|Back to Main Print This Page Email to a Friend|
The American Academy of Pediatrics (AAP) has guidelines for the diagnosis and treatment of ADHD in children. Their recommendations include:
ADHD Drugs and Heart Risks
All ADHD stimulant drugs, and atomoxetine (Strattera), have warnings on their prescription labels that they should not be used by patients with structural heart problems or pre-existing heart conditions (high blood pressure, heart failure, heart rhythm disturbances, or congenital heart disease). Methylphenidate (Ritalin, generic) is the most commonly prescribed stimulant drug for treating ADHD.
ADHD Drugs and Priapism Risks
In 2013, the FDA warned that methylphenidate drugs can, in rare cases, cause prolonged and painful erections (a medical condition called priapism) even in children. Methylphenidate is the stimulant drug used in most commonly prescribed ADHD medications such as Ritalin, Concerta, Daytrana, Focalin, Metadate, Methylin, Quillivant, and generic products. A non-stimulant ADHD medication, atomoxetine (Strattera), can also increase the risk for priapism. Patients who experience erections lasting longer than 4 hours should seek immediate medical attention.
New "Brain Wave" Diagnostic Test
In 2013, the FDA approved an EEG-type device to help confirm a diagnosis of ADHD in children and teenagers, when used along with a medical and psychological exam. The Neuropsychiatric EEG-Based Assessment Aid (NEBA) System is a non-invasive brain wave test. It is the first medical device approved as an ADHD diagnostic. But there has been debate about its practical value.
Attention-deficit hyperactivity disorder (ADHD) is a neurodevelopmental disorder characterized by the following symptoms:
ADHD is usually diagnosed during childhood and often persists into adulthood. It is the most commonly diagnosed behavioral disorder in children, and can cause significant problems with home, school, and social interaction. In adult years, ADHD can adversely affect job performance and increase the risk for substance abuse and other mental health problems.
ADHD is classified into 3 types:
In the United States, more than 5 million children under age 18 have been diagnosed with ADHD at some time in their lives, usually during the grade school years. This accounts for about 8% of all American children in this age range.
Symptoms of ADHD typically become apparent at a young age. According to the American Academy of Pediatrics, ADHD symptoms can first emerge in children as young as age 4. To meet the American Psychiatric Association's criteria for ADHD, symptoms must have started before age 12. (See Symptoms and Diagnosis sections of this report.)
In young preschool children, hyperactivity may be the initial sign of ADHD. As the child enters grade school, attention problems become more noticeable. During adolescence, hyperactivity usually diminishes, but issues with impulse control and inattention persist. Adolescents with ADHD often have problems with restlessness, and difficulty making and carrying out plans.
ADHD is a chronic condition that begins in childhood and often persists into adulthood. Adult ADHD is a continuation of childhood ADHD symptoms. Some people with ADHD may be diagnosed when they are adults, but this condition never initially develops in adulthood.
Adults and adolescents who have ADHD often have problems with inattention, impulsivity, and restlessness. They struggle with planning, organization, distractions, and difficulty prioritizing and completing tasks. These impairments can cause significant problems with employment, marital relationships, and financial affairs, and increase the risk for physical injuries.
Patients with ADHD are at increased risk for also having:
Doctors are not exactly sure what causes ADHD. Most likely a combination of genetics, biological factors, and environmental factors plays a role in the development of the condition.
Research using advanced imaging techniques shows there is a difference in the size of certain parts of the brain in children with ADHD compared to children who do not have ADHD. The areas showing change include the prefrontal cortex, the caudate nucleus and globus pallidus, and the cerebellum.
Abnormal activity of certain brain chemicals may contribute to ADHD. The chemicals dopamine, serotonin, and norepinephrine are of special interest. They are neurotransmitters (chemical messengers in the brain) that affect both mental and emotional functioning.
Genetic factors most likely play some role in ADHD. Twin and other family studies show that the relatives of children with ADHD (both boys and girls) have much higher rates of ADHD and related disorders than the families of non-ADHD children.
