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Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
Psychopharmacological Treatment for Very YoungChildren: Contexts and Guidelines
MARY MARGARET GLEASON, M.D., HELEN LINK EGGER, M.D., GRAHAM J. EMSLIE, M.D.,
LAURENCE L. GREENHILL, M.D., ROBERT A. KOWATCH, M.D.,
ALICIA F. LIEBERMAN, PH.D., JOAN L. LUBY, M.D., JUDITH OWENS, M.D.,
LAWRENCE D. SCAHILL, M.S.N., PH.D., MICHAEL S. SCHEERINGA, M.D., M.P.H.,
BRIAN STAFFORD, M.D., M.P.H, BRIAN WISE, M.D., M.P.H., AND CHARLES H. ZEANAH, M.D.
ABSTRACT
Systematic research and practice guidelines addressing preschool psychopharmacological treatment in very young
children are limited, despite evidence of increasing clinical use of medications in this population. The Preschool
Psychopharmacology Working Group (PPWG) was developed to review existing literature relevant to preschool
psychopharmacology treatment and to develop treatment recommendations to guide clinicians considering psychophar-
macological treatment in very young children. This article reviews the developmental considerations related to preschool
psychopharmacological treatment, presents current evidence bases for specific disorders in early childhood, and
describes the recommended algorithms for medication use. The purpose of this effort is to promote responsible treatment
of young children, recognizing that this will sometimes involve the use of medications. J. Am. Acad. Child Adolesc.
Psychiatry, 2007;46(12):1532Y1572. Key Words: preschool, treatment, psychopharmacology.
In 2000 the American Academy of Child andAdolescent Psychiatry_s Research Forum highlightedthe developmental, logistical, and ethical challenges
related to preschool psychopharmacological research(Greenhill et al., 2003). The group recommended thedevelopment of guidelines for the pharmacologicaltreatment of preschoolers with psychiatric disorders.Where randomized controlled data were not available,the group recommended that guidelines be derivedfrom clinical experience and community standards. Todate, our field lacks these guidelines. Thus, cliniciansand families face a delicate balancing process, weighingthe risks of medications with the risks of not interveningin complex clinical situations that are resistant tononpharmacological interventions. The risks associatedwith psychiatric disorders are not insignificant; pre-school psychiatric disorders can be associated with childcare expulsion, inability to participate in familyactivities, impaired peer relationships, high-risk beha-viors (Byrne et al., 2003; Egger and Angold, 2006;Gilliam, 2005), and future mental health problems(e.g., Lavigne et al., 1998).
WORKING GROUP METHODS
The Preschool Psychopharmacology WorkingGroup (PPWG) was established in response to the
Accepted July 10, 2007.Dr. Gleason is with the Bradley Hasbro Research Center and the Tulane
Institute of Infant and Early Childhood Mental Health; Dr. Egger is with theCenter for Developmental Epidemiology, Duke University Medical School; Dr.Emslie is with the University of Texas Southwestern Medical Center; Dr.Greenhill is with the New York State Psychiatric Institute; Dr. Kowatch is withthe Department of Psychiatry, Cincinnati Children_s Hospital Medical Center;Dr. Lieberman is with the Department of Psychiatry, University of California,San Francisco; Dr. Luby is with the Department of Psychiatry, WashingtonUniversity School of Medicine; Dr. Owens is with the Department of Pediatrics,Brown University Medical School; Dr. Scahill is with the Child Study Center atYale University; Dr. Scheeringa is with the Division of Child and AdolescentPsychiatry at the Tulane University Health Sciences Center; Dr. Stafford is withthe Departments of Pediatrics and Psychiatry at the Children_s Hospital, Denver;Dr. Wise is with the University of Colorado Health Sciences Center; Dr. Zeanahis with the Division of Child and Adolescent Psychiatry at Tulane UniversityHealth Sciences Center.
This project was supported by a grant from the AACAP Abramson Fund.The authors would like to acknowledge the important contributions of the
young children and families with whom we work, and the valuable feedbackreceived from the Early Childhood Clinical Research team at Bradley Hospital.
Correspondence to Mary Margaret Gleason, M.D., Bradley Hasbro ResearchCenter, 1 Hoppin Street, Providence, RI 02903; e-mail: [email protected].
0890-8567/07/4612-1532�2007 by the American Academy of Childand Adolescent Psychiatry.
DOI: 10.1097/chi.0b013e3181570d9e
S P E C I A L C O M M U N I C A T I O N
1532 J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
clinical needs of preschoolers being treated withpsychopharmacological agents and the absence ofsystematic practice guidelines for this age group. Thecentral aim of this working group is to develop bestpractice algorithms for the use of psychopharmacolog-ical agents in preschool children based upon literaturereview, clinical experience, and expert consensus. Thisdiscussion of psychopharmacological treatment ofseverely impaired young children is provided as anattempt to promote an evidence-informed, clinicallysound approach to considering medications in this agegroup. It is not intended to promote the use ofmedications. We anticipate that application of thesealgorithms will result in a reduction in the use ofpsychopharmacological agents for young children. Theworking group includes professionals with expertise inearly childhood psychiatric disorders, psychopharma-cology, general and behavioral pediatrics, clinicalpsychology, and neurodevelopmental processes.
The working group has met in person and reviewedmaterial via multiple conference calls and e-mail com-munication. Articles were identified through PubMedand PsycINFO searches for the period 1990Y2007 usingthe search terms ‘‘preschool,’’ ‘‘psychopharmacology,’’‘‘medications,’’ ‘‘childhood,’’ ‘‘stimulants,’’ ‘‘anti-depressants,’’ ‘‘SSRI,’’ ‘‘neuroleptic,’’ ‘‘antipsychotic,’’‘‘mood stabilizer,’’ ‘‘ADHD,’’ ‘‘depression,’’ ‘‘anxiety,’’‘‘OCD,’’ ‘‘PTSD,’’ ‘‘sleep disorder,’’ ‘‘insomnia,’’‘‘aggression,’’ ‘‘DBD,’’ ‘‘conduct disorder,’’ ‘‘opposi-tional defiant disorder,’’ ‘‘bipolar disorder,’’ ‘‘safety,’’ and‘‘prescribing.’’ We reviewed all of the identified preschoolpsychopharmacology publications as were relevant.Because of the important influence of older child andadolescent data on prescribing for preschool children, wealso reviewed the highest level of evidence in older children.
The group developed treatment algorithms to guidepsychopharmacological treatment of preschool psychia-tric disorders using the systematic literature review,survey responses from practicing clinicians (unpub-lished PPWG survey), and the research and clinicalexpertise of the working group. The algorithms are notintended to suggest certainty where none exists. Eachstep of the algorithm is labeled with the level ofevidence that supports the step to allow clinicians toconsider systematic approaches to treatment, to beaware of data as well as extant gaps in evidence base, andto understand the basis for recommendations. Thealgorithms that were developed represent the group’s
best attempt to integrate data and clinical experience;however, clinicians may determine that an alternativeapproach is indicated in a particular clinical situation.
Algorithms can facilitate clinical decisions byexplicitly identifying clinical decision points, definingstrategic (what to do) and tactical (how to do it)processes (Emslie et al., 2004b). They are intended tobe user-friendly and reduce unnecessary variance inclinical practice patterns. Algorithm implementation,study of clinical outcomes, and a growing research basewill guide future changes in treatment recommenda-tions (Gilbert et al., 1998).
OVERVIEW OF PRESCRIBING PRACTICES
Of preschoolers with psychiatric disorders, only asmall proportion are referred for mental healthtreatment, and the primary treatment modality formost very young children is psychotherapeutic ratherthan psychopharmacological (AACAP, 1997b; Eggerand Angold, 2006; Lavigne et al., 1993). Studies usingvaried methods yielded estimates that 3 to 9/1,000 U.S.preschoolers received prescriptions for psychotropicmedications in the 1990s (DeBar et al., 2003; Zitoet al., 2000). Rates of stimulants and "-agonistprescriptions increased dramatically between 1991 and1995 in Medicaid populations (Zito et al., 2000). From1991Y1995, prescription rates for Medicaid-enrolledpreschoolers approximately doubled, with the mostnotable increases in atypical antipsychotic and anti-depressant use, with stable rates of stimulant prescrip-tions (Cooper et al., 2004; Patel et al., 2005; Zito et al.,2007; Zuvekas et al., 2006). These population-basedstudies do not link the prescription with clinicalinformation, and it is possible that some prescriptionswritten for infants or very young children may, in fact, beintended to treat uninsured parents.
In addition, these studies do not examine complemen-tary and alternative medication (CAM) use. In a survey ofparents in an emergency room (mean age 5.3 years; n =103), 16% of parents reported giving their child a CAMagent for relaxation (Lanski et al., 2003). Although thedetails of the use of CAM in preschoolers are beyond thescope of this article, CAM is a factor in preschoolers’exposure to psychotropic agents (Chan, 2002).
A few studies have examined patterns of prescriptionsfor children with psychiatric diagnoses. Across a varietyof populations including community, HMO, and
MEDICATION TREATMENT IN PRESCHOOLERS
1533J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
Medicaid, the majority of prescriptions written forpreschoolers are for stimulants (DeBar et al., 2003;Luby et al., 2007; Zito et al., 2007). In an HMOpopulation including 743 preschoolers with emotionalor behavioral problems, 16% (n = 120) of diagnosedchildren received psychopharmacological treatment,most commonly monotherapy with a stimulant(DeBar et al., 2003). In this study, stimulant use wasclearly linked to attention-deficit/hyperactivity disorder(ADHD) and "-agonists to sleep and aggression. Theauthors could not discern an association betweenantidepressant use and diagnoses or symptoms. In acommunity sample, Luby et al. (2007) reported that12% (17/123) of preschoolers with a DSM-IV diagnosishad received medication for at least 1 month. In bothstudies, slightly less than 80% of preschoolers whoreceived psychopharmacological treatment also receivedpsychotherapy. A total of 33% of the communitysample and 74% of the HMO sample received theirprescription from a primary care provider. In higherrisk populations, such as medically complex toddlerswith ADHD and psychiatrically hospitalized youngchildren, reports describe higher rates of psychophar-macological treatment (57%Y79%) and more prevalentuse of more than one medication (Pathak et al., 2004;Rappley et al., 1999; Rappley et al., 2002).
Taken together, these early studies of preschool psy-chopharmacological practice suggest that the majority ofpreschoolers with mental heath problems do not receivepsychopharmacological treatment. Access to othermental health services appears variable. Prescriptionpatterns support the value of clearly defined treatmentrecommendations for rational use of medications.
SPECIAL CONTEXTS OF PRESCHOOLPSYCHOPHARMACOLOGY
Treatment decisions involving young children includeconsideration of developmentally specific assessmentsand diagnosis, attention to neurodevelopmental andethical factors, and the existing evidence base.
Assessment
Although a comprehensive discussion of assessmentin preschool children is beyond the scope of this article,a comprehensive, developmentally sensitive, and con-textually relevant assessment is a prerequisite toconsideration of treatment. A number of resources
can be used to guide this process (AACAP, 1997b;Carter et al., 2004; DelCarmen-Wiggins and Carter,2004; Zeanah et al., 2000). An assessment of apreschooler includes multiple appointments, usesmultiple informants, and usually occurs within thecontext of a multidisciplinary team. A preschoolpsychiatric evaluation should address a child_s emo-tional and behavioral symptoms, relationship patterns,medical history, developmental history and status, aswell as parental and other environmental stressors andsupports (e.g., Egger et al., 2006a). In addition, earlychildhood development is particularly sensitive to thequality of the caregiverYchild relationship, as well asfamily, child care, community, and cultural contexts,which may influence the clinical presentation, caseformulation, and treatment plan (e.g., Seifer et al.,2001; Zeanah et al., 1997).
Structured, validated approaches to preschoolpsychiatric assessments can enhance the informationobtained in an assessment. These approaches includebrief parent report questionnaires focused on childsymptomatology, such as the Infant-Toddler SocialEmotional Assessment (Briggs-Gowan, 1998) or theChild Behavior Checklist 1½Y5 (Achenbach andRescorla, 2000), diagnostic interviews including thePreschool Age Psychiatric Assessment (Egger et al.,2006b), and structured observations of parentYchildinteractions, such as the Clinical Problem SolvingProcedure (Crowell and Fleischmann, 2000).
A comprehensive preschool psychiatric assessment isimpractical in a primary care setting, where manychildren receive their prescriptions (DeBar et al., 2003;Goodwin et al., 2001). In any setting, a rationalpreschool treatment plan must be founded upon anadequate history and mental status examination thatallow a reasonable biopsychosocial formulation. For aprimary care prescriber, multiple appointments, collec-tion of collateral information from other caregivers, andconsultation with the child_s mental health specialistprovide the foundation for treatment decisions whileallowing a primary care provider to practice within thescope of his or her knowledge.
Diagnosis
In clinical practice psychiatric diagnosis generallydrives treatment planning. Applying diagnoses canfacilitate the clinical application of research findingsfocused on that diagnosis and can provide a common
GLEASON ET AL.
1534 J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
language to describe complex clinical syndromes. Inclinical practice, most but not all impaired preschoolerswill meet full criteria for a diagnosis (Keenan et al.,1997). For those who do not, applying standardnosologies and recognizing subthreshold disorders canfocus treatment planning.
