Download - The Diagnosis and Treatment of ADHD
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The Diagnosis and Treatment The Diagnosis and Treatment of ADHDof ADHD
Jess P. Shatkin, MD, MPHVice Chair for EducationNYU Child Study Center
New York University School of Medicine
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Learning ObjectivesLearning Objectives
Residents will be able to:1. Identify symptom criteria for ADHD.2. State the major rule-out diagnoses.3. Identify the primary comorbidities.4. Describe the diagnostic process.5. Choose between various treatment options
based upon their risk/benefit profiles.
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The Story of Fidgety PhillipThe Story of Fidgety Phillip--Dr. Heinrich Hoffman, 1844--Dr. Heinrich Hoffman, 1844
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"Let me see if Philip can Be a little gentleman;
Let me see if he is able To sit still for once at table." Thus spoke, in earnest tone,
The father to his son; And the mother looked very grave
To see Philip so misbehave. But Philip he did not mind
His father who was so kind. He wriggled And giggled,
And then, I declare, Swung backward and forward
And tilted his chair, Just like any rocking horse;- "Philip! I am getting cross!"
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History of ADHDHistory of ADHD Minimal Brain Dysfunction (damage): 1900 – 1950 Hyperkinetic/Hyperactivity Syndrome (DSM-II of
1968): 1950 – 1969 Recognition of Attentional impairment and
Impulsivity: 1970 – 1979 Diagnostic Criteria (DSM-III) and “ADD” with or
without Hyperactivity: 1980 ADD becomes ADHD (DSM-IIIR) w/mixed criteria:
1987 ADHD (inattentive, hyperactive, combined subtypes)
in DSM-IV: 1994
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Differential DiagnosisDifferential Diagnosis(Psychiatric)(Psychiatric)
Mood and/or Psychotic Disorder Anxiety Disorder Learning Disorder Mental Retardation/Borderline IQ ODD/Conduct Disorder Pervasive Developmental Disorder Substance Abuse Axis II Disorders Psychosocial Cx (e.g., abuse, parenting, etc.)
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Differential DiagnosisDifferential Diagnosis(Medical)(Medical)
Seizure Disorder (e.g., Absence, Complex-Partial) Chronic Otitis Media Hyperthyroidism Sleep Apnea Drug-Induced Inattentional Syndrome Head Injury Hepatic Illness Toxic Exposure (e.g., lead) Narcolepsy
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DSM-IV Diagnostic CriteriaDSM-IV Diagnostic Criteria(Inattention)(Inattention)
Makes careless mistakes/poor attention to detailDifficulty sustaining attention in tasks/playDoes not seem to listen when spoken to directlyDifficulty following instructionsDifficulty organizing tasks/activitiesAvoids tasks requiring sustained mental effortLoses items necessary for tasks/activitiesEasily distracted by extraneous stimuliOften forgetful in daily activities
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DSM-IV Diagnostic CriteriaDSM-IV Diagnostic Criteria(Hyperactive/Impulsive)(Hyperactive/Impulsive)
Fidgets Leaves seat Runs or climbs excessively (or restlessness) Difficulty engaging in leisure activities quietly “On the go” or “driven by a motor” Talks excessively Blurts out answers before question is completed Difficulty waiting turn Interrupts or intrudes on others
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DSM-IV Functional CriteriaDSM-IV Functional Criteria
6 of 9 symptoms in either or both categoriesCode as: Inattentive; Hyperactive-
Impulsive; or Combined TypePersisting for at least 6 monthsSome symptoms present before 7 y/oImpairment in 2 or more settingsSocial/academic/occupational impairment
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Epidemiology (1)Epidemiology (1)
Most commonly diagnosed behavioral disorder of childhood (1 in 20 worldwide)
3 – 7% of school children are affected in U.S.Males:Females = 2 – 9:1Virtually all neurodevelopmental disorders are
more common in boys prior to age 10 years; by adulthood, we get closer to 1:1 ratios
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Epidemiology (2): Gender ParadoxEpidemiology (2): Gender ParadoxGirls typically show less hyperactivity, fewer
conduct problems, & less externalizing behaviorYet we see a gender paradox
– The group with the lower prevalence will show a more severe clinical presentation, along with severity/greater levels of comorbidity (Loeber & Keenan, 1994)
– Consistent with multifactorial/polygenic conditions: The idea is that it takes a greater accumulation of
vulnerability and risk factors to put an individual from the lower-afflicted group “over the top”
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Epidemiology (3)Epidemiology (3)At least 30 – 50% maintain diagnosis for ≥ 15 yrStrongest predictor of poor prognosis is pre-
pubertal aggressionOver 80% of psychotropics are Rx by PCPs:
stimulants (>50%), antidepressants (30%), mood stabilizers (13%), anxiolytics (7%), & antipsychotics (7%)
ADHD related outpatient visits to PCPs increased from 1.6 – 4.2 million between 1990 - 93
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Too Much of a Good Thing?Too Much of a Good Thing?Between 1991 – 2000, the annual production of
MPH rose by 740%; production of amphetamine increased 25x during this same period.
In 2000, America used 80% of the world’s stimulants; most other industrialized countries use 1/10 the amount we do. Canada uses stimulants at 50% of the US rate.
Rates vary by states and regions: Hawaii has the lowest per capita MPH use by a factor of 5. “Hot spots” are mostly in the east near college campuses and clinics that specialize in Dx/Rx.
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But wait, thereBut wait, there’’s more!s more!
