A Double-blind, Placebo-Controlled Study of Risperidone Addition in Serotonin Reuptake Inhibitor–Refractory Obsessive-compulsive Disorder Christopher J. McDougle, MD; C. Neill Epperson, MD; Gregory H. Pelton, MD;Suzanne Wasylink, RNC; Lawrence H. Price, MDBackground: To date, only 1 controlled study has found Results: For study completers, 9 (50%) of 18 risperidone-
a drug (haloperidol) to be efficacious in augmenting re-
treated patients were responders (mean daily dose, 2.2±0.7
sponse in patients with obsessive-compulsive disorder
mg/d) compared with 0 of 15 in the placebo addition
(OCD) refractory to serotonin reuptake inhibitor (SRI)
group (PϽ.005). Seven (50%) of 14 patients who re-
monotherapy; patients with comorbid chronic tic disor-
ceived open-label risperidone addition responded. Ris-
ders showed a preferential response. This report de-
peridone addition was superior to placebo in reducing
scribes the first controlled study of risperidone addition
OCD (PϽ.001), depressive (PϽ.001), and anxiety
in patients with OCD refractory to treatment with SRI
(P = .003) symptoms. There was no difference in re-
sponse between OCD patients with and without comor-bid diagnoses of chronic tic disorder or schizotypal per-
Methods: Seventy adult patients with a primary
sonalty disorder. Other than mild, transient sedation,
DSM-IV diagnosis of OCD received 12 weeks of treat-
ment with an SRI. Thirty-six patients were refractory tothe SRI and were randomized in a double-blind manner
Conclusion: These results suggest that OCD patients
to 6 weeks of risperidone (n = 20) or placebo (n = 16)
with and without comorbid chronic tic disorders or
addition. Behavioral ratings, including the Yale-Brown
schizotypal personality disorder may respond to the
Obsessive Compulsive Scale, were obtained at baseline
addition of low-dose risperidone to ongoing SRI
and throughout the trial. Placebo-treated patients sub-
sequently received an identical open-label trial of ris-peridone addition. Arch Gen Psychiatry. 2000;57:794-801From the Department ofPsychiatry, Section of Child andAdolescent Psychiatry, IndianaUniversity School of Medicine,Indianapolis (Dr McDougle);Department of Psychiatry, YaleUniversity School of Medicine,SEROTONINREUPTAKEinhibi- verseeffectswithconventionaldopamine
logical treatments for the SRI-refractory
[5-HT]) function, such as lithium,2 buspi-
NY (Dr Pelton); and theDepartment of Psychiatry and
rone,3 and clonazepam,4 have yielded dis-
patients refractory to SRIs alone. It was
peridol,6 to the treatment of SRI-refractory
patients. This strategy has been shown to
speakers’ bureau for Eli Lilly and
bid chronic tic disorder, such as Tourette’s
for Pfizer Inc, New York, NY;Janssen Pharmaceutica,
disorder (SPD).5 Because of the potential
(REPRINTED) ARCH GEN PSYCHIATRY/ VOL 57, AUG 2000
2000 American Medical Association. All rights reserved. PATIENTS AND METHODS
mg/d (clomipramine, fluvoxamine, sertraline) or 20 mg/d(fluoxetine, paroxetine) and increased to a maximum toler-ated daily dose of clomipramine (250 mg/d), fluvoxamine (300
PATIENTS
mg/d), sertraline (200 mg/d), fluoxetine (80 mg/d), and par-oxetine (60 mg/d). Clomipramine and fluvoxamine were in-
Seventy patients gave written informed consent for partici-
creased by 50 mg every 4 to 5 days; sertraline was increased
pation in this study, which had been approved by the Hu-
by 50 mg/d each week and fluoxetine and paroxetine were
man Investigation Committee of Yale University School of
increased by 20 mg/d each week. Thus, patients received the
Medicine, New Haven, Conn. A semistructured interview
maximum tolerated dose of the SRI for at least 8 weeks be-
modeled after the Schedule for Affective Disorders and Schizo-
fore being considered for the risperidone-addition phase.
phrenia was administered to ascertain that all patients met
Thirty-four of the 70 patients did not enter the ris-
Diagnostic and Statistical Manual of Mental Disorders, Fourth
peridone-addition phase. Of these, 23 responded to SRI
Edition (DSM-IV)12 criteria for OCD. Only patients with OCD
alone, 7 had treatment-limiting adverse effects to the SRI,
symptoms of at least 1 year’s duration and of at least mod-
and 4 were noncompliant with treatment.