Two diagnostically sensitive nosologies have beendeveloped to address concerns about the DSM-IV ’slack of attention to young children: the ResearchDiagnostic Criteria: Preschool Age (AACAP TaskForce on Research Diagnostic Criteria: Infancy Pre-school Age, 2003) and the Diagnostic Criteria: 0Y3R(Zero to Three Diagnostic Classification Task Force,2005). The Research Diagnostic Criteria: PreschoolAge are developmentally sensitive, evidence-informedmodifications of the DSM-IV criteria intended tointroduce reliability into the assignment of diagnoses topreschoolers, particularly in the research setting. Therecently revised Diagnostic Criteria: 0Y3R also addressdevelopmentally specific clinical presentations of men-tal health problems, focused primarily on infants andtoddlers and their relationships with caregivers.
Overall, using developmentally sensitive criteria,psychiatric disorders can be reliably assessed in childrenas young as 2 years old (Egger et al., 2006b). Empiricalsupport for specific preschool diagnoses is somewhatvariable. Some disorders, including major depressivedisorder (Luby et al., 2003a; Luby et al., 2003b; Lubyet al., 2003c; Luby et al., 2004b), posttraumatic stressdisorder (PTSD; Scheeringa et al., 2001; Scheeringaet al., 1995; Scheeringa et al., 2004; Scheeringa et al.,2005), disruptive behavior disorders (Keenan andWakschlag, 2002; Keenan and Wakschlag, 2004),ADHD (Lahey et al., 2004; Lahey et al., 1998), andautism (Lord et al., 2006) have empirical evidence thatsupports convergent and predictive validity. Otherdisorders, including many anxiety disorders, have notbeen empirically tested in preschoolers. Reliable andvalid diagnostic criteria are necessary to develop empiri-cally supported treatments for preschool disorders.
Nonpharmacological Treatment
Clinical decision making includes consideration ofalternative therapies. Thus, prescribers should be awareof the growing (but still limited) evidence base forpsychotherapeutic interventions in preschoolers. Evidence-supported models of treatment are effective in decreas-ing aggression and behavioral problems in young
children with disruptive behavior disorders (Eyberg,1988; Hood and Eyberg, 2003; Webster-Strattonet al., 2004), reducing child traumatic stress disordersymptoms (Cohen and Mannarino, 1997; Liebermanet al., 2005; Lieberman et al., 2006). Psychother-apeutic interventions for preschoolers with PTSD(Scheeringa et al., in press) and mania-like symptoms(Luby et al., in press) have also shown promisingpreliminary outcomes, although randomized con-trolled trials have not yet been published. In ourexperience, access to these evidence-based psychother-apeutic interventions can be variable and may belimited by a number of variables including providertraining, third-party payer restrictions, and parentalmotivation to participate.
Neurodevelopmental Processes
Biology also influences consideration of psychophar-macological treatment in young children. The impactof early and/or prolonged exposure to psychotropicmedications in the preschool period has not beensystematically studied, but research highlights thesensitivity of the developing brain. Synaptic density,dopamine receptor density, and cerebral metabolic ratespeak in the first 3 years of life and decline oversubsequent decades (reviewed in Shonkoff and Phillips,2000; Vitiello, 1998). In animal models early exposureeither to psychotropic agents or stressors can perma-nently affect distribution of the neurotransmitterreceptors (e.g., Maciag et al., 2005; Matthews, 2002;Yannielli et al., 1999). Similarly, abnormal infantpsychophysiological processes are associated with fetalexposure to maternal psychopathology (Engel et al.,2005; Lundy et al., 1999; Yehuda et al., 2005). Thesefindings highlight the potential central nervous systemsensitivity to exogenous factors including medicationsas well as endogenous stress responses.
Longitudinal studies of children’s early exposure topsychotropic medications are limited to fetal andneonatal exposure from maternal antidepressant treat-ment, which provide mixed results. Although prenatalantidepressant exposure is associated with measurablechanges in infant pain responsivity and toddler motorskills (Casper et al., 2003; Oberlander et al., 2005;Oberlander et al., 2006), no cognitive differences orincreased rates of internalizing or externalizing symp-toms have been observed in preschool follow-up (Misriet al., 2006; Nulman et al., 1997; Oberlander et al.,
MEDICATION TREATMENT IN PRESCHOOLERS
1535J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
2007). These results highlight the need for futureinvestigations examining longitudinal studies of pre-schoolers exposed to psychotropic medications, aboutwhom no neurodevelopmental findings have beenpublished.
Other organ systems also develop during the firstyears of life. In preschoolers, medication absorption,distribution, and metabolic processes can have a signifi-cant impact on the pharmacokinetics of medications,generally meaning that children need higher doses toachieve comparable plasma levels (Cote, 2005; Crom,1994). In practice, this pattern must be balancedwith our knowledge that preschoolers also experiencemore side effects than older children and adults(e.g., Greenhill et al., 2006; Wigal et al., 2006).Taken together, developmental pharmacokinetic issuesand sensitivity to adverse effects make dosing medica-tions in young children a delicate balance.
Regulatory and Ethical Context
Finally, and not insignificantly, regulatory and ethicalconsiderations in preschool psychopharmacologicaltreatment must be considered. A Food and DrugAdministration (FDA) indication reflects empiricalsupport, although the lack of an indication does notnecessarily reflect a lack of evidence (AAP Committee onDrugs, 2002). In the United States, only a smallproportion of medications are approved for use inpediatrics and medications are commonly used ‘‘off-label’’ (AAP Committee on Drugs, 2002; Shah et al.,2007). Four psychiatric medicationsVhaloperidol,dextroamphetamines, chlorpromazine, and risperidone-are approved for children under age 6 years (Greenhill,1998). The FDA has developed incentives to encouragethe development and testing of medications for children,but to date progress is limited for children under 6(Balakrishnan et al., 2006; FDA, 2002; Grieve et al.,2005). Recently, concerns about the safety of medica-tions in children have resulted in further regulatoryactions including black box warnings on selectiveserotonin reuptake inhibitors (SSRIs) in the UnitedStates and temporary suspension of mixed amphetaminesalts because of concerns of possible adverse cardiovas-cular effects in Canada in 2005 (FDA, 2005a; FDA,2005b).
In this context, although off-label use of medicationsis acceptable, informed consent requires clear, thoroughdiscussions with parents about the FDA status of a
medication and the level of evidence supporting therecommendation, potential risks, benefits, and alter-natives to its use (Jensen, 1998). In the context of apreschooler’s psychiatric disorder, parental distressrelated to the child_s disorder or other pressures mayaffect a parent’s participation in the informed consentprocess (Spetie and Arnold, 2007). Thus, in preschooltreatment planning, the ethical principles of autonomy,justice, and beneficence are worthy of special attention(Spetie and Arnold, 2007).
CONSIDERING PSYCHOPHARMACOLOGICALTREATMENT
The contextual factors reviewed here render rationalprescribing considerably more challenging for pre-school children compared to older children. Jensenhas argued, however, that these diagnostic, neurode-velopmental, metabolic, and regulatory considerationsdo not ‘‘comprise a universal proscription against theuse of medication in young children’’ (Jensen, 1998,p. 588). A child with moderate to severe symptomsand functional impairment that persist despite appro-priate psychotherapeutic interventions may be betterserved by a carefully monitored medication trial thanby continuing other ineffective treatments. For somechildren, the safety concerns and developmental risksrelated to the psychiatric disorder may outweigh safetyconcerns related to planful psychopharmacologicaltreatments. Our group recommends that trial ofevidence-supported psychosocial treatments precedepsychopharmacological treatments. In the authors_view, psychopharmacological treatment is not indicatedfor preschoolers with only mild or single-contextsymptomatology or impairment.
Evidence Base
The algorithm section of this article describes thedetails of diagnosis-specific treatment reports, whichinclude one multisite, randomized placebo-controlledtrial (Greenhill et al., 2006), as well as case reports andopen trials (see Table 1). Although these studies providethe foundation for further studies of preschoolpsychopathology and treatment, there is not yet abroad evidence base for the use of most psychotropicmedications in children under 6 years of age. In thecurrent context clinicians must also consider studiesusing older populations and their own clinical experiences
GLEASON ET AL.
1536 J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
TABLE1
Pu
blis
hed
Pre
sch
ool
Psy
chop
har
mac
olog
ySt
ud
ies
(Mea
nA
ge<6
Yea
rs)
Dis
ord
erA
uth
ors
Med
icat
ion
Met
hod
Age
,y
ND
ose
Ou
tcom
eA
E
AD
HD
(DIS
C
dia
gnos
is)
Gre
enh
ill
etal
.,20
06;
Wig
alet
al.,
2006
MP
HM
ult
isit
e,d
oubl
e-
blin
d,
ran
dom
ized
con
trol
led
tria
l
3Y5.
516
57.
5Y22
.5m
g
div
ided
t.i.
d.
Rem
issi
onra
te:
21%
onm
ph
vs.
13%
pla
cebo
(Pe
0.00
1)
11%
dis
con
tin
ued
mp
hbe
cau
seof
AE
(in
clu
din
gir
rita
bili
ty,
emot
ion
alit
y,so
cial
wit
hd
raw
al,
dec
reas
ed
app
etit
e)
Low
eref
fect
size
s
than
old
erch
ild
ren
(0.2Y0
.7SD
)
Gre
ater
dec
reas
e
ingr
owth
velo
city
than
inol
der
chil
dre
n
Ris
kof
sid
eef
fect
s
asso
ciat
edw
ith
gen
etic
pol
ymor
ph
ism
s
Kra
toch
vil
etal
.,
2007
Ato
mox
etin
e8
-wk
pro
spec
tive
op
en
tria
l
5Y6.
1122
0.5
mg/
kg
titr
ated
tom
ax
1.8
mg/
kg(m
ean
1.25
mg/
kg)
72.7
%re
spon
sera
te
(CG
I-I
very
mu
chor
mu
chim
pro
ved
)
No
dis
con
tin
uat
ion
s
asso
ciat
edw
ith
AE
Mea
nd
ecre
ase
on
AD
HD
IV-R
S20
.68
(SD
12.8
)
54.5
%(1
2/22
)
moo
dla
bili
ty
Mea
nd
ecre
ase
in
wei
ght
1.4
kg
No
clin
ical
ly
sign
ific
ant
chan
ges
invi
tal
sign
s
AD
HD
Shor
tet
al.,
2004
MA
S(n
=6)
and
MP
H
(n=
22)
Pro
spec
tive
open
tria
l;3-
to4-
wk
pla
cebo
-con
trol
led
forc
edti
trat
ion
4.0Y
5.9
28M
AS:
5Y15
mg
For
22/2
8of
chil
dre
n,
best
dos
eei
ther
5or
10m
g
MP
Hb.
i.d
.
Mos
tco
mm
only
rep
orte
dA
Eon
best
dos
e=
dec
reas
ed
app
etit
e(7
/25)
,
irri
tabi
lity
(6/2
5,
sam
era
teon
pcb
),
cryi
ng
(6/2
5),
and
rebo
un
def
fect
s
(5/1
4)
MP
H:
10Y3
0
mg/
day
div
ided
b.i.
d.
Sign
ific
ant
dif
fere
nce
betw
een
pla
cebo
and
best
dos
eT
-sc
ores
onA
DH
D-R
S
(par
ent:
71.5
vs.
52.5
and
teac
her
:62
.2vs
.50
.1),
AQ
S,an
dH
SQ
DB
D:
Agg
ress
ion
Ces
ena
etal
.,
2002
Ris
per
idon
e
(con
com
itan
t
wit
hot
her
med
icat
ion
s)
Ret
rosp
ecti
vech
art
revi
ew4Y
6.11
(mea
n4.
9)
80.
25m
gti
trat
ed
toef
fect
orsi
de
effe
cts
(ran
ge
1.0Y
1.5
mg
q.d
.)
Mea
nC
GI-
Sd
ecre
ase
5.5Y
3.5
6/8:
wei
ght
gain
(5.5
T4.
9kg
)
Nor
mal
glu
cose
,
CB
C,
LF
Ts
Hyp
erp
rola
ctin
emia
(n=
1)
(Con
tinu
edon
next
page
)
MEDICATION TREATMENT IN PRESCHOOLERS
1537J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
TABLE1.
(Con
tinue
d)
Dis
ord
erA
uth
ors
Med
icat
ion
Met
hod
Age
,y
ND
ose
Ou
tcom
eA
E
Bip
olar
:
aggr
essi
on,
moo
din
stab
ilit
y,
man
icsy
mp
tom
s+
bip
olar
fam
ily
his
tory
Hag
ino
etal
.,
1995
Li
Ret
rosp
ecti
vech
art
revi
ewof
AE
4Y6
20W
ith
AE
:37
.2
mg/
kg
60%
had
atle
ast
1A
E(5
0%C
NS,
25%
GI,
10%
GU
)
No
AE
:31
.5
mg/
kg
20%
had
seri
ous
AE
Hig
her
Li
leve
las
soci
ated
wit
hh
igh
erra
tes
ofA
E
Hig
her
rate
sof
AE
asso
ciat
edw
ith
dia
gnos
isof
bip
olar
dis
ord
er
Bip
olar
Bie
der
man
etal
.,
2005
b
Ola
nza
pin
ean
d
risp
erid
one
Op
entr
ial
4Y6
31(1
6
risp
erid
one,
15 olan
zep
ine)
Ris
per
idon
e:
0.25
mg
q.d
.
titr
ated
tom
ax
2.0
mg
q.d
.
Ris
per
idon
e:d
ecre
ase
18.3
T11
.9p
oin
ts
onY
MR
S
Wei
ght
gain
:
risp
erid
one:
2.2
+0.
4kg
;
olan
zap
ine:
3.2
+0.
7kg
over
8w
k
Ola
nza
pin
e:
1.25
mg
q.d
.
titr
ated
tom
ax
10m
gq.
d.
