ライフサイエンスコーパス: drug addiction

1 ., attention deficit hyperactivity disorder, drug addiction).

2 acetylcholine, serotonin, and dopamine) and drug addiction.

3 iated with compulsive obsessive disorder and drug addiction.

4 animals toward risky options and facilitate drug addiction.

5 athological conditions, such as gambling and drug addiction.

6 include generalized anxiety, depression, and drug addiction.

7 Ca2 channels (KCNN1-3) influence alcohol and drug addiction.

8 t process for candidate medications to treat drug addiction.

9 regions of genes that have pivotal roles in drug addiction.

10 numerous societal problems, from obesity to drug addiction.

11 , RPE signaling is thought to be impaired in drug addiction.

12 that the actions of dopamine are critical to drug addiction.

13 relapses that are common in adolescent-onset drug addiction.

14 implicated in neurodegenerative disease and drug addiction.

15 lasticity, which is involved in learning and drug addiction.

16 as posttraumatic stress disorder (PTSD) and drug addiction.

17 implicated in neurodegenerative disease and drug addiction.

18 been associated with different dimensions of drug addiction.

19 new therapeutic avenue for the treatment of drug addiction.

20 pulsivity as key psychological constructs in drug addiction.

21 the pharmacogenetic treatment of alcohol and drug addiction.

22 europsychiatric disorders including PTSD and drug addiction.

23 reward processing and motivated behavior in drug addiction.

24 fy the efficacy of maintenance treatments in drug addiction.

25 not been explicitly tested in the context of drug addiction.

26 ting other neurological disorders, including drug addiction.

27 nduced drug relapse, a major factor in human drug addiction.

28 stress reactivity are central components in drug addiction.

29 tors of neuropsychiatric diseases, including drug addiction.

30 ortant in the development and persistence of drug addiction.

31 ications in reward memory and development of drug addiction.

32 rs such as posttraumatic stress disorder and drug addiction.

33 tosensory system functional development, and drug addiction.

34 biomarkers and novel therapeutic targets for drug addiction.

35 the modulation of mood disorders as well as drug addiction.

36 to advance cannabinoid-based treatments for drug addiction.

37 peutics for psychiatric disorders, including drug addiction.

38 tric disorders such as Parkinson disease and drug addiction.

39 vention of dysfunctional DA transmission and drug addiction.

40 lso inform the development of treatments for drug addiction.

41 long-term synaptic plasticity, learning, and drug addiction.

42 investigated in animal and human research on drug addiction.

43 pathophysiology of complex disorders such as drug addiction.

44 s a role in L-dopa-induced dyskinesia and in drug addiction.

45 ch as autism, schizophrenia, Alzheimer's and drug addiction.

46 tensive health complications associated with drug addiction.

47 lie several psychiatric disorders, including drug addiction.

48 including maladaptive responses involved in drug addiction.

49 ar mechanisms controlling mood disorders and drug addiction.

50 o, Parkinson disease, anxiety disorders, and drug addiction.

51 is circuit might alter behaviours related to drug addiction.

52 ny diseases and psychopathologies, including drug addiction.

53 behavioral and neurobiological framework as drug addiction.

54 nt of astrocytes in human pathophysiology of drug addiction.

55 target toward treating pain, depression, and drug addiction.

56 ology of disorders such as schizophrenia and drug addiction.

57 the NAc as a promising therapeutic lever in drug addiction.

58 rovide new insights into the neurobiology of drug addiction.

59 buse is hypothesized to increase the risk of drug addiction.

60 sting OX1 antagonism could be therapeutic in drug addiction.

61 iological processes including locomotion and drug addiction.

62 ent and relapse of drug-seeking behaviors in drug addiction.

63 prevention and treatment of both obesity and drug addiction.

64 vulnerability to relapse in rodent models of drug addiction.

65 ders including schizophrenia, depression and drug addiction.

66 such disorders as impulsivity, obesity, and drug addiction.

67 umans, paralleling the tolerance observed in drug addiction.

68 g neurocognitive endophenotype for stimulant drug addiction.

69 itivity, a known risk factor for alcohol and drug addiction.

70 rizes disorders ranging from binge eating to drug addiction.