erate severity on the Clinical Global Impression Scale (CGI)13
Thirty-six patients were refractory to SRI monotherapy
were included. Patients were categorized as “depressed” (sec-
and entered the 6-week controlled risperidone-addition phase.
ondary to OCD) if they met DSM-IV criteria for major
Criteria for refractoriness to the SRI included (1) less than
depressive disorder or received a baseline score on the
35% improvement on the Yale-Brown Obsessive Compul-
modified 19-item Hamilton Rating Scale for Depression
sive Scale (Y-BOCS)18,19 or a Y-BOCS score of greater than
(HAM-D)14 of greater than 20. Relevant portions of the Sched-
16, (2) no better than “minimally improved” on the CGI global
ule for Tourette’s Syndrome and Other Behavioral Syn-
improvement item, and (3) consensus of the treating clini-
dromes15 modified for DSM-IV were used to diagnose tic dis-
cian and 2 of the authors (C.J.M. and C.N.E.) that the pa-
orders. Patients with chronic tics (motor and/or vocal) were
tient’s condition was unimproved (based on direct clinical
included, provided that OCD symptoms, rather than tics,
interview and review of behavioral ratings). Only patients who
constituted the chief complaint. The Schedule for Schizo-
met all 3 criteria were considered refractory.
typal Personalities16 and DSM-IV criteria were used to make
The SRI dose was maintained during the risperidone-
diagnoses of SPD. Each subject and each subject’s available
addition phase. Assignment to risperidone (1 mg per
first-degree relatives were also asked to report on each of their
capsule) or placebo was done randomly from a computer-
first-degree relatives’ psychiatric symptoms using a semi-
generated list, with patients, treating staff (including
structured format. All diagnostic instruments were admin-
prescribing physicians), and the rater blind to assign-
istered by the same experienced clinician (S.W.) who had
ment. Patients were given risperidone, 1 mg/d for 7 days,
attained satisfactory interrater reliability with other diagnos-
with the dosage then increased by 1 mg every week, to a
ticians within our research group. Final diagnoses for pa-
maximum of 6 mg/d, as tolerated. No other drugs were ad-
tients were made independently following the best-estimate
ministered and patients were not instructed in formal be-
diagnostic procedures developed by Leckman et al.17
havior therapy techniques. The clinical characteristics of
Patients were healthy based on results of physical ex-
each treatment group are summarized in Table 1.
amination, electrocardiogram, and screening tests of blood
After completing the controlled phase of the study,
and urine. Females had negative results on serum human
placebo-treated patients received open-label risperidone
chorionic gonadotropin testing. Patients were free of psy-
chotropic medications for at least 4 weeks before startingthe study. STUDY DESIGN
Patients were assessed weekly by the same trained blind rater(S.W.). Obsessive-compulsive symptoms were measured with
Seventy patients received 12 weeks of open-label SRI mono-
the Y-BOCS. Depression was rated with a 19-item version of
therapy. The choice of SRI was based on each patient’s priorSRI treatment. The SRI therapy was started at a dose of 50
2. There was no significant difference in dosage be-tween patients randomized to risperidone (2.2 ± 0.7 mg/d)
CLINICAL CHARACTERISTICS
and placebo (2.6 ± 0.8 mg/d) (Table 2). OF TREATMENT GROUPS GLOBAL TREATMENT RESPONSE
Twenty patients were randomized to risperidone and 16to placebo. The 2 groups did not differ significantly in
Ratings on the CGI global improvement item showed
treatment setting, age, sex distribution (although the
risperidone addition superior to placebo (F1,31= 7.65,
power may be too low for this particular 2 test), age at
PϽ.001) (Figure 1). The ANCOVA demonstrated
onset of OCD, duration of OCD, comorbid secondary ma-
that risperidone had significant superiority beginning
jor depression, chronic tic disorders, or SPD, number of
at week 3 and continuing at weeks 4, 5, and 6 (Figure
previous medication trials, number of previous SRI tri-
1). The ANOVA demonstrated a significant degree of
als, previous behavior therapy, or baseline Y-BOCS,
global improvement over time in the risperidone
HAM-D, and HAM-A scores (Table 1 and Table 2). The
group (F1,17= 12.86, PϽ.001) but not in the placebo
particular SRI used to treat each patient appears in Table
(REPRINTED) ARCH GEN PSYCHIATRY/ VOL 57, AUG 2000
2000 American Medical Association. All rights reserved.
the HAM-D, which excludes an item for rating OCD symp-
pattern changes [females], muscle stiffness, nausea, palpi-
toms. Anxiety was measured with the Hamilton Rating Scale
tations, restlessness, rhinitis, sedation, sialorrhea, tinni-
for Anxiety (HAM-A).20 The frequency dimension of the
tus, urinary urgency, and vomiting) at baseline and at the
Yale Global Tic Severity Scale21 (rated from 0=none to 5=al-
end of weeks 1 through 6 of the controlled study.