Most of the research on the underlying genetic mechanisms target genetic pathways associated with the neurotransmitter dopamine. Variations in genes that regulate specific dopamine receptors have been identified in a high proportion of people with ADHD.
ADHD is diagnosed more often in boys than in girls. Boys are more likely to have the combined type of ADHD. Girls are more likely to have the predominantly inattentive type.
ADHD tends to run in families. A child who has a parent or sibling with ADHD has an increased risk of also developing ADHD.
Some research suggests that maternal alcohol use, drug abuse, and cigarette smoking during pregnancy may lead to the development of ADHD in the child. Low birth weight has been possibly linked to ADHD. Environmental lead exposure before age 6 may also raise the risk for ADHD.
Several dietary factors have been researched in association with ADHD, including sensitivities to certain food chemicals, deficiencies in fatty acids (compounds that make up fats and oils) and zinc, and sensitivity to sugar. No clear evidence has emerged, however, that implicates any of these nutritional factors as risk factors for developing ADHD.
ADHD can pose challenges for patients and their families.
ADHD can affect children's relationships with their peers. Children with ADHD can have difficulty with social skills and appropriate behavior, which can lead to bullying (both as victim and perpetrator) and rejection. Impulsivity and aggression can provoke fights and volatile relationships.
Impulsivity in young people with ADHD can cause them to take chances without considering the consequences. Children with ADHD are at increased risk for accidents and injuries. For example, a child with ADHD may not check for oncoming traffic when running into the street or may engage in high-risk physical activities. Adults and adolescents with ADHD often drive recklessly and have frequent traffic accidents.
Many studies report that young people with ADHD have a higher than average risk for substance abuse and that it starts in younger ages. The risk is especially high for patients who also have a conduct or mood disorder in addition to ADHD. Biologic factors associated with ADHD may make these individuals susceptible to substance abuse. Many of these young people may actually be self-medicating their condition.
Children with ADHD encounter significant problems at school. Low academic achievement can affect a child's self-esteem and self-confidence, and contribute to teasing and other social problems with peers.
Experts recommend that children with ADHD also get screened for learning disorders. Although speech and learning disorders are common in children with ADHD, the disorder does not affect intelligence. People with ADHD span the same IQ range as the general population.
The time and attention needed to deal with a child with ADHD can place stress on internal family relationships and create conflicts with parents and siblings.
ADHD is very often a chronic condition. According to the American Academy of Child and Adolescent Psychiatry, about 30 to 65% of children with ADHD continue to experience symptoms through adolescence and into adulthood. ADHD can cause many problems in adulthood including impaired physical and mental health, poor work performance, and financial stress.
Symptoms for ADHD are classified as either "Inattention" or "Hyperactivity and Impulsivity."
A diagnosis of ADHD in children requires 6 or more symptoms that have persisted for at least 6 months.
Symptoms of inattention in children include:
Symptoms of hyperactivity and impulsivity in children include:
Based on these symptoms, a child may be diagnosed with predominantly inattentive type ADHD, predominantly hyperactive-impulsive type ADHD, or combination type ADHD.
In adults, ADHD symptoms can affect many dimensions of work and personal life. For adults and adolescents, a minimum of 5 symptoms are required for a diagnosis of ADHD.
Symptoms of inattention in adults may include:
Symptoms of hyperactivity and impulsivity in adults may include:
There is no single test to diagnose ADHD. The doctor will do a physical exam of the child to make sure that no underlying condition, such as a hearing or vision problem, is causing ADHD-like symptoms. Still, a diagnosis of ADHD is based primarily on observations and reports of a child's behavior patterns. Your child's pediatrician may also refer you to a mental health professional who is experienced in childhood disorders such as ADHD.
