Rudolph's Pediatrics, 22nd Ed.

CHAPTER 84. Hyperactivity and Inattention

Martin T. Stein and Michael I. Reiff

A high level of activity and short attention span are part of normal development in infants and toddlers. Many typically developing preschool children continue to manifest these same characteristics. When they develop impulse control around 4 years of age, overactive and distractible behaviors diminish. Attention span, activity level, persistence, and adaptability to change also reflect a child’s temperament or behavioral style. These traits may affect learning and social interactions when they are discordant with expectations of the child’s environment—of teachers, parents, and peers.

Core symptoms of ADHD are inattention, hyperactivity, and impulsivity. ADHD is the most common and most extensively studied biopsychosocial problem in school-aged children. It is a chronic condition that persists into adolescence and adulthood in 60% to 80% of individuals diagnosed with ADHD during childhood.^1,2

DEMOGRAPHICS/EPIDEMIOLOGY

Attention deficit hyperactivity disorder (ADHD) has been identified in children in every country and culture studied. The absence of a biologic marker to establish a diagnosis of ADHD and dependency on parent and teacher reports of behavior is a challenge to research on prevalence. A prevalence of 4% to 12% was found in an analysis of 11 studies using community samples. In a recent national study, 8.7% of children met DSM-IV criteria for ADHD.³ There is a male predominance of ADHD with a male-female ratio of 3:1 for the combined type and 2:1 for the predominantly inattentive type. ADHD does occur in preschool children, a group in whom the diagnosis is more challenging.⁴

ETIOLOGY

A diverse set of biobehavioral pathways can lead to the behavioral expression of the core symptoms of ADHD.⁵

Barkley identified behavioral disinhibition as the major core deficit in ADHD.⁶ This includes difficulty mobilizing delayed gratification, inability to interrupt ongoing responses (eg, inability to stop playing a video game because it is time for homework), and interference control (eg, inability to refrain from reacting to a friend walking past the classroom door while the child is working on a math problem).

Imbalances in dopaminergic and noradrenergic regulation have been shown to influence the core symptoms of ADHD. These neurotransmitters may increase the inhibitory influences of frontal cortical activity on subcortical structures. Stimulant medications and other medications found effective in ADHD treatment appear to increase the inhibitory influences of frontal lobe activity through these dopaminergic and noradrenergic influences.

Cortical development in children with ADHD lags behind that of typically developing children by years but follows the normal sequence of brain development, suggesting that ADHD represents a delay rather than a deviance in cortical brain maturation.⁷ Cortical delay is most prominent in the lateral prefrontal cortex, an area that supports the ability to suppress inappropriate responses, executive control of attention, evaluation of reward contingencies, higher-order motor control, and working memory.

ADHD has strong familial associations. Parents and siblings of a child with ADHD carry a 2-fold to 8-fold increase in the risk for ADHD. There is also evidence for genetic heterogeneity in ADHD. Some families with ADHD are also vulnerable for major depressive disorder. Children with ADHD who also have conduct disorder and bipolar disorder may make up another distinct familial sub-type. ADHD and anxiety disorders do not appear to be linked in families. Twin studies have found that 77% of the variance of phenotype can be attributed to genetic factors. Genomic linkage studies suggest that risk genes for ADHD may be on chromosomes 16p13 and 17p11. Associations have also been made between ADHD and the dopamine transporter gene (DAT) and dopamine receptor D4 gene. This suggests that dopamine is a significant factor in the etiology of ADHD, and complements the fact that stimulant medications are primarily dopamine reuptake inhibitors.

Several pregnancy and delivery complications have been found to predispose to ADHD. These include toxemia, eclampsia, poor maternal health, maternal age, postmaturity, duration of labor, fetal distress, low birth weight, and antepartum hemorrhage. Maternal smoking during pregnancy appears to be another risk factor. Psychosocial adversity is also an important risk factor.