ways) was used to measure change in tic frequency for thosepatients with comorbid tics. A clinician rating of global im-
STATISTICAL ANALYSIS
provement was made with the CGI (7=“very much worse,”4=“no change,” 1=“very much improved”), compared with
Thirty-three of the 36 refractory patients completed the study
and were included in the efficacy analyses. One patient (ris-peridone group) dropped out prior to completing the first
TREATMENT RESPONSE
week of treatment owing to intolerable insomnia. Two oth-ers (1 receiving risperidone, 1 receiving placebo) were non-
Criteria for response to the SRI-risperidone combination
compliant with the protocol and dropped out prior to com-
included (1) 35% or greater improvement on the Y-BOCS
pleting the first week of treatment. Only baseline ratings
from the beginning of the risperidone-addition trial and a
were recorded for these 3 patients. Baseline ratings were
final Y-BOCS score of 16 or less, (2) a final CGI rating of
obtained after 12 weeks of SRI treatment. Student t tests
“much improved” or “very much improved,” and (3) con-
were calculated to determine baseline differences in rat-
sensus of the treating clinician and 2 of the primary inves-
ing scale measures, age, age of onset and duration of OCD,
tigators (C.J.M. and C.N.E.) that the patient’s condition was
and number of prior adequate medication and SRI trials.
improved (based on direct clinical interview and behav-
The 2 test with Yates correction was used to determine dif-
ioral ratings). Patients who met all 3 criteria were classi-
ferences in sex distribution, treatment setting, and previ-
fied as “marked” responders, those who met two thirds of
ous behavior therapy between groups.
the criteria were “partial” responders, and those who met
Testing with the Shapiro-Wilks statistic showed that
less than 2 of the criteria were nonresponders.
Y-BOCS scores could be approximated by the normal distri-bution at all assessment time points in both the risperidone
DETERMINATION OF SRI BLOOD LEVELS
and placebo groups. Two-way analysis of variance (ANOVA)with repeated measures was calculated for the 6 weeks of ris-
Blood samples were collected before and after the 6-week
peridone or placebo addition to assess the main effects of drug,
double-blind trial to determine SRI blood levels. Blood lev-
time, and drugϫtime interactions for the behavioral ratings.
els of SRIs were determined by high-performance liquid
Analysis of covariance (ANCOVA), using baseline score as a
chromatography with fluorescence detection by a com-
covariate, was used to determine when significant risperidone-
mercial laboratory. A commercially available assay for flu-
placebo differences took place on the CGI and Y-BOCS.
voxamine was not available at the time of the study.
The 2 test with Yates correction was used to com-
pare the 2 groups for rate of responders (marked or par-
PHYSIOLOGICAL MEASURES AND ADVERSE
tial) vs nonresponders, and to determine if response was
EFFECTS ASSESSMENT
related to sex or treatment setting. The relationship be-tween response vs nonresponse to risperidone and the pres-
Sitting and standing blood pressure and pulse, tempera-
ence or absence of a comorbid chronic tic disorder or SPD
ture, and respiratory rate were recorded at baseline and at
was determined by the Fisher exact test. Paired t tests were
the end of weeks 1 through 6 of the controlled trial. Each
used to determine change in behavioral ratings (baseline
patient was examined for extrapyramidal (abnormal gait,
to end of week 6) for patients given open-label risperi-
ataxia, dystonia, hyperkinesia, hypertonia, hypokinesia, in-
done. Fourteen of these 16 patients completed the 6-week
voluntary muscle contractions, oculogyric crisis, and tremor)
open-label risperidone phase. One patient was noncom-
and other adverse effects (agitation, blurry vision, consti-
pliant and the other moved to another country prior to en-
pation, coughing, diaphoresis, diarrhea, dizziness, dry
tering this phase of the study. Data are presented as mean
mouth, dyspepsia, enuresis, gynecomastia, headache, in-
± SD unless otherwise indicated, and are reported as sig-
creased appetite, insomnia, lightheadedness, menstrual
nificant when PϽ.05 (2 tailed).