History of Behavior. The doctor will ask for a detailed history of the child's behavior. Parents should describe specific problems encountered during the child's development, family history of ADHD, and any recent life changes that may have affected the child. The doctor will inquire about your child's behavior at school and other settings outside the home. Written reports from teachers, school counselors, or other caretakers involved with the child provide additional important observations.
Physical Exam. A physical exam should include a hearing test to rule out any hearing problems. The doctor will inquire about history of medical problems, including allergies, sleep disturbances, poor vision, or chronic ear infections.
Diagnostic Criteria. The American Psychiatric Association (APA) has specific criteria that must be met for a diagnosis of ADHD. These symptoms should have started before age 12 and have occurred in two or more settings (such as home and school). They should not be due to a learning disability or another mental health disorder (such as bipolar disorder, depression, anxiety, schizophrenia, or substance abuse). The symptoms must significantly impair the child's ability to function in academic or social settings. These diagnostic criteria evaluate symptoms in comparison to what is considered normal for a child's developmental level.
For a childhood diagnosis of ADHD, at least six symptoms of Inattention or Hyperactivity and Impulsivity should have been present for at least 6 months. (See Symptoms section of this report.)
A psychiatrist or other mental health professional may also evaluate the child for an accompanying mental health condition such as a learning disorder, oppositional defiant disorder, conduct disorder, or anxiety or depression.
Brain Wave Test. In 2013, the FDA approved the first medical device to help diagnose ADHD. The Neuropsychiatric EEG-Based Assessment Aid (NEBA) System uses electroencephalogram (EEG) technology to measure the ratio of theta and beta brain waves in a 15 to 20 minute noninvasive test. Research has shown that children with ADHD have a higher theta/beta frequency ratio than children without ADHD. The device is approved to help clinicians confirm a diagnosis of ADHD in children ages 6 to 17 years old, when used as part of a complete medical and psychological exam. Concerns have been raised that the device is very expensive, may not add much practical diagnostic value, and was approved based on a single study. Most insurers will not pay for this test.
Childhood ADHD can affect children ages 4 to 18. ADHD in adults always occurs as a continuation of childhood ADHD. Symptoms that begin in adulthood are due to factors other than ADHD.
ADHD in adults can be difficult to diagnose. The doctor will inquire about childhood history of ADHD or ADHD-type symptoms. The patient may be asked to provide school records or information from parents or former teachers.
The same diagnostic criteria are used for adult ADHD and childhood ADHD. The only difference is that a diagnosis of adult or adolescent ADHD requires at least 5 symptoms instead of 6.
ADHD is considered a chronic condition, like asthma or diabetes, which requires long-term, ongoing monitoring of symptoms and adjustments of medications and other treatment programs. Although symptoms may lessen over time, ADHD does not usually "go away." Patients can, however, learn how to control their condition through behavioral techniques, often supported by medication.
Treatment for ADHD does not cure the condition but focuses on controlling symptoms and improving functioning. Treatment typically includes a combination of behavioral therapy and a psychostimulant medication, most commonly methylphenidate (Ritalin, generic). (For older children and adults, other drugs may also be used.) Treatment often involves a team approach that includes the child's pediatrician, other health professionals, parents, and teachers.
Guidelines by Age. The American Academy of Pediatrics recommends that children with ADHD be treated according to the following age groups:
Treatment for Adult ADHD. As with children, adults with ADHD are treated with a combination of medication and psychotherapy. For medication, stimulant drugs or the non-stimulant drug atomoxetine (Strattera) are usually first-line treatments, with antidepressants a secondary option. Most stimulant drugs, as well as atomoxetine, are approved for adults with ADHD.
Adults who have heart problems or heart condition risk factors should be aware of the cardiovascular risks associated with ADHD medication. There have been ADHD medication-associated incidents of sudden death in patients with underlying serious heart problems, and reports of stroke and heart attack in adults with cardiac risk factors.
Several types of medication are used to treat ADHD.
Psychostimulants are the primary drugs used to treat ADHD. Although these drugs stimulate the central nervous system, they have a calming effect on people with ADHD.
