuation. Final doses before complete cessation may need to be as small as 1/40th a therapeutic dose to prevent a large decrease in D2 blockade when stopped. This proposal should be tested in randomized controlled trials.

Movement disorders in psychiatric patients

The observability of movement gives it advantages when trying to draw connections between brain and mind. Disturbed motor function pervades schizophrenia, though it is difficult now to subtract the effects of antipsychotic treatment. There is evidence from patients never exposed to these drugs that dyskinesia and even parkinsonism are to some degree innate to schizophrenia. Tardive dyskinesia and drug-induced parkinsonism are the most common movement disorders encountered in psychiatric practice. While D2 dopamine receptor blockade is a causative factor, both conditions defy straightforward neurochemical explanation. Balanced against the need to manage schizophrenic symptoms, neither prevention nor treatment is easy. Of all disorders classified as psychiatric, catatonia sits closest to organic neurology on the neuropsychiatric spectrum. Not only does it occur in the setting of unequivocally organic cerebral disease, but the alterations of consciousness it produces have ‘organic’ qualities even when the cause is psychiatric. No longer considered a subtype of schizophrenia, catatonia is defined by syndromic features based on motor phenomenology. Both severe depression and obsessive-compulsive disorder may be associated with ‘soft’ extrapyramidal signs that resemble parkinsonian bradykinesia. As functional neuroimaging studies suggest, movement and psychiatric disorders involve the same network connections between the basal ganglia and the cerebral cortex.

Dependence, withdrawal and rebound of CNS drugs: an update and regulatory considerations for new drugs development

The purpose of this article is to describe dependence and withdrawal phenomena related to CNS drugs discontinuation and to clarify issues related to the evaluation of clinical drug withdrawal and rebound as they relate to safety in new drug development. The article presents current understanding and definitions of drug dependence and withdrawal which are also relevant and important features of addiction, though not the same. Addiction, called substance use disorder in DSM-5, affects an individual’s brain and behaviour, represents uncontrollable drug abuse and inability to stop taking a drug regardless of the harm it causes. Characteristic withdrawal syndromes following abrupt discontinuation of CNS-active drugs from numerous drug classes are described. These include drugs both scheduled and non-scheduled in the Controlled Substances Act, which categorizes drugs in five schedules based on their relative abuse potentials and dependence liabilities and for regulatory purposes. Schedules 1 and 2 contain drugs identified as those with the highest abuse potential and strictest regulations. Less recognized aspects of drug withdrawal, such as rebound and protracted withdrawal syndromes for several drug classes are also addressed. Part I presents relevant definitions and describes clinical withdrawal and dependence phenomena. Part II reviews known withdrawal syndromes for the different drug classes, Part III describes rebound and Part IV describes protracted withdrawal syndromes. To our knowledge, this is the first compilation of withdrawal syndromes for CNS drugs. Part V provides details of evaluation of dependence and withdrawal in the clinical trials for CNS drugs, which includes general design recommendations, and several tools, such as withdrawal questionnaires and multiple scales that are helpful in the systematic evaluation of withdrawal. The limitations of different aspects of this method of dependence and withdrawal evaluation are also discussed.

Acute dyskinesia in a patient with schizophrenia

A case of acute dyskinesia in a 42-year-old man with a history of cocaine use and schizophrenia is described. He had discontinued clozapine approximately 1 month before presenting to the emergency department displaying signs of psychosis, with generalised choreiform and dystonic movements. Urinary toxicology was positive for cocaine. Clozapine treatment was reinitiated, and within 2 weeks the dyskinesia had subsided. Review of his records revealed two previous episodes of similar dyskinesia, both of which were temporally associated with cocaine use. Dyskinesia occurring in the context of cocaine use, and clozapine withdrawal-associated dyskinesia were considered to be the main differential diagnoses. A range of differential diagnoses should be considered in patients presenting with an acute-onset movement disorder who have a history of long-term exposure to antipsychotic medication.

Antipsychotic reduction and/or cessation and antipsychotics as specific treatments for tardive dyskinesia

BACKGROUND

Since the 1950s antipsychotic medication has been extensively used to treat people with chronic mental illnesses such as schizophrenia. These drugs, however, have also been associated with a wide range of adverse effects, including movement disorders such as tardive dyskinesia (TD) - a problem often seen as repetitive involuntary movements around the mouth and face. Various strategies have been examined to reduce a person's cumulative exposure to antipsychotics. These strategies include dose reduction, intermittent dosing strategies such as drug holidays, and antipsychotic cessation.

OBJECTIVES

To determine whether a reduction or cessation of antipsychotic drugs is associated with a reduction in TD for people with schizophrenia (or other chronic mental illnesses) who have existing TD. Our secondary objective was to determine whether the use of specific antipsychotics for similar groups of people could be a treatment for TD that was already established.