Nine (50%) of 18 risperidone-treated patients
The ANOVA revealed significant interaction effects of
responded (4 marked response, 5 partial response)
drug ϫtime (F1,31=6.59, PϽ.001) for the risperidone- vs
(Figure 2). None of 15 placebo-treated patients
placebo-addition phase. In comparing the effects of ris-
were categorized as responders (2= 8.0, PϽ.005)
peridone and placebo on OCD symptoms, ANCOVA
showed that risperidone was significantly better than
Seven (50%) of 14 patients who received 6 weeks
placebo beginning at week 5 and continuing at week 6
of open-label risperidone addition following the double-
(Figure 3). The ANOVA showed a highly significant
blind placebo phase were categorized as responders (4
decrease in total Y-BOCS scores from baseline in the
marked response, 3 partial response).
risperidone group (31.8%; 27.4 ± 5.4 to 18.7 ± 8.3)(F1,17= 14.61, PϽ.001). In responders, Y-BOCS scores
RESPONSE OF OCD, DEPRESSIVE,
decreased by 51.6%, from a baseline score of 27.5 ± 3.8
AND ANXIETY SYMPTOMS
to a final score of 13.3 ± 6.0, following 6 weeks of risperi-done. In contrast, ANOVA showed no significant change
As measured by reduction in total Y-BOCS scores, ris-
in Y-BOCS scores for any week following baseline in
peridone addition was superior to placebo (Figure 3).
the placebo group (27.6 ± 3.7 to 25.0 ± 4.4) (Figure 3).
(REPRINTED) ARCH GEN PSYCHIATRY/ VOL 57, AUG 2000
2000 American Medical Association. All rights reserved. Table 1. Clinical Characteristics of Patients With OCD Treated With Risperidone or Placebo Addition to SRI* Patient No./ Age, y/Sex/ Duration Ethnicity OCD Symptoms‡ Comorbid Diagnoses§ Family History Risperidone Group Placebo Group
Sister: anorexia nervosa; father: bipolar
Major depression, Tourette’s disorder (3)
Major depression, Tourette’s disorder (4)
*OCD indicates obsessive-compulsive disorder; SRI, serotonin reuptake inhibitor; M, male; W, white; F, female; OCPD, obsessive-compulsive personality disorder;
H, Hispanic; ADHD, attention-deficit/hyperactivity disorder; AA, African American; and AS, Asian American.
†Treated as inpatient. ‡Primary obsessions precede semicolon and primary compulsions follow it. Agg indicates aggressive; sym/ext, symmetry/exactness; chk, checking; ntk, need to
know; rpt, repeating; ord/arr, ordering/arranging; ctm, contamination; cln/wsh; cleaning/washing; som, somatic; rel, religious; hrd, hoarding; cnt, counting; ntr, need totouch, tap, or rub; and sex, sexual.
§Numbers in parentheses indicate baseline Yale Global Tic Severity Scale score (0 = none to 5 = always).
(REPRINTED) ARCH GEN PSYCHIATRY/ VOL 57, AUG 2000
2000 American Medical Association. All rights reserved. Table 2. Treatment Data of Patients With OCD Who Received Risperidone or Placebo Addition to SRI* Previous Previous Y-BOCS Score, Medication Behavior Daily SRI Risperidone Treatment Pre/Post Previous SRI Trials Current SRI Response Intervention Risperidone Group Placebo Group
*OCD indicates obsessive-compulsive disorder; SRI, serotonin reuptake inhibitor; CGI, Clinical Global Impression Scale global improvement item (7 = “very
much worse,” 6 = “much worse,” 5 = “minimally worse,” 4 = “no change,” 3 = “minimally improved,” 2 = “much improved,” 1 = “very much improved)”; Y-BOCS,Yale-Brown Obsessive Compulsive Scale (0 = “no symptoms,” 40 = “maximal symptoms”); and ellipses, not applicable.
As measured by reduction in total HAM-D scores,
As determined by reduction in total HAM-A scores,
risperidone addition was superior to placebo for
risperidone addition was also significantly better than
reducing depressive symptoms. The ANOVA revealed
placebo for reducing symptoms of anxiety. The ANOVA
s i g n i f i c a n t i n t e r a c t i o n e f f e c t s o f d r u g ϫ time
revealed significant interaction effects of drug ϫ time
(F1,31= 5.29, PϽ.001) for the risperidone- vs placebo-
(F1,31=3.78, P=.003) for the controlled addition phase.
