Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0917801 (insomnia)
10,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The proposed etiologies, clinical features, prognosis, and drug therapy of attention deficit disorder (ADD) are reviewed. Attention deficit disorder is a common neurobehavioral problem in children that manifests as hyperactivity, impulsivity, and inattention. It may persist into adolescence and adulthood and predispose the patient to antisocial and substance-abuse disorders. Stimulant agents are the drugs of first choice for pharmacologic treatment of ADD. Methylphenidate is the most frequently used stimulant because of its reduced potential for abuse and less troublesome adverse effects compared with dextroamphetamine. Stimulant medications are usually well tolerated, with nervousness and insomnia being the most common adverse effects. The potential for stimulant-induced growth suppression during long-term treatment should be dealt with prospectively by providing drug holidays. Tricyclic antidepressants and monoamine oxidase inhibitors may be used in patients who do not respond adequately to stimulant agents. Low doses of the antipsychotic agents haloperidol, chlorpromazine, or thioridazine may be used as adjunctive treatment for ADD symptoms of hyperactivity and aggressiveness. Attention deficit disorder is not a benign disorder that children necessarily outgrow. Pharmacologic therapy should be combined with nonpharmacologic therapy to provide the greatest long-term benefits.
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PMID:Recognition and treatment of attention deficit disorder. 289 64

Within the context of the comprehensive treatment of sleep disorders, which includes medical, neurologic, psychiatric, and social interventions, use of medication is often indicated. Among the three benzodiazepine hypnotics that are available in the United States for the treatment of insomnia, flurazepam is effective for both sleep induction and maintenance, and it retains most of its efficacy over a 4-week period of nightly administration; temazepam is effective only for sleep maintenance, and triazolam improves both sleep induction and maintenance with initial but not with continued administration. Rebound phenomena are more frequent and intense with the more rapidly eliminated drug, triazolam, and to a lesser degree with temazepam. Also, with triazolam, certain behavioral side effects, such as amnesia and psychotic-like symptoms, have been reported. With flurazepam, which is a slowly eliminated benzodiazepine, daytime sedation is more frequent than with the other two drugs. When insomnia is secondary to major depression, antidepressant medication should be administered. Methylphenidate, amphetamines, or other stimulant medications are used for the symptomatic treatment of the sleepiness and sleep attacks of narcolepsy and hypersomnia. For cataplexy and the other two auxiliary symptoms of narcolepsy, imipramine or other tricyclics are the drugs of choice. Protriptyline and medroxyprogesterone have been used in treating mild cases of obstructive sleep apnea, but their efficacy is limited. Similarly, for the treatment of central sleep apnea, medroxyprogesterone and acetazolamide have shown only limited effects. Medication for patients with sleepwalking, night terrors, or nightmares should be prescribed judiciously, and primarily when treatment of an underlying psychiatric condition is desired. The neuropharmacology of sleep should also consider drugs that may cause sleep disorders. Medications with sleep disturbing effects include various antihypertensives, bronchodilators, and the energizing antidepressants. Withdrawal of REM-suppressant drugs, such as the barbiturates, may cause nightmares in association with a REM rebound. Occasionally, a drug or a combination of drugs may produce somnambulistic-like activity in some patients.
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PMID:Clinical neuropharmacology of sleep disorders. 333 64

The therapeutic use of methylphenidate for the management of attention-deficit hyperactivity disorder in children is increasing. As therapeutic use increases, the risk increases of unintentional overdoses, medication errors, and intentional overdoses caused by abuse, misuse, or suicide gestures and attempts. Side effects during therapy, which include nervousness, headache, insomnia, anorexia, and tachycardia, increase linearly with dose. Clinical manifestations of overdoses include agitation, hallucinations, psychosis, lethargy, seizures, tachycardia, dysrhythmias, hypertension, and hyperthermia. Methylphenidate tablets can be abused orally, or they can be crushed and the powder injected or snorted. Despite its abuse potential, there is disagreement regarding the extent to which methylphenidate is being diverted from legitimate use to abuse in preteens and adolescents.
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PMID:Abuse and toxicity of methylphenidate. 1198 Dec 94