Ola
nza
pin
e12
.1T
10.4
poi
nts
onY
MR
S
Incr
ease
inp
rola
ctin
leve
ls:
risp
erid
one:
12.0
T10
.4;
olan
zap
ine:
7.6T
4.1
Bip
olar
Sch
effe
ret
al.,
2004
AE
D,
stim
ula
nts
,
atyp
ical
anti
psy
chot
ic
agen
ts,
(17
DV
P
mon
oth
erap
y,ot
her
s
pol
yph
arm
acy)
Ret
rosp
ecti
vech
art
revi
ew
2Y5
31N
otp
rese
nte
dSi
gnif
ican
td
ecre
ase
inY
MR
Sat
2m
o(3
4.7Y
13.8
;n
=22
),
non
sign
ific
ant
dec
reas
eon
CG
I-S
(5.0Y3
.3)
Not
pre
sen
ted
No
chan
gein
YM
RS
from
2m
oto
exte
nd
edfo
llow
-up
of1Y
2y;
n=
11
Bip
olar
:m
ania
Mot
a-C
asti
llo
etal
.,20
01
Val
pro
ate
Ret
rosp
ecti
vech
art
revi
ew
21m
oY5
y9
250Y
500
mg
q.d
.
Lev
els:
72Y8
62
/dL
‘‘not
hit
tin
gI
mor
eco
oper
ativ
e’’;
‘‘sle
eps
all
nig
ht
wit
hou
t
argu
ingI
slow
edd
own
’’;
‘‘sta
ble’
’;‘‘a
ggre
ssio
n
ceas
ed’’;
‘‘les
sag
gres
siveI
not
def
yin
gor
boss
ing
adu
lts’
’;‘‘i
nsu
ffic
ien
t
follo
w-u
p’’
(n=
2)
Not
pre
sen
ted
Bip
olar
:m
ania
Tu
mu
luru
etal
.,
2003
Li
(n=
5)+
CB
Z(n
=1)
Ret
rosp
ecti
vech
art
revi
ew
3Y5.
11
(mea
n4.
6)
6N
otad
dre
ssed
Par
ent
refu
sed
Li
(n=
1)
Not
add
ress
ed
Req
uir
edad
dit
ion
of
CB
Z;
‘‘sta
ble’
’;
‘‘su
cces
sfu
llytr
eate
d’’
(n=
2)
‘‘Moo
dla
bili
tyd
ecre
ase’
’
Bip
olar
Tu
zun
etal
.,
2002
CB
ZC
ase
rep
ort
5.2
130
0m
gq.
d.
(6.7
6g/
mL
)
Fu
llre
mis
sion
at5
wk;
recu
rren
ceaf
ter
dis
con
tin
uat
ion
Mil
dse
dat
ion
Nor
mal
bioc
hem
ical
anal
yses
GLEASON ET AL.
1538 J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
Bip
olar
:m
ania
(PA
PA
dia
gnos
is)
Pav
ulu
riet
al.,
2002
Top
iram
ate
and
risp
erid
one
Cas
ere
por
t4.
51
Ris
per
idon
e:
0.25
mg
b.i.
d.
Ris
per
idon
em
onot
her
apy:
red
uct
ion
inir
rita
bili
ty
Wei
ght
gain
on
risp
erid
one
mon
oth
erap
y:
15.4
kgin
2m
o
Top
iram
ate
25m
gb.
i.d
.
Top
iram
ate:
moo
d
mor
est
able
,sl
eep
imp
rove
d,
wei
ght
loss
2.7
kg/w
eek�
4w
k,
over
all
loss
18.1
kg
Oth
erco
nco
mit
ant
med
s:L
i(p
olyu
ria)
An
xiet
yd
isor
der
s
(sp
ecif
icp
hob
ia,
soci
alan
xiet
y,an
d
feed
ing
anxi
ety)
Han
na
etal
.,
2005
Bu
spir
one
Cas
ere
por
t4
112
.5m
gb.
i.d
.D
ecre
ased
soci
alan
xiet
y,
feed
ing
anxi
ety,
and
spec
ific
ph
obia
sym
pto
ms
Rel
apse
wit
h
dis
con
tin
uat
ion
,
rem
issi
onw
ith
rein
itia
tion
of
trea
tmen
t
An
xiet
y:se
lect
ive
mu
tism
Wri
ght
etal
.,19
95F
luox
etin
eC
ase
stu
dy
4.10
14Y
8m
gq.
d.
Tal
kin
gfr
eely
inal
l
sett
ings
,d
ecre
ased
CB
CL
inte
rnal
izin
gsc
ores
(68Y
60)
Not
add
ress
ed
An
xiet
y:sp
ecif
ic
ph
obia
and
pan
ic
atta
cks
Avc
iet
al.,
1988
Flu
oxet
ine
Cas
ere
por
t2.
51
5m
gq.
d.
(0.2
5m
g/kg
/day
)
Dec
reas
edan
xiet
ysy
mp
tom
s
and
reso
luti
onof
pan
icat
tack
s
Not
add
ress
ed
An
xiet
y:tr
aum
a
rela
ted
Har
mon
and
Rig
gs,
1996
Clo
nid
ine
Op
entr
ial
3Y6
70.
05m
g
titr
ated
to
0.15
mg
q.d
.
Dec
reas
edte
ach
er-r
ated
sym
pto
ms
inat
leas
t>5
/7ch
ild
ren
Con
tact
der
mat
itis
wit
h
pat
ch,
inab
ilit
yto
tole
rate
pat
ch,
1ch
ild
dev
elop
edac
ute
HT
N
wit
hp
osts
trep
toco
ccal
glom
eru
lon
eph
riti
s
(HT
Nth
ough
tto
be
exac
erba
ted
byab
rup
t
dec
lin
eof
clon
idin
e)
PD
DM
asi
etal
.,20
03R
isp
erid
one
Op
entr
ial
36Y7
1m
o53
0.25
mg
titr
ated
up
;
mea
nop
tim
al
dos
e0.
55m
g
47%
imp
rove
dor
very
mu
chim
pro
ved
22%
wit
hd
rew
beca
use
ofA
E
Mea
nw
eigh
tga
in
2.4
(0.9Y9
.5kg
)
over
mea
nof
9m
o
(Con
tinu
edon
next
page
)
MEDICATION TREATMENT IN PRESCHOOLERS
1539J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
TABLE1.
(Con
tinue
d)
Dis
ord
erA
uth
ors
Med
icat
ion
Met
hod
Age
,y
ND
ose
Ou
tcom
eA
E
PD
D (au
tism
or
PD
DN
OS)
Lu
byet
al.,
2006
Ris
per
idon
eR
CT�
6m
o2.
5Y6.
024
0.5Y
1.5
mg
(mea
nd
ose
1.38
mg)
8%d
ecre
ase
inC
AR
S
scor
ein
risp
erid
one
grou
pvs
.3%
inp
cbgr
oup
Wei
ght
gain
:2.
96kg
inri
sper
idon
egr
oup
vs.
0.61
inp
cbgr
oup
CA
RS
scor
ed
ecre
ased
from
‘‘sev
erel
yau
tist
ic’’
tom
ildYm
oder
ate
in
risp
erid
one
grou
p;
no
chan
gein
pcb
grou
p
Hig
her
incr
ease
in
pro
lact
inle
vel
and
tren
dto
war
dh
igh
er
incr
ease
inle
pti
nle
vels
inri
sper
idon
egr
oup
Tra
nsi
ent
sed
atio
n
(n=
5),
incr
ease
d
app
etit
e(n
=6)
,
hyp
ersa
liva
tion
(n=
2)
inri
sper
idon
egr
oup
PD
DN
agar
ajet
al.,
2006
Ris
per
idon
eR
CT�
6m
o2Y
9(m
ean
58Y6
3m
o)
390.
5Y1.
0m
g63
%re
spon
sera
teon
CA
RS
onri
sper
idon
e
(20%
dec
reas
ein
scor
e)
vs.
0%on
pcb
2.8
kgin
crea
sevs
.1.
7(n
s)
onp
cb;
tran
sien
t
(<3
wk)
sed
atio
n
(n=
4),
tran
sien
t
dys
kin
esia
(n=
3)
94%
imp
rove
don
CG
I-I
vs.
30%
onp
cb
Not
e:U
nle
ssot
her
wis
en
oted
,cl
inic
ald
iagn
oses
wer
eu
sed
and
insu
ffic
ien
tin
form
atio
nis
pro
vid
edto
con
firm
stan
dar
diz
edd
iagn
osis
.A
DH
D=
atte
nti
ond
efic
it/h
yper
acti
vity
dis
ord
er;
AQ
S=A
bbre
viat
edSy
mp
tom
Qu
esti
onn
aire
;A
DH
DIV
-RS
=A
DH
DR
atin
gSc
ale-
IV;
AE
=ad
vers
eef
fect
s;A
ED
=an
tiep
ilep
tic
dru
g;b.
i.d
.=
twic
ep
erd
ay;
CA
RS
=C
hil
dA
uti
smR
atin
gSc
ale;
CB
C=
com
ple
tebl
ood
cou
nt;
CB
CL
=C
hil
dB
ehav
ior
Ch
eckl
ist;
CB
Z=
carb
amaz
epin
e;C
GI-
I=
Cli
nic
alG
loba
lIm
pre
ssio
ns-
Imp
rove
men
t;C
GI-
S=
Cli
nic
alG
loba
lIm
pre
ssio
ns
Scal
e-Se
veri
ty;
CN
S=
cen
tral
ner
vou
ssy
stem
;D
BD
=d
isru
pti
vebe
hav
ior
dis
ord
er;
DIS
C=
Dia
gnos
tic
Inte
rvie
wSc
hed
ule
for
Ch
ild
ren
;D
VP
=d
ival
pro
ex;G
I=
gast
roin
test
inal
;GU
=ge
nit
ouri
nar
y;H
SQ=
Hom
eSi
tuat
ion
sQ
ues
tion
nai
re;H
TN
=h
yper
ten
sion
;LF
Ts
=li
ver
fun
ctio
nte
sts;
Li=
lith
ium
;MA
S=M
ixed
amp
het
amin
esa
lts;
MP
H=
met
hyl
ph
enid
ate;
NO
S=
not
oth
erw
ise
spec
ifie
d;
PA
PA
=P
resc
hoo
lA
geP
sych
iatr
icA
sses
smen
t;p
cb=
pla
cebo
;P
DD
=p
erva
sive
dev
elop
men
tal
dis
ord
er;
q.d
.=
ever
yd
ay;
RC
T=
ran
dom
ized
con
trol
led
tria
l;t.
i.d
.=
thre
eti
mes
per
day
;V
PA
=va
lpro
ate;
YM
RS
=Y
outh
Man
iaR
atin
gSc
ale.
GLEASON ET AL.
1540 J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
as they weigh potential risks, benefits, and alternatives intreating preschoolers with medication.
ALGORITHMS
The algorithms share five common factors. Assess-ment and diagnosis are important components in anyclinical practice. These steps are included in thealgorithm to highlight the importance in youngchildren for whom the diagnostic process can be morecomplex than for older children. At every treatmentinitiation point, we recommend reassessment of thediagnosis and clinical formulation in recognition ofyoung children_s rapid development. Second, psy-chotherapeutic intervention steps are included as anintegral part of the algorithms because a decision to usemedication includes consideration of alternative treat-ments options. For some diagnoses, the weight ofevidence supporting the psychotherapeutic interventionis stronger than for medications, making it anempirically driven recommendation. In other disordersthe risks associated with the medication may be greaterthan the risks of a trial of psychotherapeutic interven-tion. In areas in which evidence-based therapies are notavailable, clinicians may choose to advance to thesubsequent step in the algorithm, recognizing that thisdecision is driven by necessity rather than evidence.Third, each algorithm step is marked with the level ofevidence supporting the step, allowing clinicians toconsider the body of evidence and apply it to theindividual clinical context. Fourth, each algorithmincludes recommendations for a discontinuation trialafter successful psychopharmacological treatment inrecognition of the importance of reassessing the needfor medication in rapidly developing preschoolers.Fifth, our group recognizes that patients may arrive atthe end of the algorithm with ongoing impairment anddistress. At this point, clinical consultation, ideally witha colleague experienced in early childhood psychiatry, isrecommended. Although the algorithms address indi-vidual diagnoses, a number of universal guidelines areprovided to encourage careful and planful clinicalpractice:
• Avoid medications when therapy is likely to producegood results.
• Generally, an adequate trial of psychotherapyprecedes consideration of medication, and psy-chotherapy continues if medications are used.
• Medications should be considered in the context of aclinical diagnosis and substantial functionalimpairment.
• A system should be developed to track symptoms andimpairment before initiating treatment.
• Parent referral or treatment for psychopathology mayoptimize their ability to participate in treatment aswell as family mental health.
• Informed consent includes explicit informationabout FDA approval and level of evidence support-ing recommendations.
• The ‘‘N of 1’’ trial approach should be consideredwhen initiating medication treatment.
• Medication discontinuation trials are encouraged toreduce unnecessary medication treatment.
• The use of medications primarily to address sideeffects of other medications is not recommended.
