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Salud mental
versión impresa ISSN 0185-3325
Salud Ment vol.28 no.5 México sep./oct. 2005
Artículos originales
Algoritmo del tratamiento para el trastorno por déficit de atención con hiperactividad en niños y adolescentes
*Hospital Psiquiátrico Infantil Juan N Navarro, San Buenaventura 86, Belisario Domínguez, Tlalpan, 14080, México D.F.. México.
**Clínica de Adolescentes, Instituto Nacional de Psiquiatría Ramón de la Fuente. México.
El trastorno por déficit de atención con hiperactividad se ubica en el CIE-10 dentro de los denominados trastornos hipercinéticos y en el DSM-IV como parte de los trastornos de inicio en la infancia y la adolescencia. La prevalencia de este trastorno se ha calculado entre 3 a 6% en la población general, y persiste en la adolescencia y la vida adulta en 60% de los pacientes. Este padecimiento constituye la principal causa de búsqueda de atención psiquiátrica en la población infantil de nuestro medio, lo cual señala la necesidad de crear protocolos de atención para su diagnóstico oportuno y tratamiento adecuado.
El tratamiento de este trastorno se basa en la administración de medicamentos. El tratamiento farmacológico más estudiado, y que ha demostrado mayor eficacia, es el uso de estimulantes, siendo el metilfenidato el único medicamento de este género disponible en México. Su presentación original como medicamento de liberación inmediata tiene una vida media corta, y requiere ser administrado dos o tres veces al día. Por lo anterior, se diseñó el sistema de liberación osmótica tras la administración vía oral (OROS), que permite mantener dosis plasmáticas terapéuticas tras una sola toma al día. Los estudios a largo plazo han mostrado que el metilfenidato no tiene potencial de abuso y que los pacientes con trastorno por déficit de atención que reciben tratamiento tienen menor riesgo de consumir sustancias que los pacientes no tratados.
Hasta 30% de los pacientes no responde adecuadamente al tratamiento con metilfenidato, por lo que se consideran otros medicamentos como segunda elección. Entre ellos se cuentan los antidepresivos tricíclicos, que han mostrado su utilidad en el manejo de los pacientes con trastorno por déficit de atención y conductas disruptivas. Entre las ventajas de su uso está su mayor vida media, que permite la administración de una a dos dosis por día. La mayor desventaja del uso de estos medicamentos son sus efectos colaterales, en particular la prolongación del intervalo Q-T del electrocardiograma. El bupropión es otro antidepresivo que ha mostrado utilidad en el tratamiento del trastorno por déficit de atención solo y comórbido con trastorno disocial, uso de sustancias y la depresión. Su presentación en forma de liberación prolongada favorece el apego al tratamiento al reducir la necesidad de varias tomas durante el día. Entre los efectos colaterales del bupropión se encuentran la reducción del umbral convulsivo, la erupción cutánea y la elevación leve de la tensión arterial.
Los estimulantes de la alerta constituyen una nueva generación de fármacos y otra opción para el tratamiento del trastorno por déficit de atención; de ellos, la atomoxetina ha mostrado efectividad terapéutica a corto y largo plazo. Entre las ventajas de este fármaco se cuentan la administración en una sola toma, su bajo potencial cardiotóxico y el hecho de que no afecta el crecimiento. Además, se ha reportado una reducción de los tics y de los síntomas ansioso-depresivos comórbidos del trastorno por déficit de atención. Los efectos colaterales reportados más frecuentemente con atomoxetina son la náusea y la disminución del apetito. El modafinil es otro estimulante de la alerta que ha mostrado efecto terapéutico en estudios abiertos y comparativos contra placebo. Sus efectos secundarios más frecuentes son la náusea, el vómito y el insomnio inicial.