Approximately 2.5 million children in the US (ages 4 – 17) took medication for ADHD in 2004
Sales of medications used to treat ADHD rose to $3.1 billion in 2004 from $759 million in 2000
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Medical Expenditure Panel Medical Expenditure Panel Survey, 2008Survey, 2008
3.5% of US children (2.8 million kids) aged 18 and younger received a stimulant medication in 2008, up from 2.9% in 1996
Stimulant use in girls increased over 10 years from 1.1% to 1.6%
Stimulant use in preschoolers decreased, stayed the same for 6 – 12 y/o, and increased for adolescents
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Hey, Kids CanHey, Kids Can’’t Have All the Fun!t Have All the Fun!Adult use of these medications increased 90%
between March 2002 and June 2005…can you say Strattera?!
Use of meds to treat ADHD in adults aged 20 – 44 rose 19% in 2005
An estimated 1.7 million adults aged 20 – 64 and 3.3 million children under 19 took medication for ADHD in 2005– Use increased 2% for those 10 – 19– Use decreased by 5% for those under 10
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ADHD is FamilialADHD is FamilialFamily studies: (1) sibling risk increases 2-5x;
(2) 3-5x increased likelihood that parent is affected (9 – 35%)
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Symptom EvolutionSymptom Evolution
Time
InattentionHyperactivity
Impulsivity
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Hyperactivity
—Age—
Impulsivity
Inattention
ADHD: Course of the Disorder ADHD: Course of the Disorder
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Why More ADHD?Why More ADHD?
Improved recognition by physicians? Increase in prevalence?An easing of standards for making the diagnosis?An easing of standards for prescribing
medication?...or the “Prozac” connection? Increased scholastic demands?Changing parental habits?Managed care and the pharmaceutical industry?1991 amendments to IDEA?
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ADHD Low selfesteem
Academiclimitations
Relationships
Smoking andsubstance abuse
InjuriesMotor vehicle accidents
Legaldifficulties
Occupational/vocational
Children
Adu
lts
Adolescents
Potential Areas of ImpairmentPotential Areas of Impairment
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Comorbidities (1)Comorbidities (1)2/3 of children with ADHD present with ≥ 1
comorbid Axis I disorder:
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Comorbidities (2)Comorbidities (2)≥ 84% of children with ADHD demonstrate
psychopathology as adultsAdolescents w/ADHD Rx w/stimulants have
lower rates of substance abuse than untreated adolescents w/ADHD
Educational impairmentsEmployment problemsGreater sexual-reproductive risksGreater motor vehicle risks
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Natural HistoryNatural HistoryRule of “thirds”:
– 1/3 complete resolution– 1/3 continued inattn, some impulsivity– 1/3 early ODD/CD, poor academic achievement,
substance abuse, antisocial adultsAge related changes:
– Preschool (3-5 y/o) – hyperactive/impulsive– School age (6-12 y/o) – combination symptoms– Adolescence (13-18 y/o) – more inattn w/restlessness– Adult (18+) – largely inattn w/periodic impulsivity
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Neu
roim
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Brain Imaging and ADHDBrain Imaging and ADHDNumerous imaging studies have now
demonstrated the following:– The caudate nucleus and globus pallidus (striatum)
which contain a high density of DA receptors are smaller in ADHD than in control groups
– ADHD groups have smaller posterior brain regions (e.g.,occipital lobes)
– Areas involved in coordinating activities of multiple brain regions are (e.g., rostrum and splenium of corpus collosum and cerebellar vermis) are smaller in ADHD
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Developmental Trajectories of Brain Volume Developmental Trajectories of Brain Volume Abnormalities in Youth with ADHDAbnormalities in Youth with ADHD
Smaller brain volumes in all regions regardless of medication status (cortical white & gray matter)
Smaller total cerebral (-3.2%) and cerebellar (-3.5%) volumes
Volumetric abnormalities (except caudate) persist with age
No gender differencesVolumetric findings correlate with severity of
ADHD• Castellanos et al, 2002
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Cortical Thickness in ADHD: Cingulate CortexCortical Thickness in ADHD: Cingulate Cortex
Shaw et al., Arch Gen Psychiatry 2006
Makris et al.
Cerebral Cortex
2006
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Specific Genes Associated w/ADHDSpecific Genes Associated w/ADHDRare mutations in the human thyroid receptor β
gene on chromosome 3 Symptoms suggestive of ADHD are found among those w/a
general resistance to thyroid hormone (Hauser et al, NEJM, 1993)
Dopamine Transporter gene (DAT) on chromosome 5
A “hyperactive” presynaptic DAT (Gill et al, Mol Psych, 1997)
Dopamine Receptor D4 gene (DRD4) on chromosome 11
Postsynaptic malfunction do not allow signal transmission (Swanson et al, Mol Psych, 1998)
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Cortical Cortical Thickness & Thickness &
DRD4DRD4Shaw et al.Shaw et al.AGP 2007AGP 2007
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Potential Non-Genetic CausesPotential Non-Genetic Causes
Non-genetic causes of ADHD are also neurobiological in nature– Perinatal stress– Low birth weight– Traumatic brain injury– Maternal smoking during pregnancy– Severe early deprivation (extreme)
• Nigg, 2006
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Executive FunctioningExecutive Functioning
Most children with ADHD have impairments in executive functioning, including:– Response inhibition– Vigilance– Working memory– Difficulties with planning
• Wilcutt et al, 2005
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Neuropsychological TestingNeuropsychological TestingNigg (2005) in a meta-analysis identified the most
common abnormalities in various neuropsych tasks in ADHD (listed by Effect Size):– Spatial working memory (0.75)– CPT d-prime (0.72)– Stroop Naming Speed (0.69)– Stop Task Response Suppression (0.61)– Full Scale IQ (0.61)– Mazes, a planning measure (0.58)– Trails B Time (0.55)
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Establishing a Establishing a Convincing Diagnosis (1)Convincing Diagnosis (1)
There is no single test to identify ADHDAvailable “tests” are primarily Continuous
Performance Tests (CPTs):– TOVA (Test of Variables of Attention)– Conner’s CPT– Gordon Computerized Diagnostic System– I.V.A. CPT
Diagnosis must be multi-factorial
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Establishing a Establishing a Convincing Diagnosis (2)Convincing Diagnosis (2)
Clinical Interview:– Diagnostic Assessment of Primary Complaint– Review of Psychiatric Systems (e.g., attention,
hyperactivity/impulsivity, oppositional & conduct difficulties, mood, anxiety, psychosis, trauma, neurovegetative systems, tics, substance abuse, etc.)
