[Adult attention deficit hyperactivity disorder (ADHD) with comorbid addictive disorder. Therapeutic challenges using the example of a survey of clinical practice]. / ADHS im Erwachsenenalter und komorbide Suchterkrankungen : Therapeutische Herausforderungen am Beispiel einer Praxiserhebung.

BACKGROUND: ADHD in childhood and adolescence is characterized by the symptoms hyperactivity, impulsivity, and inattentiveness; these symptoms may persist into adulthood or may manifest as restlessness, emotional instability, and disorganized behavior. In adults ADHD often occurs with increased substance use and is associated with an early onset of substance use, development of severe addiction, and decreased treatment effectiveness. METHOD: This overview will present and critically discuss current study results and evidence-based and consensus-oriented recommendations that ensure the most adequate care for patients with ADHD and addictive disorder. RESULTS AND CONCLUSIONS: For drug therapy, the current S3 guideline recommends methylphenidate, amphetamine salts, and atomoxetine, among others. Treatment of adult patients with ADHD and addiction with stimulants tends to be viewed critically; if required, long-acting medications should be used. Integrated treatment of ADHD and addiction, consisting of a combination of pharmacotherapy and psychotherapy, is recommended.

Increased γ oscillations during voluntary selection processes in adult patients with attention deficit/hyperactivity disorder.

Executive dysfunctions (regarding behavioural inhibition, decision making, flexibility or voluntary selection) rank among the core symptoms of attention deficit/hyperactivity disorder. Several studies demonstrated functional variations in patients with ADHD especially during response inhibition and flexibility. However, information about functional correlates of other aspects of executive functions such as voluntary selection processes is limited. A group of thirty adult patients with attention deficit/hyperactivity disorder (ADHD) and 30 healthy controls, matched for age and education, participated in the present study. Electrophysiological responses (event-related potentials, gamma oscillations) and behavioural data were acquired during the voluntary selection between various response alternatives. ADHD patients demonstrated increased responses in the gamma frequency band especially in frontal and fronto-central brain areas during voluntary response selection processes compared to healthy subjects. In addition, the error rate was increased in patients. Given that gamma-band responses have been related to GABAergic and glutamatergic responses these results may indicate accordant dysfunction in patients with ADHD.

Separating distinct aspects of the voluntary selection between response alternatives: N2- and P3-related BOLD responses.

Voluntary selection between response alternatives belongs to cognitive abilities controlling and regulating goal-directed behaviour. Voluntary selection processes are associated with increased neural activity, especially in medial and lateral frontal brain regions as well as the inferior parietal gyrus. However, the precise function of each brain region as well as the spatiotemporal characteristic of the brain regions involved is not yet clear. The aim of the present study was to disentangle distinct aspects of voluntary selection and their underlying neural processes. Hence, event-related potentials (ERPs) and functional MRI data were acquired simultaneously. Brain regions modulated by the task-induced amplitude variation of ERPs (N2, P3) were identified. The results showed N2-related hemodynamic responses, especially in medial and lateral frontal brain regions. Among other things, medial frontal brain regions are related to conflict monitoring, control of voluntary action and decision making. By contrast, the P3-amplitude proved to be predominantly related to increased BOLD responses in the temporo-parietal junction and lateral frontal brain regions. These brain regions are thought to play a decisive role in an attentional network involved in detecting auditory and visual stimuli. Overall, the results of the study indicated a whole network of brain regions to be associated with voluntary selection processes. In addition, at least some frontal brain regions seemed to be involved at an earlier stage than temporo-parietal regions, probably indicating a top-down process.

Reduced early auditory evoked gamma-band response in patients with schizophrenia.

BACKGROUND: There is growing evidence for abnormalities of certain gamma-aminobutyric acid (GABA)-ergic interneurons and their interaction with glutamatergic pyramidal cells in schizophrenia. These interneurons are critically involved in generating neural activity in the gamma-band (30-100 Hz) of the electroencephalogram. One example of such gamma oscillations is the early auditory evoked gamma-band response (GBR). Although auditory processing is obviously disturbed in schizophrenia, there is no direct evidence providing a reduced early auditory evoked GBR so far. We addressed two questions: 1) Is the early auditory evoked GBR decreased regarding power and phase-locking in schizophrenic patients?; and 2) Is this possible decrease a result of reduced activity in the auditory cortex and/or the anterior cingulate cortex (ACC), which were identified as sources of the GBR previously? METHODS: We investigated the early auditory evoked GBR and its sources in the ACC and the auditory cortex in 90 medicated patients with schizophrenia and in age-, gender-, and education-matched healthy control subjects with an auditory reaction task. RESULTS: Patients with schizophrenia showed a significant reduction of power and phase-locking of the early auditory evoked GBR. This effect was due to a reduced activity in the auditory cortex and the ACC/medial frontal gyrus region (low-resolution brain electromagnetic tomography analysis). CONCLUSIONS: Generally, these findings are in line with earlier reports on the impaired ability of schizophrenic patients in generating gamma activity. In addition, this is the first study to demonstrate disturbance of gamma activity in auditory processing as assessed by the early auditory GBR power.