ADHD ALGORITHM
Stage 0: Diagnostic Assessment and
Psychotherapeutic Trial
Hyperactivity in the preschool period has a broaddifferential diagnosis. The diagnosis of ADHD, there-fore, should include assessment and consideration ofother causes of behavioral dysregulation includingfamily contextual patterns, anxiety processes, andmedical problems (see Fig. 1). Reports from childcare providers or teachers allow a clinician to assess thesymptoms in more than one setting. Structured baselineassessments of symptoms and level of functioning canguide treatment and monitor treatment response.Commonly used tools for monitoring symptomsinclude the Conners Rating Scale (Conners et al.,1998), the Child Behavior Checklist 1½Y5 (Achenbachand Rescorla, 2000), and the Swanson, Nolan, andPelham (Swanson, 1992; reviewed in AACAP, 2002).Although studies in older children suggest thatpsychosocial treatments alone are not as effective asmethylphenidate alone (MTA Cooperative Group,1999), clinical consensus suggests that parent manage-ment training is a first-line intervention in preschoolADHD (Kollins et al., 2006; Kratochvil et al., 2004;unpublished PPWG survey 2006, available fromM.M.G.). Parent management training is moreeffective in decreasing preschoolers_ attentional pro-blems than parent support or waitlist controls (Sonuga-Barke et al., 2001). If parent management training is
MEDICATION TREATMENT IN PRESCHOOLERS
1541J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
Fig. 1 ADHD algorithm.
GLEASON ET AL.
1542 J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
effective, then a clinician will continue to monitor thechild_s symptoms.
Stage 1: Psychopharmacological Trial (Methylphenidate)
Methylphenidate is the first-line psychopharmacolo-gical treatment for preschool ADHD in the PPWGalgorithm. A large, multisite randomized controlledtrial in preschoolers and 10 other smaller studies onmethylphenidate provide empirical support for its usein preschool ADHD (Greenhill et al., 2006). In thePreschool ADHD Treatment Study (PATS), methyl-phenidate was significantly more effective than placeboin treating ADHD and was generally tolerated. ThePATS found that optimal daily doses ranged from 7.5to 30 mg/day, divided in three daily doses ofimmediate-release methylphenidate. Clinicians shouldrecognize that the effect size (0.4Y0.8) in the PATS wassmaller than that seen in older children (0.5Y1.3), andthat preschoolers also had higher rates of emotionallability compared with published rates for olderchildren (Wigal et al., 2006). ADHD response andside effects will guide titration of methylphenidatedoses.
Although no data exist to support extended-releasestimulants in preschoolers, clinical experience high-lights the challenges of three times per day dosing.Thus, the algorithm includes use of extended-releasemethylphenidate formulations to address complianceconsiderations. These formulations limit dosing flexi-bility in the lowest dose ranges and therefore may becontraindicated in children whose optimal tolerateddose is lower than the extended release dose.
If methylphenidate is effective in treating ADHD,then the algorithm recommends a discontinuation trialafter 6 months of treatment to reassess the underlyingpsychopathology. Although ADHD has significantdiagnostic stability, a proportion of children diagnosedwith ADHD will not meet criteria in the future andmay not require ongoing psychopharmacological treat-ment (Lahey et al., 2004). Symptoms should be assessedin all of the appropriate settings using structured adultreport measures and clinical observation, if possible. Inthe AACAP survey, 60% (n = 62) of respondentsdescribed using natural experiments (e.g., when parentsdid not give the medication as prescribed) asdiscontinuation trials. Although these events provideuseful information, unplanned discontinuations usuallyoccur because of disruptions in routines and may not
represent an optimal discontinuation trial because ofthe context, limited structured reports, and shortduration. The recommendation for a discontinuationtrial after 6 months applies to all of the medications inthe ADHD algorithm.
Stage 2: Psychopharmacological Intervention
(Amphetamine Formulations)
If the methylphenidate trial is unsuccessful, thenpsychopharmacological treatment should be switchedto an amphetamine formulation (D-amphetamine ormixed amphetamine salts. Amphetamines are lesscommonly used in preschool ADHD treatment thanmethylphenidate (Zito et al., 2000). Only one pro-spective study and no randomized controlled trials haveexamined the efficacy of mixed amphetamine salts inpreschoolers (Short et al., 2004). In older childrenamphetamine is equivalent to and possibly slightlymore effective than methylphenidate for treatingADHD (Faraone et al., 2002) and is recommended asan appropriate first-line medication for ADHD (Plizskaet al., 2006). In the absence of preschool amphetaminedosing data, appropriate doses may be extrapolatedfrom the PATS data, with the recognition thatamphetamines are roughly twice as potent as methyl-phenidate (Pelham et al., 1999). Considerations ofextended release formulations of amphetamines aresimilar to those of methylphenidate.
Stage 3: Psychopharmacological Intervention ("-Agonist
or Atomoxetine)
When stimulants are ineffective or have unacceptableadverse effects, other medications may be consideredafter careful reassessment of the need for psychophar-macological intervention, based on diagnosis (includingsevere symptoms and impairment), clinical case for-mulation, and adequacy of intervention trials. Twoother classes of medication, "-agonists and atomox-etine, are commonly used for treatment of ADHD. Inolder children atomoxetine is recommended as themedication choice after stimulants and it has docu-mented effectiveness for treating ADHD in childrenand adolescents (Kelsey et al., 2004; Michelson et al.,2002). It does not have abuse potential and producesless insomnia or anorexia compared with stimulants(Sangal et al., 2006). A recent prospective open trialincluding twenty-two 5-and 6-year-olds (mean age 6.06years) reported a mean 20-point decrease in ADHD
MEDICATION TREATMENT IN PRESCHOOLERS
1543J . AM. ACAD. CHILD ADOLESC. PSYCHIATRY, 46:12, DECEMBER 2007
Copyright @ 2007 American Academy of Child and Adolescent Psychiatry. Unauthorized reproduction of this article is prohibited.
symptoms on the ADHD Rating Scale after 8 weeks ofatomoxetine at a mean dose of 1.25 mg/kg (Kratochvilet al., 2007). Of note, 54% of the children experiencedmood lability, although none discontinued the medica-tion because of this event. "-Agonists are morecommonly used to treat preschoolers with ADHD(Rappley et al., 1999; Zito et al., 2000). In olderchildren "-agonists have smaller effect sizes thanstimulants in treating ADHD, although they are moreeffective than placebo (Connor et al., 2003; Connoret al., 1999; Hazell and Stuart, 2003; Scahill et al.,2001; Tourette Syndrome Study Group, 2002). Notrials of "-agonists have focused exclusively onpreschoolers, although open trials and retrospectivechart reviews included children as young as 4 yearsold (Hunt et al., 1995; Prince et al., 1996). "-Agonists can be associated with adverse effectsincluding sedation, irritability, bradycardia, andhypotension (Connor et al., 1999; Scahill et al.,2001), and require regular monitoring of bloodpressure and heart rate (Plizska et al., 2006). Inoverdose "-agonists can result in sedation, hypoten-sion, or death (e.g., Klein-Schwartz, 2002). Thus, afamily_s inability to administer and store themedication safely may be a contraindication tousing the medications. The algorithm allows clin-icians to use individual clinical factors to choosebetween atomoxetine and "-agonists at stage 3because the existing evidence does not suggest oneis superior to the other. At this stage, cliniciansshould recognize the limited level of evidenceassociated with these medications in preschoolers,and weigh the risks and benefits of using thesemedications against alternative treatment approaches.
DISRUPTIVE BEHAVIOR DISORDERS ALGORITHM
Stage 0: Diagnostic Assessment
Although the validity of the DSM-IV diagnoses ofoppositional defiant disorder (ODD) and conductdisorder have been the focus of some debate, a growingbody of evidence demonstrates the existence of a groupof preschoolers with severe and sustained impairmentassociated with the symptoms of DSM-IV disruptivebehavior disorders (DBD; Egger and Angold, 2006;Keenan and Wakschlag, 2002). Because of the prev-alence of behavioral dysregulation in preschoolers withpsychopathology, careful assessment must differentiate
DBDs from other primary disorders, includingADHD, mood disorders, anxiety disorders, or devel-opmental delays (as described in Fig. 2). In addition,co-occurring disorders may be the primary cause of achild_s impairment and should be treated first.
Assessment of DBDs in preschoolers should include acomplete history from caregivers and structured andunstructured observations. The disruptive behaviordiagnostic observation schedule provides a structuredapproach to observation and diagnosis of these disorders(Wakschlag et al., 2005). For these disorders inparticular, the potential for relationship-specific orcontext-specific behavioral symptoms makes informa-tion from additional sources, such as child care providersor other caregivers, immensely valuable. Structured toolsto obtain this information, such as the Conners RatingScale, can provide baseline information and assist withcareful monitoring.
Stage 1: Nonpsychopharmacological Interventions
The balance between the relatively strong evidencebase for psychotherapeutic intervention and completelack of evidence for medication use in typicallydeveloping children guides our strong recommendationfor psychotherapeutic intervention involving parents asthe first-line intervention (Burke et al., 2002; Dozieret al., in press; Farmer et al., 2002; Hood and Eyberg,2003; Webster-Stratton et al., 2004). Evidence-supported treatment models, such as the IncredibleYears Series (Webster-Stratton and Hammond, 1997)or ParentYChild Interaction Therapy (Eyberg, 1988)focus on increasing parent skills to support positiveinteractions with their children and increasing consistentconsequences for aggressive or unacceptable behaviors.The availability of these evidence-based interventions canbe limited. Other therapies including behavioral therapywith parent involvement, positive parenting interven-tions, or social skills groups that include the parent maybe appropriate alternatives. The evidence-based psy-chotherapeutic interventions for preschoolers with dis-ruptive behaviors have a treatment duration of 10 to 20weeks, which should be considered a minimum treat-ment trial duration. Families may benefit from additionalcommunity resources, case management, child care, orschool interventions as supplements to therapy as theclinical picture warrants (AACAP, 1997a). As with otherdisorders, parental psychopathology may influenceparents_ experience and description of a preschooler_s
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Fig. 2 Disruptive behavior disorder (DBD) algorithm. MDD = major depressive disorder.
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behaviors (Biederman et al., 1998; Chilcoat and Breslau,1997; Ingersoll and Eist, 1998). Parental mental healthshould be assessed and addressed if parental symptomatol-ogy appears to be affecting child symptoms. If the trial oftherapy is ineffective, then the diagnoses and formulationshould be reassessed before moving to the psychopharma-cological treatment step.
Stage 2: Psychopharmacological Intervention (Risperidone)
There are no controlled trials of psychopharmacolog-ical interventions for preschoolers with ODD orconduct disorder who do not have comorbid mentalretardation or pervasive developmental disorder(PDD). One retrospective case series of children takingrisperidone for aggressive behavior associated withvarious diagnoses described a mean decrease of 36%of severity of symptoms associated with the risperidonetreatment (Cesena et al., 2002). With limited evidence,medications should be considered only after a trial ofpsychotherapy and in the case of safety concerns orextreme impairment in multiple settings and relation-ships. If a child has co-occurring ADHD, the ADHDalgorithm should be followed because that treatment isguided by a higher level of preschool data (Connor et al.,2002). Psychotherapy should continue throughouttreatment, because therapy will affect parentYchildinteractions and thus have a broader focus thanmedications, which target only children_s symptoms.
Before initiating medication, structured measuresshould be used to identify baseline symptomatologyand these should be administered at least monthlyduring treatment. In older children and adolescents,most studies target aggression rather than a specificdiagnosis. In a meta-analysis of 20 published studies oftreatment of aggression, Connor and colleaguesdescribed moderate to large effect sizes for stimulants(treating co-occurring aggression and ADHD), anti-psychotic agents including risperidone, and valproateand lithium (Connor et al., 2003; Connor et al., 2002).More recently published randomized controlled trialshave demonstrated decreases in ODD symptoms andassociated improvement in functioning in children withcomorbid ADHD and ODD on Adderall XR (Spenceret al., 2006). Thus, for children with ADHD, theADHD algorithm should be followed because theevidence base for methylphenidate exceeds that of othermedications that are effective in treating aggression(Greenhill et al., 2006).
Risperidone is recommended as the first medicationchoice for treating children with DBD with severeaggression without co-occurring ADHD (Aman et al.,2002; Connor et al., 2003; Connor et al., 2002;Gerardin et al., 2002; Reyes et al., 2006). Comparedwith other agents with efficacy in treating aggression,risperidone has a wider therapeutic window than moodstabilizers and the most data regarding tolerability,although primarily in developmentally delayed children(Cesena et al., 2002; Masi et al., 2003; Mukaddes et al.,2004). In fact, in children with autism, there issufficient evidence for an FDA indication for aggressionand irritability (Janssen, 2006). Dosing can beinformed by reports of tolerated use of risperidone inpreschoolers with bipolar disorder (BPD) and PDDthat have used doses as low as 0.25 mg and increased to1.5 to 2 mg/day (Biederman et al., 2005b; Cesena et al.,2002; Luby et al., 2006). Although risperidone hasmore tolerability data than other medications, it is notwithout potential adverse effects. Weight gain (up to 3kg in 6 months), hyperprolactinemia of unclear clinicalrelevance, and transient sedation have been associatedwith risperidone treatment in young children (Andersonet al., 2007; Biederman et al., 2005b; Luby et al., 2006;Masi et al., 2003). Drooling and nocturnal enuresis havealso been described in older children with PDD (Aman,2005; RUPP Autism Network, 2002). Use of atypicalantipsychotic agents should follow the AACAP practiceparameter on atypical antipsychotic agents (AAAs;AACAP, in preparation). This practice parameterdescribes the minimum standards for monitoring vitalsigns, body mass index, fasting blood glucose, extra-pyramidal symptoms, lipid profiles, and electrocardio-graphy. The practice parameter suggests that arecommendation for routine prolactin monitoring isnot supported by the existing evidence. However, arecently published study adds to the data documentingsignificant (up to fourfold) elevations of prolactin inchildren and adolescents taking risperidone (Andersonet al., 2007). In the spirit of caution, but withoutevidence about the potential developmental impact ofthis elevation, monitoring of prolactin in preschoolerstaking AAAs could be considered. Treatment effects mayprogress during the course of a 6-week trial (Findling etal., 2000). Risperidone should be discontinued after 6months to reassess underlying symptoms.