addition phase. The ANOVA showed a significant
The ANOVA demonstrated a significant decrease in
decrease in HAM-D scores from baseline (11.7 ± 7.8 to
HAM-A scores from baseline (13.2±5.4 to 9.1±4.3) with
7.6 ± 4.9) with risperidone (F1,17= 4.16, P = .002). No
risperidone (F1,17=3.52, P=.007) but not placebo (13.5±
significant change in HAM-D scores occurred for any
week following baseline in the placebo group (12.2 ±
For the 14 patients who received 6 weeks of open-
label risperidone addition, the drug resulted in signifi-
(REPRINTED) ARCH GEN PSYCHIATRY/ VOL 57, AUG 2000
2000 American Medical Association. All rights reserved. Figure 1. Global improvement in patients with obsessive-compulsive Figure 2. Change in total Yale-Brown Obsessive Compulsive Scale (Y-BOCS)
disorder given risperidone (n = 18) or placebo (n = 15) for 6 weeks in addition
scores for patients with obsessive-compulsive disorder categorized as
to ongoing serotonin reuptake inhibitor treatment, as measured by the
responders (solid lines) or nonresponders (dashed lines) to risperidone
Clinical Global Impression Scale (CGI) global improvement item (7 = “very
(n = 18) or placebo (n = 15) for 6 weeks in addition to ongoing serotonin
much worse,” 4 = “no change,” 1 = “very much improved”). The baseline
score of 4.0 ± 0.0 is not actually a measured score, but rather the inferredstarting point of reference to the later change scores. Asterisk and doubleasterisk, F1,31=11.55, P=.002; dagger, F1,31=8.82, P=.006; double dagger,
F1,31=17.34, PϽ.001, change from beginning of double-blind addition phase,risperidone vs placebo, analysis of covariance. Error bars represent SE.
cant reductions in total Y-BOCS (24.8±4.5 to 18.3 ± 6.2,
t=3.2, P=.007) and HAM-A (15.4±7.9 to 11.4±6.3, t=2.3,
P = .04) scores, but not HAM-D (13.4 ± 6.3 to 10.9 ± 7.1)
TREATMENT RESPONSE AND COMORBID CHRONIC TIC DISORDER AND/OR SPD
Three of 5 patients with a comorbid chronic tic disorder
(Tourette’s disorder, n = 2; chronic motor tic disorder,
n = 1) were responders (1 marked response, 2 partial re-
sponse) to the double-blind addition of risperidone,
whereas 6 of 13 patients without tics (no known familyhistory of tics) responded (Fisher exact test, P=1.0). Three
Figure 3. Change in severity of obsessive-compulsive symptoms in patients
of 5 patients with comorbid SPD were responders (1
with obsessive-compulsive disorder given risperidone (n = 18) or placebo(n = 15) for 6 weeks in addition to ongoing serotonin reuptake inhibitor
marked response, 2 partial response) to risperidone,
treatment, as measured by the Yale-Brown Obsessive Compulsive Scale
whereas 6 of 13 patients without SPD responded (Fisher
(Y-BOCS) total scores (0 = “no symptoms,” 40 = “maximal symptoms”).
Asterisk, F1,31=7.66, P=.01; double asterisk, F1,31=9.30, P=.005, change
For the 14 patients treated with 6 weeks of open-
from beginning of double-blind addition phase, risperidone vs placebo,analysis of covariance. Error bars represent SE.
label risperidone addition, 2 of 4 patients with a comor-bid chronic tic disorder (Tourette’s disorder, n = 2) wereresponders (both marked response), whereas 5 of 10 pa-
done-treated patients experienced at least 1 adverse ef-
tients without tics (no known family history of tics) re-
fect. These included constipation (n = 1), diaphoresis
sponded (Fisher exact test, P = 1.0). The 1 patient with
(n = 1), dry mouth (n = 5), increased appetite (n = 6), in-
somnia (n=1), lightheadedness (n=1), restlessness (n=6),
For the 5 patients with comorbid chronic tics who
sedation (n = 17), tinnitus (n = 2), and urinary urgency
completed the double-blind risperidone addition phase,
(n = 1). No clinically significant changes in blood pres-
a significant reduction in tic frequency was determined
sure, heart rate, respiratory rate, or temperature were re-
(1.8 ± 0.4 to 1.0 ± 1.2, t = 4.0, P = .02) with the Yale Global
corded, and no acute extrapyramidal effects, seizures, or
cardiac events occurred. Anticholinergic agents or
-blockers were not required for any patient for risperi-
TOLERABILITY OF
done-related extrapyramidal symptoms. The most promi-
SRI/RISPERIDONE TREATMENT
nent adverse effect was initial, mild transient sedation. Fifteen of 16 patients experienced at least 1 adverse ef-
