A 52-Week Study of Olanzapine with a Randomized Behavioral Weight Counseling Intervention in Adolescents with Schizophrenia or Bipolar I Disorder.

OBJECTIVES: To evaluate the 52-week safety/tolerability of oral olanzapine for adolescents with schizophrenia or bipolar mania and compare effectiveness of a standard versus intense behavioral weight intervention in mitigating risk of weight gain. METHODS: Patients 13-17 years old with schizophrenia (Brief Psychiatric Rating Scale for Children [BPRS-C] total score >30; item score ≥3 for hallucinations, delusions, or peculiar fantasies) or bipolar I disorder (manic or mixed episode; Young Mania Rating Scale [YMRS] total score ≥15) received open-label olanzapine (2.5-20 mg/day) and were randomized to standard (n = 102; a single weight counseling session) or intense (n = 101; weight counseling at each study visit) weight intervention. The primary outcome measure was mean change in body mass index (BMI) from baseline to 52 weeks using mixed-model repeated measures. Symptomatology was also assessed. RESULTS: No statistically significant differences between groups were observed in mean baseline-to-52-week change in BMI (standard: +3.6 kg/m2; intense: +2.8 kg/m2; p = 0.150) or weight (standard: +12.1 kg; intense: +9.6 kg; p = 0.148). Percentage of patients at endpoint who had gained ≥15% of their baseline weight was 40% for the standard group and 31% for the intense group (p = 0.187). Safety/tolerability results were generally consistent with those of previous olanzapine studies in adolescents, with the most notable exception being the finding of a mean decrease in prolactin. On symptomatology measures, patients with schizophrenia had a mean baseline-to-52-week change in BPRS-C of -32.5 (standard deviation [SD] = 10.8), and patients with bipolar disorder had a mean change in YMRS of -16.7 (SD = 8.9), with clinically and statistically significant improvement starting at 3-4 days for each. CONCLUSIONS: Long-term weight gain was high in both groups, with no statistically significant differences between the standard or intense behavioral weight interventions in BMI or weight. Safety, tolerability, and effectiveness findings were generally consistent with the known profile of olanzapine in adolescents.

Real-world use patterns of olanzapine long-acting injection in the United States: comparison to the recommended dosing strategy.

OBJECTIVE: Recommended doses for olanzapine long-acting injection (olanzapine LAI) are 150 mg/2 weeks, 210 mg/2 weeks, 300 mg/2 or 4 weeks, and 405 mg/4 weeks. This analysis evaluated the dosing and interval patterns to compare the actual dosing patterns with the recommended dosing strategy. RESEARCH DESIGN AND METHODS: These data, from March 2010 through September 2011, were collected as part of a Risk Evaluation and Mitigation Strategy mandatory patient registry that captures all post-approval olanzapine injections in the US. This registry includes both active and inactive (60 + days since last injection) patients. RESULTS: All patients with at least one olanzapine injection were included (n = 1694). The mean number of injections received was 6.6 (range of 1-40). The most frequent numbers of injections were one (26.3%) and two (12.9%). For the 11,228 olanzapine injections, the most common doses were 300 mg and 405 mg, accounting for 92.9% of injections. Although the most common time intervals between injections was about 14 days for 150 mg, 210 mg, and 300 mg, and about 28 days for 405 mg, the intervals ranged from less than 10 to more than 60 days for all doses. Among active patients (48.2% of registry), 68.2% had >120 days of treatment with any dose, and the number of days since the last injection was around 2 weeks or less for 61.2% of patients, around 3 weeks for 16.5% of patients, and around 4 weeks for 7.1% of patients. Among inactive patients (51.8% of registry), 48.6% had <30 days of treatment. For the pattern of the first five injections, most patients (70.9%) received four subsequent injections of the same dose as their initial injection. CONCLUSIONS: This registry will continue to change. There is a broad range in time between injections. Most patients continue to receive the same initial dose instead of switching to a maintenance dose. This may suggest that some clinicians are not reassessing the dose after the initial starting dose because the patient was stabilized on olanzapine oral before beginning olanzapine long-acting injection. The study is limited by a database that does not include reasons for dose and dosing interval decisions or reasons for delaying or discontinuing treatment.