FUNCTIONAL IMPAIRMENT

The diagnosis of attention deficit hyperactivity disorder (ADHD) should not be made without evidence of impairment in functioning, and treatment is not warranted without such evidence. Children with ADHD have been found to have significant functional impairment in the areas of academic achievement, family relationships, peer relationships, self-esteem and self-perception, accidental injuries, and overall adaptive function.^8-10 They are likely to underachieve in school regardless of whether they have diagnosed learning disabilities. Families of children with ADHD are more likely to experience impairment in parental harmony, parenting distress, perceived incompetence in parenting, and parent-child interaction problems. The self-esteem of children with ADHD is often lower than that of their peers, and as a self-protective mechanism, children and adolescents may inflate initial levels of self-regard. In adults, ADHD is associated with lower educational attainment, occupational level, marital stability, role functioning, social functioning, and cognitive functioning.

COEXISTING CONDITIONS

ADHD is accompanied by coexisting conditions more often than not. The most prevalent coexisting conditions include other disruptive behavior disorders (oppositional defiant disorder and conduct disorder), anxiety disorder, depressive disorders, and learning disabilities. Each of these conditions carries its own risks for functional impairment. When followed into adolescence, prospective studies of children in clinical samples from referral centers indicate rates of oppositional defiant disorder of 59% to 73%. Prevalence rates of conduct disorder in these clinical samples of adolescents range from 20% to 50%. By adolescence, 44% of children with ADHD are reported to have anxiety disorder. The prevalence of coexisting major depression in most studies of clinical populations range from 9% to 32%.¹¹ When learning disabilities are strictly defined as significant discrepancies between abilities (IQ) and achievement (as measured by individually administered achievement tests) in different academic subjects, approximately 15% of students with ADHD qualify for the diagnosis of coexisting learning disorders¹² (see eTable 84.1 ).

DIAGNOSIS AND EVALUATION

The core behaviors associated with ADHD (hyperactivity, impulsivity, and inattention) are observed in many children and adolescents at some time during their development. It is only when the symptoms are persistent, pervasive (present in multiple situations), and shown to impair critical functions of learning and social development consistent with developmental age that a diagnosis of ADHD is considered. Most ADHD studies are with school-aged and adolescent patients. Diagnosis of ADHD is challenging in the preschool child since the behaviors associated with ADHD are part of normal development, to some degree, in this age group.

The Diagnostic and Statistical Manual (DSM) criteria for diagnosis of ADHD in school-aged children and adolescents include documentation of the following criteria:

• At least 6 of the 9 behaviors described in the hyperactive/impulsive domain and/or at least 6 of the 9 behaviors described in the inattentive domain.

• Symptoms occur often and to a degree inconsistent with child’s developmental age.

• Presence of these behaviors in 2 or more major settings (eg, home and school) for at least six months.

• Presence of some symptoms of ADHD (by history) prior to 7 years of age.

• Significant impairment in learning and/or social interactions.

• Symptoms are not attributable to another mental health condition.

Eighteen specific behaviors must be ascertained as part of the diagnostic process (see Table 84-1). Three subtypes of ADHD (predominantly hyperactive-impulsive type, predominantly inattentive type, and combined type) are delineated.

The diagnostic process must include ascertainment of how many of the 18 ADHD-associated behaviors occur frequently and in most situations. An appreciation of normal development reveals that many school-aged children (and most preschool children) demonstrate some ADHD behaviors some of the time. The Diagnostic and Statistical Manual for Primary Care (DSM-PC) is a guide to distinguish normal developmental variation from the behaviors associated with ADHD.²⁰

A clinician must establish whether the behaviors are limited to a particular environment or situation or are present in a variety of situations. There must be evidence that core ADHD behaviors occur in a child’s major environments, including home and school. Ascertaining that the duration of symptoms is longer than 6 months is crucial. Many of the 18 ADHD symptoms may occur in response to life event changes (eg, marital discord, divorce, economic stress, a family move, a new school, an illness in a family member) or during the early stages of a disease process (eg, posttraumatic encephalopathy, petit mal seizures, an acquired hearing loss, adrenoleuko-dystrophy). See Table 84-2.