If a trial of risperidone is ineffective, then thediagnosis, formulation, co-occurring diagnoses, and
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level of psychotherapeutic intervention should bereassessed to determine whether the clinical picturecontinues to warrant aggressive treatment because ofextreme impairment and distress across settings andrelationships. The existing level of evidence does notprovide clear guidance regarding a second-linemedication for severe DBDs in preschoolers, althoughAAAs, mood stabilizers, or stimulants have been usedin older children (Farmer et al., 2002; Pappadopuloset al., 2003; Spencer et al., 2006; Steiner et al., 2003).
Not-Endorsed Practice. Psychopharmacological inter-vention for behavior problems without psychotherapyis not recommended because of the stronger evidencebase for psychotherapy in preschoolers with DBDsand the potential for longer lasting and broadertargets of the psychotherapeutic interventions. Simi-larly, the use of medications as chemical restraints isnot recommended, nor is the use of medication on anas-needed basis generally recommended. Medicationswith narrow therapeutic windows and risk of lethalityif misused warrant caution and attention to thefamily_s ability to safety maintain and administermedications.
MAJOR DEPRESSIVE DISORDER ALGORITHM
Stage 0: Diagnostic Assessment
Preschool major depressive disorder (MDD) is aserious and impairing disorder. In preschoolers MDDcan be validly diagnosed using slight modifications tothe DSM-IV criteria, including a change in the durationcriteria to reflect developmental variability in moodpresentation and inclusion of play-specific observations(Luby et al., 2002; Luby et al., 2003b; Luby et al.,2003c). A review of the current state of preschoolMDD diagnosis and assessment provides a compre-hensive approach to this diagnosis in preschoolers(Stalets and Luby, 2006). Assessment includes taking ahistory as well as observations with attention to thequality of play, which can differentiate depressedpreschoolers from those who are not depressed (Fig. 3;Luby et al., 2003b; Mol Lous et al., 2002). Symptomscan be monitored throughout treatment with thePreschool Feelings Checklist, a highly sensitive screenfor preschool depression, although its validity as atreatment monitor has not been tested (Luby et al.,2004a).
Stage 1: Nonpharmacological Treatment
Although no psychotherapeutic interventions havebeen specifically studied for the treatment of MDDin preschoolers, this algorithm recommends psy-chotherapy as the first-line intervention for thisdisorder. This recommendation is based on theequal lack of evidence in both psychotherapy andpsychopharmacology for preschool MDD, the poten-tial for sustained psychotherapy treatment effectsdemonstrated in other disorders (The POTS Team,2004), the potential risks of psychopharmacologicalexposure, and the importance of the parentYchildrelationship and family context in young children_smood and emotional regulation. Treatment modal-ities that target the dyadic relationship have beenshown to be effective in reducing emotional symp-toms (not specifically MDD) in preschoolers (Choateet al., 2005; Hood and Eyberg, 2003; Lieberman et al.,2005) and may be useful in treating preschoolMDD. Members of the PPWG had varyingrecommendations for recommended length of treat-ment, with most in the 3- to 6-month period, basedprimarily on clinical experience. When a psychother-apeutic intervention is ineffective, the authorsrecommend reassessing the diagnosis, formulation,and appropriateness of the psychotherapeutic inter-vention. Using clinical approaches similar to thosedescribed here, experienced specialists in preschoolMDD and early childhood psychiatry generally reportthat they have needed to proceed to medications forpreschool MDD only a few times in their careers. This isin contrast to PPWG survey respondents, two thirds ofwhom reported they would use medications to treatpreschool MDD. The discrepancy in practice patternsmay reflect differential access to therapy modalities indifferent practice settings.
Assessment should also include attention to parentalpsychopathology, with referral for treatment as appro-priate (Byrne et al., 2006). Successful parental treat-ment would be an optimal goal because it may beassociated with a reduction in child symptoms (Byrneet al., 2006; Weissman et al., 2006) and may enhance aparent_s ability to participate fully in psychotherapeu-tic interventions. However, because this goal is notalways possible, this step should not delay a child_saccess to treatment if a parent does not obtaintreatment or if treatment is not successful.
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Fig. 3 Major depressive disorder algorithm.
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Stage 2: Psychopharmacological Treatment
If the clinical picture continues to warrant medica-tion because of extreme impairment and distress, thenpsychopharmacological treatment can be considered,although psychotherapy should be continued. Becauseof the absence of an empirical base for treatingpreschool MDD, the algorithm recommends thatclinicians follow the algorithm for co-occurring condi-tions for which more treatment evidence exists (e.g.,ADHD) before considering psychopharmacologicaltreatment for preschoolers.
Recommendations for psychopharmacologicaltreatment of preschool MDD are based on the dataand recommendation regarding older children(Hughes et al., 2007). Randomized clinical trialshave demonstrated the efficacy of fluoxetine, citalo-pram, sertraline, and the combination of fluoxetineand cognitive-behavioral therapy (CBT; Emslie et al.,2004a; Emslie et al., 2002; TADS Study Team,2004; Wagner et al., 2003; Wagner et al., 2004b). Ofthese, only the efficacy of fluoxetine has beendemonstrated in more than one study (Emslie et al.,2002; Emslie et al., 1997; TADS Study Team, 2004).In addition, only fluoxetine had a favorable efficacy:-safety profile based on review of published andnonpublished studies (Whittington et al., 2004) and,in a recent meta-analysis, only fluoxetine showedbenefit over placebo for children under 12 years old(Bridge et al., 2007). Thus, fluoxetine is recommendedas the first-line medication for preschoolers with MDD.If fluoxetine is effective in treating depressive disorder,then a cessation trial can be considered after 6 to 8months of treatment to reassess the child_s baselinemood symptoms and need for medication. If a 6- to an 8-week trial of medication is ineffective (CMAP, 2006),then the diagnosis, formulation, level of psychother-apeutic intervention should be reassessed.
SSRIs have received high levels of attention becauseof concerns about risk of suicidality in children andadolescents who are taking these medications. Theseconcerns have resulted in a black box warning on thesemedications for children (FDA, 2004). Epidemiologi-cal analyses suggest an association between decreasedrates of completed suicide and higher rates of SSRI usein U.S. youth (Gibbons et al., 2006). Although thisissue is beyond the scope of this article, cliniciansshould be aware of FDA warnings and follow expert
recommendations for monitoring children who aretaking SSRIs (APA and AACAP, 2004).
Not-Endorsed Practice. A small proportion of PPWGsurvey respondents reported using tricyclic antidepres-sants to treat preschool MDD (5.8%). This class ofmedications is not recommended for use in preschool-ers with MDD because it has no proven efficacy inchildren and adolescents with MDD. In addition,buproprion is not recommended to treat preschoolMDD because of the limited evidence in youth withMDD and the theoretical risk of seizures in apopulation with developing central nervous systems.
BIPOLAR DISORDER ALGORITHM
Stage 0: Diagnostic Assessment
The diagnosis of BPD in preschoolers has not beenthe focus of significant empirical research. The limitedliterature may be related to the ongoing controversyabout the diagnosis and its definition in older school-agechildren and adolescents, a phenomenon that only addsto skepticism about the application of the diagnosis toyounger children (AACAP, 2007). In fact, there is noclear consensus that young children with severeemotional dysregulation have a bipolar disorder. Withinthe PPWG, consensus about this diagnosis in pre-schoolers was not achieved; however, attention to thediagnosis is warranted because this diagnosis tends to beassociated with the use of aggressive psychopharmaco-logical interventions, often without psychotherapeuticor psychosocial interventions in community settings(Danielyan et al., 2007). Our group agreed thatdiscussion of extreme mood and behavior dysregulationin preschoolers deserves attention.
Until recently, the literature describing preschoolersdiagnosed with BPD was limited to case reports andretrospective analyses (Biederman et al., 2005b;Scheffer et al., 2004; Tumuluru et al., 2003). In 2006Luby and Belden published a controlled exploratoryinvestigation of age-adjusted mania symptoms, demon-strating that a mania-like syndrome was identifiable inpreschool-age children when age-adjusted mania man-ifestations were assessed. The key specific characteristicsof mania in this age group included elation, grandiosity,and hypersexuality. This syndrome was distinguishablefrom normative developmental extremes as well as otherAxis I disruptive behavioral disorders. Perhaps most
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suggestive of the need for clinical attention to this early-onset symptom constellation was the finding ofsignificant impairment in functioning, even greaterimpairment than those with other Axis I disruptivedisorders.
Structured assessment approaches, including severalsystematic interviews and observations, are recom-mended for diagnosis, with attention to the presence ofsymptoms that are unique to bipolar disorder (Fig. 4).A comprehensive assessment, focused on developmen-tal level, psychosocial stressors, parentYchild relation-ship difficulties, and temperament is considered a‘‘minimal standard’’ in the 2007 AACAP practiceparameter for BPD (AACAP, 2007).
Stage 1: Nonpharmacological Interventions
Empirical evidence for psychotherapeutic interven-tions is limited; however, given the need to implementthe safest possible interventions, it is important to alsoexplore age-appropriate forms of psychotherapy as firsttreatment stages. A well-tested and known efficaciousearly intervention for disruptive behaviors in preschool-ers, parentYchild interaction therapy (PCIT; Eyberg,1988) has been adapted for testing in preschool BPDand has been described elsewhere (Luby et al., in press).A pilot study of PCIT in preschoolers is underway. Theefficacy of PCIT remains to be tested in larger,controlled investigations. Interventions focused onparent psychoeducation and support, behavioral inter-ventions, affect regulation, symptom monitoring,medication adherence, and treatment of parentalpsychopathology may be useful components in treatingchildren with extreme dysregulation (Fristad, 2006;Milkowitz et al., 2006). There are no data to guiderecommendations for the duration of such treatment,although most behavioral interventions include 8 to12 sessions. If therapy does not appear to be effective,then the diagnosis, formulation, and appropriateness ofthe intervention should be reassessed. As recommendedin the AACAP practice parameters, ongoing psy-chotherapeutic treatment is indicated throughouttreatment for children with extreme behavioraldysregulation (AACAP, 2007). In addition, attentionto co-occurring disorders such as ADHD, ODD,generalized anxiety disorder (GAD), and parentalpsychopathology is recommended before continuingalong the algorithm.
Stage 2: Psychopharmacological Intervention
If psychotherapeutic efforts fail to improve thechild_s mood and behavior, then pharmacologicalinterventions may be considered in cases of significantimpairment and distress associated with signs of seriousmood and behavioral dysregulation. The availableliterature on the psychopharmacological treatment ofpreschool mania consists of case studies, open trials, andretrospective chart reviews (Biederman et al., 2005b;Mota-Castillo et al., 2001; Pavuluri et al., 2002;Scheffer et al., 2004; Tuzun et al., 2002).
The tolerability of lithium in preschoolers has beenexamined in a small case series (Hagino et al., 1995).This group found that 20% (n = 4) preschoolers hadserious central nervous system side effects (confusion,slurred speech, ataxia) and an additional 40% (n = 8)had ‘‘nuisance’’ side effects that included polyuria.When preschoolers are learning to achieve bladdercontrol, polyuria and nocturnal enuresis may constitutesignificant adverse effects.
There have been three reports about the use of AAAsin preschoolers with mania (Biederman et al., 2005b;Pavuluri et al., 2002; Scheffer et al., 2004). Biedermanand colleagues reported the results of an open trial ofolanzapine or risperidone in 31 children, ages 4 to 6years, diagnosed clinically with BPD (I, II, or NOS)with a manic or mixed episode (Biederman et al.,2005b). Both treatment groups showed a significantreduction in their manic symptoms on the YoungMania Rating Scale (YMRS). Response rates, defined asa 30% decrease in symptoms from baseline, were 69%for risperidone and 53% for olanzapine. In a retro-spective chart review, Scheffer et al. described asignificant decrease in mania symptoms in 31 children2 to 5 years old treated primarily with valproate.Pavuluri et al. described a case report of a 4½-year-oldgirl who was clinically diagnosed with BPD, whoshowed improvement in irritability but ongoingmoodiness and significant weight gain on risperidone.The addition of lithium was associated with intolerablepolyuria in this patient. The addition of topiramate wasassociated with improved mood stability, sleep, andweight loss.
Pavuluri and associates reported the results of anopen, long-term, prospective trial that examined thesafety and efficacy of risperidone augmentation oflithium in preschool-onset BPD among youth who
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Fig. 4 Bipolar disorder algorithm. Li = lithium.
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insufficiently responded to lithium monotherapy(Pavuluri et al., 2006). Of 38 patients with preschool-onset BPD ages of 4 and 17 years (mean age 11.37 T 3.8years), 21 failed to respond to 8 weeks of lithiummonotherapy or relapsed during the 12-month trial.These patients received augmentation with risperidone.Response rate in the youths treated with lithiumaugmented with risperidone was 85.7% (n = 18/21).The authors concluded that a substantial proportion ofyouth with a history of preschool-onset BPD wereeither nonresponders or partial responders to lithiumand that subsequent augmentation of lithium withrisperidone in these cases was well tolerated andefficacious.
In a prospective placebo-controlled investigation oflithium in children and adolescents with BPDs, Gelleret al. reported that subjects treated with lithium showeda significant improvement in global assessment offunctioning (Geller et al., 1998). In addition, four oldercrossover trials with lithium showed response rates from33% to 80% (Annell, 1969; Brumback and Weinberg,1977; Dyson and Barcai, 1970; Gram and Rafaelsen,1972). In four open, prospective trials of valproate,response rates varied from 53% to 80% (Kowatch et al.,2000; Pavuluri et al., 2005; Scheffer et al., 2005;Wagner et al., 2002). There have been no controlledstudies of carbamazepine for the treatment of childrenand adolescents with BPD. Negative randomizedcontrolled trials of oxcarbazepine and topiramate havebeen published (DelBello et al., 2005; Wagner et al.,2006).