Tomando en cuenta la información anterior, un grupo de clínicos se reunió en el Hospital Psiquiátrico Infantil “Dr. Juan N Navarro” y elaboró un consenso para la evaluación y el manejo del trastorno por déficit de atención, con el fin de actualizar la información y uniformar los criterios y los tiempos de tratamiento dentro de una institución. De este consenso derivaron cuatro algoritmos para el manejo en preescolares del trastorno sin comorbilidad, comórbido con trastornos internalizados y comórbido con trastornos externalizados.
Palabras Clave: trastorno por déficit de atención; tratamiento farmacológico; niños; adolescentes
The diagnostic criteria for the Attention Deficit Hyperactivity Disorder (ADHD) have been changing according to international classifications. It is currently included in the ICD-10 as an hyperkinetic disorder and in the DSM-IV as a disorder having its onset during childhood and adolescence. The reported prevalence for ADHD is between 3% and 6%; up to 60% of the patients remain symptomatic through adolescence and adulthood. Population-based surveys of physicians who treat children and adolescents reveal that the rate and the proportion of office visits associated with ADHD are high and have increased over the past decade. This fact points to the need of elaborating clinical guidelines for the treatment of this disorder.
Evidence from controlled clinical trials confirms the superiority of medication management for ADHD over behavioral therapy and the combination of medication and behavioral treatment. Stimulants are the most studied drugs for ADHD and constitute the first treatment of choice. Methylphenidate (MPH) is the only stimulant available in Mexico. Its mechanism of action is based on the blocking of the dopamine reuptake, which increases the availability of this neurotransmitter in the synaptic cleft. Based on the dopaminergic theories of ADHD, dopamine genes have been the initial candidates for molecular studies regarding response to MPH. Variations of the dopamine D4 receptor gene (DRD4) and the dopamine transporter gene (DAT1) have been related with the response to MPH. The short half life of this drug (less than three hours) supports the shift from once-a-day to twice-a-day or thrice-a-day dosing. The Osmotic Release Oral System (OROS) of MPH allows to maintain therapeutic plasmatic doses with once-a-day dose. Its efficacy and tolerability have been shown in clinical trials.
Regarding the long-term effects of MPH, this drug has demonstrated efficacy in a two-year follow-up controlled study. In addition, animal models have shown that the chronic exposure to MPH during developmental periods produces changes in the function of brain dopaminergic cells, as well as changes in behavior. The association between MPH and substance abuse has also been explored. The pharmacokinetic and pharmacodinamic differences between MPH and cocaine, which also acts by blocking the dopamine transporter, were examined: When administered intravenously, MPH, like cocaine, has a reinforcing effects at doses that exceed a 60% dopamine transporter blockade threshold. When administered orally at clinical doses, the pharmacological effects of MPH also exceed this threshold, but reinforcing effects rarely occur. So, the pharmacokinetic properties of MPH in brain differ for oral and intravenous routes of administration, suggesting that the oral administration of MPH mimics the tonic dopamine cell firing, which may be a critical factor associated with clinical effects. In addition, therapeutic doses of MPH do not act at the nucleus accumbens, a brain structure highly associated with reinforcing. These data suggest that oral administration of MPH does not lead to abuse. Follow-up studies have also shown that stimulant therapy is not associated with increased risk of substance abuse.
Since 30% of the patients do not respond to stimulant treatment, the efficacy and safety of other drugs have been evaluated. Among them, tricyclic antidepressants (TCAs) are considered a good choice for the management of ADHD and conduct disorders. Their half life is longer than that of MPH, which allows a once-a-day or twice-a-day dosing. It has also been described that TCAs are effective for the treatment of comorbid tics. The main disadvantage of these drugs is their effect on cardiac conduction, which has been associated with sudden death.
Bupropion is another antidepressant having an effect on dopamine activity. It has shown efficacy for the treatment of ADHD in children, adolescents, and adults, particularly in patients with nicotine dependence, patients with comorbid conduct disorder, or depression. Bupropion is available in a extended-release, once-daily formulation (XL). The main side effects of this antidepressant are the increased risk of seizure development, rash and mild elevation of blood pressure. This drug is not recommended for the treatment of patients with comorbid eating disorders.