– Medical, Psychiatric, & Developmental History– Detailed Educational History– Detailed Family & Social History
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Establishing a Establishing a Convincing Diagnosis (3)Convincing Diagnosis (3)
Collateral interviews:– Patient– Primary Caregivers (parents, grandparents, etc.)– Teachers– School Counselors– Sunday School Teachers– Coaches– Music Teachers– Camp Counselors (e.g., Boys & Girls’ Club)
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Establishing a Establishing a Convincing Diagnosis (4)Convincing Diagnosis (4)
“Some” symptoms by age 7 years This criterion has been maintained in 3 versions of the
DSM, despite a lack of empirical support Likely leads to increased false-negatives DSV-IV field trials demonstrated that inattentive subtype
exhibited a later onset (Applegate et al, 1997) An adult population survey found that only 50% of
individuals with clinical features of ADHD retrospectively reported symptoms by age 7, but 95% reported symptoms before age 12 & 99% before 16 (Kessler et al, 2005)
DSM-V will possibly reset age to 12 years to decrease rate of false negatives (Kieling et al, 2010)
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Establishing a Establishing a Convincing Diagnosis (5)Convincing Diagnosis (5)
Symptoms in ≥ 1 setting:– Never diagnose ADHD in a 1:1 interview– Individuals with ADHD can often function well in
certain settings with no signs of symptoms when they are interested and maintain total focus (e.g., playing Nintendo, watching videos, etc.)
– Symptoms in group settings are a must!
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Establishing a Establishing a Convincing Diagnosis (6)Convincing Diagnosis (6)
Rating scales:– SNAP – IV (for parents & teachers)– Conners (for teachers, parents, and affected adults)– ACTeRS (for teachers & parents)– Child Behavior Checklist– Behavior Assessment System for Children (BASC)– ADHD Rating Scale – IV – Brown ADD Scales
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Establishing a Establishing a Convincing Diagnosis (7)Convincing Diagnosis (7)
Treatment trial:– Risk of adverse effects is significant– Not necessarily “diagnostic” even if effective– At least 2 – 3 medications should be attempted
before patient deemed non-responder– Very low placebo response with treatment of
ADHD
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Who Who ““GetsGets”” ADHD? ADHD?Children without insurance receive less
attention (e.g., care) in all domainsLatino and black children are less likely to
be diagnosed with ADHD by parent report than are white children
Black children with ADHD are less likely to receive stimulants than white children
*1997 – 2001 National Health Interview Surveys*1997 – 2000 Medical Expenditure Panel Survey
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Treatment (1)Treatment (1)MedicationBehavioral Therapy
– Cognitive/Behavioral Therapy– Parent Management Training– Social Skills Training
Educational Support– 504– Individual Educational Plan (IEP)
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Treatment (2): Treatment (2): The MTA Study of 1999The MTA Study of 1999
Over 550 school-aged children with ADHD were followed for 14 months:
1) Community Treatment2) Rigorous Medication Protocol3) Rigorous Behavioral Protocol4) Combined Behavioral and Medication
Protocols
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Treatment (3)Treatment (3)
The MTA Study demonstrated:– Medication (stimulants) treatment effective– Behavioral treatment not effective for core
ADHD symptoms (useful for some related impairments)
– More frequent & higher dosing led to greater responses
– Increased physician contact improved outcome
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Treatment (4)Treatment (4) After 14 month initial MTA study, all follow ups were
naturalistic (patients could choose any treatment) 2-Year Follow Up of MTA Study:
– Modest advantages for Meds & Combined Rx over Behavior Rx & Community Care (effect sizes were reduced by about ½ in comparison to 14 month follow up)
3-Year Follow Up of MTA Study:– 485 of original 579 subjects participated– No differences between groups at 36 months on any measure
(parent/teacher ADHD & ODD symptoms, reading achievement scores, social skills, & functional impairment)
– Note: Compliance waned over time for med group (used IR meds, not ER); medication treatment intensity group was dropped after 14 months; initial medication only group decreased medication use (91% to 71%) & behavioral only group increased medication use (14% to 45%)
• Jensen et al 2007
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Treatment (5)Treatment (5) 8-Year Follow Up of MTA Study:
– 436 of original 579 subjects participated– No differences between groups at 6 & 8 years on any measure
(parent/teacher ADHD & ODD symptoms, reading achievement scores, social skills, & functional impairment, along with new variables: grades, arrests, & psych hospitalizations)
– Note: Medication use decreased by 62%, but adjusting for this did not change the outcome. Type or intensity of treatment in the first 14 months did not predict functioning at 6 and 8 years later. ADHD symptom trajectory over the first 3 years did predict 55% of the outcomes. Children with behavioral and sociodemographic advantage and with the best response to any treatment will have the best long-term prognosis.