Table 84-1. Behaviors Associated with Core ADHD Symptoms

Inattention

Six or more of the following symptoms have persisted for at least 6 months to a degree that is maladaptive and inconsistent with developmental level.

• Often fails to give close attention to details or makes careless mistakes in schoolwork, work, or other activities

• Often has difficulty sustaining attention in tasks or play activities

• Often does not seem to listen when spoken to directly

• Often does not follow through on instructions, fails to finish schoolwork, chores, or duties in the workplace (not due to oppositional behavior or failure to understand instructions)

• Often has difficulty organizing tasks and activities

• Often avoids, dislikes, or is reluctant to engage in tasks that require sustained mental effort (eg, schoolwork, homework)

• Often loses things necessary for tasks or activities (eg, toys, school assignments, pencils, books, tools)

• Is often easily distracted by extraneous stimuli

• Is often forgetful in daily activities

Hyperactivity-impulsivity

Six or more of the following symptoms have persisted for at least 6 months to a degree that is maladaptive and inconsistent with developmental level.

Hyperactivity

• Often fidgets with hands or feet or squirms in seat

• Often leaves seat in classroom or in other situations in which remaining seated is expected

• Often runs about or climbs excessively in situations in which it is inappropriate (in adolescents or adults, may be limited to subjective feelings of restlessness)

• Often has difficulty playing or engaging in leisure activities quietly

• Is often “on the go” or often acts as if “driven by a motor”

• Often talks excessively

Impulsivity

• Often blurts out answers before questions have been completed

• Often has difficulty awaiting turn

• Often interrupts or intrudes on others (eg, butts into conversation or games)

Source: Reprinted with permission from American Psychiatric Association. Diagnostic and Statistical Manual of Mental Disorders: DSM-IV-TR. Washington, DC: American Psychiatric Association; 2000.

Symptoms of ADHD that are not associated with impairments in schoolwork or with successful social relationships do not meet the diagnostic criteria for ADHD. An inadequate assessment of functional impairment is a common cause of overdiagnosis. The hyperactivity, impulsivity, or inattentiveness in some school-aged children is either not severe enough or is situational in an educational or social environment and outside the boundaries of ADHD. Overactivity associated with situational inattentiveness in a school-aged child who is doing well in the classroom, achieving academically, and engaging socially is not ADHD! In other children, isolated core ADHD behaviors may be adaptive to a particular situation in the child’s life.

The American Academy of Pediatrics published an evidenced-based practice guideline for the diagnosis of school-aged child with attention deficit hyperactivity disorder.¹⁷ It is the gold-standard for primary care clinicians, and is shown in Table 84-3 as a scale that ascertains coexisting psychological disorders, learning disabilities, environmental stressors, and impairment. Items from these scales are reviewed in eTable 84.2 .

A complete physical examination should include visual acuity; an audiogram; measurements for height, weight, head circumference, and blood pressure; and a neurologic examination. Dysmorphic features that suggest a syndrome with a high prevalence of ADHD (eg, fetal alcohol syndrome, fragile X syndrome) should be assessed. A minority of children with ADHD display signs of inattention, hyper-activity, or impulsivity in a medical office setting, and a diagnosis of ADHD should not be made contingent on whether or not these behaviors are observed in a medical environment.

Neurodevelopmental tasks assess a variety of components of neurologic function that are associated with attention and learning. They may provide a clue to a specific learning disability or language disorder. The mild stress induced by the task may be associated with hyperactivity (fidgetiness, getting up from seat, constant motion, etc) and inattentiveness (distractibility, not on task, daydreaming), signs that emerge in the office only during this part of the examination (see eTable 84.3 ).

Similar to other chronic conditions, the diagnosis of attention deficit hyperactivity disorder is often not accomplished in a single visit to a primary care clinician. Data gathering, clinician interview and examination, and summary of results requires at least 60 minutes. An adaptation to primary care is to schedule 3 visits of 20 to 30 minutes each in order to accurately assess each patient.