Venlafaxine (a serotonin and norepinephrine reuptake inhibitor) and reboxetine (a norepinephrine reuptake inhibitor) are recently introduced antidepressants which have shown efficacy in open label trials on patients with and without comorbid depressive disorder.
Atomoxetine is another non-stimulant medication; its main mechanism of action is the inhibition or the reuptake of norepinephrine. Several clinical trials have shown its efficacy for the treatment of ADHD in children, adolescents and adults. This drug can also be administered in a single dose; in addition, it has a low potential for cardiotoxicity and a reduction of tic frequency and severity has been reported with its use. It is also recommended for the ADHD comorbid with anxiety or depression. Nausea and decreased appetite are the most common side effects of atomoxetine.
Modafinil is another non-stimulant drug which was initially described for the treatment of narcolepsy. This drug increases the dopamine and norepinephrine activity through its direct effect on glutamate and GABA, among other neuromodulators.
Some clinical trials have shown its superiority over placebo on ADHD symptoms. The main side effects of modafinil are gastrointestinal distress and insomnia.
Clonidine and risperidone are drugs considered as second treatment of choice or adjunctive treatments for patients with comorbidity.
Although medication is the first treatment of choice, patients often get benefits from psychosocial interventions, particularly parent training in contingency management methods and classroom applications of contingency management techniques. The value of these measurements lies in the temporary reduction of symptom levels and/or in the reduction of related behavioral and emotional difficulties, such as defiance and conduct problems, depression, low self-esteem, or academic underachievement.
Parents’ training focus on general contingency management tactics, such as contingent application of reinforcement or punishment following appropriate/inappropriate behaviors. Reinforcement procedures have typically relied on praise or tokens, while punishment methods have usually been the loss of tokens or time-out from reinforcement. The classroom management include a continuous communication with teachers, in order to maintain them informed about the illness and its treatment, as well as training on contingency management tactics.
The aforementioned information was used in the elaboration of clinical guidelines for the treatment of youngsters with ADHD, either alone or comorbid with internalizing or externalizing disorders. Another guideline for the management of preschool children with ADHD is included. Psychoeducation follows the assessment of the children in each case. The pharmacological treatment recommendations give priority to monotherapy. Stimulants are the first treatment of choice in each guideline. The use of non-stimulant medications as second choice will depend on the age and comorbidity of patients.
Key words: Attention deficit hyperactivity disorder; pharmacological treatment; children; adolescents
Referencias
1. American Psychiatric Association: Diagnostic and Statistical Manual of Mental Disorders. Cuarta edición. (DSM-IV). Washington, 1994. [ Links ]
2. Banaschewski T, Roessner V, Dittmann RW, Santosh PJ, Rothenberger A: Non-stimulant medications in the treatment of ADHD. Eur Child Adolesc Psychiatry, 13:102-116, 2004. [ Links ]
3. Barkley RA: Psychosocial treatment for Attention Deficit/Hiperactivity Disorder in children. J Clin Psychiatry, 63:36-43, 2002. [ Links ]