• Molina et al 2009
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126126ODDODDADHD aloneADHD alone
179179
TicTic 1515
ConductConduct
1414
434355
2626
1212
AnxietyAnxiety5858
111133
2211
8855
44 6767
MoodMood
Comorbidity in the MTA StudyComorbidity in the MTA Study
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Stimulants (1): Stimulants (1): Mechanism of ActionMechanism of Action
Reuptake inhibition of NE & DACause increased release of presynaptic NE/DAAmphetamine promotes passive diffusion of NE
and DA into synaptic cleftAmphetamine promotes release of NE and DA
from cytoplasmic poolsAmphetamine & Methylphenidate are mild
inhibitors of MAO
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v v Storagevesicle
DA Transporter
Cytoplasmic DA
Methylphenidate blocks
reuptake
Presynaptic NeuronPresynaptic Neuron
SynapseSynapse
Wilens T, Spencer TJ. Handbook of Substance Abuse: Neurobehavioral Pharmacology. 1998;501–513
Amphetamine blocks
reuptake
Amphetamine blocks
Mechanism of Action of StimulantsMechanism of Action of Stimulants
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Stimulants (2): Stimulants (2): Response RatesResponse Rates
70% response rate w/a single stimulant (DEX/MPH); 90% respond if both tried
No significant differences between Dexedrine, Adderall, and Methylphenidate overall
Behavioral rebound6 of 8 studies (involving 241 children ) in
preschool age (3 - 6 y/o) found MPH effective; no studies w/ADD & DEX (paradoxically FDA approved for preschool children)
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Stimulants (3): TachyphylaxisStimulants (3): Tachyphylaxis
Time (Hours)
Serum Level
Ritalin SR
Methylphenidate IR 3x/daily
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Stimulants (4): Tachyphylaxis & Stimulants (4): Tachyphylaxis & Successful Long Acting StimulantsSuccessful Long Acting Stimulants
Time (Hours)
Serum Level
Ritalin SR
Methylphenidate IR 3x/dailyLong Acting Stimulant
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Stimulants (5): Dosage & Stimulants (5): Dosage & AdministrationAdministration
Routine PE prior to initiation of stimulants; Vitals checked periodically
Long-acting treatments (e.g., Concerta, Ritalin LA, Adderall XR, Metadate CD) are good options given concerns about tachyphylaxis
Dosing averages: 30 mg/d MPH, 20 mg/d ADRitalin LA & Adderall XR are good long-acting
choices for those with difficulty swallowing pills
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Stimulants (6): Dosage and Stimulants (6): Dosage and Administration ContinuedAdministration Continued
Weight based dosing (not generally utilized)– Methylphenidate @ 1 mg/kg– Adderall @ 0.6 mg/kg
Dose to clinical responseForced Dosage Titration
– E.g., for a 100+ pound child: Concerta: 18 mg/d week #1; 36 mg/d week #2; and 54 mg/d week #3
– E.g., for a 50 pound child: Adderall XR: 5 mg/d week #1; 10 mg/d week #2; and 15 mg/d week #3
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Long Term Effects on Academic SuccessLong Term Effects on Academic Success
Mayo Clinic 18 year study (2008) of >5,000 children from birth (370 with ADHD, 277 boys & 93 girls) found that treatment with prescription stimulants is associated with improved long-term academic success of children with ADHD.
Girls and boys with untreated ADHD were equally vulnerable to poor school outcomes.
By age 13, on average, stimulant dose was modestly correlated with improved reading achievement scores.
Both treatment with stimulants and longer duration of medication were associated with decreased absenteeism.
Children with ADHD who were treated with stimulants were 1.8 times less likely to be retained a grade than children with ADHD who were not treated.
– Barbaresi et al, 2008
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Are Stimulants Protective?Are Stimulants Protective? Certainly with regard to SUDS 10-year, prospective study of 112 white males with ADHD ages 6 to 17
years 82 (73%) had received stimulant treatment, with a mean treatment
duration of six years In comparison with those who never took stimulants, participants who had
received stimulant medication were significantly less likely to subsequently develop MDD (24% versus 69% for those who were stimulant naïve), conduct disorder (22% versus 67%), oppositional defiant disorder (40% versus 88%) and multiple anxiety disorders (7% versus 60%)
Children receiving stimulant therapy also had significantly lower lifetime rates of grade retention as compared to their counterparts who never received stimulants (26% versus 63%)
--Biederman et al, 2009
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Stimulants (7): Side Effects & Stimulants (7): Side Effects & ContraindicationsContraindications
Side Effects: Nausea, headache, early insomnia, decreased appetite; tics, anxiety, HTN/tachycardia, psychosis
Preschool Study of ADHD (PATS) demonstrated a 20% decrease in expected height and 55% decrease in expected weight over 1 year of treatment
Contraindications: HTN, symptomatic cardiovascular disease, glaucoma, hyperthyroidism, tics/Tourette’s (relative), drug abuse (relative), psychosis (relative)
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Stimulants (8): Sudden Cardiac DeathStimulants (8): Sudden Cardiac Death Concerns about the cardiac safety of stimulants peaked in
2005 when Health Canada discontinued sales of Adderall XR.
FDA discovery of 25 reports of death among users of stimulants between 1999 and 2003 and 54 cases of serious CV problems (e.g., strokes, MI, arrhythmia).
Based on 110 million Rx for MTP written for 7 million kids between 1992 – 2005, the estimated rate of SCD among treated patients was 2 – 5 times below the rate in the general population
The risk of dying of a sudden cardiac event is still under 1/1,000,000 and no more than is expected in an untreated population.
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AHA/AAP RecommendationsAHA/AAP Recommendations The American Heart Association released on April 21, 2008 a statement about
cardiovascular evaluation and monitoring of children receiving drugs for the treatment of Attention Deficit Hyperactivity Disorder (ADHD).
1. The scientific statement included a review of data that show children with heart conditions have a higher incidence of ADHD.
2. Because certain heart conditions in children may be difficult (even, in some cases, impossible) to detect, the AAP and AHA feel that it is prudent to carefully assess children for heart conditions who need to receive treatment with drugs for ADHD.