There are two controlled studies of atypical anti-psychotic agents to treat mania in children andadolescents. Tohen et al. (2005) conducted a multi-center, randomized, double-blind, parallel trial ofolanzapine in adolescents with BPD. The olanzapine-treated patients experienced a significantly greater meandecrease from baseline to endpoint in YMRS total scorerelative to placebo, and a greater proportion of patientstreated with olanzapine met response and remissioncriteria (45% vs. 18%). Although olanzapine was moreeffective than placebo in the treatment of acute maniain adolescent patients, the olanzapine-treated patientshad significantly greater weight gain. A recent double-blind placebo-controlled trial compared monotherapywith divalproex to monotherapy with quetiapine(DelBello et al., 2006). Although a repeated measuresanalysis of variance using the last-observation-carried-
forward data indicated no statistically significant groupdifference in YMRS, a comparison of slopes revealedthat improvement in YMRS scores occurred more rap-idly in the quetiapine group than in the divalproex group.
The efficacy and tolerability of quetiapine incombination with valproate for acute mania inadolescents with BPD was assessed in a randomized,double-blind placebo-controlled study (DelBello et al.,2002). The results of this study demonstrated thatquetiapine in combination with valproate was moreeffective at reducing manic symptoms associated withBPD than valproate monotherapy and that quetiapineis tolerated when used in combination with valproate.
Ziprasidone and aripiprazole have the advantage ofbeing associated with the least amount of weightgain among the atypical antipsychotics in adults(Newcomer, 2007). In a recently completed dose-finding 3-week open-label study of ziprasidone foradolescents with psychosis (N = 46/63 with bipolardisorder), patients were randomized to receive 40 mgb.i.d. (low-dose group, n = 23) or 80 mg b.i.d.(high-dose group, n = 40) of ziprasidone titratedover approximately 10 days. In the patients withBPD, there was a mean reduction in YMRS score of17.2 (8.2) for completers in the low-dose group and13.1 (8.9) for completers in the high-dose group(Versavel et al., 2005). Aripiprazole is the newestatypical antipsychotic and two retrospective case seriesreported similar results, suggesting that approximately70% of children and adolescents with BPDs may re-spond to aripiprazole (Barzman et al., 2004; Biedermanet al., 2005a). One study reported, however, thatapproximately one fourth of patients treated witharipiprazole experience akathisia (Barzman et al., 2004).
Recommendations for Treatment
If psychotherapeutic efforts fail and pharmacologicalinterventions are needed, risperidone is the option withthe most available data on effectiveness and tolerabilityin preschool-age children (Biederman et al., 2005b) andthe only atypical antipsychotic with an FDA indicationfor irritability and aggression in children older than age6 with autism. In making this recommendation, weprioritized efficacy and safety and considered that aprimary target of medication in children with manicsymptoms would often be their aggressive behaviorsand irritability, symptoms for which risperidone has apreschool indication in autistic children (Janssen,
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2006). The open trials discussed above suggest thatinitial doses of 0.25 to 2.0 mg/day may be appropriate(Biederman et al., 2005b), with 0.25 mg b.i.d. ofteneffective. The adverse effect profile for use of risper-idone is described in the section on DBD.
Some patients may not fully respond to, not tolerate,or worsen with risperidone after a 3- to 4-week trial. Ifthis is the case, then clinical consultation with an expertin pediatric psychopharmacology or child psychiatrywith experience treating preschoolers is recommended.The traditional mood stabilizing agents lithium,valproate, and carbamazepine remain largely untestedin controlled studies in this age group and theirtolerability and efficacy remain unclear. When a childdemonstrates a partial response to risperidone and stillhas significant mood or behavioral symptoms, someclinicians may consider the addition of a traditionalmood stabilizer like lithium or valproate. However,these agents require frequent blood draws and aresometimes less feasible in young children given theirrelative difficulty tolerating blood draws. Either of theseagents should be considered only under conditions inwhich parents are highly reliable and can monitor thechild carefully for side effects.
If there is no response or a negative response torisperidone, then a trial of an alterative atypicalantipsychotic may be considered. Quetiapine has theadvantage of a low rate of extrapyramidal side effectsand no elevation of serum prolactin (AACAP, inpreparation; Weiden, 2007). Olanzapine may also beconsidered, based on data in older children with BPDs(Tohen et al., 2005); however, controlled studies of thetolerability and efficacy of these agents are needed in allage groups of patients with BPD.
The longitudinal course of preschoolers identified ashaving BPD is not yet known. Thus, a discontinuationtrial of medication is warranted after 6 months oftreatment to reassess symptoms and the need forcontinued treatment.
Not Recommended
Although BPD in older children is often treatedsolely with psychopharmacological agents, the use ofmedication without psychotherapeutic intervention isnot recommended in preschoolers. The challenges andcontroversy surrounding the diagnosis, the value ofsupporting preschoolers_ development in the areas ofemotional and behavioral self-regulation, and the
known impact of preschool dysregulation on the familyguide this recommendation. We recognize that empiri-cally supported psychotherapy for preschoolers withBPD have not yet been identified, however, a common-sense approach requires that nonbiological interven-tions will be necessary to support families with anextremely dysregulated preschooler.
In addition, 20% of physicians surveyed in thePPWG survey endorsed using more than one medica-tion concomitantly for preschool BPD. This practice,which is likely a reflection of the extreme impairmentassociated with these symptoms, is not supported byempirical studies and may have adverse effects on thedeveloping child. Thus, combination therapy should beused only after clinical consultation, with extremecaution, and in patients who have not responded tomonotherapy.
ANXIETY DISORDERS ALGORITHM
Stage 0: Diagnostic Assessment
This section reviews the treatment of a group ofanxiety disorders: separation anxiety disorder (SAD),GAD, selective mutism (SM), and specific phobia (SP;Fig. 5). These disorders are addressed together becausethe psychopharmacological approaches for these dis-orders are similar in older children with SAD, GAD,SM, and SP (e.g., RUPP Anxiety Study, 2001). Panicdisorder is not included because there is insufficientevidence that this disorder presents in the preschool age(AACAP Task Force on Research Diagnostic Criteria:Infancy Preschool Age, 2003). PTSD and obsessivecompulsive disorder (OCD) are addressed separatelybecause evidence suggests they may require differenttreatment approaches. Anxiety disorders can be dis-tinguished from typical preschool fears and worries bythe intensity of the symptoms and by the presence offunctional impairment. Parental accommodation to thesymptoms can sometimes appear to reduce functionalimpairment and warrant explicit exploration during theassessment.
Assessment of preschool anxiety disorders shouldinclude parent report history, child report of symptomsif verbal skills are sufficient, observations of child andparentYchild interactions, and structured measures. Co-occurring conditions, including other anxiety disorders,depression, and DBDs are common and should beexplored (Egger et al., 2006a). When an anxiety
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Fig. 5 Anxiety disorders algorithm (GAD, SAD, SM, and SP).
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disorder is diagnosed, symptom severity can bemonitored with a structured measure. Although nomeasure has specifically been validated for measuringpreschool anxiety, subsets of the Child BehaviorChecklist 1½Y5 Anxiety scale (Achenbach andRescorla, 2000) or the Infant-Toddler Social EmotionalAssessment (Briggs-Gowan, 1998), or developmentallymodified anxiety scales for older children such as theScreen for Child Anxiety Related to EmotionalDisorders (Birmaher et al., 1999) may be appropriate.Use of the measure at regular intervals over the courseof treatment can inform additional treatment.
Stage 1: Nonpsychopharmacological Interventions
Although the published empirical support forpsychotherapeutic interventions for preschoolers withnon-PTSD, non-OCD anxiety disorders is limited, casereports and open trial data suggest that behavioraltherapy techniques and CBT interventions can bevaluable in treating preschoolers with anxiety disorders(King et al., 2005). Widely used psychotherapeuticinterventions can be modified to address the child_sspecific clinical presentation, developmental level andlanguage abilities, and access to therapy resources in thecommunity (Compton et al., 2002; James et al., 2005;Kendall et al., 1997). A comprehensive review ofinterventions for anxiety disorders in children andadolescents may serve to guide these choices (Comptonet al., 2002). The existing treatment data suggest that aminimum duration for psychotherapy intervention trialis 12 weeks. Consistent with this recommendation,most PPWG survey respondents reported treatingpreschoolers psychotherapeutically for at least 3 monthsbefore considering medication treatment. Because ofthe strong probability of a family history of anxiety inchildren with anxiety disorders, parental psychiatricassessment or referral should be considered, particu-larly if the parental symptomatology appears to beaffecting the child_s presentation (Byrne et al., 2006;Cobham et al., 1998).
Stage 2: Psychopharmacological Intervention (Fluoxetine)
In rare cases a preschooler may have intolerableongoing symptoms, even after sufficient psychother-apeutic interventions. In these cases it is critical toreassess the diagnosis, case formulation, and assessmentof the adequacy of the psychotherapy trial. If the clinicalpresentation continues to reflect that an anxiety
disorder is the primary source of impairment, thechild exhibits extreme impairment in at least onesetting, and the psychotherapy trial was adequate,then psychopharmacological intervention may beconsidered.
Data related to psychopharmacological treatment ofanxiety disorders in preschoolers are scant. There are norandomized controlled studies of psychopharmacologi-cal interventions with preschoolers with anxiety dis-orders. Most reports on psychopharmacologicalanxiolytic agents in preschoolers focus on premedica-tion for medical and dental procedures or toxicingestions of benzodiazepines (e.g., Wiley and Wiley,1998). Three case reports represent the publishedpreschool non-PTSD, non-OCD anxiety disorderliterature (Avci et al., 1988; Hanna et al., 2005; Wrightet al., 1995). In these individual case reports fluoxetineand buspirone are described as part of the effectivetreatment approaches. Ineffective trials of alprazolamand hydroxyzine are also described within one casereport (Avci et al., 1988). Although these cases providethe important first steps toward developing a literaturefocused on clinical treatment of preschoolers withanxiety, diagnostic uncertainty, coadministration ofvarious therapeutic modalities, and unclear rationale formedication choices limit their generalizability.
In randomized controlled trials in older children,fluoxetine and fluvoxamine have been shown to besuperior to placebo in treating children with anxietydisorders including SAD, GAD, and SP (Birmaher et al.,2003; RUPP Anxiety Study, 2001). Randomizedclinical trials also support the efficacy of paroxetinefor SAD and sertraline for GAD (Rynn et al., 2001;Wagner et al., 2003). No SSRIs are approved for use inchildren or adolescents for non-OCD anxiety disorders.It is worth noting that negative reports for pediatricanxiety disorders have include clonazepam (Graae et al.,1994), alprazolam (Simeon et al., 1992), imipramine(Klein et al., 1992), and buspirone (Bristol-MyersSquibb, 2000).
Based on the efficacy and safety literature inpreschoolers, children, and adolescents, fluoxetine isthe first-choice medication for preschool anxiety (Avciet al., 1988; Birmaher et al., 2003; Black and Uhde,1994). It has been used most extensively in children andadolescents and has the strongest safety profile at least instudies of depression (Whittington et al., 2004).Although Wagner and colleagues demonstrated the
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efficacy of paroxetine in the largest randomizedcontrolled anxiety study in children and adolescents(Wagner et al., 2004a), this drug is not recommendedas a first line medication because of safety concerns thathave been raised about it. The existence of two negativestudies of buspirone in older children suggests that itmay not be an effective antianxiety agent in childrenand adolescents (Bristol-Myers Squibb, 2000), in spiteof the case report suggestion of effectiveness.
Consideration of safety and monitoring of SSRIs inyoung children with anxiety are similar to those withdepression. Based on case reports, doses as low as 5 to 8mg/day of fluoxetine may be effective for treatinganxiety, although it may be necessary to increase thedose to achieve optimal dose (Avci et al., 1988; Wrightet al., 1995). When a dose is stabilized, symptomsshould be monitored at least monthly with a validatedmeasure. An adequate trial of medication is 8 to 10weeks long, if tolerated (Birmaher et al., 2003; RUPPAnxiety Study, 2001). As with all successful psycho-pharmacological interventions in preschoolers, treat-ment initiation should include a discussion of planneddiscontinuation trial after 6 to 9 months of treatment.This treatment duration is shorter than recommendedfor older children because of the rapid developmentoccurring in preschoolers, and the recognition thatsome fears may decrease after the preschool period(Muris et al., 2000).
Stage 3: Psychopharmacological Intervention
(Fluvoxamine)
If the psychopharmacological intervention is ineffec-tive, then the clinician should reassess the diagnosis,formulation, and intensity level of the psychotherapeu-tic intervention. Before a second psychopharmacologi-cal psychotherapeutic trial is initiated, the algorithmrecommends that clinicians consult with a childpsychiatrist with expertise in early childhood psychia-try. If the consultant and clinician concur that theclinical presentation continues to warrant medicationbecause of extreme impairment and distress in multiplesettings, then a trial of a second SSRI may beconsidered. For example, after an unsuccessful trial offluoxetine, switching to fluvoxamine could be justifiedbecause these are the best studied SSRIs in children(RUPP Anxiety Study, 2001).