4. Barkley RA, Fischer M, Smallish L, Fletcher K: Does the treatment of Attention-Deficit/Hyperactivity Disorder with stimulants contribute to drug use/abuse? A 13-year prospective study. Pediatrics, 111:97-109, 2003. [ Links ]
5. Connor DF, Fletcher KE, Swanson JM: A meta-analysis of clonidine for symptoms of Attention-Deficit Hyperactivity Disorder. J Am Acad Child Adolesc Psychiatry, 38:1551-1559, 1999. [ Links ]
6. Dulcan M: Practice parameters for the assessment and treatment of children, adolescents, and adults with Attention-Deficit/Hiperactivity Disorder. J Am Acad Child Adolesc Psychiatry , 36:85S-121S, 1998. [ Links ]
7. Faraone SV, Wilens T: Does stimulant treatment lead to substance use disorders. J Clin Psychiatry , 64:9-13, 2003. [ Links ]
8. Fischer M , Barkley RA : Childhood stimulant treatment and risk for later substance abuse. J Clin Psychiatry , 64:19-23, 2003. [ Links ]
9. Ingrassia A, Turk J: The use of clonidine for severe and intractable sleep problems in children with neurodevelopmental disorders-a case series. Eur Child Adolesc Psychiatry , 14:34-40, 2005. [ Links ]
10. Klein-Schwartz W: Trends and toxic effects from pediatric clonidine exposures. Arch Pediatr Adolesc Med, 156:392-396, 2002. [ Links ]
11. Kratochvil CJ, Heiligenstein JH, Dittmann R, Spencer TJ y cols.: Atomoxetine and methylphenidate treatment in children with Adhd: A prospective, randomized, open-label trial. J Am Acad Child Adolesc Paychiatry, 41:776-784, 2002. [ Links ]
12. Kutcher S, Aman M, Brooks SJ, Buitelaar J y cols.: International consensus statement on Attention-Deficit/Hyperactivity Disorder (ADHD) and Disruptive Behaviour Disorders (DBDS): Clinical implications and treatment practice suggestions. Eur Neuropsychopharmacol, 14:11-28, 2004. [ Links ]
13. Ma CL, Arnsten AF, Li BM: Locomotor hyperactivity induced by blockade of prefrontal cortical Alpha2-adrenoceptors in monkeys. Biol Psychiatry, 57:192-195, 2005. [ Links ]
14. Mc Clellan JM, Werry JS: Evidence-based treatments in child and adolescent psychiatry: An inventory. J Am Acad Child Adolesc Psychiatry , 42:1388-1400, 2003. [ Links ]
15. Michelson D, Faries D, Wernicke J, Kelsey D y cols.: Atomoxetine in the treatment of children and adolescents with Attention-Deficit/Hyperactivity Disorder: A randomized, placebo-controlled, dose-response study. Pediatrics , 108:1-9, 2001. [ Links ]
16. Miranda A, Garcia R, Presentacion MJ: Factores moduladores de la eficacia de una intervención psicosocial en niños con Trastorno por Déficit de Atención con Hiperactividad. Rev Neurol, 34:S91-S97, 2002. [ Links ]
17. Mozes T, Meiri G, Ben-Amity G, Sabbagh M, Weizman A: Reboxetine as an optional treatment for Hyperkinetic Conduct Disorder: A prospective open-label trial. J Child Adolesc Psychopharmacol, 15:259-269, 2005. [ Links ]
18. Mta Cooperative Group: National Institute of Mental Health Multimodal Treatment Study of ADHD Follow-Up: 24-Month outcomes of treatment strategies for Attention-Deficit/Hyperactivity Disorder. Pediatrics , 113:754-761, 2004. [ Links ]
19. Mta Cooperative Group: National Institute of Mental Health Multimodal Treatment Study of ADHD Follow-Up: Changes in effectiveness and growth after the end of treatment. Pediatrics , 113:762-769, 2004. [ Links ]
20. Mukaddes NM, Abali O: Venlafaxine in children and adolescents with Attention Deficit Hyperactivity Disorder. Psychiatry Clin Neurosci, 58:92-95, 2004. [ Links ]
21. Organizacion Mundial de la Salud: Décima Revisión de la Clasificación Internacional de las Enfermedades. Trastornos Mentales y del Comportamiento. Meditor, Madrid, 1993. [ Links ]