71 ately identify new treatments for obesity or drug addiction.

72 l area (VTA) are involved at early phases of drug addiction.

73 s for epigenetic therapeutics in alcohol and drug addiction.

74 Immunotherapy is a promising treatment for drug addiction.

75 Hypocretin (orexin) signaling is involved in drug addiction.

76 aviors in the development of opioid-mediated drug addiction.

77 pioids, a potentially important mechanism in drug addiction.

78 contingent punishment is a core phenotype of drug addiction.

79 naptic plasticity, associative learning, and drug addiction.

80 ons into the epigenetic and genetic basis of drug addiction.

81 ophrenia, obsessive-compulsive disorder, and drug addiction.

82 echanisms may therefore underlie obesity and drug addiction.

83 een suggested, but never directly tested, in drug addiction.

84 ex (ACC) have been implicated in alcohol and drug addiction.

85 tex (ACC) has been implicated in alcohol and drug addiction.

86 rd-based conditioning and the development of drug addiction.

87 d has been linked with an increased risk for drug addiction.

88 g cognitive demand are a hallmark deficit in drug addiction.

89 ) neurons underlies a key pathophysiology of drug addiction.

90 e extensive knowledge of the neurobiology of drug addiction.

91 disorders such as post-traumatic stress and drug addiction.

92 that assess the factors that comprise female drug addiction.

93 is a key component of the pathophysiology of drug addiction.

94 a role for orexins in reward processing and drug addiction.

95 psychiatric disorders, including anxiety and drug addiction.

96 r example post-traumatic stress disorder and drug addiction.

97 administration environment are important in drug addiction.

98 may regulate plasticity processes underlying drug addiction.

99 amma localization in brain areas involved in drug addiction.

100 erbate neuropsychiatric disorders, including drug addiction.

101 king habits that are a key characteristic of drug addiction.

102 anisms mediating adolescent vulnerability to drug addiction.

103 ts into the genesis and neural mechanisms of drug addiction.

104 promising pharmacological approach to treat drug addiction.

105 id with neuropsychiatric diseases, including drug addiction.

106 ing behavioral adaptations that characterize drug addiction.

107 obiology of socially driven vulnerability to drug addiction.

108 n system is a potential treatment target for drug addiction.

109 to Parkinson disease, anxiety disorders, and drug addiction.

110 ious diseases including neuropathic pain and drug addiction.

111 h as schizophrenia, Parkinson's disease, and drug addiction.

112 lating impulsivity-related disorders such as drug addiction.

113 ng abstinence is a defining feature of human drug addiction.

114 interventions could be effective in treating drug addiction.

115 underpinnings for compulsive overeating and drug addiction.

116 attention-deficit hyperactivity disorder and drug addiction.

117 havioral processes related to motivation and drug addiction.

118 provide promising therapeutic approaches in drug addiction.

119 mate behaviors spanning anxiety behavior and drug addiction.

120 tagonism as a potential treatment option for drug addiction.

121 ehavioral and pharmacological treatments for drug addiction.

122 to impaired impulse control associated with drug addiction.

123 with language, autism spectrum disorder, and drug addiction.

124 al striatum (VS) as a possible treatment for drug addiction.

125 vel and effective therapeutic strategies for drug addiction.

126 embles the perceived loss of control seen in drug addiction.

127 nalling in the brain plays a central role in drug addiction.

128 entral to the development and maintenance of drug addiction.

129 se in treating neuropsychiatric diseases and drug addictions.

130 ; AOR, 1.96 [95% CI, 1.16-3.30]); history of drug addiction (4.5% stillbirths, 2.1% live births) (vs

131 ent (beta-estimate = 17.9; P = 0.004) and of drug addiction absence (beta estimate = 14.6; P = 0.049)

132 ally based sex differences in every phase of drug addiction: acute reinforcing effects, transition fr

133 of reward neural circuitry, but I argue that drug addiction also involves another major source of rei

134 the enormous societal burden of alcohol and drug addiction and abundant research describing drug-ind

135 y neurodegenerative conditions as diverse as drug addiction and age-related cognitive decline.

136 onmental predictors of risk or resilience to drug addiction and associated relapse.