Assessment of treatment algorithms including amantadine, metformin, and zonisamide for the prevention of weight gain with olanzapine: a randomized controlled open-label study.

OBJECTIVE: This 22-week, open-label study, conducted between November 2006 and September 2008 in a community setting, was designed to determine if weight gain during olanzapine treatment can be prevented or mitigated with adjunctive treatment algorithms that include amantadine, metformin, and zonisamide. METHOD: Outpatients with schizophrenia or schizoaffective disorder (DSM-IV-TR criteria) were randomly assigned to olanzapine alone (n = 50), olanzapine plus algorithm A (olanzapine + A [amantadine 200 mg/d with possible switches to metformin 1,000-1,500 mg/d and then to zonisamide 100-400 mg/d; n = 76]), or olanzapine plus algorithm B (olanzapine + B [metformin 1,000-1,500 mg/d with possible switches to amantadine 200 mg/d and then to zonisamide 100-400 mg/d; n = 73]). Brief weight management education was provided at baseline. The primary outcome measure was comparison of mean weight gain between olanzapine and pooled olanzapine + A and olanzapine + B results. RESULTS: Least squares mean ± SE weight gain was 2.76 ± 0.75 kg for olanzapine, 2.40 ± 0.65 kg for olanzapine + A, and 0.65 ± 0.63 kg for olanzapine + B. Mean weight gain during olanzapine treatment did not differ significantly from pooled results for olanzapine + A and olanzapine + B (P = .065). Participants treated with olanzapine + B experienced significantly less mean weight gain than olanzapine-treated participants (P = .036). CONCLUSIONS: Pooled treatment algorithm results were not significantly different from olanzapine monotherapy in mitigating weight gain. However, participants who received treatment with metformin with possible progression to amantadine and then zonisamide had significantly less mean weight gain than participants treated with olanzapine alone. Progression of some participants through the algorithm indicated that a single therapy solution may not be adequate for every patient. Patients treated with olanzapine should receive regular weight monitoring. TRIAL REGISTRATION: clinicaltrials.gov Identifier: NCT00401973.

Analysis of gene variants previously associated with iloperidone response in patients with schizophrenia who are treated with risperidone.

OBJECTIVE: We examined 6 single nucleotide polymorphisms (SNPs) previously reported to be associated with response to iloperidone therapy for association with response to risperidone therapy. METHOD: Patients with schizophrenia (DSM-IV) were assessed during 2006 and 2007 for response/nonresponse (defined as ≥ 20%/<20% improvement in Positive and Negative Syndrome Scale [PANSS] total score) after 2 weeks of risperidone treatment (2 to 6 mg/d). Responders continued risperidone treatment; nonresponders were randomly assigned to either risperidone or olanzapine treatment (10 to 20 mg/d) for an additional 10 weeks. Associations between change in PANSS total (primary outcome measure), positive, and negative scores and the 6 SNPs were examined in risperidone-treated patients (N = 145). Genotype frequencies and improvement in PANSS total scores were analyzed for those SNPs significantly associated with change in PANSS total score. RESULTS: The SNPs XKR4 rs9643483 and GRIA4 rs2513265 were significantly associated with change in PANSS total response (adjusted P < .05 for both), with the same direction of effect as reported for iloperidone. For patients with nonresponsive genotypes for these SNPs, mean improvement in PANSS total score for African Americans was two-thirds that seen for whites (XKR4: -13.9 versus -21.4; GRIA4: -12.5 versus -20.9). CONCLUSIONS: In this retrospective pharmacogenomic analysis, we found that 2 SNPs previously linked to iloperidone response were also associated with response to risperidone. TRIAL REGISTRATION: clinicaltrials.gov Identifier: NCT00337662.