These drugs include:
Methylphenidate and Dexmethylphenidate. Methylphenidate drugs (Ritalin, Concerta, Daytrana, Metadate, Methylin, Quillivant XR, and generic versions) are the most commonly used psychostimulants for treating ADHD in both children and adults. Dexmethylphenidate (Focalin, generic) is a similar drug. These drugs increase dopamine, a neurotransmitter important for cognitive functions such as attention and focus.
With the exception of Daytrana and Quillivant XR, all of these drugs are pills taken by mouth. Daytrana is a skin patch drug for ADHD. A patch is applied to the hip each day and delivers a 9-hour dose of methylphenidate. Quillivant is a liquid form of methylphenidate that is approved for patients age 6 and older who may have difficulty swallowing pills.
These drugs are available in short-acting and long-acting dosage forms. The short-acting forms need to be taken several times a day, including during school hours. As the drug wears off, a rebound effect can occur, and ADHD symptoms can intensify. For this reason, the long-acting dosage forms have become popular.
Amphetamine, Dextroamphetamine, and Lisdexamfetamine. Amphetamine-dextroamphetamine (Adderall, generic), dextroamphetamine (Dexedrine, Dextrostat, generic), and lisdexamfetamine (Vyvanse) work by blocking the reabsorption of the brain chemicals dopamine and norepinephrine.
Side Effects. Decreased appetite, stomach pain, headaches, and sleeplessness are the most common side effects of stimulant drugs. Tics or jerky movements develop in a small percentage of children, but this side effect usually goes away when the dosage is lowered.
Stimulant drugs may also:
Cardiovascular Risks. All ADHD stimulant drugs carry warnings that they should not be used by patients with structural heart problems or pre-existing heart conditions (high blood pressure, heart failure, heart rhythm disturbances, or congenital heart disease). These drugs have been associated with sudden death in children with heart problems. They have also been associated with sudden death, stroke, and heart attack in adults with a history of heart disease. According to recent large studies, these medications appear to be safe for children and adults who do not have underlying heart disease.
Symptoms of Overdose. Symptoms of overdose include changes in heart rhythm and rate, hypertension, confusion, breathing difficulties, sweating, vomiting, and muscle twitches. If they occur, parents should immediately call the doctor.
Concerns for Abuse. Stimulant drugs can be habit forming, but they are not considered especially addictive, particularly when they are taken as prescribed in the doses used for treating ADHD. The primary danger for drug abuse from stimulants appears to occur in young people without ADHD who purchase and use these drugs illegally. If a child abuses another drug (alcohol, prescription medication) along with the ADHD medication, the chance for serious side effects is increased.
Atomoxetine (Strattera) was the first non-stimulant approved for ADHD in children and the first treatment approved for adult ADHD. The drug works by increasing levels of both norepinephrine and dopamine, which are generally lower than normal in ADHD. The most common side effects are drowsiness, decreased appetite, and upset stomach.
A few cases of atomoxetine-associated liver injury have been reported, and the FDA warns that the drug should be discontinued at the first signs of jaundice (yellowing of skin and eyes) and liver problems. Long-term effects, such as any impact on growth, are still unknown. Although rare, atomoxetine poses an even greater risk than methylphenidate for severe, long-lasting erections (priapism).
Atomoxetine may cause suicidal thinking in children and adolescents, especially during the first few months of treatment. Parents should monitor children taking atomoxetine for any changes in mood or behavior, and immediately contact their doctor if changes occur.
Alpha-2 agonists stimulate the neurotransmitter norepinephrine, which appears to be important for concentration. They include guanfacine (Tenex, Intuniv, generic) and clonidine (Catapres, generic). These drugs may be prescribed in combination with a stimulant.
Alpha-2 agonists have a number of side effects. Sleepiness and dry mouth are the most common, followed by headache and fatigue. Because clonidine slows the heart down, it can have adverse effects in some children. Discontinuing the drug abruptly or missing doses can cause rapid heartbeats and other symptoms that may lead to severe problems. Doctors strongly recommend that no child be given clonidine without a preliminary examination for heart problems, and no child with existing heart, kidney, or circulatory problems should take it.