Methylphenidate is commonly used for the treatment of attention-deficit hyperactivity disorder (ADHD). Its efficacy in improving the core symptoms of ADHD, as well as some of the aggressive and oppositional behaviours, is well documented, based on a large volume of research. Methylphenidate has a wide margin of safety and relatively mild adverse effects, most commonly appetite suppression and insomnia. Methylphenidate is a rapidly absorbed medication that, in its d-isomer form, readily penetrates the CNS, particularly the striatum. It appears to function by blocking the reuptake of dopamine. Both the plasma concentrations and behavioural effects of methylphenidate demonstrate a time to maximum of between 1 and 3 hours, with the maximum behavioural effects occurring when the plasma concentrations are increasing. Because of the rapid onset of action, the effects of methylphenidate can be dramatic but usually last only about 4 hours with the immediate-release formulation. The behavioural responses of individuals are also highly variable, so that it is necessary to start treatment at a low dosage and increase up to a maximally effective dosage (usually starting at 10-15 mg/day with increases of 10-15mg at weekly intervals to a maximum dosage of 60 mg/day, irrespective of formulation). Because of the variability in behavioural responses, assessment of plasma concentrations is not clinically useful nor does weight help in deciding an appropriate dosage. The difficulties in administering methylphenidate multiple times a day, particularly during the school day, have been alleviated in the past few years by the development of extended-release preparations with varying behavioural effects lasting 8-12 hours. The 8-hour preparations (Metadate) CD and Ritalin) LA) utilise a microbead technology, while the 12-hour preparation (Concerta) utilises an osmotic pump system. All extended-release formulations effectively control the symptoms of ADHD. While pharmacokinetic differences appear to exist between some of these new formulations, there are currently no clinical data available to demonstrate clinical efficacy differences between them.
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PMID:Pharmacokinetic considerations in the treatment of attention-deficit hyperactivity disorder with methylphenidate. 1501 4

Methylphenidate is a first-line therapy for attention deficit hyperactivity disorder, the most prevalent neuropsychiatric disorder of childhood. The compound is a piperidine and the D-threo-isomer is considered the biologically active form. The compound is available in multiple short- and long-acting preparations, having different delivery systems leading to varying kinetics without clear superiority in efficacy or tolerability at the group level. Common adverse effects are insomnia, appetite disturbance, stomach ache, headache and dizziness. Its mechanism of action is linked to the monoamines dopamine and norepinephrine. The compound appears to predominantly increase the synaptic concentration of dopamine, presumably via inhibition of the dopamine transporter DAT1. There also appears to be effects on presynaptic vesicular trafficking and distribution of dopamine. Both immediate- and sustained-release preparations of methylphenidate have proven efficacy in children and adults with attention deficit hyperactivity disorder. Analysis of the National Institutes of Health-sponsored multimodal treatment study of attention deficit hyperactivity disorder supports a combined medication and behavioral therapy approach.
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PMID:Methylphenidate HCl: therapy for attention deficit hyperactivity disorder. 1593 65

People with attention-deficit/hyperactivity disorder (ADHD) often experience sleep problems, and these are frequently exacerbated by the methylphenidate they take to manage their ADHD symptoms. Many of the changes to sleep are consistent with a change in the underlying circadian clock. The present study was designed to determine if methylphenidate alone could alter properties of the circadian clock. Young male mice were examined in light-dark cycles and in constant darkness and recordings were performed on behavioral activity, sleep, and electrical activity in the suprachiasmatic nucleus (SCN) of freely moving mice. Methylphenidate in the drinking water (0.08%) significantly increased activity in the mid-to-late night, and led to a delay in the onset of activity and sleep relative to the light-dark cycle. While locomotor levels returned to baseline after treatment ended, the phase angle of entrainment required at least a week to return to baseline levels. In constant darkness, the free-running period of both wheel-running and general locomotor rhythms was lengthened by methylphenidate. When the treatment ended, the free-running period either remained stable or only partially reverted to baseline levels. Methylphenidate also altered the electrical firing rate rhythms in the SCN. It induced a delay in the trough of the rhythm, an increment in rhythm amplitude, and a reduction in rhythm variability. These observations suggest that methylphenidate alters the underlying circadian clock. The observed changes are consistent with clock alterations that would promote sleep-onset insomnia.
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PMID:Methylphenidate modifies the motion of the circadian clock. 2276 23

Attention deficit hyperactivity disorder (ADHD) is a neurobehavioral developmental disorder in children and adults characterized by a persistent pattern of impulsiveness, inattention and hyperactivity. It affects about 3-10% of children and 2-5% of adolescents and adults and occurs about four times more commonly in boys than girls. The cause of ADHD is unknown, but it has strong genetic and environment components. The first-line treatment options for ADHD include behavioral therapy, pharmacotherapy with stimulants or both. Methylphenidate and amphetamine salts are the stimulant drugs of choice for ADHD treatment. Amphetamines act by increasing presynaptic release of dopamine and other biogenic amines in the brain. Methylphenidate inhibits the reuptake of dopamine and norepinephrine and therefore its pharmacology is identical to that of amphetamines. Lisdex-amfetamine is a prodrug of dextroamphetamine with low feasibility for abuse. Atomoxetine, a selective norepinephrine reuptake inhibitor, is an alternative, non-stimulant drug for ADHD but it is less efficacious than stimulants. Stimulants are generally safe but are associated with adverse effects including headache, insomnia, anorexia and weight loss. There is increased awareness about serious cardiovascular and psychiatric adverse events with ADHD drugs including concern for growth suppression in children. Stimulants have a high potential for abuse and dependence, and should be handled safely to prevent misuse and abuse.
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PMID:Current pharmacotherapy of attention deficit hyperactivity disorder. 2419 Dec 57

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