Table 84-2. Differential Diagnosis of ADHD

Medical conditions

Hearing impairment

Vision impairment

Genetic syndromes (fragile X)

Obstructive sleep apnea

Allergic rhinitis

Toxins (fetal alcohol syndrome)

Medications

Illegal drug use

Neurologic and developmental problems

Cerebral palsy

Developmental delays

Communication disorders

Learning disabilities

Mental retardation

Tic disorders (Tourette syndrome)

Seizure disorder

Pervasive developmental delay

Psychiatric illnesses

Anxiety

Depression

Bipolar disorder

Oppositional defiant disorder

Conduct disorder

Obsessive-compulsive disorder

Posttraumatic stress disorder

Socioenvironmental problems

Abuse

Neglect

Family dysfunction

Exposure to violence

New home

New school

Marital status change

Death

TREATMENT

Effective treatments for children and adolescents with attention deficit hyperactivity disorder (ADHD) include medication, behavior modification, and a combination of both therapies. Educating the family (including the child and caregivers) about ADHD is the first step to insure a good outcome. A discussion of the condition should include an understanding of ADHD as a biologic condition (“brain based”), not a result of poor parenting or intentional misbehavior, that is amenable to change through medication and behavior modification and is responsive to accommodations in the home and classroom. Most parents appreciate an empathic clinician who makes a clear statement about how difficult it must be to raise a child with ADHD and clarifies her role as the coordinator of care among the family, school, and medical office. The American Academy of Pediatrics clinical guideline on the treatment of the school-aged child with ADHD emphasizes this approach.¹⁹ eTable 84.4 presents the complete guideline. Salient clinical points include the following:

Table 84-3. Diagnosis and Evaluation of the Child with Attention Deficit Hyperactivity Disorder (ADHD): A Clinical Guideline for Primary Care Clinicians

Recommendation 1: In a child 6 to 12 years old who presents with inattention, hyperactivity, impulsivity, academic underachievement, or behavior problems, primary care clinicians should initiate an evaluation for ADHD. Early recognition of ADHD in primary care pediatric practice is enhanced with the following screening questions through a previsit questionnaire or the clinical interview.

How is your child doing in school?

Are there any problems with learning that you or the teacher has seen?

Is your child happy in school?

Are you concerned with any behavioral problems in school, at home, or when your child is playing with friends?

Is your child having problems completing classwork or homework?

Recommendation 2: The diagnosis of ADHD requires that a child meet DSM-IV criteria (see text and Table 84-1).

Recommendation 3: The assessment of ADHD requires evidence directly obtained from parents or caregivers regarding the core symptoms of ADHD in various settings, the age of onset, duration of symptoms, and degree of functional impairment. ADHD-specific scales or the clinical interview may be used to obtain the information. Behavior questionnaires for parents should be specific for the diagnosis of ADHD. The American Academy of Pediatrics toolkit for clinicians, ADHD—Caring for Children with ADHD: A Resource Toolkit for Clinicians, contains one of the available scales. It can be downloaded for use in the office or clinic. DSM-IV rating scales that are age-normed are especially important to use in children under 6 and over 12 years of age. Other forms of data gathering may be useful, including open-ended questions (eg, “What are your concerns about your child’s behavior in school? in social situations?”), focused questions about specific behaviors, and semistructured interview schedules. The traditional pediatric clinical interview with a child and a parent (together and separately) provides a rich source of information, some of which may not be apparent or emphasized on a behavioral scale. The clinical interview also begins the therapeutic alliance among the clinician, parent, and child, a process that is crucial to later adherence to a treatment plan.

Recommendation 4: The assessment of ADHD requires evidence directly obtained from the classroom teacher (or other school professional) regarding the core symptoms of ADHD, the duration of symptoms, the degree of functional impairment, and coexisting conditions. The guideline recommends that clinicians contact the school to determine the child’s educational performance. Information from the child’s teacher or other school personnel who have observed the child in the classroom may be obtained from a verbal narrative, telephone calls (not easily accomplished in a busy office practice, although preferred by some clinicians), written narrative, and/or rating scales. Focused rating scales have the advantage of assessing all 18 ADHD behaviors; the teacher narrative has the advantage of providing a description of the child that gives the clinician more insight into a particular child’s behavior, learning style, and the classroom experience. A clinician may request a written response to the following: “Tell me about [child’s name] in your classroom. Tell me about his or her learning style and behaviors. A paragraph or two is sufficient.”