Reasons for continuing or discontinuing olanzapine in the treatment of schizophrenia from the perspectives of patients and clinicians.

BACKGROUND: The aim of this study was to assess the reasons for discontinuing or continuing olanzapine in patients with schizophrenia, from the perspectives of the patients and their clinicians. METHODS: The Reasons for Antipsychotic Discontinuation/Continuation (RAD) is a pair of questionnaires assessing these reasons from the perspectives of patients and their clinicians. Outpatients with schizophrenia (n = 199) who were not acutely ill participated in a 22-week open-label study of olanzapine from November 2006 to September 2008. Reasons for continuing or discontinuing olanzapine (on a five-point scale), along with the single most important reason and the top primary reasons, were identified. Concordance between reasons given by patients and clinicians was assessed. RESULTS: The top primary reasons for continuing olanzapine were patients' perceptions of improvement, improvement of positive symptoms, and improved functioning. The study discontinuation rate was low (30.2%), and only a subset of patients who discontinued reported reasons for medication discontinuation. The top primary reasons for discontinuing olanzapine were insufficient improvement or worsening of positive symptoms, adverse events, and insufficient improvement or worsening of negative symptoms. Ratings given by patients and clinicians were highly concordant. CONCLUSION: The main reason for continuing or discontinuing olanzapine appears to be medication efficacy, especially for positive symptoms. Reasons for medication discontinuation differ somewhat from reasons for continuation, with a high level of concordance between patient and clinician responses.

Weight gain and changes in metabolic variables following olanzapine treatment in schizophrenia and bipolar disorder.

Antipsychotic therapy forms the cornerstone of treatment for people with severe mental illness. Second-generation (atypical) antipsychotics are associated with a significantly lower incidence of extrapyramidal symptoms than the typical, first-generation agents; however, changes in metabolic variables -- including impaired glucose metabolism, diabetes mellitus, weight gain and dyslipidaemia -- have been reported during treatment with second-generation antipsychotics. Understanding any potential link between antipsychotic treatment and the incidence of these events is complicated by the increasing prevalence of obesity and diabetes occurring in the general population and the increased risk of diabetes and changes in metabolic variables in people with schizophrenia. While relative risk estimates are inconsistent, the association between atypical antipsychotics and increases in glucose level appears to fall on a continuum, with olanzapine appearing to have a greater association than some other atypical antipsychotics. The PubMed database was used to search for publications that included any information on measures of changes in weight, body mass index (BMI) and/or metabolic variables in randomized studies of olanzapine published between 1992 and 2010. In long-term (≥48 weeks) studies of olanzapine, the mean weight gain was 5.6 kg (last observation carried forward; median exposure 573 days). The proportions of patients who gained at least 7%, 15% or 25% of their baseline weight with long-term exposure were 64%, 32% and 12%, respectively. Some studies have suggested that weight gain early during the course of olanzapine treatment may predict clinically significant weight gain following long-term exposure to the drug. Changes in metabolic variables, such as elevated indices of glucose metabolism and triglyceride level, have also been observed during treatment with olanzapine. Consensus guidelines emphasize the importance of appropriate baseline screening and ongoing monitoring of weight gain and metabolic variables for people receiving all antipsychotic treatments. Long-term weight management programmes have been shown to reduce weight gain in some patients.

Impact of race on efficacy and safety during treatment with olanzapine in schizophrenia, schizophreniform or schizoaffective disorder.