Not-Endorsed Practices. Benzodiazepines are notrecommended for ongoing use in preschool anxiety
disorders because of the lack of evidence supportingbenzodiazepines in preschool anxiety disorders, as wellas the potential dangers associated with unintentionalingestion of these medications in preschoolers. Thesemedications may be appropriate for medical or dentalprocedures in children with extreme anxiety reactions toprocedures. In the PPWG survey, approximately 25%of physicians who prescribe medications for preschoo-lers with anxiety disorders reported using "-agonistsand 10% reported using tricyclic antidepressants. Thesemedications have narrow therapeutic windows and arenot recommended as anxiety treatments for preschoolers.
POSTTRAUMATIC STRESS DISORDER ALGORITHM
Stage 0: Diagnostic Assessment
Assessment of PTSD is a more complicated taskcompared to most other disorders. Whereas much ofthe symptomatology of other common disorders ofchildhood are easy to understand and directly observ-able, identifying the key symptomatology of PTSDrequires that the clinician recognize the link between achild_s observable behaviors and a traumatic experience.It is not uncommon for children to respond to triggersthat adults do not identify as reminders of the trauma.In the early childhood period, children may havelimited verbal skills to talk about traumatic experiencesand concurrently are at the highest risk of child abuse(U.S. Children_s Bureau, 2004). Thus, it is particularlyimportant for clinicians to consider the possibility oftrauma exposure in preschoolers presenting withpsychiatric symptoms. The assessment of preschoolPTSD requires developmentally sensitive application ofthe DSM-IV criteria, thus a clinician with experience inworking with young children and in assessment ofPTSD is the optimal evaluator. Baseline symptomsshould be assessed systematically and the clinicianshould develop a plan for regular monitoring with astructured measure such as the Child BehaviorChecklist-PTSD (Fig. 6; Dehon and Scheeringa, 2006).
Stage 1: Nonpsychopharmacological Interventions
PTSD is unique among preschool anxiety disordersbecause of the strength of empirical evidence support-ing psychotherapeutic interventions. The two beststudied modalities, child-parent psychotherapy (CPP)and preschool CBT, have not been compared to eachother, but both are related to sustained decreases in rates
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Fig. 6 Posttraumatic stress disorder algorithm. CBT = cognitive-behavioral therapy.
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of diagnosis and symptoms in preschoolers exposed totraumatic events in controlled trials (Cohen andMannarino, 1996; Cohen and Mannarino, 1997;Lieberman et al., 2006; Lieberman et al., 2005). Eithermay be used as a first-line therapeutic intervention,depending on therapist skills and local resources.Consistent with this recommendation, in the PPWGsurvey, more than 50% of respondents reported thatboth dyadic therapy and CBT were necessary beforeconsidering psychopharmacological treatment. A trialof preschool-specific CBT, which should includeparents, should be implemented for a minimum of 12weeks, the duration of published preschool CBTinterventions (Cohen et al., 2004; Cohen andMannarino, 1996). Although CPP has only beenstudied as a year-long treatment and for one type oftraumatic experience (domestic violence), this work-ing group felt that a year-long trial is impractical inmost practice settings, especially if the treatment didnot seem effective. There are no known publisheddata to guide recommendations of a shorter trial, butthe group agreed that a 6-month trial may beappropriate for CPP before determining whetherdifferent treatment is warranted. This recommenda-tion is only slightly longer than the most commonresponse for recommended psychotherapy durationon the PPWG survey.
If neither CPP nor CBT is available, the algorithmrecommends a 6-month trial of play therapy, which hasbeen used extensively in treating trauma-exposedpreschoolers (Gaensbauer, 2000; Gaensbauer, 2004).This therapy, which is not supported by randomizedcontrolled trials, is recommended preferentially tomedications because psychopharmacological interven-tion would require extrapolation from adult databecause there are no randomized controlled trials ofmedications for PTSD in children. If the first trial of apsychotherapeutic intervention is ineffective, the work-ing group recommends that the child_s safety, diag-nosis, case formulation, and adequacy of interventionbe re-evaluated and a second psychotherapeuticapproach be applied if available.
In a number of circumstances, children and parentsexperience traumatic experiences together, the interplayof symptoms within the dyad can have important andlasting implications for the child_s presentation andtreatment outcome (Cohen and Mannarino, 1998;Scheeringa and Zeanah, 2001). When parental symp-
toms have a negative impact on dyadic or individualfunctioning, parents should be referred for treatment;however, preliminary findings in preschoolers dosuggest that children can respond to PTSD treatmentbefore their parents show improvement (Scheeringaet al., in press). Thus, parental symptomatic improvementshould not delay preschool psychotherapeutic intervention.
Stage 2: Psychopharmacological Intervention
Because the only randomized controlled trials forpsychopharmacological treatment in adults and becauseof a relatively strong literature supporting psychother-apeutic interventions for PTSD, the working groupcannot recommend the use of psychopharmacologicalintervention for PTSD in preschoolers in this algo-rithm. It should be noted that in the PPWG survey,only 11% of providers reported that they do not usemedications to treat preschool PTSD, and more thanhalf reported using SSRIs for preschool PTSD.Although we recognize our recommendation may notreflect current practices in the community for pre-schoolers with trauma exposure, and our grouprecognizes the potential for symptom severity andlimited access to psychotherapeutic modalities, we arereluctant to make recommendations for psychophar-macological treatment in the context of the currentliterature. Clinicians may choose to follow otheralgorithms for children with co-occurring disorders,such as ADHD.
Not-Endorsed Practices. A striking proportion of thePPWG survey respondents reported using tricyclicantidepressants (9.2%) and benzodiazepines (9.2%lorazepam, 5.8% clonazepam) to treat preschoolPTSD. This algorithm does not recommend regularuse of these medications to treat PTSD because of thenarrow therapeutic windows of these agents and thelack of empirical support for their use.
OBSESSIVE-COMPULSIVE DISORDER ALGORITHM
Stage 0: Diagnostic Assessment
Like PTSD, OCD has a unique evidence basewarranting individual attention. OCD in preschoolershas received little attention in the literature, in spite ofthe attention on developmental processes in OCD(Freeman et al., 2003; Geller et al., 1998; Scahill et al.,2003; Tobias and Walitza, 2006). The differentialdiagnosis of OCD includes SAD or other anxiety
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disorders, tic disorders, PDD, pediatric autoimmuneneuropsychiatric disorders associated with streptococcalinfections, or movement disorders (Fig. 7; Freeman et al.,2003; Rapoport and Inoff-Germain, 2000). Althoughmagical thinking and some rigidity are not uncommon inthe preschool years, repetitive checking or other commoncompulsions are rare in typically developing preschoolers(Evans et al., 2002; Spence et al., 2001). In clinicalpractice, preschoolers with OCD can present withextremely rigid behavior patterns, which can causesignificant family and personal functional distress andimpairment. Baseline symptoms should be assessed with asystematic measure, such as the Children_s Yale-BrownObsessive Compulsive Scale (CYBOCS; Scahill et al.,1997).
Stage 1: Nonpharmacological Intervention
Psychoeducation related to OCD may help to reducestigma, blame, and guilt that is related to the disorder(Freeman et al., 2003; Piacentini and Langley, 2004)and consequently reduce the impact of OCD symp-toms on a child and family. This is particularlyimportant because negative responses to OCD behav-iors such as punishments have been shown to becounterproductive in pediatric OCD (March et al.,2001).
CBT using exposure and response preventiontechniques and involving parents is recommended fortreatment of preschool OCD. Only two known casereports describe the successful treatment of preschoolOCD. In one case, family CBT resulted in symptomimprovement (Tolin, 2001). Inpatient behavioraltreatment, for which limited details are available, waseffective in the second case (Tobias and Walitza, 2006).The OCD literature provides compelling data com-paring psychopharmacological treatment and psycho-therapeutic treatment in older children. CBT incombination with medication (sertraline) has beenshown to be more effective than CBT alone, which inturn had a larger effect size than sertraline alone (ThePOTS Team, 2004). Compared with sertraline, CBT isalso associated with a lower relapse rate 9 months aftertreatment (Asbahr et al., 2005). CBT alone has beensuggested as the first-line treatment in prepubertalOCD (March, 1995). The literature provides solidsupport for the use of CBT and its components inOCD, but not for insight-oriented therapies, playtherapy, and nonYCBT-based family therapy (as
reviewed in King et al., 1998; Piacentini and Langley,2004; Turner, 2006). Parental psychopathology, espe-cially OCD, can interfere with a child_s OCDpresentation and should be addressed if parentalsymptoms affect a child_s symptoms or a parent_sability to participate in therapy.
Stage 2: Psychopharmacological Treatment (Fluoxetine,
Fluvoxamine, Sertraline)
The psychopharmacological treatment literature forpreschool OCD is limited. There are no studies orreports of psychopharmacological treatment for pre-schoolers with OCD. In school-age children andadolescents, there is a more extensive literature, whichis focused on psychopharmacology and comparisons ofmedication with psychotherapy. In a meta-analysis of12 studies including 1,044 children, the SSRIs(fluoxetine, fluvoxamine, sertraline, and paroxetine)were equally efficacious and were more effective thanplacebo, although the benefit over placebo is small(Geller et al., 2003). Increasing the dose to achievelarger effects is likely to be unsuccessful and beassociated with adverse effects. Consensus in the fieldsupports the use of newer SSRIs over clomipraminebecause of tolerability, monitoring issues, and safety,with particular attention paid to the prolongation of theQT interval on clomipramine (AACAP, 1998; Geller et al.,2004; The POTS Team, 2004).
Preschool psychopharmacological treatment shouldbe considered only if the symptoms continue to causesignificant distress or severe impairment in a child_srelationships, daily routine at home, or in the child caresetting. Although the CYBOCS does not havereliability and validity data for preschoolers (Scahill et al.,1997), a child with a CYBOCS score <10 or a GlobalAssessment of Functioning Score <50 is not likely tomeet these severity and impairment criteria. Psycho-pharmacological treatment should always occur in thecontext of ongoing cognitive and/or behavioral inter-ventions (AACAP, 1998). SSRIs provide the best safetyprofile in school-age children and are the mostcommonly used; these medications should be usedonly in the context of the current AACAP and FDArecommendations. Among fluoxetine, fluvoxamine,and sertraline, there is insufficient evidence to suggestthat one medication is more likely to be efficacious thanthe others in older children with OCD (Geller et al.,2003). As described in the section on MDD, the dose of
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Fig. 7 Obsessive-compulsive disorder algorithm.
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fluoxetine may be as low as 5 mg. Doses of sertraline orfluvoxamine should initially be targeted at similarly lowdoses. The liquid formulations of sertraline andfluoxetine allow gradual upward adjustment of dosesfrom low starting doses. Medication trials in OCDshould be at least 10 to 12 weeks with carefulmonitoring of adverse effects and treatment responsewith monthly CYBOCS administration (AACAP,1998; Geller et al., 2003). If a preschooler with OCDresponds to an SSRI, then a discontinuation trial isrecommended after 6 to 8 months of successfultreatment, with appropriate taper of medication andpsychoeducation for the child and family.
Stage 3: Psychopharmacological Intervention (Fluoxetine,
Fluvoxamine, Sertraline)
If a first medication trial fails, reassessment of clinicalsymptoms, case formulation, and appropriateness of thepsychotherapeutic intervention are recommended. If aclinical need for medication is determined because ofsevere impairment limiting the child_s functioning,then a second SSRI may be considered, used in the samemanner as the first. Because of documented EKGchanges in children on clomipramine, it should beconsidered only for severe, treatment-resistant OCDand would require close monitoring of EKG changes aswell as clinical symptoms (Leonard et al., 1995).
Not-Endorsed Practices. A number of experimentalbiological treatments for OCD, including plasmapher-esis and intravenous immunoglobulin, have been testedin small samples of older children with severe,treatment-resistant disease (Perlmutter et al., 1999).Because of the limited data, risk for hemodynamicinstability, and risk for exposure to blood products,these treatments are not endorsed for use in thepreschool age group.
PERVASIVE DEVELOPMENTALDISORDERS ALGORITHM
Stage 0: Diagnostic Assessment
By the DSM-IV definition, autism must presentbefore age 3 years, and other PDDs are typicallyrecognized by parents in the first 3 years of life(reviewed in Chawarska and Volkmar, 2005). Thesedisorders presents with severe delay in socialization, aswell as delayed and deviant language and/or repetitivebehaviors. Minimum assessment of children with PDD
includes testing IQ and adaptive behavior, language andhearing, structured, categorical and dimensional vali-dated measures of symptoms of PDD (e.g., the ChildAutism Rating Scale [Shopler et al., 1988] and theAberrant Behavior Checklist [Aman et al., 1985]), andreview of medical and family history, and psychiatrichistory (Fig. 8; reviewed in Scahill, 2005). In additionto the core symptoms of autism, a substantial numberof affected children have behavioral problems includinghyperactivity, aggression, tantrums, and self-injury, andthey may be at risk for other disorders including anxiety(Leyfer et al., 2006; RUPP Autism Network, 2002;RUPP Autism Network, 2005b).
Stage 1: Nonpharmacological Treatment
Comprehensive treatment of children with PDD ismultimodal and multidisciplinary, focused on promot-ing language, social development, and adaptive func-tioning and reducing repetitive behavior, aggression,tantrums, self-injury, and hyperactivity (AACAP, 1999;Aman, 2005). Psychoeducation for parents is essentialto allow parents to align their expectations with thechild_s disability (Bodfish, 2004). Consensus in the fieldstrongly supports early intervention to promote optimaldevelopment. Depending on a child_s developmentaland language levels, children with co-occurring psychiatricdisorders may be able to participate in psychosocialtreatments developed for typically developing children.