Recommendation 5: Evaluation of the child with ADHD should include assessment for coexisting conditions. The ADHD toolkit includes a scale that ascertains coexisting psychological disorders, learning disabilities, environmental stressors, and impairment. Items from these scales are reviewed in eTable 84.2. The Behavior Assessment System for Children (BASC) and the Child Behavior Checklist (CBCL) are standardized instruments used for determining mental health conditions that coexist with ADHD. Asking an underachieving child about her most favorite and least favorite subject in the classroom often provides a clue to a learning disability. Assessment of strengths and deficits in learning is also available from teachers and other school personnel. A gap between ability (aptitude) and achievement is often the first clue to a learning disability. A referral to a clinical child psychologist may be necessary to determine whether academic problems are due to a learning disability.

Recommendation 6: Other diagnostic tests are not routinely indicated to establish the diagnosis of ADHD. Evidence-based studies do not support the routine use of laboratory tests and imaging studies to establish the diagnosis. Laboratory tests found not to be useful in the evaluation of a child with ADHD include hematocrit, blood lead, thyroid hormone levels, brain imaging studies, and electroencephalography. Continuous performance tests (CPTs), computer-generated data on inattention and vigilance, are also not routinely indicated for establishing the ADHD diagnosis.

Data from American Academy of Pediatrics. Committee on Quality Improvement and Subcommittee on Attention-Deficit/Hyperactivity Disorder. Diagnosis and evaluation of the child with attention-deficit/hyperactivity disorder. Pediatrics. 2000;105(5):1158-1170.

Recommendation 1: Primary care clinicians should establish a management program that recognizes ADHD as a chronic condition. The chronic disease model of care includes parent/patient education, continuous availability for questions and counseling, coordination with other services, setting specific goals, and monitoring.

Recommendation 2: The treating clinician, parent, and child, in collaboration with school personnel, should specify appropriate target outcomes to guide management. For the child with ADHD, target outcomes should reflect key symptoms the child manifests and the specific impairments these symptoms cause. Impairments and problem behaviors differ greatly from child to child.

Recommendation 3: The clinician should recommend medication and/or behavior therapy as appropriate to improve target outcomes in children with ADHD.

Recommendation 4: When the selected management for a child with ADHD has not met target outcomes, clinicians should evaluate the original diagnosis, use of all appropriate treatments, adherence to the treatment plan, and the presence of coexisting conditions.

Recommendation 5: The clinician should periodically provide a systematic follow-up for the child with ADHD. Monitoring of the ongoing treatment plan should be directed to target outcomes and adverse effects of medication by obtaining specific information from parent, teacher, and the child.

MEDICATION

Methylphenidate, amphetamine, and atomoxetine are approved by the Federal Drug Administration (FDA) for use in children and adolescents on the basis of evidenced-based safety and efficacy studies. Other medications with limited randomized controlled studies and not with FDA approval include bupropion, clonidine, guanfacine, and tri-cyclic antidepressants.

Stimulants

The most widely prescribed medication for children and adolescents with attention deficit hyperactivity disorder (ADHD) are the psychostimulants methylphenidate and amphetamine.²⁰ Over 200 scientific studies support their value for children with ADHD.