SEARCH METHODS

We updated previous searches of Cochrane Schizophrenia's study-based Register of Trials including the registers of clinical trials (16 July 2015 and 26 April 2017). We searched references of all identified studies for further trial citations. We also contacted authors of trials for additional information.

SELECTION CRITERIA

We included reports if they assessed people with schizophrenia or other chronic mental illnesses who had established antipsychotic-induced TD, and had been randomly allocated to (a) antipsychotic maintenance versus antipsychotic cessation (placebo or no intervention), (b) antipsychotic maintenance versus antipsychotic reduction (including intermittent strategies), (c) specific antipsychotics for the treatment of TD versus placebo or no intervention, and (d) specific antipsychotics versus other antipsychotics or versus any other drugs for the treatment of TD.

DATA COLLECTION AND ANALYSIS

We independently extracted data from these trials and estimated risk ratios (RR) or mean differences (MD), with 95% confidence intervals (CI). We assumed that people who dropped out had no improvement.

MAIN RESULTS

We included 13 RCTs with 711 participants; eight of these studies were newly included in this 2017 update. One trial is ongoing.There was low-quality evidence of a clear difference on no clinically important improvement in TD favouring switch to risperidone compared with antipsychotic cessation (with placebo) (1 RCT, 42 people, RR 0.45 CI 0.23 to 0.89, low-quality evidence). Because evidence was of very low quality for antipsychotic dose reduction versus antipsychotic maintenance (2 RCTs, 17 people, RR 0.42 95% CI 0.17 to 1.04, very low-quality evidence), and for switch to a new antipsychotic versus switch to another new antipsychotic (5 comparisons, 5 RCTs, 140 people, no meta-analysis, effects for all comparisons equivocal), we are uncertain about these effects. There was low-quality evidence of a significant difference on extrapyramidal symptoms: use of antiparkinsonism medication favouring switch to quetiapine compared with switch to haloperidol (1 RCT, 45 people, RR 0.45 CI 0.21 to 0.96, low-quality evidence). There was no evidence of a difference for switch to risperidone or haloperidol compared with antipsychotic cessation (with placebo) (RR 1 RCT, 48 people, RR 2.08 95% CI 0.74 to 5.86, low-quality evidence) and switch to risperidone compared with switch to haloperidol (RR 1 RCT, 37 people, RR 0.68 95% CI 0.34 to 1.35, very low-quality evidence).Trials also reported on secondary outcomes such as other TD symptom outcomes, other adverse events outcomes, mental state, and leaving the study early, but the quality of the evidence for all these outcomes was very low due mainly to small sample sizes, very wide 95% CIs, and risk of bias. No trials reported on social confidence, social inclusion, social networks, or personalised quality of life, outcomes that we designated as being important to patients.

AUTHORS' CONCLUSIONS

Limited data from small studies using antipsychotic reduction or specific antipsychotic drugs as treatments for TD did not provide any convincing evidence of the value of these approaches. There is a need for larger trials of a longer duration to fully investigate this area.

Clinical risk factors for the development of tardive dyskinesia

BACKGROUND

Tardive dyskinesia (TD) is a severe condition that can affect almost 1 out of 4 patients on current or previous antipsychotic treatment, including both first-generation antipsychotics (FGAs) and second-generation antipsychotics (SGAs). While two novel vesicular monoamine transporter inhibitors, deutetrabenazine and valbenazine, have shown acute efficacy for TD, the majority of patients do not remit, and TD appears to recur once treatment is withdrawn. Hence, prevention of TD remains a crucial goal.

METHODS

We provide a clinically oriented overview of risk factors for TD, dividing them into patient-, illness- and treatment-related variables, as well as nonmodifiable and modifiable factors.

RESULTS

Unmodifiable patient-related and illness-related risk factors for TD include older age, female sex, white and African descent, longer illness duration, intellectual disability and brain damage, negative symptoms in schizophrenia, mood disorders, cognitive symptoms in mood disorders, and gene polymorphisms involving antipsychotic metabolism and dopamine functioning. Modifiable comorbidity-related and treatment-related factors include diabetes, smoking, and alcohol and substance abuse, FGA vs SGA treatment, higher cumulative and current antipsychotic dose or antipsychotic plasma levels, early parkinsonian side effects, anticholinergic co-treatment, akathisia, and emergent dyskinesia.

DISCUSSION

Clinicians using dopamine antagonists need to consider risk factors for TD to minimize TD and its consequences.

Amisulpride withdrawal dyskinesia: a case report

BACKGROUND

The effects of antipsychotic drug withdrawal have been inadequately studied. Case reports have described dyskinesia occurring in patients with several antipsychotics withdrawn, but studies on amisulpride withdrawal dyskinesia are lacking.