Antidepressants are not FDA-approved for ADHD treatment, but may be helpful in certain circumstances. Because antidepressants appear to work about as well as behavioral therapy, doctors recommend that patients first try psychotherapy before using antidepressants.
Bupropion (Wellbutrin, generic) and tricyclics are the types of antidepressants used for ADHD. Bupropion affects the reuptake of the serotonin, norepinephrine, and dopamine neurotransmitters. Side effects include restlessness, agitation, sleeplessness, headache, and stomach problems. Bupropion should not be used by patients who have a seizure disorder. Bupropion may also be associated with the development of suicidal thoughts and behavior, even in people who have no previous history of depression.
Tricyclics are an older type of antidepressant that can be beneficial but have many side effects. Imipramine (Tofranil, generic) and nortriptyline (Pamelor, generic) are the tricyclics most commonly prescribed for ADHD. A third tricyclic, desipramine (Norpramin, generic) should only be used if patients are not helped by other tricyclics. Desipramine has caused sudden death in some children and adolescents and is especially dangerous for patients with a family history of heart rhythm disturbances.
Tricyclic antidepressants can cause disturbances in heart rhythm. Children should have an electrocardiogram when they first begin to take this drug, and after any dose increase.
Behavioral techniques for managing the child with ADHD are not intuitive for most parents and teachers. To learn them, caregivers may need help from qualified mental health care professionals or from ADHD support groups.
Bringing up a child with ADHD, like bringing up any child, is a process. No single point is ever reached where the parent can sit back and say, "That's it. My child is now OK, and I don't have to do anything more." The child's behavior will improve with an increasing ability to step back and consider the consequences of an action and then to control that action before taking it. But this does not happen overnight. A growing child with ADHD is different from other children in very specific ways, presenting challenges at every age.
Setting Priorities for the Parent. Parents must first establish their own levels of tolerance. Some parents are easygoing and can accept a wide range of behaviors, while others cannot. To help a child achieve self-discipline requires empathy, patience, affection, energy, and toughness. Some tips to help parents include:
Establishing Consistent Rules for the Child. Parents must be as consistent as possible in their approach to the child, which should reward good behavior and discourage destructive behavior. Rules should be well-defined but flexible enough to incorporate harmless idiosyncrasies. It is important to understand that children with ADHD have much more difficulty adapting to change than do children without the condition. (For example, the child should do homework every day but might choose to start it after a TV show or computer game.) Keep rules simple, clear, and consistent.
Improving Organization. Parents should establish a predictable routine, and provide a neat, well-organized home environment (particularly in the child's room). Have a consistent daily schedule with regular times for homework, meals, and outdoor activities. Make any changes to the schedule in advance, not at the last moment. Adequate sleep is very important for children with ADHD so make sure your child follows a consistent bedtime routine. Help your child learn organizational skills and maintain a neat environment by providing suitable places to store toys, clothing, and school supplies. Make sure you child keeps track of homework assignments and projects.
Improving Concentration and Attention. Children with ADHD perform significantly better when their interest is engaged and distractions are limited. Parents should be on the lookout for activities that hold the child's concentration. Options include swimming, tennis, and other sports that focus attention and limit peripheral stimuli. (Children with ADHD may have difficulty with team sports require constant alertness, such as football or basketball.)
Martial arts, such as karate, can also offer an appropriate and controlled emotional outlet, and help to focus attention, and teach self-restraint, self-discipline, and tolerance. Learning an instrument can help a child to develop a more rhythmic and balanced sense of self.
Establish a Reward System. Children with ADHD respond particularly well to reward systems. Some suggested tips for rewarding are:
Even if a parent is successful in managing the child at home, difficulties often arise at school. The ultimate goal for any educational process should be the happy and healthy social integration of children with ADHD with their peers.