Stimulant medications are now available in short-acting (3–6 hours), intermediate-acting (6–8 hours), and long-acting (10–12 hours) preparations (see Table 84-4). Behavioral effects are seen within 30 to 45 minutes. The available short-acting stimulants are similar. Intermediate-acting methylpheni-date is released slowly through a wax-matrix system, such that it begins to act about 90 minutes after ingestion (as opposed to 30 minutes for immediate-release methylpheni-date) and reaches its peak benefit at 3 hours with a gradually decreasing plasma concentration. A 20-mg slow release methylpheni-date is less effective than the equivalent dose of 10 mg methylphenidate twice daily. Extended-release Methylin and slow-release methylphenidate have equivalent pharmacokinetics and pharmacodynamics. Extended-release Metadate is also designed to parallel the pharmacokinetics of slow-release methylphenidate. Long-acting Ritalin is another new preparation that exerts behavioral and cognitive effects for about 8 hours. It uses bead technology (“sprinkles”) and has a biphasic release pattern (50% immediate release and 50% delayed-release beads). The development of long-acting stimulants was a response to problems observed by parents, teachers, and clinicians. Gaps in the behavioral effects of multiple daily doses of immediate-release stimulants occur at some of the least structured times of the day (bus rides, lunch time, and recess). In addition, many children feel embarrassed to take medication in school under the scrutiny of the school nurse and their peers, and compliance then becomes an issue. Homework time remains uncovered unless an afternoon dose is prescribed. Osmotic-release methylphenidate (Concerta) is delivered as an initial bolus followed by a progressive 8-hour release of methylphenidate (22% immediate release and 78% extended release) by an osmotic pump mechanism, maintaining a rising methylphenidate level through the day. It is as efficacious as thrice-daily dosing of immediate-release methylphenidate. Metadate CD (methylphenidate hydrochloride) is also a preparation available in sprinkles, with a biphasic release pattern (30% immediate release and 70% extended release). Extended-release Adderall is designed to parallel a 4-hour, twice-daily regimen of Adderall. It is available in a capsule with sprinkles, and its delivery is similar to long-acting Ritalin with 50% immediately released and 50% gradually released after 4 hours.

Table 84-4. Stimulant Medications: First-Line Treatments

There is little evidence of the development of tolerance to stimulants and little evidence of the need to increase doses to get the same behavioral response, even as children grow. While behaviors are affected rapidly following a dose of stimulants, increased attention to subjects like math may take up to 1.5 hours after administration. Stimulants work at school to increase on-task behavior and decrease interrupting and fidgeting. At home, they improve on-task behavior, parent-child interactions, and compliance. They also improve peer perceptions of social standing and increase attention while playing sports.

The most frequent side effects to stimulants include stomachaches, and headaches (these symptoms typically resolve spontaneously after the first week), decreased appetite, difficulty with sleep initiation, and jitteriness. Motor tics may also occur in some children. These side effects often occur early in treatment, are usually mild, and can often be ameliorated by alterations in dose, timing, or change in stimulant medication. There are no differences in potential side effects among stimulants. A child or adolescent with a specific side effect on one stimulant medication may not experience it on another. While there is no evidence that chronic use of stimulants causes significant impairment in adult height, the 3-year follow-up MTA study (discussed later in this chapter) reported that growth in newly treated children averaged 2.0 cm less in height and 2.7 kg less in weight than growth in unmedicated children. The reduced growth occurred mostly in the first year of treatment and was absent in the third year.²⁵ While stimulant medication is effective for preschool children with attention deficit hyperactivity disorder, they experience more frequent and more intense side effects.²²

There is no evidence that stimulant treatment leads to an increased risk for substance abuse. In fact, the use of stimulants has been associated with a reduction in risk for subsequent drug and alcohol use disorders.²³ Stimulants are not contraindicated in cases of tics, and stimulants do not appear to lower the seizure threshold.

Nonstimulants

Stimulants remain the first-line psychopharmacologic treatment for ADHD. It is estimated that at least 80% of children will respond to one of the stimulants if they are used in a systematic way. Nonstimulants remain an option for children and adolescents for whom stimulants are not effective, cause significant adverse side effects, or exacerbation of other coexisting disorders or where nonstimulants are a preferred option for treating ADHD and a coexisting disorder with a single medication (see Table 84-5).