BACKGROUND: To examine potential differences in efficacy and safety of treatment with olanzapine in patients with schizophrenia of white and black descent. METHODS: A post-hoc, pooled analysis of 6 randomized, double-blind trials in the treatment of schizophrenia, schizophreniform disorder, or schizoaffective disorder compared white (N = 605) and black (N = 375) patients treated with olanzapine (5 to 20 mg/day) for 24 to 28 weeks. Efficacy measurements included the Positive and Negative Syndrome Scale (PANSS) total score; and positive, negative, and general psychopathology scores; and the Clinical Global Impression of Severity (CGI-S) scores at 6 months. Safety measures included differences in the frequencies of adverse events along with measures of extrapyramidal symptoms, weight, glucose, and lipid changes over time. RESULTS: 51% of black patients and 45% of white patients experienced early study discontinuation (P = .133). Of those who discontinued, significantly more white patients experienced psychiatric worsening (P = .002) while significantly more black patients discontinued for reasons other than efficacy or tolerability (P = .014). Discontinuation for intolerability was not different between groups (P = .320). For the estimated change in PANSS total score over 6 months, there was no significant difference in efficacy between white and black patients (P = .928), nor on the estimated PANSS positive (P = .435), negative (P = .756) or general psychopathology (P = .165) scores. Overall, there was no significant difference in the change in CGI-S score between groups from baseline to endpoint (P = .979). Weight change was not significantly different in white and black patients over 6 months (P = .127). However, mean weight change was significantly greater in black versus white patients at Weeks 12 and 20 only (P = .028 and P = .026, respectively). Additionally, a significantly greater percentage of black patients experienced clinically significant weight gain (≥ 7%) at anytime compared to white patients (36.1% vs. 30.4%, P = .021). Changes across metabolic parameters (combined fasting and random lipids and glucose) were also not significantly different between groups, with the exception of a greater categorical change in total cholesterol from borderline to high among white subjects and a categorical change from normal to low in high density lipoprotein (HDL) cholesterol among white males. CONCLUSIONS: The findings did not demonstrate overall substantive differences in efficacy or safety between white and black patients diagnosed with schizophrenia or related disorders treated with olanzapine. However, a significantly greater percentage of black patients (36.1%) experienced clinically significant weight gain compared to white patients (30.4%).

The potential role of appetite in predicting weight changes during treatment with olanzapine.

BACKGROUND: Clinically significant weight gain has been reported during treatment with atypical antipsychotics. It has been suggested that weight changes in patients treated with olanzapine may be associated with increased appetite. METHODS: Data were used from adult patients for whom both appetite and weight data were available from 4 prospective, 12- to 24-week clinical trials. Patients' appetites were assessed with Eating Behavior Assessment (EBA, Study 1), Platypus Appetite Rating Scale (PARS, Study 2), Eating Inventory (EI, Study 3), Food Craving Inventory (FCI, Study 3), and Eating Attitude Scale (EAS, Study 4). RESULTS: In Studies 1 (EBA) and 4 (EAS), patients who reported overall score increases on appetite scales, indicating an increase in appetite, experienced the greatest overall weight gains. However, in Studies 2 (PARS) and 3 (EI, FCI), patients who reported overall score increases on appetite scales did not experience greater weight changes than patients not reporting score increases. Early weight changes (2-4 weeks) were more positively correlated with overall weight changes than early or overall score changes on any utilized appetite assessment scale. No additional information was gained by adding early appetite change to early weight change in correlation to overall weight change. CONCLUSIONS: Early weight changes may be a more useful predictor for long-term weight changes than early score changes on appetite assessment scales. CLINICAL TRIALS REGISTRATION: This report represents secondary analyses of 4 clinical studies. Studies 1, 2, and 3 were registered at http://clinicaltrials.gov/ct2/home, under NCT00190749, NCT00303602, and NCT00401973, respectively. Study 4 predates the registration requirements for observational studies that are not classified as category 1 observational studies.

Factors associated with weight gain during olanzapine treatment in patients with schizophrenia or bipolar disorder: results from a six-month prospective, multinational, observational study.