Preparing the Teacher. Although teachers can expect at least one student in every classroom to have ADHD, there is generally little training that prepares them for managing these children. The teacher should be prepared for certain behaviors in the child with ADHD:
The Role of the Parent in the School Setting. The parent can help the child by talking to the teacher before the school year starts about their child's situation. The first priority for the parent is to develop a positive, not adversarial, relationship with the child's teacher. Finding a tutor to help after school may also be helpful
Special Education Programs. The Individuals with Disabilities Education Act (IDEA) requires the school to identify and evaluate children who may need help and to provide special services. However, parents sometimes report pressure by the school to put their children on medication or force them into special classrooms without clear educational justification. The schools, in these cases, may be acting illegally.
High-quality special education can be extremely helpful in improving learning and developing a child's sense of self worth. Still, programs vary widely in their ability to provide quality education and may not accommodate the specific needs of a child with ADHD.
Special programs are also required under the Rehabilitation Act and by the Americans with Disabilities Act (ADA) for students at institutions of higher learning. It is the student's responsibility, however, to inform the administration at their college or university that they need such services.
A number of diets have been suggested for people with ADHD. Several well-conducted studies have failed to support dietary effects of sugar and food additives on behavior, except possibly in a very small percentage of children. Still, various studies have reported behavioral improvement with diets that restrict potential allergens in the diet. Parents may want to discuss with their doctor a trial of an elimination diet directed at specific foods. Additives and foods that parents and studies report as possible triggers of behavioral changes include:
Feingold Diet. The most well-known diet for ADHD is the Feingold diet, a salicylate- and additive-free diet, which requires rigorous vigilance over a child's eating habits. This diet also prohibits aspirin, which contains salicylates. Some parents report success with this diet, although it may be difficult to impose. In any case, it is certainly wise to provide a healthy balance of fresh, natural foods, and perhaps to avoid food with artificial colors and flavors.
Essential Fatty Acids. Omega-3 fatty acids, found in fatty fish and canola oil, are important for normal brain function and may have some benefits for people with ADHD. Some studies have suggested that supplements of fatty acids, such as docosahexaenoic acid (DHA) and eicosapentaneoic acid (EPA) fish oils, may help reduce ADHD symptoms.
Sugar. Although parents often blame sugar for causing children to become impulsive or hyperactive, evidence does not show that sugar plays a role in hyperactivity.
A number of alternative approaches are tried by children and adults with mild ADHD symptoms. For example, daily massage therapy may help some people with ADHD feel happier, fidget less, be less hyperactive, and focus on tasks. Other alternative approaches that may be helpful include biofeedback relaxation training, meditation, and music therapy. Based on existing evidence, these treatments may be helpful for symptom management but cannot cure the underlying disorder.
Herbs and Supplements. Many parents resort to alternative remedies instead of psychostimulants and other medications. These products include St. John's wort, ginkgo biloba, panax ginseng, melatonin, and pine bark extract. There is no scientific evidence that they are effective.
Generally, manufacturers of herbal remedies and dietary supplements do not need FDA approval to sell their products. Just like a drug, herbs and supplements can affect the body's chemistry, and therefore have the potential to produce side effects that may be harmful. There have been a number of reported cases of serious and even lethal side effects from herbal products. Always check with your doctor before using any herbal remedies or dietary supplements.
American Academy of Child & Adolescent Psychiatry and American Psychiatric Association. ADHD Parents Medication Guide. http://www.aacap.org/App_Themes/AACAP/Docs/resource_centers/adhd/adhd_parents_medication_guide_201305.pdf. Revised July 2013. Accessed March 6, 2014.
American Psychiatric Association. Diagnostic and Statistical Manual of Mental Disorders. 5th edition (DSM-5). Arlington, VA: American Psychiatric Association; 2013.
