Fernandez et al.indd Drug Target Insights 2008:3 27–29 27 ORIGINAL RESEARCH Correspondence: Hubert H. Fernandez, M.D., Department of Neurology/McKnight Brain Institute. University of Florida, PO Box 100236, Gainesville, Florida 32610. Fax: (352) 273 5575; Email: fernandez@neurology.ufl .edu Copyright in this article, its metadata, and any supplementary data is held by its author or authors. It is published under the Creative Commons Attribution By licence. For further information go to: http://creativecommons.org/licenses/by/3.0/. New-Onset Diabetes Mellitus Among Parkinsonian Patients Treated with Long-term Quetiapine Hubert H. Fernandez1, Katie M. McCown1, Janet Romrell1, Martha E. Trieschmann2, Joseph H. Friedman2, Charles E. Jacobson IV1 and Michael S. Okun1 1Dept. of Neurology, University of Florida, Gainesville, FL. 2Dept. of Clinical Neurosciences, Brown University, Providence, RI. Abstract: Atypical antipsychotics (AA) are commonly used to manage drug-induced psychosis (DIP) in parkinsonian patients. In the treatment of schizophrenia, AA’s have been associated with increasing reports of new-onset diabetes mel- litus (DM). This study examined the risk of developing new-onset DM among parkinsonian patients on long-term, low dose quetiapine. Fifty-three parkinsonian subjects (mean age: 71.3 years) taking an average quetiapine dose of 70.5 mg/day (range: 12.5–350 mg/day) for a mean duration of 21.3 months (range 3–61 months) were reviewed. Eight out of 53 subjects carried a diagnosis of DM prior to quetiapine treatment. Four out of 45 patients (8.9%) met criteria for new diagnosis of DM, giving a total prevalence rate of 22.6% (12 out of 53). This prevalence rate of 22.6% was slightly higher than that reported in the aged-matched general population (year 2003 DM prevalence = 17.3% for 65–74 years) but methodological differences could explain the difference. Larger epidemiologic studies will be needed to confi rm these results as they could potentially impact a signifi cant number of patients. Keywords: quetiapine, diabetes, atypical antipsychotic, parkinson’s disease Introduction Atypical antipsychotics (AAs) have become fi rst line treatment in the management of drug-induced psychosis (DIP) in patients with parkinsonian diseases. They are considered fi rst line because of their lower risk of extrapyramidal side effects (EPS) when compared to conventional neuroleptics [1]. Currently, clozapine is considered the most effi cacious and perhaps best AA for parkinsonism [1–3]. However, its use is limited by the rare associated risk of agranulocytosis, and consequent weekly blood draws as well as intensive monitoring. Quetiapine is the closest AA to clozapine in terms of effi cacy in parkinsonism, and is currently the most employed alternative to clozapine by movement disorder spe- cialists [4]. Given its low EPS profi le and lack of hematologic risk, many authors consider quetiapine to now be the fi rst line treatment of DIP in parkinsonism [4]. Several of the AAs, most notably olanzapine and clozapine, have been associated with the develop- ment of diabetes mellitus (DM) when used to treat schizophrenia [5,6]. Though rare, there are also case reports of new-onset DM associated with quetiapine use in schizophrenia [5–7]. In the setting of par- kinsonism, the association with DM is unclear and has not been carefully investigated. Previously we described a lower incidence of DM with clozapine in the parkinsonian population when compared to age-matched controls [8]. Although published reports indicate no dose relationship between clozapine and glucose tolerance, most studies involve schizophrenia patients who are typically on 200–800 mg/day of clozapine. Since the average dose of clozapine was lower in parkinsonism than in schizophrenia, we hypothesized that perhaps the risk of DM could be dose-related. Since quetiapine is the ‘practical fi rst line treatment’ for DIP in parkinsonism, and because the pub- lished mean daily dose of quetiapine in the parkinsonian population is slightly higher compared to that reported for clozapine [1,4], we sought to study the prevalence of newly-diagnosed DM among parkin- sonian patients on long-term quetiapine. Method We reviewed the medical records of all quetiapine-treated parkinsonian patients actively followed at two Movement Disorder