3. Obtaining a patient and family health history and doing a physical exam focused on cardiovascular disease risk factors (Class I recommendations in the statement) are recommended by the AAP and AHA for assessing patients before treatment with drugs for ADHD.
4. Acquiring an ECG is a Class IIa recommendation. This means that it is reasonable for a physician to consider obtaining an ECG as part of the evaluation of children being considered for stimulant drug therapy, but this should be at the physician's judgment, and it is not mandatory to obtain one.
5. Treatment of a patient with ADHD should not be withheld because an ECG is not done. The child's physician is the best person to make the assessment about whether there is a need for an ECG.
6. Medications that treat ADHD have not been shown to cause heart conditions nor have they been demonstrated to cause sudden cardiac death. However, some of these medications can increase or decrease heart rate and blood pressure. While these side effects are not usually considered dangerous, they should be monitored in children with heart conditions as the physician feels necessary.
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Conflicting Data…sort of…Conflicting Data…sort of…
Retrospective, case-control study; children who died of sudden unexplained death were matched to children who died in MVAs
Medical, historical, and toxicology info was collected Children with identified heart abnormalities and family
history of SCD were excluded Of 564 cases, 10 (1.8%) of cases of sudden unexplained death
were treated with a stimulant at the time of death, as compared with only two (0.4%) who died by MVA
Gould et al, 2009
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Stimulants (9): Pros & ConsStimulants (9): Pros & Cons Methylphenidate (Ritalin), Adderall, Dexedrine Pros:
– Highly effective– Long history of use
Cons:– Limited duration of action– Side effects [e.g., Nausea, headache, insomnia, decreased
appetite, tics (up to 65% w/MPH), anxiety, HTN/tachycardia, psychosis]
– Contraindications [HTN, symptomatic cardiovascular disease, glaucoma, hyperthyroidism, tics/Tourette’s (relative), drug abuse (relative), psychosis (relative)]
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Stimulants (10): Standard CareStimulants (10): Standard Care Routine Treatment with Stimulants and Atomoxetine
– Prior to treatment Height, weight, Blood Pressure & Heart Rate Cardiac Exam Family history of sudden cardiac death and/or personal or family
history of syncope, chest pain, shortness of breath, or exercise intolerance warrants an ECG and pediatric cardiology referral for an echo
– During Treatment At least annual height & weight (compare to published norms); if
height for age decreases by > 1 standard deviation while on stimulants, refer to a pediatric endocrinologist (re: possible growth hormone deficiency or hypothyroidism)
Repeat blood pressure and heart rate at least twice annually and anytime prior and subsequent to a dosage increase
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Tic DisordersTic DisordersUp to 65% of children initiating Rx with
MPH may develop a transient ticSimple Motor, Complex Motor, or VocalStimulants may cause or “unmask” ticsTreatment: Alteration in stimulant dose,
discontinuation of stimulant, change of stimulant, α-2 agonists, antipsychotics, CBT, Strattera(?)
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-2 Agonists (1): Mechanism of Action-2 Agonists (1): Mechanism of Action Increased basal activity of the locus coeruleus noradrenergic cell
bodies in patients with ADHD may decrease the response of the PFC
Consequently, treatments that reduce locus coeruleus activity (e.g,. clonidine, guanfacine) have been hypothesized to improve attentional, arousal, and cognitive processes (Pliszka et al, 1996)
Clonidine binds to the three subtypes of alpha (2) -receptors, A, B and C, whereas guanfacine binds more selectively to post-synaptic alpha (2A) - receptors, which appears to enhance prefrontal function
Stimulation of the post-synaptic alpha-2A receptors is thought to strengthen working memory, reduce susceptibility to distraction, improve attention regulation, improve behavioral inhibition, and enhance impulse control
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-2 Agonists (2): Dosage, -2 Agonists (2): Dosage, Treatment, and Side EffectsTreatment, and Side Effects
Useful for residual hyperactivity & impulsivity, insomnia, treatment emergent tics, & aggression Clonidine (0.1 – 0.3 mg/d) & Guanfacine (1 – 3 mg/d)
Routine PE/VS prior to initiation of Rx Contraindications: CAD, impaired liver/renal function Side Effects: Rebound HTN/tachycardia, HOTN,
sedation, dizziness, constipation, H/A, fatigue Dosage: Start with HS and titrate toward morning Monitor BP, but ECG not routinely necessary
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-2 Agonists (3)-2 Agonists (3):Supporting Data:Supporting Data Clonidine (Catapres)
– DBPC (age range, 7–12 years) randomized to 4 groups (clonidine, methylphenidate, clonidine plus methylphenidate, or placebo) found at 16 weeks that teachers did not find improvement in the clonidine-only group but did indicate statistically significant improvement in both methylphenidate groups. Parents of children in the clonidine-only group, but not the methylphenidate-only group, reported significant symptom improvement (Palumbo et al, 2008, n =122)
– DBPC shows benefit with and w/out MPH in children with Tourettes in reducing ADHD & tics (Tourette’s Study Group 2003, n = 136)
– DBPC shows benefit in children w/comorbid MR (Agarwal et al 2001, n = 10)
– Conners et al 1999 meta-analysis shows decreased effect size compared to stimulants
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-2 Agonists (4)-2 Agonists (4):Supporting Data:Supporting Data Guanfacine (Tenex)
– RDBPC trial of 345 patients shows benefit in treatment of ADHD in children (6-17) using long-acting Tenex at 2, 3 & 4 mg/day; greatest benefit at highest dose. The change from baseline in patients with the inattentive ADHD subtype was not statistically significant. Younger children (age range, 6–12 years) had greater responses to guanfacine than did adolescents (age range, 13–17 years). Only 62% of all enrolled patients completed the study largely due to fatigue, somnolence, and sedation (Biederman et al, 2008, n = 345)
– DBPC shows benefit in treatment of ADHD in children w/comorbid tic d/o (Scahill et al 2001 n = 34)
– DBPC shows benefit in adults w/ADHD comparable to dexedrine (Taylor et al 2001, n = 17)
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IntunivIntuniv Guanfacine ER (Shire) Nonscheduled, alpha-2A receptor agonist indicated for ADHD Indicated for children and adolescents, ages 6 – 17 years, as solo
treatment or as augmenting medication to stimulants Available in November of 2009 Dosages of 1, 2, 3, and 4 mg once daily In clinical trials, Intuniv significantly reduced ADHD symptoms across
a full day as noted by teachers (10 AM and 2 PM) and doctors (throughout the day) and as measured by parents at 6 PM, 8 PM, and 6 AM the following morning
Two randomized, DBPC trials: the first trial incorporated 345 children on either placebo or a 2, 3, or 4 mg dose once daily for 8 weeks; the second was a DBPC trial in which 324 children were given placebo or 1 – 4 mg per day for 9 weeks (1 mg given to children <50 kg). Doses increased in both trials at 1 mg per week to treatment effect. Clinically significant improvement noted in 1-2 weeks.