137 this form of plasticity have been linked to drug addiction and cognitive disorders.

138 pation and dysregulation of these systems in drug addiction and evaluates the current understanding o

139 exhibits symptomatology that mimics that of drug addiction and is hypothesized to be due to dysregul

140 itical to the acquisition and maintenance of drug addiction and is modulated strongly by nicotine act

141 It has been implicated in drug addiction and many human neurological disorders, in

142 ward-related information and are involved in drug addiction and mental illness in humans.

143 excessive endocannabinoid signaling such as drug addiction and metabolic disease.

144 s on neuronal activity, learning and memory, drug addiction and neurodegeneration.

145 Drug addiction and neurodegenerative and neuropsychiatri

146 Drug addiction and obesity share the core feature that t

147 eward systems can increase predisposition to drug addiction and obesity.

148 delivery of appropriate siRNA for therapy of drug addiction and other brain diseases.

149 ay represent an important target relevant to drug addiction and other mental health disorders.

150 and their potential therapeutic benefits in drug addiction and other neuropsychiatric changes in rew

151 been considered as potential medications for drug addiction and other neuropsychiatric disorders.

152 motional/motivational alterations related to drug addiction and other psychiatric disorders, and thes

153 the role of volitional social interaction in drug addiction and other psychiatric disorders.

154 ep toward understanding the circuit bases of drug addiction and other psychiatric disorders.

155 studied for its association in a variety of drug addiction and pain sensitivity phenotypes; however,

156 hiatric and neurological diseases, including drug addiction and Parkinson's disease.

157 from corticolimbic brain areas implicated in drug addiction and psychiatric disorders.

158 emory, as well as brain dysfunctions such as drug addiction and psychological disorders.

159 orexin (Orx) system plays a critical role in drug addiction and reward-related behaviors.

160 hypocretin) has been implicated in mediating drug addiction and reward.

161 led by CREB have been strongly implicated in drug addiction and stress.

162 Since epigenetic changes are implicated in drug addiction and tolerance phenomenon, this study coul

163 ty, blood disorders, neurosensory disorders, drug addiction and toxicity.

164 evelopment of pharmacological treatments for drug addiction and, more generally, further our understa

165 reported among individuals with alcohol and drug addictions and contribute to the acquisition and ma

166 hold potential for the treatment of specific drug addictions and psychiatric comorbidity.

167 one of the primary behavioral components of drug addiction, and cue-elicited craving is an especiall

168 rst time this impaired insight hypothesis in drug addiction, and examined its potential association w

169 would someday lead to better treatments for drug addiction, and he would be gratified to know that s

170 mily of KCNN genes in alcohol, nicotine, and drug addiction, and identify KCNN3 as a mediator of volu

171 a variety of disorders including depression, drug addiction, and neuropathic pain.

172 is implicated in neurodegenerative diseases, drug addiction, and neuropsychiatric disorders.

173 role in the motivational systems underlying drug addiction, and recent work has suggested that they

174 ranging from depression to eating disorders, drug addiction, and related compulsive pursuits of rewar

175 rs, including Alzheimer's disease, epilepsy, drug addiction, and schizophrenia.

176 of plasticity that control vulnerability to drug addiction, and that this increased vulnerability is

177 triatal function in models of depression and drug addiction, and thus we hypothesized that dorsal str

178 treatment of motivational disorders such as drug addiction, anxiety, and depression.

179 licated in several disease states, including drug addiction, anxiety, depression, obesity, and chroni

180 romising lead compounds for the treatment of drug addiction, anxiety, pain or obesity.

181 the etiology, development, and treatment of drug addiction are considered.

182 We and others showed previously that cancer drug addiction arises also in the hematologic malignancy

183 ment of neuropsychiatric disorders including drug addiction, as well as prefrontal cortical refinemen

184 een postulated as a behavioral treatment for drug addiction based on its preventive effects in animal

185 cal gamblers in core circuitry implicated in drug addiction, but also highlights some subtle differen

186 een speculated to foster relapse and further drug addiction, but direct evidence is lacking.

187 een speculated to foster relapse and further drug addiction, but direct evidence is lacking.

