ライフサイエンスコーパス: psychoactive drug

1 s outweighed by that of a highly reinforcing psychoactive drug.

2 control signaling pathways targeted by many psychoactive drugs.

3 isease, neurosurgical procedures, and use of psychoactive drugs.

4 y microarray studies in animals administered psychoactive drugs.

5 gesting behavioral synergism between the two psychoactive drugs.

6 tanding platelet function and the effects of psychoactive drugs.

7 ed as a basis for decisions about the use of psychoactive drugs.

8 ronmental factors modulate responsiveness to psychoactive drugs.

9 odiazepines (1.62 [1.24-2.12]), and 47 other psychoactive drugs (0.88 [0.62-1.25]).

10 The psychoactive drug +/-3,4-methylenedioxymethamphetamine (

11 d in laboratory animals for almost all other psychoactive drugs abused by humans, as well as for nico

12 metabolic variations, medical comorbidities, psychoactive drugs, alcohol use, mental state) tend to v

13 Among the psychoactive drugs analyzed, the median environmental em

14 Caffeine, the most commonly ingested psychoactive drug and a nonselective adenosine receptor

15 Pure psychoactive drugs and direct routes of administration a

16 examined the association between the use of psychoactive drugs and road-traffic accidents.

17 duced neuroadaptations and demonstrates that psychoactive drugs and stress trigger divergent changes

18 he determination of common legal and illegal psychoactive drugs, and major metabolites, in breast mil

19 fluences of emotionality, thought speed, and psychoactive drugs--and atypical differences in individu

20 Self-medication for pain with psychoactive drugs appears especially problematic among

21 ters that are the molecular targets for such psychoactive drugs as cocaine, amphetamines, and therape

22 rce of durable fibers, nutritious seeds, and psychoactive drugs but few economic plants are so poorly

23 iffer in the initial, reinforcing effects of psychoactive drugs, but not in responses seen after the

24 The psychoactive drug caffeine influences neuronal physiolog

25 es), distinguish the pyrrolidones from other psychoactive drug classes.

26 Currently available psychoactive drugs exert their effects through 3 or 4 of

27 neral therapeutic classes into which various psychoactive drugs fall, based on high-content statistic

28 cher (F344) inbred rat strains to stress and psychoactive drugs have been related to differences in t

29 se and abuse of most other licit and illicit psychoactive drugs have been shown to be substantially h

30 or dependence was the highest for prescribed psychoactive drugs (hazards ratio, 13.0; 95% confidence

31 tor studies suggest that commonly prescribed psychoactive drugs impair driving skills.

32 te (Ritalin) is the most commonly prescribed psychoactive drug in children for the treatment of atten

33 ormone response to stimuli associated with a psychoactive drug in rats and suggest that the effect is

34 Caffeine is the most widely-consumed psychoactive drug in the world, but our understanding of

35 Nicotine, the main psychoactive drug in tobacco, is one of the most heavily

36 can contribute to the regulation of mood by psychoactive drugs in mental illnesses such as bipolar d

37 The median concentrations of psychoactive drugs in sludge from domestic WWTPs were 1.

38 ention time can affect the concentrations of psychoactive drugs in sludge.

39 tem and is a site of action for a variety of psychoactive drugs including antidepressants, amphetamin

40 titute the principal sites of action of many psychoactive drugs, including amphetamines and cocaine,

41 Several psychoactive drugs, including antidepressants, can modul

42 ilieu and is potently inhibited by number of psychoactive drugs, including cocaine, amphetamines, and

43 convincingly provided in vivo evidence that psychoactive drugs increase dopamine (DA) levels in huma

44 evious findings with other licit and illicit psychoactive drugs, individual differences in caffeine u

45 lowered by amphetamine, indicating that the psychoactive drug induced a conditioned reduction in tas

46 A major obstacle for the discovery of psychoactive drugs is the inability to predict how small

47 r in behavioral and biochemical responses to psychoactive drugs: Lewis rats show greater behavioral r

48 ctive serotonin-reuptake inhibitor, or other psychoactive drug [mainly major tranquillisers]) between

49 on of the cellular and behavioral effects of psychoactive drugs of abuse, we developed Cre/loxP condi

50 Little is known about the acute effects of psychoactive drugs on impulsivity and decision making in

51 KC is a target for the therapeutic action of psychoactive drugs, our findings indicate that the patho

52 be involved in the regulation of behavior by psychoactive drugs such as antipsychotics and mood stabi

53 is rats show greater behavioral responses to psychoactive drugs than Fischer rats and they fail to sh

54 domide ([+]-alpha-phthalimidoglutarimide), a psychoactive drug that readily crosses the blood-brain b

55 Thalidomide, a psychoactive drug that readily crosses the blood-brain b

56 nicotine, cocaine, or amphetamine, which are psychoactive drugs that induce well-documented neuroadap

57 emission rates of some of the metabolites of psychoactive drugs through WWTP discharges were higher t

58 g 1, 1992, and June 30, 1995, and had used a psychoactive drug (tricyclic antidepressant, benzodiazep

59 about current and past church attendance and psychoactive drug use.

60 A high increase in the use of psychoactive drugs was detected between 2010 and 2014, e

61 Psychoactive drugs with minimal abuse potential do not c