Pemoline Therapy in College Students with Attention Deficit Hyperactivity Disorder: A Retrospective Study

Heiligenstein, Eric; Johnston, Hugh F.; Nielsen, Julie K.

doi:10.1080/07448481.1996.9937543

Cited by 21 publications

(20 citation statements)

References 20 publications

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“…Also, several nonstimulant medications (e.g., atomoxetine) have been found to significantly reduce ADHD symptoms in adults [Wilens, 2003]. Surprisingly, only one study has examined stimulant medication response specifically in college students, with Heiligenstein et al [1996] finding a positive treatment response for a majority of students treated with this medication. This study used a retrospective research design and so there are no double-blind, placebo-controlled studies available for any medication treatment for this population.…”

Section: Treatment and Interventionmentioning

confidence: 96%

ADHD in college students: Developmental findings

Weyandt

DuPaul

2008

Dev Disabil Res Revs

108

115

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According to the American Psychiatric Association [DSM-IV-TR, 2000], Attention-Deficit Hyperactivity Disorder (ADHD) affects approximately 3-7% of the school aged population and 2-4% of the adult population. Recently, college students with ADHD have begun to receive more attention, largely due to the increase in numbers of high school students with ADHD pursuing higher education, as well as reports of prescription stimulant misuse on college campuses. The purpose of the present article is to summarize major research findings concerning developmental issues facing college students with ADHD. Overall, findings suggest that relative to the general college population, college students with ADHD are at greater risk for academic and psychological difficulties, and misuse of prescription stimulants is indeed a problem on many campuses. Primary treatment strategies include psychostimulant medication, coaching, and educational accommodations; however, very little controlled treatment outcome research has been conducted with this population. These findings are preliminary and are tempered by methodological limitations as well as the small number of studies that have been conducted. Future research using larger sample sizes, rigorous assessment criteria, and employing longitudinal designs is needed to better understand the developmental issues facing college students with ADHD.

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Section: Treatment and Interventionmentioning

confidence: 96%

ADHD in college students: Developmental findings

Weyandt

DuPaul

2008

Dev Disabil Res Revs

108

115

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“…In relation with this function, the DAT plays a pivotal, yet not exclusive, role in the reinforcing properties of drugs of abuse (Ritz et al 1987;Madras et al 1989;Kuhar et al 1991;Rocha et al 1998). On the other hand, mutations in the DAT gene are suggested to be associated with several behavioral disorders (Rowe et al 1998;Swanson et al 1998), and blockers of the neuronal uptake of catecholamines are useful therapeutic agents for narcolepsy and attention deficit hyperactive disorder (Heiligenstein et al 1996). Consequently, a better knowledge of the mechanisms underlying DAT functioning remains a primary goal to achieve.…”

Section: Introductionmentioning

confidence: 99%

Binding of uptake blockers to the neuronal dopamine transporter: further investigation about cationic and anionic requirements

Corera

Costentin

Bonnet

2000

Naunyn-Schmiedeberg's Archives of Pharmacology

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Effects of ions on the binding of uptake blockers to the rat dopamine transporter (rDAT) labelled with [3H]WIN 35,428 [2beta-carbomethoxy-3beta-(4-fluorophenyl)-[3H] tropane] and [3H]mazindol were studied at 20 degrees C. [3H]WIN 35,428 binding increased with Na+ concentrations of up to 10-60 mM and decreased at higher concentrations. At pH 7.4, incubation media containing NaCl and/or Na2HPO4/NaH2PO4 were less stimulant than an NaHCO3/NaH2PO4 medium and they shifted maximal binding values to higher ionic concentrations. In an NaHCO3/NaH2PO4-buffered medium, Na+ concentrations >10 mM decreased the binding of 0.2 nM [3H]WIN 35,428, but an increase of the radioligand concentration shifted this decrease to the right. [3H]Mazindol binding was stimulated by Na+ concentrations < or =10 mM and was rather unaffected at higher concentrations. The inhibition of [3H]WIN 35,428 binding produced by 130 mM Na+ was independent of the nature of the anion; in contrast, isothionate and H2PO4-/HCO3 produced a more pronounced inhibition of the [3H]mazindol binding than Cl- and Br-, whereas I- tended to be a stimulant. Ca2+ and Mg2+ more potently inhibited the [3H]WIN 35,428 binding than K+. All these cations recognize a site which is not mutually exclusive with that of the radioligand since they induced the dissociation of the [3H]WIN 35,428-rDAT complex, an effect which was reduced (K+) or modified (Ca2+) when the Na+ concentration was increased. This site is likely to be the Na+ site by which low Na+ concentrations allosterically stimulate the uptake blocker binding. However, the intensity of the cation-induced dissociations was moderate and the main component of the binding inhibition that these cations produced results from the occupancy of a cation site, mutually exclusive with that of the radioligand. Thus, the WIN 35,428 binding inhibition produced by Ca2+, K+ and Na+ was competitive, and Na+ reduced the inhibitory potency of Ca2+ and K+. This reduction was more intense for Ca2+ and Mg2+ than for K+, suggesting that occupancy of the cation site by a divalent cation activated a strong negative allosteric interaction between this site and the Na+ site. Decrease in the Na+ concentration from 10 mM to 5 mM, or replacement of 5 mM HCO3-/H2PO4- by an equimolar concentration of isethionate or Cl- did not modify [3H]WIN 35,428 binding dissociation. Level(s) at which anions stimulate and inhibit the binding of uptake blockers remain uncertain and could be specific for each radioligand.

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“…13, 14 One trial involving 35 adults contained two 4-week treatment periods separated by a 2-week washout period. 13 Patients suffered chron-…”

Section: Pemolinementioning

confidence: 99%