188 y induced by drugs of abuse for behaviors of drug addiction, but GluA1 roles in emotional learning an

189 retin/orexin system plays a critical role in drug addiction, but the potential participation of this

190 Adolescents are especially prone to drug addiction, but the underlying biological basis of t

191 the possibility of developing therapies for drug addiction by targeting ASIC-dependent neurotransmis

192 Drug addiction can be conceptualized at a basic level as

193 A decade ago, we hypothesized that drug addiction can be viewed as a transition from volunt

194 This process is 'hijacked' by drug addiction, causing cue-induced cravings and relapse

195 ransition from casual drug use to compulsive drug addiction could aid in the development of treatment

196 physiology of several human diseases such as drug addiction, depression, neurodegenerative disorders,

197 PTSD and drug addiction each involve dysregulation of brain rewar

198 as energy balance, memory, circadian rhythm, drug addiction, etc.

199 chanisms that underlie the predisposition to drug addiction from effects of drugs in adolescents.

200 Drug addiction has been associated with lack of insight

201 However, its involvement in drug addiction has been minimally explored.

202 Drug addiction has devastating consequences on social be

203 These observations echo two core features of drug addiction: high motivation to seek addictive substa

204 striatum is important for the development of drug addiction; however, a precise understanding of the

205 h as obsessive-compulsive disorder (OCD) and drug addiction; however, additional work is needed to ad

206 tion of the brain's reward circuitry seen in drug addiction; however, the specific genes regulated an

207 l for the first time the mechanism of cancer drug addiction in ALK-positive ALCL and the benefit of s

208 us cannabinoid system has been implicated in drug addiction in animal models.

209 s associated with increased vulnerability to drug addiction in humans and experimental animals.

210 morphisms are associated with aggression and drug addiction in humans.

211 ext significantly enhances vulnerability for drug addiction in male rats.

212 -related disorders, including depression and drug addiction in people.

213 Drug addictions including alcoholism are characterized b

214 Studies on animal models of drug addiction indicate that persistent long-term potent

215 psychiatric disorders, from schizophrenia to drug addiction, involve abnormalities in both the mesoli

216 Drug addiction is a chronic disorder associated with rec

217 Drug addiction is a chronic disorder characterized by a

218 Drug addiction is a chronic disorder characterized by co

219 Drug addiction is a chronic relapsing disorder of compul

220 Drug addiction is a chronic, relapsing disease caused by

221 Drug addiction is a chronically relapsing disorder chara

222 Drug addiction is a chronically relapsing disorder chara

223 Drug addiction is a chronically relapsing disorder chara

224 Drug addiction is a complex neuropsychiatric disorder th

225 portant alternative for teens with ADHD when drug addiction is a concern.

226 Drug addiction is a long-lasting disease characterized b

227 Drug addiction is a neuropsychiatric disorder marked by

228 Drug addiction is a neuropsychiatric disorder that marks

229 Cancer drug addiction is a paradoxical resistance phenomenon, w

230 ward-related behavior.SIGNIFICANCE STATEMENT Drug addiction is a widespread public health concern oft

231 Drug addiction is associated with a relative devaluation

232 The development of drug addiction is associated with functional adaptations

233 Drug addiction is characterized by compulsive drug-takin

234 Drug addiction is characterized by persistent relapse vu

235 The difficulty in treating drug addiction is compounded by the high comorbidity wit

236 Drug addiction is defined as a chronic disease character

237 Drug addiction is driven, in part, by powerful and endur

238 Drug addiction is driven, in part, by powerful drug-rela

239 Development of drug addiction is extremely complex, but its initiation

240 s addicted, but the likelihood of developing drug addiction is greater in people with a family histor

241 ggest treating the stress-related aspects of drug addiction is likely to be an important contributing

242 Drug addiction is marked by pathological drug seeking an

243 Drug addiction is mediated by complex neuronal processes

244 Drug addiction is one of the top three health concerns i

245 A prominent aspect of drug addiction is the ability of drug-associated cues to

246 Importance: A common trigger for relapse in drug addiction is the experience of craving via exposure

247 IGNIFICANCE STATEMENT The biggest problem in drug addiction is the high propensity to relapse.

248 As a hallmark of drug addiction is the inability to limit drug use despit

249 the importance of LTP for various aspects of drug addiction is unclear.