Centers, Brown University and the University of Florida. Patients were excluded http://creativecommons.org/licenses/by/3.0/ http://creativecommons.org/licenses/by/3.0/ 28 Fernandez et al Drug Target Insights 2008:3 if they had been on quetiapine for less than three months or were no longer taking the agent. To determine true prevalence, patients with previous and recent diagnoses of DM, and/or use of hypo- glycemic agents prior to quetiapine initiation were included. The dose and duration of quetiapine use were recorded, as well as the patient’s age and sex. A fasting blood glucose (FBG) was obtained on all non-diabetic patients taking quetiapine. The diag- nosis of new-onset DM while on quetiapine was determined by (1) a diagnosis made by the patient’s primary care physician, (2) the initiation of oral hypoglycemic agents or insulin by their primary care physician after initiation of quetiapine, (3) or a FBS greater than or equal to 126 mg/dl which is the ‘gold standard’ level warranting a diagnosis of DM [9]. The prevalence of DM in this cohort was then compared to the latest reported prevalence (year 2000) of DM in the (age-matched) general popula- tion [10]. The prevalence of DM in the general population was taken from the National Health and Nutrition Examination Survey (NHANES) based on a house to house survey. Results Fifty-three parkinsonian subjects (36 males, 17 females) with a mean: age of 71.3 years (range: 51–91 years), quetiapine dose of 70.5 mg/day (range: 12.5–350 mg/day), and treatment duration of 21.3 months (range 3–61 months) were identi- fi ed. Nine out of the 53 subjects resided in long- term care facilities. Because quetiapine was the fi rst line treatment for psychosis in both participat- ing institutions, none of the subjects were previ- ously exposed to other antipsychotic agents. Eight out of 53 patients carried a prior diagno- sis of DM prior to quetiapine initiation. Among those without a prior diagnosis of DM, three undi- agnosed patients had FBG �126 mg/dl, and a fourth patient was started on a hypoglycemic agent (after obtaining a FBG �126 mg/dl by the primary care physician) while taking quetiapine (total: 4/45; 8.9%). Therefore, the prevalence of DM in our cohort was 22.6% (12/53). This rate was slightly higher than that reported in the age-matched gen- eral population (year 2003 DM prevalence = 17.3% for ages 65–74 years [10]). However, if 3 of the newly diagnosed DM cases based on “active diag- nostic intervention” were excluded, and only known/recorded cases of DM (before and after quetiapine treatment) were included, then our cohort would have a “natural” prevalence rate of 16.9% (9/53). Discussion This is, to our knowledge, the fi rst study to evalu- ate the prevalence of DM among parkinsonian patients on quetiapine. How quetiapine and other AAs are related to DM remains unclear. Quetiap- ine has been associated with weight gain [12], and this increase in body weight may at least in part be responsible for the slightly higher increased risk of new-onset DM. The AA drugs have also been linked to hypertriglyceridemia [13]. Increased appetite, insulin resistance, and other endocrine changes may also play a role [12,14]. Although this study found a slightly higher rate of DM in parkinsonian patients taking quetiapine than in the age-matched general population, there were several weaknesses in this study. The sample size was small making it diffi cult to draw fi rm conclusions from the data. Ideal body weights versus actual body weights were not calculated, and therefore we cannot carefully account for who was at risk for type II DM. Additionally, in this study there was no screening for DM with FBG prior to quetiapine initiation, and no careful screen- ing for endocrinopathies was performed. A repeat FBG was not drawn in the three patients who were high (�126 mg/dl). In addition, FBG may be a less stringent criteria for diagnosing DM than is post- prandial blood glucose which was not measured in this study. Post prandial blood glucose is an independent risk factor for mortality in patients with new-onset DM, while FBG is not [15]. These study weaknesses could have led to an overestima- tion of the prevalence of DM in this cohort. Also of note was that this study utilized age- matched historical controls. The prevalence rate of DM at the NHANES