The aim of this 6-month observational study was to examine which clinical, eating- and lifestyle-related factors were associated with weight gain in patients initiating or switching to oral olanzapine for the treatment of schizophrenia or bipolar mania. A total of 622 outpatients in four countries (China, Mexico, Romania, Taiwan) were assessed at monthly intervals for up to 6 months. Mixed model repeated-measures analysis, adjusted for baseline weight, was used to identify which factors were associated with weight gain during olanzapine therapy. After 6 months of therapy, the LS mean weight change was +4.1 kg and 43.9% of the patients had significant (> or = 7%) weight gain. Early significant weight gain after 2 months of therapy occurred in 23.4% of the patients and these patients gained significantly more weight overall. Ten factors were associated with weight gain during 6 months of olanzapine therapy in an exploratory multivariate analysis: country, housing conditions, stronger appetite, excessive amount of food needed to feel full, eating until uncomfortably full, thoughts preoccupied with food, meal location, increased meal frequency, evening snack consumption, and a lower amount of vigorous exercise. These results indicate that the influence of environmental, eating- and lifestyle-related factors should be considered when assessing weight gain during olanzapine therapy.

Predictors and correlates for weight changes in patients co-treated with olanzapine and weight mitigating agents; a post-hoc analysis.

BACKGROUND: This study focuses on exploring the relationship between changes in appetite or eating behaviors and subsequent weight change for adult patients with schizophrenia or bipolar disorder treated with olanzapine and adjunctive potential weight mitigating pharmacotherapy. The aim is not to compare different weight mitigating agents, but to evaluate patients' characteristics and changes in their eating behaviors during treatment. Identification of patient subgroups with different degrees of susceptibility to the effect of weight mitigating agents during olanzapine treatment may aid clinicians in treatment decisions. METHODS: Data were obtained from 3 randomized, double-blind, placebo-controlled, 16-week clinical trials. Included were 158 patients with schizophrenia or bipolar disorder and a body mass index (BMI) > or = 25 kg/m2 who had received olanzapine treatment in combination with nizatidine (n = 68), sibutramine (n = 42), or amantadine (n = 48). Individual patients were analyzed for categorical weight loss > or= 2 kg and weight gain > or = 1 kg. Variables that were evaluated as potential predictors of weight outcomes included baseline patient characteristics, factors of the Eating Inventory, individual items of the Eating Behavior Assessment, and the Visual Analog Scale. RESULTS: Predictors/correlates of weight loss > or = 2 kg included: high baseline BMI, low baseline interest in food, and a decrease from baseline to endpoint in appetite, hunger, or cravings for carbohydrates. Reduced cognitive restraint, increase in hunger, and increased overeating were associated with a higher probability of weight gain > or = 1 kg. CONCLUSION: The association between weight gain and lack of cognitive restraint in the presence of increased appetite suggests potential benefit of psychoeducational counseling in conjunction with adjunctive pharmacotherapeutic agents in limiting weight gain during antipsychotic drug therapy. TRIAL REGISTRATION: This analysis was not a clinical trial and did not involve any medical intervention.

Early predictors of weight gain risk during treatment with olanzapine: analysis of pooled data from 58 clinical trials.

This analysis evaluated the usefulness of different predictors in identifying patient risk of substantial weight gain (SWG) during olanzapine treatment. Data were from 58 studies with 3826 patients diagnosed with schizophrenia, schizophrenia spectrum disorders, bipolar mania, bipolar depression, or borderline personality disorder. The primary definition for SWG was gaining >/=12% of baseline weight by endpoint (30 weeks +/-5 weeks); other definitions of SWG were also examined. Potential predictors of SWG included baseline patient characteristics, weight change, and percent weight change at Weeks 1, 2, 3, and 4 after olanzapine initiation. To facilitate model building and validation, the data set was randomly partitioned into training (N = 1912), validation (N = 1149), and test (N = 765) sets and 2 complementary analytic techniques were used: logistic regression with stepwise variable selection followed by receiver operating characteristic analysis for evaluation of resulting candidate models and decision trees. Approximately 24% of patients gained >/=12% of their initial weight, about 30% gained >/=10%, and 45% gained >/=7% or >/=5 kg by the 30-week endpoint. Baseline covariates significantly and positively associated with probability of SWG were lower baseline body mass index, younger age, female sex, United States residency, and African ethnicity. Early weight changes substantially improved the prediction of the risk for longer-term SWG. These results confirm that cut-offs for weight gain during the first 4 weeks of treatment may be useful in evaluating SWG risk for an individual patient.