The SRI/risperidone treatment was generally well-
fect while receiving placebo. These included blurry vi-
tolerated. During the controlled phase, 18 of 20 risperi-
sion (n=2), diaphoresis (n=4), diarrhea (n=1), dry mouth
(REPRINTED) ARCH GEN PSYCHIATRY/ VOL 57, AUG 2000
2000 American Medical Association. All rights reserved.
(n = 5), headache (n = 5), increased appetite (n = 3), in-
patients diagnosed with a psychotic disorder, rather than
somnia (n = 1), lightheadedness (n = 4), muscle stiffness
(n = 1), palpitations (n = 1), restlessness (n = 6), sedation
That treatment response was due to a longer dura-
tion of SRI administration is unlikely, as none of the 15placebo-treated patients responded. Although the sample
SRI BLOOD LEVEL RESULTS
sizes were small, no significant differences in SRI bloodlevels were found between the risperidone- and placebo-
Complete SRI blood level data were available for 4 ris-
treated groups. Also, blood levels did not seem to be
peridone-treated patients (clomipramine [n = 2], fluox-
related to treatment response. Thus, it is unlikely that
etine [n = 2]) and 7 placebo-treated patients (clomipra-
risperidone exerted a therapeutic effect through a phar-
mine [n = 4], fluoxetine [n = 2], sertraline [n = 1]). In the
risperidone group, clomipramine plus desmethylclomip-
A balance of full 5-HT2A receptor occupancy and par-
ramine levels changed from 450 ng/mL to 348 ng/mL and
tial D2 receptor occupancy has been hypothesized to un-
514 ng/mL to 333 ng/mL, respectively; and fluoxetine plus
derlie risperidone’s lower tendency to cause extrapyra-
norfluoxetine levels changed from 880 µg/L to 1049 µg/L
midal effects compared with typical neuroleptics.23 In the
and 841 µg/L to 845 µg/L, respectively. In the placebo
present study, risperidone was generally well-tolerated,
group, clomipramine plus desmethylclomipramine lev-
with no evidence that acute extrapyramidal effects dif-
els changed from 461 ng/mL to 434 ng/mL, 558 ng/mL
fered between drug and placebo. The most common ad-
to 514 ng/mL, 424 ng/mL to 496 ng/mL, and 484 ng/mL
verse effect was mild, transient sedation, which re-
to 297 ng/mL, respectively; fluoxetine plus norfluox-
solved early in the treatment course. This adverse effects
etine levels changed from 293 µg/L to 408 µg/L and 799
profile is in contrast to our experience with haloperidol
µg/L to 805 µg/L, respectively; and sertraline levels
addition in fluvoxamine-refractory OCD.6 In that study,
changed from 150 ng/mL to 308 ng/mL.
29% of haloperidol-treated patients required adjunctivepropranolol for akathisia despite being prophylactically
treated with benztropine. No patient required proprano-lol or anticholinergic agents in the current investiga-
These results demonstrate that the addition of risperi-
tion. While this study does not address the potential long-
done to the treatment of OCD patients refractory to SRI
term adverse effects of risperidone, only 2 (0.2%) of 882
alone is significantly more effective than placebo for re-
patients with schizophrenia exposed to more than 12
ducing OCD, depressive, and anxiety symptoms. Con-
weeks of risperidone have developed tardive dyskinesia
sistent with a previous study,22 risperidone was also ef-
(written communication, Martin Brecher, MD, 1999).
fective for reducing tics in patients with comorbid tics.
Nonetheless, because of reports of possible tardive dys-
Contrary to our hypothesis and results from previous stud-
kinesia with risperidone,31 continued close monitoring
ies of haloperidol6 and pimozide5 addition in fluvoxamine-
of the drug and longer-term follow-up studies are war-
refractory OCD, no significant difference in treatment re-
ranted. Additional research is necessary to replicate these
sponse was found between OCD patients with and without
findings and to investigate this treatment strategy in chil-
comorbid chronic tic disorder or SPD. The ability to de-
dren and adolescents with SRI-refractory OCD.
tect significant differences between these groups, how-ever, may have been limited by the relatively small sample
Accepted for publication March 24, 2000.