CASE PRESENTATION

A 63-year-old man, who was diagnosed with schizophrenia at age 49, received amisulpride treatment since age 62. The dosage of amisulpride was reduced from 200 to 50 mg/day because of occurrence of akathisia during one admission. Severe withdrawal dyskinesia, mixed with dystonia and akathisia, was noted immediately after the dosage reduction. The abnormal involuntary movement showed improvement 2 weeks later when the dosage was increased to 100 mg/day.

CONCLUSIONS

Withdrawal dyskinesia and other abnormal involuntary movements could be noted in a patient with reduction of amisulpride dosage or sudden termination. Withdrawal dyskinesia may subsequently lead to persistent tardive dyskinesia. Therefore, withdrawal-emergent dyskinesia should be promptly identified, and appropriate medical interventions should be given early.

A case of tardive dyskinesia in the last weeks of life

Tardive dyskinesia (TD) is a chronic and often irreversible movement disorder that usually evolves after years of neuroleptic use but can sometimes develop over a much shorter time frame. Paradoxically, a higher dose of the neuroleptic agent that causes TD can often temporarily suppress the movement disorder. This is generally an inadvisable approach, though, as its effectiveness is probably limited to only a matter of weeks and as it will worsen the problem in the long run. We describe a patient with widely metastatic squamous cell carcinoma of the lung who developed severe TD when treated with chlorpromazine for severe hiccups. As his prognosis was only days to weeks, we were able to effectively suppress his TD with haloperidol. Hospice care emphasizes relief of suffering at the end of life, often at the expense of attention to long-range adverse effects, and this approach may be a viable management strategy for patients with TD and very limited prognosis.

Neuroleptic reduction and/or cessation and neuroleptics as specific treatments for tardive dyskinesia

BACKGROUND

Since the 1950s neuroleptic medication has been extensively used to treat people with chronic mental illnesses such as schizophrenia. These drugs, however, have been also associated with a wide range of adverse effects, including movement disorders such as tardive dyskinesia (TD). Various strategies have been examined to reduce a person's cumulative exposure to neuroleptics. These studies include dose reduction, intermittent dosing strategies such as drug holidays, and neuroleptic cessation.

OBJECTIVES

To determine whether a reduction or cessation of neuroleptic drugs is associated with a reduction in TD, for people with schizophrenia (or other chronic mental illnesses) who have existing TD. Our secondary objective was to determine whether the use of specific neuroleptics for similar groups of people could be a treatment for TD that was already established.

SEARCH STRATEGY

We updated previous searches of the Cochrane Schizophrenia Groups Register (1997), Biological Abstracts (1982-1997), EMBASE (1980-1997), LILACS (1982-1996), MEDLINE (1966-1997), PsycLIT (1974-1997), and SCISEARCH (1997) by searching the Cochrane Schizophrenia Groups Register (July 2003). We searched references of all identified studies for further trial citations. We also contacted the principal authors of trials for further unpublished trials.

SELECTION CRITERIA

We included reports if they assessed people with schizophrenia or other chronic mental illnesses who had established neuroleptic-induced TD, and had been randomly allocated to (a) neuroleptic maintenance versus neuroleptic cessation (placebo or no intervention), (b) neuroleptic maintenance versus neuroleptic reduction (including intermittent strategies), and (c) specific neuroleptics for the treatment of TD versus, placebo or intervention. A post hoc decision was made to broaden comparison (c) to include specific neuroleptics versus other neuroleptics for the treatment of TD.

DATA COLLECTION AND ANALYSIS

We (KSW, JR) independently inspected citations and, where possible, abstracts, ordered papers, and re-inspected and quality assessed these and extracted data. We analysed dichotomous data using random effects relative risk (RR) and estimated the 95% confidence interval (CI). Where possible we calculated the number needed to treat (NNT) or number needed to harm statistic (NNH). We excluded continuous data if more than 50% of people were lost to follow up, but, where possible, we calculated the weighted mean difference (WMD). It was assumed that those leaving the study early showed no improvement.

MAIN RESULTS

We included five trials and excluded 102. One small two week study (n=18), reported on the 'masking' effects of molindone and haloperidol on TD, which favoured haloperidol (RR 3.44 CI 1.1 to 5.8). Two (total n=17) studies found no reduction in TD associated with neuroleptic reduction (RR 0.38 CI 0.1 to 1.0). One study (n=20) found no significant differences in oral dyskinesia (RR 2.45 CI 0.3 to 19.7) when neuroleptics were compared as a specific treatment for TD. Dyskinesia was found to be not significantly different (n=32, RR 0.62 CI 0.3 to 1.26) between quetiapine and haloperidol when these neuroleptics were used as specific treatments for TD, although the need for additional neuroleptics was significantly lower in the quetiapine group (n=47, RR 0.49 CI 0.2 to 1.0) than in those given haloperidol.