Atomoxetine (Strattera) is a nonstimulant medication approved for use in school-aged children, adolescents, and adults with ADHD. It is a norepinephrine reuptake inhibitor and blocks the presynaptic norepinephrine transporter in the prefrontal cortex. It is found to have a beneficial effect on children and adolescents with ADHD and to have efficacy similar to that of stimulants. Atomoxetine may provide symptom relief during the evening and early morning hours. Motor and verbal tics associated with atom-oxetine have not been reported. In addition, atomoxetine may have less effect than stimulants have on delayed sleep onset. The side effects are similar to those of stimulants, but atomoxetine may be associated with more fatigue and nausea than are stimulants. Atomoxetine may be effective in children with ADHD and coexisting anxiety. The initial studies of atomoxetine reported a 2-fold increase compared to control subjects in suicidal ideation, usually occurring in the first month of treatment; actual suicide attempts were not increased.

The tricyclic antidepressants include imipramine, desipramine and nortriptyline. They work by inhibiting norepinephrine reuptake. Desipramine produces a response rate for ADHD symptoms comparable to that of stimulants, as well as fewer tics in patients with coexisting tics and Tourette disorder, but there are associated cardiac side effects. Bupropion is an aminoketone antidepressant with both noradrenergic and dopaminergic properties. It is found to improve ADHD with coexisting depression.

Clonidine and guanfacine are presynaptic, central-acting α-2-adrenergic agonists that work by affecting norepinephrine discharge rates in the locus ceruleus, which may indirectly affect dopamine. Although there is modest evidence from open trials, there is no clear research support for their use as an ADHD medication. Clonidine has been used clinically to counteract the stimulant side effect of delayed sleep initiation and for children and adolescents with ADHD who also have significant aggressive behavior. Guanfacine may also be effective in children with ADHD, tics, and aggression.

Table 84-5. Nonstimulant Medications: Second-Line Treatments

The 3 medications approved by the FDA for treating children and adolescents with ADHD have a similar efficacy. Seventy percent of patients on these medications will experience a significant decrease in core ADHD behaviors. Among those who do not respond sufficiently or who develop intolerable side effects, about half will respond to one of the other medicines. There is variability in dose response among patients; it is recommended to begin with a small dose and titrate upward every 2 to 4 weeks to reach the optimal effect while monitoring side effects. Most children are treated with medication daily, including on weekends.²⁴

BEHAVIORAL TREATMENT

Effective psychosocial treatment for ADHD employs the principles of behavior modification and social learning theory, which emphasize contingency management and shaping children’s behaviors through observing and modeling appropriate behaviors, attitudes, and emotional reactions of others. These principles have been used to train both parents and teachers in behavior management with good evidence for effectiveness among children with ADHD.

The goals of parent training are to help parents learn to achieve consistent and positive interactions with their children, gain a better understanding of what behaviors are developmentally normal, cut down on negative interactions such as arguing or constantly having to repeat commands, provide appropriate consequences for their child’s behaviors and to become more empathic to their child’s viewpoint, and help children to improve their abilities to manage their own behaviors.²⁵ Parents are taught how to

• deliver and follow through on clear commands.

• shape behaviors in gradual increments.

• use daily contingency charts (star or “happy face” charts).

• establish procedures such as “time-out,” token economies (earning rewards and privileges contingent on performing desired behaviors), and response cost (losing tokens or privileges for noncompliance).

The same principles of clinical behavior therapy have been used effectively in training teachers in classroom behavior management. Once parents and teachers have been trained, they can learn to implement systems that provide continuity from home to school, such as a daily behavior report card that can be used to report on target behaviors that are being monitored daily and allow parents to provide either positive reinforcement or consequences at home (see eTable 84.5 ).

Behavioral interventions alone are often insufficient for effective treatment of core ADHD behaviors. For parents who are hesitant to use prescribed medications to treat their child, initiating treatment with a behavior modification program should be supported with frequent monitoring.