22. Otka JE, Mercadante MT, Scahill L, Leckman JF: Reboxetine as a potentially effective treatment for Attention Deficit Hyperactivity Disorder. J Child Adolesc Psychopharmacol , 11:203-204, 2001. [ Links ]
23. Overtoom CCE, Verbaten MN, Kemner C, Kenemans JL y cols.: Effects of Methylphenidate, desipramine, and L -Dopa on attention and inhibition in children with Attention Deficit Hyperactivity Disorder. Behav Brain Res, 145:7-15, 2003. [ Links ]
24. Perwien AR, Faries DE, Kratochvil CJ , Sumner CR y cols.: Improvement in health-related quality of life in children with ADHD: An analysis of placebo controlled studies of Atomoxetine. J Dev Behav Pediatr, 25:264-271, 2004. [ Links ]
25. Pliszka SR: Non-stimulant treatment of Attention-Deficit/Hyperactivity Disorder. CNS Spect, 8:253-258, 2003. [ Links ]
26. Prince JB, Wilens TE, Biederman J, Spencer TJ , Wozniak JR: Clonidine for sleep disturbances associated with Attention-Deficit Hyperactivity Disorder: A systematic chart review of 62 Cases. J Am Acad Child Adolesc Psychiatry , 35:599-605, 1996. [ Links ]
27. Ratner S, Laor N, Bronstein Y, Weizman A , Toren P: Six-week open-label Reboxetine treatment in children and adolescents with Attention-Deficit/ Hyperactivity Disorder. J Am Acad Child Adolesc Psychiatry , 44:428-433, 2005. [ Links ]
28. Rohde LA, Roman T, Hutz MH: Attention-Deficit/ Hyperactivity Disorder: Current aspects on pharmacogenetics. Pharmacogenomics J, 3:11-13, 2003. [ Links ]
29. Rugino TA, Samsock TC: Modafinil in children with Attention-Deficit Hyperactivity Disorder. Pediatr Neurol, 29:136-142, 2003. [ Links ]
30. Ruiz M: Trastorno por Déficit de Atención. Diagnóstico y Tratamiento. Academia Mexicana de Pediatría. Editores de Textos Mexicanos, México, 2004. [ Links ]
31. Spencer T, Biederman J , Wilens T : Attention-Deficit/Hyperactivity Disorder. En: Kutcher S (ed.). Practical Child and Adolescent Psychopharmacology. Cambridge University Press, pp 230-264, Cambridge, 2002. [ Links ]
32. Spencer T , Heiligenstein JH , Biederman J , Faries DE y cols.: Results from 2 proof-of-concept, placebo controlled studies of Atomoxetine in Children with Attention Deficit/Hiperactivity Disorder. J Clin Psychiatry , 63:1140-1147, 2002. [ Links ]
33. Spencer TJ , Biederman J , Wilens TE, Faraone SV : Novel treatments for Attention-Deficit/Hiperactivity Disorder in children. J Clin Psychiatry , 63:16-22, 2002. [ Links ]
34. Stein MA, Sarampote CS, Waldman ID, Robb AS y cols.: A Dose-Response study of OROS methylphenidate in children with Attention-Deficit/Hyperactivity Disorder. Pediatrics , 112:e404-e413, 2003. [ Links ]
35. Swanson JM ,Volkow ND: Pharmacokinetic and pharmacodynamic properties of stimulants: Implications for the design of new treatments for ADHD. Behav Brain Res , 130:73-78, 2002. [ Links ]
36. Swanson JM , Volkow ND : Serum and brain concentrations of methylphenidate: Implications for use and abuse. Neurosci Biobehav Rev, 27:615-621, 2003. [ Links ]
37. Volkow ND , Insel TR: What are the long-term effects of methylphenidate treatment? Biol Psychiatry , 54:1307-1309, 2003. [ Links ]
38. Wernicke JF, Kratochvil CHJ: Safety profile of atomoxetine in the treatment of children and adolescents with ADHD. J Clin Psychiatry , 63:50-55, 2002. [ Links ]
39. Wilens TE, Faraone SV , Biederman J , Gunawardene S: Does stimulant therapy of Attention-Deficit/Hyperactivity Disorder beget later substance abuse? A meta-analytic review of the literature. Pediatrics , 111:179-185, 2003. [ Links ]
Recibido: 16 de Mayo de 2005; Revisado: 20 de Julio de 2005; Aprobado: 08 de Agosto de 2005
Este es un artículo publicado en acceso abierto bajo una licencia Creative Commons