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α-2 α-2 Agonists (5): Pros & ConsAgonists (5): Pros & Cons Clonidine (Catapres) and Guanfacine (Tenex) Pros:
– Moderately effective (residual hyperactivity & impulsivity, insomnia, treatment emergent tics, & aggression)
Cons:– Side Effects: Rebound HTN/tachycardia, HOTN, sedation,
dizziness, constipation, H/A, fatigue, sudden death in combination with stimulants?
– Contraindications: CAD, impaired liver/renal function
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Combination TreatmentCombination TreatmentStimulant + α-2 Agonist:
– Concern related to 4 reported deaths in children taking both MPH & Clonidine (each with extenuating circumstances)
– No FDA limitations– AACAP recommends against routine ECGs
Stimulant + TCA:– 9 deaths reported in children taking TCAs– recent report of 10 y/o on DEX and IMI who died
by cardiac arrhythmia
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Tricyclics for ADHDTricyclics for ADHDDBPC trials:
– Desipramine in adults w/68% positive responses (Wilens et al 1996, n = 41)
– Desipramine w/comorbid tic d/o in children & adolescents (Spencer et al 2002 n = 41); 71% of pts w/ADHD responded positively; 30% decrease in tics, 42% decrease in ADHD symptoms
– Desipramine statistically better than clonidine for ADHD with comorbid tourettes in children and adolescents; neither exacerbated tics (Singer et al 1995 n = 34)
– Desipramine in children & adolescents (Biederman et al 1989, n = 62); 68% responded positively “much or very much” improved
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Wellbutrin for ADHDWellbutrin for ADHDAdults
– DBPC positive (Wilens et al 2001, n = 40)– BPP v. MPH v. placebo all negative (Kuperman et al
2001, n = 30)Children and Adolescents
– DBPC positive (Conners et al 1996, n = 109)– BPP v. MPH both positive (Barrickman et al 1995, n
= 15)– BPP for ADHD w/adolescents w/comorbid MDE 62%
response rate to ADHD, 85% for MDE; no statistical improvement in ADHD per teachers (Daviss et al 2001, n = 24)
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Effexor for ADHDEffexor for ADHD
Effexor - contradictory open label data in children and adults
By example, Motavalli & Abali (2004) demonstrated efficacy in an open label study of 13 children and adolescents (average age = 10 y/o) dosed venlafaxine to an average of 40 mg (+/- 7 mg); Connors parent rating scales and CGI ratings both showed significant improvement
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Modafinil (Provigil, Sparlon)Modafinil (Provigil, Sparlon) FDA approved for narcolepsy, EDS associated with
sleep apnea, & shift work sleep disorder Variable open label results with higher doses suggested
to possibly improve symptoms of ADHD One RDBPC Trial, 189 children (ages 6-17), 7 weeks
randomized to modafinil (dosed for weight; <30 kg = 340 mg/d & >30 kg = 425 mg/d) w/2 week blinded withdrawal (no discontinuation syndrome noted) demonstrated statistical separation by week #1 (Effect Size = 0.76)
Side Effx = insomnia (24% vs. 1%), H/A (17% vs. 14%), decreased appetite (14% vs. 2%), rare risk of Stevens- Johnson Syndrome
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Modafinil (2): Provigil, SparlonModafinil (2): Provigil, Sparlon
A second trial of children ages 7 – 17 with ADHD (9 weeks, double-blind, flexible dose [170 – 425 mg], randomized to once daily drug vs. placebo)
Modafinil led to statistically significant reductions in symptoms of ADHD at home and at school
Side Effx = insomnia, headache, decreased appetite, and weight loss
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Published Modafinil Studies To DatePublished Modafinil Studies To Date A randomized, double-blind and placebo-controlled trial of modafinil in children and adolescents
with attention deficit and hyperactivity disorder. Kahbazi et al, 2009 Modafinil improves symptoms of attention-deficit/hyperactivity disorder across subtypes in
children and adolescents. Biederman et al, 2008 Modafinil as a treatment for Attention-Deficit/Hyperactivity Disorder in children and adolescents:
a double blind, randomized clinical trial. Amiri et al, 2008 Efficacy and safety of modafinil film-coated tablets in children and adolescents with or without
prior stimulant treatment for attention-deficit/hyperactivity disorder: pooled analysis of 3 randomized, double-blind, placebo-controlled studies. Wigal et al, 2006
A comparison of once-daily and divided doses of modafinil in children with attention-deficit/hyperactivity disorder: a randomized, double-blind, and placebo-controlled study. Biederman et al, 2006
A randomized, double-blind, placebo-controlled study of modafinil film-coated tablets in children and adolescents with attention-deficit/hyperactivity disorder. Greenhill et al, 2006
Modafinil film-coated tablets in children and adolescents with attention-deficit/hyperactivity disorder: results of a randomized, double-blind, placebo-controlled, fixed-dose study followed by abrupt discontinuation. Swanson et al, 2006
Efficacy and safety of modafinil film-coated tablets in children and adolescents with attention-deficit/hyperactivity disorder: results of a randomized, double-blind, placebo-controlled, flexible-dose study. Biederman et al, 2005