Early evaluation of patient risk for substantial weight gain during olanzapine treatment for schizophrenia, schizophreniform, or schizoaffective disorder.

BACKGROUND: To make well informed treatment decisions for their patients, clinicians need credible information about potential risk for substantial weight gain. We therefore conducted a post-hoc analysis of clinical trial data, examining early weight gain as a predictor of later substantial weight gain. METHODS: Data from 669 (Study 1) and 102 (Study 2) olanzapine-treated patients diagnosed with schizophrenia, schizophreniform, or schizoaffective disorder were analyzed to identify and validate weight gain cut-offs at Weeks 1-4 that were predictive of substantial weight gain (defined as an increase of > or = 5, 7, 10 kg or 7% of baseline weight) after approximately 30 weeks of treatment. Baseline characteristics alone, baseline characteristics plus weight change from baseline to Weeks 1, 2, 3 or 4, and weight change from baseline to Weeks 1, 2, 3, or 4 alone were evaluated as predictors of substantial weight gain. Similar analyses were performed to determine BMI increase cut-offs at Weeks 1-4 of treatment that were predictive of substantial increase in BMI (1, 2 or 3 kg/m2 increase from baseline). RESULTS: At Weeks 1 and 2, predictions based on early weight gain plus baseline characteristics were more robust than those based on early weight gain alone. However, by Weeks 3 and 4, there was little difference between the operating characteristics associated with these two sets of predictors. The positive predictive values ranged from 30.1% to 73.5%, while the negative predictive values ranged from 58.1% to 89.0%. Predictions based on early BMI increase plus baseline characteristics were not uniformly more robust at any time compared to those based on early BMI increase alone. The positive predictive values ranged from 38.3% to 83.5%, while negative predictive values ranged from 42.1% to 84.7%. For analyses of both early weight gain and early BMI increase, results for the validation dataset were similar to those observed in the primary dataset. CONCLUSION: Results from these analyses can be used by clinicians to evaluate risk of substantial weight gain or BMI increase for individual patients. For instance, negative predictive values based on data from these studies suggest approximately 88% of patients who gain less than 2 kg by Week 3 will gain less than 10 kg after 26-34 weeks of olanzapine treatment. Analysis of changes in BMI suggests that approximately 84% of patients who gain less than .64 kg/m2 in BMI by Week 3 will gain less than 3 kg/m2 in BMI after 26-34 weeks of olanzapine treatment. Further research in larger patient populations for longer periods is necessary to confirm these results.

Orally disintegrating olanzapine and potential differences in treatment-emergent weight gain.

Several papers and communications have reported possible weight reduction or less weight gain when patients start or switch to orally disintegrating olanzapine, as contrasted with standard oral olanzapine tablets. In this paper, the current literature is reviewed and hypothesized mechanisms of action are discussed. The data are still preliminary and mechanisms of action are not well understood. Randomized controlled trials are needed to further evaluate change in weight during treatment with orally disintegrating olanzapine.

Double-blind, randomized trial comparing efficacy and safety of continuing olanzapine versus switching to quetiapine in overweight or obese patients with schizophrenia or schizoaffective disorder.