sizes of patients with such comorbidity. The broader ef-
This work was supported in part by grant PO1
fects of risperidone across these diagnostic subtypes of
MH49351 (J. F. Leckman, MD) from the US Public Health
OCD, compared with haloperidol and pimozide, may be
Service, Bethesda, Md; Young Investigator Awards from theNational Alliance for Research in Schizophrenia andDepression, Chicago, Ill (Drs McDougle, Epperson, and Pel-
2 blockade, which is particularly relevant at the rela-
tively low dosages required in this study.23 Risperi-
ton); Theodore and Vada Stanley Foundation Research
done’s affinity in vitro is 20 times higher for 5-HT
Awards Program, Arlington, Va (Drs McDougle and Price);and the State of Connecticut, Department of Mental Health
2 receptors; in vivo it occupies 5-HT2A receptors at
over, unlike haloperidol, risperidone has been shown to
Elizabeth Kyle, AS, prepared the manuscript, Sally J.
dose-dependently increase extracellular concentrations
Vegso, MS, performed the statistical analyses, and ElizabethM. Ruff and Krista Guenin, BA, constructed the graphics.
The design of this study does not exclude the pos-
Reprints: Christopher J. McDougle, MD, Indiana Uni-
sibility that treatment response was due to risperidone
versity School of Medicine, Section of Child and Adolescent
alone. Based on a review of the literature on atypical an-
Psychiatry, James Whitcomb Riley Hospital for Children,
tipsychotics,25 and on our previous investigation of cloza-
702 Barnhill Dr, Room 3701, Indianapolis, IN 46202-
pine monotherapy in refractory OCD,26 this would not
5200 (e-mail: [email protected]).
be anticipated. Considering prior reports, one might havehypothesized that an atypical antipsychotic (eg, cloza-
pine,27 risperidone,28 olanzapine29) would induce or ex-acerbate OCD symptoms. However, as we have previ-
1. Greist JH, Jefferson JW, Kobak KA, Katzelnick DJ, Serlin RC. Efficacy and toler-
ously commented,30 all of these descriptions of clinical
ability of serotonin transport inhibitors in obsessive-compulsive disorder: a meta-
induction or worsening of OCD symptoms occurred in
analysis. Arch Gen Psychiatry. 1995;52:53-60.
(REPRINTED) ARCH GEN PSYCHIATRY/ VOL 57, AUG 2000
2000 American Medical Association. All rights reserved.
2. McDougle CJ, Price LH, Goodman WK, Charney DS, Heninger GR. A controlled
17. Leckman JF, Sholomskas D, Thompson WD, Belanger A, Weissman MM. Best
trial of lithium augmentation in fluvoxamine-refractory obsessive-compulsive dis-
estimate of lifetime psychiatric diagnosis: a methodologic study. Arch Gen Psy-
order: lack of efficacy. J Clin Psychopharmacol. 1991;11:175-184.
3. McDougle CJ, Goodman WK, Leckman JF, Holzer JC, Barr LC, McCance-Katz
18. Goodman WK, Price LH, Rasmussen SA, Mazure C, Fleischmann RL, Hill CL,
EF, Heninger GR, Price LH. Limited therapeutic effect of addition of buspirone in
Heninger GR, Charney DS. The Yale-Brown Obsessive Compulsive Scale (Y-
fluvoxamine-refractory obsessive compulsive disorder. Am J Psychiatry. 1993;
BOCS), part I: development, use, and reliability. Arch Gen Psychiatry. 1989;46:
4. Pigott TA, L’Heureux F, Rubenstein CS, Hill JL, Murphy DL. A controlled trial of
19. Goodman WK, Price LH, Rasmussen SA, Mazure C, Delgado P, Heninger GR,
clonazepam augmentation in OCD patients treated with clomipramine or fluox-
Charney DS. The Yale-Brown Obsessive Compulsive Scale (Y-BOCS), part II: va-
etine. In: New Research Program and Abstracts of the 145th Annual Meeting of
lidity. Arch Gen Psychiatry. 1989;46:1012-1016.
the American Psychiatric Association. Washington, DC: American Psychiatric As-
20. Hamilton M. The assessment of anxiety states by rating. Br J Med Psychol. 1959;
sociation; 1992:82. Abstract NR 144.
5. McDougle CJ, Goodman WK, Price LH, Delgado PL, Krystal JH, Charney DS,
21. Leckman JF, Riddle MA, Hardin MT, Ort SI, Swartz KL, Stevenson J, Cohen DJ.
Heninger GR. Neuroleptic addition in fluvoxamine-refractory obsessive-
The Yale Global Tic Severity Scale: initial testing of a clinician-rated scale of tic
compulsive disorder. Am J Psychiatry. 1990;147:652-654.
severity. J Am Acad Child Adolesc Psychiatry. 1989;4:566-573.