COMBINED MEDICATION AND PSYCHOSOCIAL TREATMENTS: THE MTA STUDY

The short-term benefits of medications and behavioral therapy have been well established. Few studies have also looked at medication treatment and behavioral therapies in head-to-head comparisons. The National Institute of Mental Health Multimodal Treatment of Attention Deficit Hyperactivity Disorder (MTA) clinical trial followed 579 children, ages 7 to 9, in 6 sites over a 14-month period. The children were randomly assigned to 1 of 4 groups: (1) intensive medication management (MedMgt), (2) intensive behavioral treatments (Beh), (3) combined MedMgt and Beh (Comb), and (4) study diagnostic procedures and then routine care in the community (CC). Medication management was initiated with methylphenidate, using alternative stimulants or nonstimulants for those who did not respond to methylphenidate.¹⁴

For the core symptoms of ADHD (inattention, impulsivity, hyperactivity), the MTA medication management was superior to routine care in the community despite that over two thirds of the children receiving care in the community were being treated with stimulant medication. The Comb treatment did not yield significantly greater benefits than the MedMgt alone for the core symptoms of ADHD, but outcomes in the Comb group could sometimes be achieved at lower medication doses than the group that received MedMgt alone. Combined treatment was superior to MedMgt alone for many non-ADHD domains of functioning, including oppositional or aggressive symptoms, symptoms of depression and anxiety, parent-child relations, and reading achievement. Based on a composite of parent and teacher ratings, 68% of the Comb children “normalized” by the end of the 14-month study, as compared to 56% of the MedMgt alone, 34% of the Beh management alone, and only 25% of the care in the community children. The benefit seen in the medication groups persisted at 24 months but not at 36 months.²⁷ For clinicians, an important implication of the study results is that systematic monitoring with a plan for follow-up office visits is a critical component of successful treatment for children with ADHD.

SCHOOL INTERVENTIONS

Comprehensive pediatric care for children and adolescents with ADHD is achieved when the clinician communicates effectively with the school. With the parents’ approval, it begins with informing the teacher about the diagnosis and treatment. A monitoring system for transferring information to the clinical office about the patient’s school behavior and educational achievement should be in place. Communication works best when parents partner with the school and the clinician.²⁷

The daily report card is an effective method to monitor classroom behaviors. Parents and teacher decide on 3 to 5 behaviors that impair success in school. Each behavior is monitored daily, and a report is sent home with the child. The daily report card is attached to an award system (eg, privileges or prizes) to encourage compliance. This system allows for frequent, immediate feedback that can be motivating to the child, parents, and teacher. The daily report card with directions can be downloaded from http://ccf.buffalo.edu/pdf/daily_report_card.pdf.²⁸

ALTERNATIVE THERAPIES

Many parents seek complementary or alternative therapies either alone or in combination with evidenced-based medication and behavioral management.²⁹ Most of these treatments have not undergone randomized controlled trials and cannot be recommended. Some alternative therapies have side effects and may be harmful to children; others are safe. For the parent who is set on trying an alternative treatment or who has already found it helpful, many clinicians incorporate the alternative plan with a proven treatment. If the treatment is not dangerous and does not interfere with the clinician’s management strategies, it is best not to alienate a parent because the goal should be one of partnership in doing what is best for the child. Alternative therapies are listed in eTable 84.6 .

PROGNOSIS

The long-term outcome for children with ADHD is related to the severity and type of symptoms, coexisting conditions (eg, mental health disorders and learning disabilities), intelligence, family situation, and treatment. 70% to 85% have symptoms persisting into adolescence. Hyperactivity diminishes, but impulsivity and inattention often persist. Peer interactions are often immature, and sleep disturbances are common.^30,31

Adolescents with ADHD have more driving tickets and more motor vehicle accidents. They also initiate intercourse sooner and with more sexual partners, use birth control less, and have higher rates of sexually transmitted diseases and teenage pregnancy. Teenagers with ADHD smoke at a younger age and have a higher prevalence of smoking. The risk of substance use disorders over the life span is up to twice as great in individuals with ADHD. Adolescent girls with ADHD have more depression, anxiety, poor teacher relationships, an external locus of control, and impaired academic performance compared to their peers.³²

Coexisting learning disabilities and psychiatric disorders add to the magnitude of poor school outcomes. Treatment with stimulant medication is associated with better long-term school outcomes, although medication treatment does not necessarily improve standardized test scores or ultimate educational attainment.³³ Stimulant treatment is also associated with a significant decrease in the rate of substance abuse disorder.