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Vyvanse (lisdexamfetamine)Vyvanse (lisdexamfetamine)
Dextro-Amphetamine – Contrast to Adderall (25% L-Amp & 75% D-Amp)
Pro-drug Stimulant (20, 30, 40, 50, 60, & 70 mg dosages)
10-12 hour durationLower “drug liking effects” among drug abusers
than amphetamine (diminishing at higher doses)Once daily dosing; can be dissolved in waterSide Effx = as amphetamine
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Daytrana (The Daytrana (The ““patchpatch””))
Methylphenidate10-12 hour durationOne patch per day worn for 9 hoursDosages: 10 mg (27.5 mg @ 1.1 mg/hour), 15
mg (41.3 mg @ 1.6 mg/hour), 20 mg (55 mg @ 2.2 mg/hour), & 30 mg (82.5 mg @ 3.3 mg/hour)
Side Effx = as methylphenidate
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Texas Medication AlgorithmTexas Medication AlgorithmRevised (JAACAP, June 2006)Uncomplicated ADHD:
1. Stimulant2. 2nd Stimulant3. Atomoxetine4. Bupropion or TCA 5. Alternate (BPA/TCA)6. Alpha-2 agonist
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Texas Medication AlgorithmTexas Medication AlgorithmRevised (JAACAP, June 2006)ADHD with Depression:
1. Non-medication alternatives2. If ADHD worse, begin ADHD algorithm3. If depression worse, begin MDD algorithm4. If ADHD improves but there is no change
in depression, begin MDD algorithm5. If ADHD or MDD worsens, begin MDD
algorithm6. If MDD improves but ADHD remains
unchanged or worsens, begin ADHDalgorithm
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Texas Medication AlgorithmTexas Medication Algorithm
Revised (JAACAP, June 2006)ADHD with Anxiety:
1. Atomoxetine or Stimulant for ADHD2. If ADHD symptoms improve but not
anxiety, add an SSRI3. If ADHD symptoms don’t improve or
anxiety persists, change to alternate ADHD
agent (atomoxetine or stimulant)
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Texas Medication AlgorithmTexas Medication AlgorithmRevised (JAACAP, June 2006)ADHD with Tics:
1. Begin ADHD algorithm2. If nonresponse to ADHD treatment,
continue with algorithm3. If ADHD improves but tics persist or
worsen, add alpha-2 agonist4. If tics do not respond, try an atypical
antipsychotic5. If tics do not respond, try haloperidol or
pimozide
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Texas Medication AlgorithmTexas Medication Algorithm
Revised (JAACAP, June 2006)ADHD with Aggression:
1. Begin ADHD algorithm2. Add behavioral intervention3. Add atypical antipsychotic to stimulant4. Add LiCO3 or VPA to stimulant5. Use alternate agent not tried in Step #4
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Other TreatmentsOther Treatments
Focalin (dex-MPH), use at 50% MPH doseFocalin XRPemoline (Cylert)Methamphetamine (Desoxyn)Reboxetine
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Atomoxetine HCl (Strattera): Atomoxetine HCl (Strattera): Mechanism of Action Mechanism of Action
Norepinephrine reuptake inhibitor; acts at presynaptic neuron; primary mechanism
Significant increase in dopamine noted in PFCNo DA increase noted in nucleus accumbens
(limbic system)No DA increase noted in striatum
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Mechanism of Action
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A NorepinephrineReuptake Inhibitor (NRI)
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Relative Monoamine Relative Monoamine Transporter AffinitiesTransporter Affinities
Compound NE 5-HT DA
Atomoxetine 5 77 1451
MPH 339 >10,000 34
Desipramine 3.8 179 >10,000
Bupropion >10,000 >10,000 562
Imipramine 98 19 >10,000
Fluoxetine 1022 7 4752
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Strattera: Pharmacokinetics/Strattera: Pharmacokinetics/PharmacodynamicsPharmacodynamics
Rapidly absorbed following oral administration Maximal plasma concentrations reached 1–2 hrs p dose Metabolized via hepatic CYP P450 2D6 Half-life (t½) ~ 5 hours
(~ 20+ hours in poor metabolizers) Observed duration of action with once-daily dosing
suggests:– Therapeutic effects may persist after drug is cleared and/or– Brain concentration may differ from plasma concentration
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Strattera: Pharmacodynamics ContStrattera: Pharmacodynamics Cont’’dd
Hours**0 5 10 15 20 25 30
Stra
ttera
Con
cent
ratio
n (n
g/m
L or
ng/
g)
0
500
1000
1500
2000
2500
3000
PlasmaBrain
Brain Concentration 10X Plasma Concentration*
*AUC. **Mouse half-life ~1 hour; (human half-life 5 hours).Data on file, Eli Lilly and Company.
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Strattera: Efficacy in Children Strattera: Efficacy in Children & Adolescents& Adolescents
24-hour duration of action with once-daily dosing
Incidence of insomnia comparable with placebo (for children/adolescents)
Not contraindicated in patients with tics and anxiety
Nonstimulant/noncontrolled substanceMay improve some measures of functional
outcome (not just core ADHD symptoms)
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Comparability Relative to Comparability Relative to Methylphenidate Methylphenidate (cont.)(cont.)