6. McDougle CJ, Goodman WK, Leckman JF, Lee NC, Heninger GR, Price LH.
22. Lombroso PJ, Scahill L, King RA, Lynch KA, Chappell PB, Peterson BS,
Haloperidol addition in fluvoxamine-refractory obsessive compulsive disorder:
McDougle CJ, Leckman JF. Risperidone treatment of children and adolescents
a double-blind, placebo-controlled study in patients with and without tics.
with chronic tic disorders: a preliminary report. J Am Acad Child Adolesc Psy-
Arch Gen Psychiatry. 1994;51:302-308.
7. Jacobsen FM. Risperidone in the treatment of affective illness and obsessive-
23. Leysen JE, Janssen PMF, Megens AAHP, Schotte A. Risperidone: a novel anti-
compulsive disorder. J Clin Psychiatry. 1995;56:423-429.
psychotic with balanced serotonin-dopamine antagonism, receptor occupancy
8. McDougle CJ, Fleischmann RL, Epperson CN, Wasylink S, Leckman JF, Price
profile, and pharmacologic activity. J Clin Psychiatry. 1994;55(suppl):5-12.
LH. Risperidone addition in fluvoxamine-refractory obsessive compulsive dis-
24. Hertel P, Nomikos GG, Schilstrom B, Arborelium L, Svensson TH. Risperidone
order: three cases. J Clin Psychiatry. 1995;56:526-528.
dose-dependently increases extracellular concentrations of serotonin in the rat
9. Saxena S, Wang D, Bystritsky A, Baxter LR Jr. Risperidone augmentation of SRI
frontal cortex: role of alpha-2-adrenoceptor antagonism. Neuropsychopharma-
treatment for refractory obsessive-compulsive disorder. J Clin Psychiatry. 1996;
25. Potenza MN, McDougle CJ. Potential of atypical antipsychotics in the treatment
10. Ravizza L, Barzega G, Bellino S, Bogetto F, Maina G. Therapeutic effect and safety
of nonpsychotic disorders. CNS Drugs. 1998;9:213-232.
of adjunctive risperidone in refractory obsessive-compulsive disorder (OCD). Psy-
26. McDougle CJ, Barr LC, Goodman WK, Pelton GH, Aronson SC, Anand A, Price
LH. Lack of efficacy of clozapine monotherapy in refractory obsessive compul-
11. Stein DJ, Bouwer MB, Hawkridge S, Emsley RA. Risperidone augmentation of
sive disorder. Am J Psychiatry. 1995;152:1812-1814.
serotonin reuptake inhibitors in obsessive-compulsive and related disorders.
27. Baker RW, Chengappa KNR, Baird JW, Steingard S, Christ MAG, Schooler NR.
Emergence of obsessive-compulsive symptoms during treatment with cloza-
12. American Psychiatric Association. Diagnostic and Statistical Manual of Mental
pine. J Clin Psychiatry. 1992;53:439-442.
Disorders, Fourth Edition. Washington, DC: American Psychiatric Association;
28. Kopala L, Honer WG. Risperidone, serotonergic mechanisms, and obsessive-
compulsive symptoms in schizophrenia [letter]. Am J Psychiatry. 1994;151:
13. Guy W. ECDEU Assessment Manual for Psychopharmacology. Washington, DC:
US Dept of Health, Education, and Welfare; 1976. Publication 76-338.
29. Morrison D, Clark D, Goldfarb E, McCoy L. Worsening of obsessive-compulsive
14. Mazure C, Nelson JC, Price LH. Reliability and validity of the symptoms of major
symptoms following treatment with olanzapine [letter]. Am J Psychiatry. 1998;
depressive illness. Arch Gen Psychiatry. 1986;43:451-456.
15. Pauls DL, Hurst CR. Schedule for Tourette’s Syndrome and Other Behavioral Syn-
30. McDougle CJ, Epperson CN, Price LH. Obsessive-compulsive symptoms with
dromes. New Haven, Conn: Yale University Child Study Center; 1987.
neuroleptics [letter]. J Am Acad Child Adolesc Psychiatry. 1996;35:837.
16. Baron M, Asnis L, Gruen R. The Schedule for Schizotypal Personalities (SSP): a
31. Woerner MG, Sheitman BB, Lieberman JA, Kane JM. Tardive dyskinesia in-
diagnostic interview for schizotypal features. Psychiatry Res. 1981;4:213-228.
duced by risperidone [letter]? Am J Psychiatry. 1996;153:843.
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