study was determined from a “naturalistic” survey (i.e. based on know/ recorded diagnosis of DM) without active diag- nostic intervention; whereas the overall prevalence rate of DM in our cohort was calculated from a combination of data recording/inquiry and active diagnostic intervention. Thus, employing the same method used at the NHANES study would yield a prevalence rate of 16.9%, but including newly diagnosed DM cases from mandatory blood testing of patients without a prior diagnosis would yield a higher prevalence rate. 29 New-onset diabetes mellitus among parkinsonian patients treated Drug Target Insights 2008:3 We included only patients who were taking quetiapine for 3 months or more. Most studies on the prevalence of diabetes in the schizophrenia population required 2–3 months of antipsychotic exposure prior to inclusion in their cohort. How- ever, in schizophrenia, there are confl icting reports as to whether duration of disease is a signifi cant risk factor for DM development. Two reports found no association [16,17], while one found a signifi - cant association with olanzapine, clozapine and conventional antipsychotic agents [18]. No asso- ciation with duration of disease was found in our cohort. Larger epidemiologic studies are needed to bet- ter assess, and verify, these preliminary fi ndings for the risk of new-onset DM associated with que- tiapine. Neurologists, psychiatrists and primary care physicians should be aware of this potential slight increased risk of DM related to quetiapine and be cautious. References [1] Fernandez, H.H. and Friedman, J.H. 1999. The role of atypical anti- psychotics in the treatment of movement disorders. CNS Drugs, 11(6):467–83. [2] The French Clozapine Parkinson Study Group, Clozapine in drug induced psychosis in Parkinson’s disease. 1999. Lancet, 353(9169):2041–2. [3] The Parkinson Study Group, Low-dose clozapine for the treatment of drug-induced psychosis in Parkinson’s disease. 1999. N. Engl. J. Med., 340(10):757–63. [4] Friedman, J. and Fernandez, H. 2002. Atypical Antipsychotics in Parkinson-sensitive populations. Journal of Geriatric Psychiatry and Neurology, 15:156–70. [5] Jin, H., Meyer, J. and Jeste, D. 2002. Phenomenology of and risk factors for new-onset diabetes mellitus and diabetic ketoacidosis associated with atypical antipsychotics: an analysis of 45 published cases. Annals of Clinical Psychiatry, 14(1):59–64. [6] Sernyak, M., Leslie, D., Alarcon, R., Losonczy, M. and Rosenheck, R. 2002. Association of diabetes mellitus with use of atypical neu- roleptics in the treatment of schizophrenia. Am. J. Psychiatry, 159(4):561–6. [7] Sobel, M., Jaggers, E.D. and Franz, M.A. 1999. New-onset diabetes mellitus associated with the initiation of quetiapine treatment. J. Clin. Psychiatry, 60(8):556–7. [8] Fernandez, H., Friedman, J., Lansang, M., Factor, S., Molho, E. and Coskun, D. 2004. Diabetes mellitus among parkinsonian patients treated chronically with clozapine. Parkinsonism and Related Dis- orders, 10:439–41. [9] Powers, A.C. 2005. Diabetes Mellitus. In: Kasper DL, Braunwald E, Fauci AS, et al., eds. Harrison's principles of internal medicine. 16th ed. New York: McGraw-Hill, 2152–54. [10] CDC. National Health and Nutrition Examination Survey 1999–2000 data fi les. Available at http://www.cdc.gov/nchs/data/hhis/earlyre- lease/2004 [11] Expert committee on the diagnosis and classifi cation of diabetes mellitus, Report of the expert committee on the diagnosis and clas- sifi cation of diabetes mellitus. 2003. Diabetes Care, 26(Suppl 1): S5–S20. [12] Baptista, T., Kin, N., Beaulieu, S. and DeBaptista, E. 2002. Obesity and Related Metabolic Abnormalities during Antipsychotic Drug Administration: Mechanisms, Management, and Research Perspec- tives. Pharmacopsychiatry, 35(6):205–19. [13] Meyer, J. 2001. Novel antipsychotics and severe hyperlipidemia. Journal of Clinical Psychopharmacology, 21(4):369–74. [14] Lindenmayer, J., Nathan, A. and Smith, R. 2001. Hyperglycemia associated with the use of atypical antipsychotics. Journal of Clinical Psychiatry, 62(Suppl 23):30–8. [15] Bastyr, E., Stuart, C., Brodows, R., Schwartz, S., Graf, C., Zagar, A. and Robertson, K. 2000. Therapy Focused on Lowering Postprandial Glucose, Not Fasting Glucose, May be Superior for Lowering HbA1c. 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