We examined the potential risks and benefits of switching from olanzapine to quetiapine in mentally stable, obese, or overweight patients with schizophrenia or schizoaffective disorder. Patients receiving olanzapine were randomized to continuing olanzapine treatment (N =68; 7.5-20 mg/day) or switching to quetiapine (N =65; 300-800 mg/day). Time to relapse was the primary study objective; secondary objectives included changes in weight, metabolic parameters, and psychiatric symptoms, and discontinuation rates. No significant difference in time to relapse was observed (p =0.293), but significantly more patients remained on treatment in the olanzapine group compared with the quetiapine group (70.6% vs 43.1%; p =0.002). Olanzapine-treated patients had significantly lower rates of study discontinuation for lack of efficacy and psychiatric adverse events (AEs) compared to quetiapine (2.94% vs 15.38%, p =0.015). Significantly more patients in the olanzapine group experienced an increase in BMI ≥1 kg/m(2). Olanzapine-treated patients experienced significantly greater increases in weight from Weeks 2 through 13. Switching patients with stable disease from olanzapine to quetiapine did not significantly shorten time to relapse, but produced more frequent study discontinuations due to lack of efficacy or psychiatric AEs with moderate but variable improvement in weight and no significant between-group differences in mean changes in metabolic laboratory parameters.

Risk of treatment-emergent diabetes mellitus in patients receiving antipsychotics.

BACKGROUND: Type 2 diabetes mellitus has been reported during antipsychotic treatment. OBJECTIVE: To quantify the potential risk of treatment-emergent diabetes mellitus among patients receiving antipsychotic medications. METHODS: The MEDLINE and Psychinfo databases were searched using the key words antipsychotic (including individual drug names), diabetes, risk, and incidence for all English-language articles published between 1966 and 2005. Risk calculations were performed using data obtained from pharmacoepidemiologic studies that met the following criteria: (1) cohort design, (2) determination of preexisting diabetes, (3) inclusion of antipsychotic monotherapy as an exposure variable, and (4) comparison with exposure to first-generation antipsychotics. Studies meeting these criteria were used to calculate incidence, attributable risk between agents, and number needed to harm. RESULTS: A total of 25 observational pharmacoepidemiologic studies were found comparing antipsychotics on the outcome of diabetes mellitus. Sufficient information was provided in 15 of the reports to be able to estimate attributable risk. Attributable risk for individual second-generation antipsychotics relative to first-generation antipsychotics ranged from 53 more to 46 fewer new cases of diabetes per 1000 patients. Little observable difference was noted between the individual second-generation antipsychotics versus first-generation antipsychotics on this outcome. However, few of the studies controlled for body weight, race or ethnicity, or the presence of diabetogenic medications. None adjusted for familial history of diabetes, levels of physical activity, or diet, as this information is not usually available in the databases used in pharmacoepidemiologic studies. CONCLUSIONS: Based on the published pharmacoepidemiologic reports reviewed, the avoidance of diabetes as an outcome cannot be predictably achieved with precision by choice of a second-versus a first-generation antipsychotic. Risk management for new-onset diabetes requires the assessment of established risk factors such as family history, advancing age, non-white ethnicity, diet, central obesity, and level of physical activity.

Retrospective analysis of diabetes risk in elderly patients with dementia in olanzapine clinical trials.

OBJECTIVE: The objective of this study was to evaluate the association of established risk factors for treatment-emergent diabetes (TED) among patients over 65 years of age with dementia who received treatment with olanzapine. METHODS: This was a post hoc analysis of data pooled from seven olanzapine clinical trials, which included patients over 65 years of age with dementia. The association of established risk factors for TED was evaluated using categorical and time-to-event analysis. TED was defined as two casual (fasting or nonfasting) glucose values > or =200 mg/dL at any time after baseline or one casual glucose value > or =200 mg/dL at the final visit, initiation of antidiabetic medication, or new clinical diagnosis of diabetes. RESULTS: Elderly patients subsequently identified with TED (N = 29, 2.1%) had similar baseline body mass indices (24 kg/m(2)) and were similar in age (82 versus 80 years) to those who did not have TED. Cox proportional hazards model identified only elevated casual glucose (> or =140 mg/dL) measure at baseline to be significantly associated with the development of TED (hazard ratio [HR] = 11.2, p <0.0001) in this elderly cohort. Other clinical risk factors, like body mass index > or =25 (HR = 0.86), 7% weight gain (HR = 2.26), and antipsychotic treatment (HR = 1.36) were not significant. CONCLUSION: In elderly patients with dementia enrolled in olanzapine clinical trials, an elevated casual glucose (> or =140 mg/dL) at baseline was the only risk factor significantly associated with subsequent development of TED. Risk of diabetes in these studies was not significantly associated with antipsychotic treatment group assignment.