Barbaresi WJ, Colligan RC, Weaver AL, Voigt RG, Killian JM, Katusic SK. Mortality, ADHD, and psychosocial adversity in adults with childhood ADHD: a prospective study. Pediatrics. 2013;131(4):637-644.
Brook JS, Brook DW, Zhang C, Seltzer N, Finch SJ. Adolescent ADHD and adult physical and mental health, work performance, and financial stress. Pediatrics. 2013;131(1):5-13.
Charach A, Carson P, Fox S, Ali MU, Beckett J, Lim CG. Interventions for preschool children at high risk for ADHD: a comparative effectiveness review. Pediatrics. 2013;131(5):e1584-e1604.
Charach A, Yeung E, Climans T, Lillie E. Childhood attention-deficit/hyperactivity disorder and future substance use disorders: comparative meta-analyses. J Am Acad Child Adolesc Psychiatry. 2011;50(1):9-21.
Cooper WO, Habel LA, Sox CM, et al. ADHD drugs and serious cardiovascular events in children and young adults. N Engl J Med. 2011;365(20):1896-1904.
Faraone SV, Glatt SJ. A comparison of the efficacy of medications for adult attention-deficit/hyperactivity disorder using meta-analysis of effect sizes. J Clin Psychiatry. 2010;71(6):754-763.
Feldman HM, Reiff MI. Clinical practice. Attention deficit-hyperactivity disorder in children and adolescents. N Engl J Med. 2014;370(9):838-846.
Habel LA, Cooper WO, Sox CM, et al. ADHD Medications and Risk of Serious Cardiovascular Events in Young and Middle-aged Adults. JAMA. 2011;306(24):2673-2683.
Millichap JG, Yee MM. The diet factor in attention-deficit/hyperactivity disorder. Pediatrics. 2012;129(2):330-337.
Nigg JT, Breslau N. Prenatal smoking exposure, low birth weight, and disruptive behavior disorders. J Am Acad Child Adolesc Psychiatry. 2007;46(3):362-369.
Perrin JM, Friedman RA, Knilans TK; Black Box Working Group; Section on Cardiology and Cardiac Surgery. Cardiovascular monitoring and stimulant drugs for attention-deficit/hyperactivity disorder. Pediatrics. 2008;122(2):451-453.
Pliszka S; AACAP Work Group on Quality Issues. Practice parameter for the assessment and treatment of children and adolescents with attention-deficit/hyperactivity disorder. J Am Acad Child Adolesc Psychiatry. 2007;46(7):894-921.
Sonuga-Barke EJ, Brandeis D, Cortese S, et al. Nonpharmacological interventions for ADHD: systematic review and meta-analyses of randomized controlled trials of dietary and psychological treatments. Am J Psychiatry. 2013;170(3):275-289.
Subcommittee on Attention-Deficit/Hyperactivity Disorder; Steering Committee on Quality Improvement and Management, Wolraich M, Brown L, Brown RT, et al. ADHD: clinical practice guideline for the diagnosis, evaluation, and treatment of attention-deficit/hyperactivity disorder in children and adolescents. Pediatrics. 2011;128(5):1007-1022.
Swanson JM, Elliott GR, Greenhill LL, et al. Effects of stimulant medication on growth rates across 3 years in the MTA follow-up. J Am Acad Child Adolesc Psychiatry. 2007;46(8):1015-1027.
Thapar A, Cooper M, Jefferies R, Stergiakouli E. What causes attention deficit hyperactivity disorder? Arch Dis Child. 2012;97(3):260-265.
Vetter VL, Elia J, Erickson C, et al. Cardiovascular monitoring of children and adolescents with heart disease receiving stimulant drugs: a scientific statement from the American Heart Association Council on Cardiovascular Disease in the Young Congenital Cardiac Defects Committee and the Council on Cardiovascular Nursing. Circulation. 2008;117(18):2407-2423.
Volkow ND, Swanson JM. Clinical practice: Adult attention deficit-hyperactivity disorder. N Engl J Med. 2013;369(20):1935-1944.