Stage 2: Psychopharmacological Treatment
One study has focused solely on preschoolers withautism or PDD-NOS (Luby et al., 2006). The severityof autism as measured on the Child Autism RatingScale decreased more in a group randomly assigned torisperidone compared to the placebo group, althoughthe difference was modest (8% change in risperidonegroup vs. 3% change in placebo group). The authorsnote that baseline differences between the groupscomplicate the interpretation of the study results. Asecond randomized placebo-controlled risperidonestudy of 40 children ages 2 to 9 years old, with amean age of 58 to 63 months, showed a 63% responserate of core symptoms in the risperidone groupcompared with 0% in the placebo group (Nagaraj et al.,2006). Improvements in irritability and hyperactivitywere also observed. Open trials of risperidone in youngchildren have also shown decreases in overall symptomsand core symptoms of PDD (Masi et al., 2003;
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Mukaddes et al., 2004), but methodological weaknesseslimit the generalizability of these findings.
Risperidone is now FDA approved for use in treating5- to 17-year-olds with autism and severe aggressionand irritability. In an 8-week, randomized placebo-controlled trial of 101 children ages 5 to 17 years,
risperidone (mean dose 1.8 mg/day) was associatedwith a significant decrease in aggression, tantrums,and self-injury, as well as stereotypies and otherrepetitive behaviors (McDougle et al., 2005). Thesegains were stable over time, and there was a highprobability of symptomatic relapse when the medication
Fig. 8 Pervasive developmental disorders algorithm.
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was discontinued. The likelihood of return of tantrums,aggression, and self-injury upon discontinuation ofrisperidone has been replicated in a separate sample(Troost et al., 2005).
Hyperactivity. Two randomized placebo-controlledstudies have evaluated medications for ADHD symp-toms in the context of PDD. The Research Units ofPediatric Psychopharmacology Autism Network exam-ined the efficacy of methylphenidate in treatinghyperactivity in children with PDD ages 5 to 13(RUPP Autism Network, 2005a). They found a 20% to30% improvement in teacher and parent ratingscompared to placebo. This level of improvement,although significant, is clearly smaller in magnitudethan seen in typically developing children with ADHD.Atomoxetine was superior to placebo in treating ADHDsymptoms in a small study of 12 children, although itsuse was associated with high rates of adverse effects(Troost et al., 2006). In an open trial of 25 children withPDD, guanfacine treatment was associated withdecreased hyperactivity using 1 to 3 mg/day (Scahillet al., 2006).
Repetitive Behavior. Although commonly used inchildren with PDD for the treatment of repetitivebehavior, the SSRIs have not been well studied even inschool-age children with PDD. In a study of 39children, fluoxetine at a mean daily dose of 10 mg wassuperior to placebo, but the magnitude of effect wassmall (Hollander et al., 2005). The state of theliterature of SSRIs in children with PDD does notsupport the use of these medications in preschoolerswith PDD.
Close monitoring of adverse effects is warranted forall medications used in young children with PDD.Risperidone appears to have a relatively low risk ofneurological side effects (RUPP Autism Network,2005b). However, risperidone is associated withweight gain, with preschoolers demonstrating amean weight gain of 2.96 kg over 6 months (Lubyet al., 2006). In children with PDD risperidone isalso associated with hyperprolactinemia (Hellings et al.,2005; Luby et al., 2006; Masi et al., 2003), althoughthere is uncertainty about the relative clinical impor-tance of this observation. Methylphenidate is alsoassociated with higher rates of adverse events causingdiscontinuation of the medication (18%) in childrenwith PDD than expected in typically developingchildren (RUPP Autism Network, 2005a). Similarly,
5 of the 12 children in the atomoxetine trial exited thestudy due to adverse events (Troost et al., 2005).Children with PDD also appear to be especiallyvulnerable to behavioral activation on SSRIs (reviewedin Kolevson et al., 2006).
There is substantial evidence that risperidone iseffective for the treatment of tantrums, aggression, andself-injury in children with PDD as young as 5 years ofage. The collateral benefits in socialization andrepetitive behavior are not sufficient to warrant use ofa drug such as risperidone for children with PDD.Thus, the PPWG recommends using risperidone onlyfor children with severe behavioral problems thatinterfere with a child_s functioning. Reported risper-idone doses range from 0.7 mg (Masi et al., 2003) to1.5 mg/day (Luby et al., 2006) for preschoolers withPDD. Vigilant monitoring for adverse events iswarranted in children with PDD.
Behavioral treatments focused on the core symptomsof PDD should be administered in conjunction anymedication treatment. If treatment is successful, ourgroup recommends continuing risperidone for 6months before a discontinuation trial. For childrenwith severe hyperactivity, methylphenidate may beconsidered, following the ADHD algorithm, andparents should be informed of the higher risk foradverse effects.
PRIMARY SLEEP DISORDERS ALGORITHM
Stage 0: Diagnostic Assessment
The sleep algorithm was derived primarily fromrecently published young children_s sleep practiceguidelines developed by the American Academy ofSleep Medicine (Morgenthaler et al., 2006; Owens et al.,2006). The diagnostic assessment of a child presentingwith a sleep disturbance includes three components:thorough evaluation for primary sleep disorders that maypresent with neurobehavioral and mood impairments,inventory of possible contributing/exacerbating factors,and detailed assessment of sleep patterns and behaviorsincluding the impact of the sleep disturbance on daytimefunctioning of both the child and caregivers (Fig. 9). Thedifferential diagnosis of preschool sleep problems is broadand clinicians should consider obstructive sleep apnea,restless leg syndrome/periodic leg movement disorder, aswell as the contributions of environmental factors, sleephygiene, psychiatric disorders, and medications. Careful
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Fig. 9 Primary sleep disorder algorithm.
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assessment will guide further evaluations including theneed for polysomnography (see Owens et al., 2006).
Stage 1: Nonpharmacological Interventions
Parent education is the first step in addressingparental concerns about sleep, with particular attentionto developmental sleep patterns as well as the potentialrisks of over-the-counter medications. Although it hasonly been evaluated as a component of treatmentstrategies, sleep hygiene should be reviewed andencouraged (Mindell et al., 2006). Behavioral inter-ventions for bedtime resistance and night wakings (e.g.,extinction or graduated extinction) have sound empiri-cal support and should be implemented as the first-linetreatment for behaviorally based sleep disorders. Anadequate trial of behavioral intervention, assumingparent compliance, is 2 to 4 weeks.
Stage 2: Pharmacological Intervention (Melatonin)
Pharmacological intervention should be reserved forsituations in which well-being and daytime functioningof the child and/or caregiver is compromised by thesleep disturbance, behavioral treatment has failed, orcaregivers are unable to fully implement the behavioralinterventions after reasonable attempts. Medicationshould be given for as short a duration as possible (notlonger than 1 month at a time without reassessment)and should always be combined with ongoing behav-ioral interventions (Owens et al., 2006). In school-agechildren with and without ADHD, melatonin hasdemonstrated reductions in sleep latency when given atbedtime (Smits et al., 2003; Van der Heijden et al.,2007; Weiss et al., 2006). It is worth noting thatalthough melatonin was associated with clinicallysignificant gains, children in the ADHD groupcontinued to have sleep onset latency near 1 hour(Weiss et al., 2006). Doses in school-age children rangefrom 3 to 6 mg, with the lower dose used for lowerweight children (Smits et al., 2003; Van der Heijdenet al., 2007). Recommendations for preschool dosingrange from 1 to 3 mg. Administration of melatoninearlier in the day (e.g., 5Y7 hours before bedtime tooptimize its chronobiotic properties), and the effectsof melatonin agonists (e.g., ramelteon) have not beenstudied in children (see Touitou and Bogdan, 2007).In short-term use, melatonin seems to have few sideeffects, although it is not recommended for use inpatients with immune disorders (reviewed in Pelayo
et al., 2004). Melatonin_s over-the-counter statusmay reassure parents, although clinicians should keepin mind that supplements such as melatonin are notregulated or monitored by the FDA. A trial ofmelatonin should be at least 10 to 14 days (Weiss et al.,2006).
Stage 3: Pharmacological Intervention (Clonidine)
If melatonin is ineffective and the sleep disordercontinues to functionally impair a child, then aclinician may consider a short trial of clonidine. In aretrospective chart review of 62 school-age childrenwith ADHD and sleep disturbances, 53% of childrenwho were prescribed clonidine were much improved orvery much improved while taking the medication(mean daily dose 0.0245 mg; Prince et al., 1996). Sideeffects were described as mild, with 24% (n = 15)children endorsing morning sedation and 11% (n = 7)with fatigue. Although this series did not findcardiovascular side effects, reports of clonidine toxicityafter ingestion describe a range of adverse effectsincluding respiratory depression and hypotension(Klein-Schwartz, 2002; Rachmiel et al., 2006; Spilleret al., 2005). Thus, clinicians should educate parentsabout safely administering and monitoring of themedication (Klein-Schwartz, 2002) and consider thefamily_s ability to safely follow these recommenda-tions. Recommended doses may range from 0.025 to0.05 mg in preschoolers 30 minutes before bedtime(Hunt et al., 1995; Prince et al., 1996). As withmelatonin, the administration of clonidine to treatsleep disorders should be short term.
CONCLUSIONS
It is encouraging to see that young children havemore access to mental health care than in the past, butstudies showing a rise in use of medication, includingmultiple medications in the preschool age group raisesome concerns, especially given the limited body ofevidence (e.g. DeBar et al., 2003; Rappley et al., 2002;Zito et al., 2000). The PPWG has responded to the gapbetween practice and evidence by clearly defining thecurrent state of preschool psychopharmacologicaltreatment, advocating caution in practice, and usingthe existing evidence and clinical consensus to providetreatment algorithms for preschool psychopharmaco-logical treatment. We aim to inspire more clinical
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research to better inform the many questions remainingand to emphasize the limitations of applying findingsfrom older individuals to children in this age range.Preschool psychopathology and treatment must beconsidered in its unique developmental, clinical,regulatory, and ethical contexts.
Treatment algorithms based on preschool data,extrapolation from older children, and expert opinionwill provide a first step in standardizing treatmentapproaches; however, the need for strengthening theevidence base is urgent. Large-scale, randomizedcontrolled trials are the gold standard and are neededin this population. In addition, individual physiciansand groups of physicians can also provide much neededdata to the field through reports of single or pooled ‘‘Nof 1’’ studies, which include reports of systematicassessment and monitoring of symptoms, adverseeffects, and discontinuation trials and by reportingcarefully documented case reports.
Preschool psychiatry is an important public healthissue. Clinicians who work with very young childrenand parents have the opportunity to advocate forincreased access to (and study of) nonpharmacologicaltreatment options, increased funding for research,increased support for training clinicians with expertisein childhood mental health, and adequate third partypayer reimbursement for specialized assessments andtreatments necessary in early childhood psychiatry.
Disclosure: Dr. Emslie receives research support from Eli Lilly,Organon, and Forest Laboratories; is a consultant to Eli Lilly,GlaxoSmithKline, Wyeth-Ayerst, and Biobehavioral Diagnostics Inc.;and serves on the speakers_ bureau of McNeil. Dr. Greenhill receivessupport from Eli Lilly, Novartis, Forest, Pfizer, and Otsukan. Dr.Kowatch receives research support from Bristol-Myers Squibb, serves as aconsultant to Creative Educational Concepts and Abbott, is the editor ofCurrent Psychiatry, and is on the speakers_ bureau of Astra-Zenecaand Abbott. Dr. Owens receives research support from Lilly, Shire,Sepracor and serves as a consultant to Cephalon, Shire, Lilly, Sanofi-Aventis, and Boehringer-Ingelheim. Dr. Scahill is a consultant forJanssen, Supernus, Bristol-Myers Squibb, and Neutropharm and serveson the speakers_ bureau of Janssen. The other authors have no financialrelationships to disclose.
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Mental Health and Social Competencies of 10- to 12-Year-Old Children Born at 23 to 25 Weeks of Gestation in the1990s: A Swedish National Prospective Follow-up Study Aijaz Farooqi, MD, PhD, Bruno Hagglof, MD, PhD, GunnarSedin, MD, PhD, Leif Gothefors, MD, PhD, Fredrik Serenius, MD, PhD
Objective: We investigated a national cohort of extremely immature children with respect to behavioral and emotional problemsand social competencies, from the perspectives of parents, teachers, and children themselves. Methods: We examined 11-year-oldchildren who were born before 26 completed weeks of gestation in Sweden between 1990 and 1992. All had been evaluated at acorrected age of 36 months. At 11 years of age, 86 of 89 survivors were studied and compared with an equal number of controlsubjects, matched with respect to age and gender. Behavioral and emotional problems, social competencies, and adaptivefunctioning at school were evaluated with standardized, well-validated instruments, including parent and teacher reportquestionnaires and a child self-report, administered by mail. Results: Compared with control subjects, parents of extremelyimmature children reported significantly more problems with internalizing behaviors (anxiety/depression, withdrawn, and somaticproblems) and attention, thought, and social problems. Teachers reported a similar pattern. Reports from children showed a trendtoward increased depression symptoms compared with control subjects. Multivariate analysis of covariance of parent-reportedbehavioral problems revealed no interactions, but significant main effects emerged for group status (extremely immature versuscontrol), family function, social risk, and presence of a chronic medical condition, with all effect sizes being medium andaccounting for 8% to 12% of the variance. Multivariate analysis of covariance of teacher-reported behavioral problems showedsignificant effects for group status and gender but not for the covariates mentioned above. According to the teachers_ ratings,extremely immature children were less well adjusted to the school environment than were control subjects. However, a majority ofextremely immature children (85%) were functioning in mainstream schools without major adjustment problems. Conclusions:Despite favorable outcomes for many children born at the limit of viability, these children are at risk for mental health problems,with poorer school results. Pediatrics 2007;120:118Y133.
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