Wellness intervention for patients with serious and persistent mental illness.

INTRODUCTION: Weight gain and obesity that emerge during psychopharmacologic treatment are prevalent in persons with serious and persistent mental illness. Obesity is difficult to reverse, but behavioral programs involving diet and exercise are sometimes successful. METHOD: Patients with serious and persistent mental illness living in the community were enrolled voluntarily into the Solutions for Wellness Personalized Program. Participants completed an enrollment survey that provided information for the creation of an individualized management plan that included nutrition, exercise, stress management, and sleep improvement components. Weight, body mass index (BMI, kg/m(2)), behavior, and attitudes were assessed at baseline (enrollment) and monthly for 6 months. RESULTS: During the period of July 1, 2002, through June 30, 2003, 7188 patients with serious and persistent mental illness had enrolled in the program, and 83% were either overweight or obese. Follow-up survey responses taken at 6-month endpoint from finishers (N = 1422) indicated that positive changes were made in diet (91%), exercise (85%), reduced stress (93.8%), and sleep (92.9%). Significant decreases in BMI were associated with changes in diet (p = .014) and exercise (p = .035). In addition, 97% of participants reported that they were at least somewhat confident in the ability to maintain lifestyle changes, and this confidence was significantly (p < .001) associated with reaching dietary and exercise goals. CONCLUSIONS: Patients suffering from serious and persistent mental illness may benefit from participating in wellness intervention programs.

Pharmacotherapy of behavioral and psychological symptoms of dementia: a review of atypical antipsychotics.

OBJECTIVE: To review the literature on use of antipsychotics to treat behavioral and psychological symptoms of dementia (BPSD). DATA SOURCES: Information was selected from a MEDLINE search of English-language medical literature using the search terms "antipsychotics" and "elderly." Manual searches of pertinent journal article references, and review of poster presentations at recent professional meetings were also performed. STUDY SELECTION: Meta-analyses published in 1990 and 1998 were used as a starting point for information about conventional antipsychotics. Articles reporting the results of controlled trials of conventional antipsychotics published since the second meta-analysis (October 1998) were included. Also included were articles reporting the results of controlled clinical trials of atypical antipsychotics (i.e., clozapine, risperidone, olanzapine, quetiapine, ziprasidone) for the treatment of dementia in the elderly. Studies and post hoc analyses of special patient populations (Parkinson's disease, schizophrenia, treatment-refractory BPSD) were excluded. One open-label extension and one post hoc analysis were included because they provide valuable information about the long-term use of atypical antipsychotics. One poster was included, as it contained the only data available from a controlled trial of quetiapine. DATA EXTRACTION: Data were extracted from the literature, as well as a recent scientific poster presentation. Two meta-analyses and six controlled studies were identified for inclusion. DATA SYNTHESIS: There are few controlled clinical trials of the use of antipsychotics in elderly patients with dementia. Currently available information indicates these medications are useful in the treatment of behavioral and psychological symptoms of dementia, but the clinician must exercise caution because of the drugs' potential side effects. CONCLUSION: While widely prescribed on an "off-label" basis, there is a dearth of placebo-controlled clinical trials necessary to evaluate safety, and head-to-head comparative studies necessary to contrast efficacy and safety of atypical antipsychotics in treating BPSD.