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Strattera vs. ConcertaStrattera vs. Concerta RDBPC trial of 220 children (6 – 16 y/o), all subtypes, were randomly
assigned to 0.8 – 1.8 mg/kg/day of Strattera (n = 222) or 18 – 54 mg/day fo Concerta (n = 220) or placebo (n = 74) for 6 weeks
The a priori specified primary analysis compared response (at least 40% decrease in ADHD Rating Scale total score) to Concerta with response to atomoxetine and placebo.
After 6 weeks, patients treated with methylphenidate were switched to atomoxetine under double-blind conditions.
The response rates for both atomoxetine (45%) and methylphenidate (56%) were markedly superior to that for placebo (24%), but the response to Concerta was superior to that for atomoxetine.
Completion rates and discontinuations for adverse events not significantly different from those for placebo.
Of the 70 subjects who did not respond to methylphenidate, 30 (43%) subsequently responded to atomoxetine. Likewise, 29 (42%) of the 69 patients who did not respond to atomoxetine had previously responded to Concerta
– Newcorn et al, 2007
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Relative Efficacy of ADHD Therapies: Relative Efficacy of ADHD Therapies: Effect SizeEffect Size
Faraone SV et al. Poster presented at APA; May 17–22, 2003; San Francisco, CA.Swanson JM et al. J Am Acad Child Adolesc Psychiatry. 2001;40:168–179.
Effect size: a statistical measurement of the magnitude of effect of a treatment.Large = 0.8(Swanson et al, 2001)
Nonstimulant Stimulant Long-acting Stimulant
Effe
ct S
ize
0
1
2
3
–1
Large (0.8)Moderate (0.5)Small (0.2)
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Understanding Effect Size (1)Understanding Effect Size (1)
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What Works Best?…or the Art What Works Best?…or the Art of Psychopharmacologyof Psychopharmacology
Effect Size– A measure of the “real” population difference between 2
groups; it measures the effectiveness of the treatment: 0.2 = small; 0.5 = moderate; 0.8 = large
Stimulants Effect Size in MTA Study = 1.2; in meta-analysis of 62 stimulant studies = 0.78 (teacher) & 0.54 (parent); average response rate in 155 controlled studies in children/adolescents & adults (Spencer, 1996) = 70%
Strattera Effect Size = 0.7 (based on 6 pre-marketing clinical trials in children/adolescents and adults); average response rate in clinical trials = 70%
α-2 Agonists Effect Size = 0.4
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Understanding Effect Size (2)Understanding Effect Size (2)
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Strattera: Side EffectsStrattera: Side Effects Children and Adolescents:
– Decreased appetite (15%) Ave wt loss of 2 – 4 LB in first 3 months, then resume nl growth
– Dizziness (5%)– Dyspepsia (5%)– Sedation– BP/HR
Adults: – Anticholinergic side effects (dry mouth, constipation, urinary
retention)– Sexual SEfx (decreased libido, erectile disrurbance, anorgasmia)– Insomnia– Nausea and decrease in appetite– BP/HR
Liver Toxicity?...Suicide?
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Published Studies in Adult ADHDPublished Studies in Adult ADHDStudy Year N Medication
Duration*Mattes et al 1984 26 Methylphenidate 3 weeksWender et al 1985 37 Methylphenidate 2
weeksGualtieri et al 1985 8 Methylphenidate 5 daysShekim et al (open label) 1990 33 Methylphenidate 8
weeksSpencer et al 1995 23 Methylphenidate 3
weeksIaboni et al 1996 30 Methylphenidate 2 weeksWilens et al 1996 42 Pemoline 4 weeksWilens et al 1999 35 Pemoline 4 weeksPaterson et al 1999 68 Dextroamphetamine 4
weeksTaylor et al 2000 21 Amphetamine 2 weeksHorrigan et al (open label) 2000 24 Amphetamine 16
weeksSpencer et al 2001 27 Amphetamine 3
weeksTaylor et al 2001 17 Amphetamine 2 weeksMichelson et al 2001 536 Strattera 10
weeks*Active Treatment
Period
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Patients in Whom You Might Patients in Whom You Might Consider StratteraConsider Strattera
History of adverse effect to stimulants Comorbid anxiety, depression, tics, enuresis or
Tourette’s Require 24 hour symptom relief Severe stimulant rebound Personal or family history of substance abuse Concern about insomnia or appetite suppression Monthly prescriptions are a major hassle Any newly diagnosed patient for whom you determine
the treatment to be appropriate
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Patients in Whom You Might Patients in Whom You Might Consider StimulantsConsider Stimulants
History of favorable response to stimulantsThose who require “drug holidays”Obese/overweight patientsConcern about manic activationAugmenting StratteraWhen you need a “powerful punch”Any newly diagnosed patient for whom you
determine the treatment to be appropriate
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Organizational Skills TrainingOrganizational Skills TrainingManualized Treatment, Flexibly Applied to
Individual Needs20 sessions conducted in 10 weeksMeet with child and parentsConsult with teachersFocus on practical routines that children can use
over and over again Rewards and reinforcement used to motivate
students to change
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Treatment Areas for Treatment Areas for Organizational Skills ManagementOrganizational Skills Management Tracking Assignments Organization of Settings Materials Management
– Collection– Storage– Transfer
Time Management– Time Estimation– Scheduling
Planning– Single Time Period– Long-Term Projects– Setting Priorities– Determining Breaks
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Parent Problems Parent Problems Related to ADHDRelated to ADHD
Parents of children w/ADHD are 3-5x more likely to become separated or divorced
Parents of children w/ADHD have a higher incidence of depression & family discord
Majority of parents of children w/ADHD report making changes in work status
9 – 35% risk that a parent of a given patient has ADHD