AUTHORS' CONCLUSIONS

Limited data from small studies using neuroleptic reduction or specific neuroleptic drugs as treatments for TD did not provide any convincing evidence of the value of these approaches. There is a need for larger trials of a longer duration in order to fully investigate this area.

Oxidative mechanisms and tardive dyskinesia

Tardive dyskinesia has been and continues to be a significant problem associated with long-term antipsychotic use, but its pathophysiology remains unclear. In the last 10 years, preclinical studies of the administration of antipsychotics to animals, as well as clinical studies of oxidative processes in patients given antipsychotic medications, with and without tardive dyskinesia, have continued to support the possibility that neurotoxic free radical production may be an important consequence of antipsychotic treatment, and that such production may relate to the development of dyskinetic phenomena. In line with this hypothesis, evidence has accumulated for the efficacy of antioxidants, primarily vitamin E (alpha-tocopherol), in the treatment and prevention of tardive dyskinesia. Early studies suggested a modest effect of vitamin E treatment on existing tardive dyskinesia, but later studies did not demonstrate a significant effect. Because evidence has continued to accumulate for increased oxidative damage from antipsychotic medications, but less so for the effectiveness of vitamin E, especially in cases of long-standing tardive dyskinesia, alternative antioxidant approaches to the condition may be warranted. These approaches may include the use of antioxidants as a preventive measure for tardive dyskinesia or the use of other antioxidants or neuroprotective drugs, such as melatonin, for established tardive dyskinesia.

Improvement of tardive dyskinesia following switch from neuroleptics to olanzapine

The authors report two cases of schizophrenia in which olanzapine proved to be an efficacious antipsychotic medication associated with the remission of movement disorder.

Neuroleptic reduction and/or cessation and neuroleptics as specific treatments for tardive dyskinesia

BACKGROUND

Since the 1950s neuroleptic medication has been extensively used to treat people with chronic mental illnesses, such as schizophrenia. These drugs, however, have been also associated with a wide range of adverse effects, including movement disorders such as tardive dyskinesia (TD). Various strategies have been examined to reduce a person's cumulative exposure to neuroleptics. These studies include dose reduction, intermittent dosing strategies, such as drug holidays, and neuroleptic cessation.

OBJECTIVES

To determine whether, for those people with both schizophrenia (or other chronic mental illnesses) and tardive dyskinesia (TD), a reduction or cessation of neuroleptic drugs was associated with reduction in TD symptoms. A secondary objective was to determine whether the use of specific neuroleptics for similar groups of people could be a treatment for already established TD.

SEARCH STRATEGY

Electronic searches of Biological Abstracts (1982-1997), Cochrane Schizophrenia Group's Register of trials (1997), EMBASE (1980-1997), LILACS (1982-1996), MEDLINE (1966-1997), PsycLIT (1974-1997), and SCISEARCH (1997) were undertaken. References of all identified studies were searched for further trial citations. Principal authors of trials were contacted.

SELECTION CRITERIA

Reports were included if they assessed the treatment of neuroleptic-induced tardive dyskinesia in people with schizophrenia or other chronic mental illnesses and already established TD, who had been randomly allocated to (a) neuroleptic cessation (placebo or no intervention) versus neuroleptic maintenance; b. neuroleptic reduction (including intermittent strategies) versus neuroleptic maintenance; or c. specific neuroleptics for the treatment of TD versus placebo or no intervention.

DATA COLLECTION AND ANALYSIS

The reviewers extracted the data independently and the Odds Ratio (95% CI) or the average difference (95% CI) were estimated. The reviewers assumed that people who dropped out had no improvement.

MAIN RESULTS

Two trials were able to be included in this review. Sixty two were excluded and 16 are awaiting assessment. Seven trials are still pending classification. No randomised controlled trial-derived data were available to clarify the role of neuroleptics as treatments for TD. This includes the atypical antipsychotics including clozapine. Despite neuroleptic cessation being a frequently first-line recommendation, there were no RCT-derived data to support this. Two studies ( approximately approximately Cookson 1987 approximately approximately , approximately approximately Kane 1983 approximately approximately ) found a reduction in TD associated with neuroleptic reduction.

REVIEWER'S CONCLUSIONS

The lack of evidence to support the efficacy of neuroleptic cessation as a treatment for TD, combined with the accumulating evidence of an increased risk of relapse should antipsychotic drugs be reduced, makes this intervention a hazardous treatment for TD. Dose reduction may offer some benefit as a treatment for TD compared to standard levels of neuroleptic use. There is a need to evaluate the utility of clozapine and the 'atypical' antipsychotics as treatments for established TD.