250 sive-like behaviors in mice, but its role in drug addiction is unknown.

251 ubregions of the mesocorticolimbic system in drug addiction is unknown.

252 specific subregions of the reward system in drug addiction is unknown.

253 as aimed to outline the neural mechanisms of drug addiction, it has overwhelmingly focused on male su

254 Drug addiction may be a goal-directed choice driven by e

255 in NAc function similar to those underlying drug addiction may contribute to obesity, particularly i

256 merging evidence suggesting that obesity and drug addiction may share common hedonic mechanisms will

257 in midbrain dopaminergic regions involved in drug addiction, mental illness, and movement control in

258 using the theoretical framework of prominent drug addiction models, investigating the neurobiological

259 itters in the control of energy homeostasis, drug addiction, mood and motivation, sleep-wake states,

260 mine D2 receptor (D2R) and are implicated in drug addiction, movement disorders, and nociception.

261 Drug addiction, neurodegenerative and neuropsychiatric d

262 nd its activator p35 have been implicated in drug addiction, neurodegenerative diseases such as Alzhe

263 d role of glutamatergic neurotransmission in drug addiction, novel medication development strategies

264 ders of the CNS, including schizophrenia and drug addiction, our findings have substantial clinical r

265 s been widely studied for its association in drug addiction, pain sensitivity, and, more recently, so

266 Negative reinforcement theories of drug addiction posit that addicts use drugs to alleviate

267 The drug addiction process shares many commonalities with no

268 Leading theories of drug addiction propose that repeated drug exposure produ

269 t not those to BRAFi alone, displayed robust drug addiction, providing a potentially exploitable ther

270 As for other drug addictions, reduced baseline frontal metabolism is

271 escence is associated with increased risk of drug addiction relative to any other age group.

272 g opiate methadone is commonly used to treat drug addiction, relatively little is known about the eff

273 emories of drug reward in the development of drug addiction remain unclear.

274 mechanisms that shape risk or resilience for drug addiction remain unclear.

275 Drug addiction remains a prevalent and fatal disease wor

276 While the role of NAc FSIs in the context of drug addiction remains poorly understood, emerging evide

277 Drug addiction represents a dramatic dysregulation of mo

278 A critical component of drug addiction research involves identifying novel biolo

279 Drug addiction results in part from maladaptive learning

280 leus accumbens (NAc) have been implicated in drug addiction, reward, and mood disorders.

281 erse developmental factors known to increase drug addiction risk.

282 8A haplotypes with eQTL SNPs associated with drug addiction (rs510769) and obesity (rs9478496) in pop

283 myriad neuropsychiatric disorders, including drug addiction, schizophrenia, depression, epilepsy, and

284 partly responsible for the increased risk of drug addiction seen in adolescents.

285 Compulsion is a cardinal symptom of drug addiction (severe substance use disorder).

286 s both with and without clinically diagnosed drug addiction, siblings of addicted individuals, and co

287 ing of impulsivity-related disorders such as drug addiction.SIGNIFICANCE STATEMENT The claustrum is o

288 jections, are often used as a model to study drug addiction, similar effects have been difficult to d

289 In drug addiction such symptomatology has been attributed t

290 addictions share many clinical features with drug addictions, they show strikingly large variation in

291 he future treatment of relapse prevention in drug addiction through memory reconsolidation blockade.

292 Here we used established rodent models of drug addiction to determine whether they would be sensit

293 on is implicated in pathologies ranging from drug addiction to Parkinson's disease.

294 ic research on neurobiological mechanisms of drug addiction, treatment options remain largely unchang

295 amine (DA) neurons, which is associated with drug addiction, was impacted by PE.

296 n is postulated to increase vulnerability to drug addiction-was impaired in both adolescent mice and

297 Using procedures established to model drug addiction, we showed that a subpopulation of CD-1 m

298 he striatum is involved in the mechanisms of drug addiction, we studied how the transgene affected st

299 Development of new treatments for drug addiction will depend on high-throughput screening

300 postulated to play key roles in alcohol and drug addiction; yet, to date, little is understood regar