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1 l differences in compulsive "addiction-like" aggressive behavior.
2 ep and arousal, reward, fear, and social and aggressive behavior.
3 tor in the pathophysiology of antisocial and aggressive behavior.
4 s specific host, and is characterized by its aggressive behavior.
5 ilience to punishment-induced suppression of aggressive behavior.
6 to have the same deletion and presented with aggressive behavior.
7 sensory modality in the context of intermale aggressive behavior.
8 an be used clinically to predict the risk of aggressive behavior.
9 on of sex steroid-dependent reproductive and aggressive behavior.
10 ent studies analyzing isolated indicators of aggressive behavior.
11 ium rosenbergii to study the neural basis of aggressive behavior.
12 rse stressors and prevention of uncontrolled aggressive behavior.
13 the hope that this approach will reduce the aggressive behavior.
14 underlying manifestation of and variation in aggressive behavior.
15 lzheimer's disease and psychosis or agitated/aggressive behavior.
16 octopamine plays a role in the modulation of aggressive behavior.
17 te an indolent behavior and others show more aggressive behavior.
18 r than most existing methods used to measure aggressive behavior.
19 in the limbic circuitry mediating escalated aggressive behavior.
20 ative for both EGFRvIII and YKL-40 show less aggressive behavior.
21 In adults, fluoxetine treatment inhibited aggressive behavior.
22 d social sniffing and allogrooming, and less aggressive behavior.
23 is associated with the acquisition of a more aggressive behavior.
24 tral 5-HT may be especially prone to exhibit aggressive behavior.
25 reater efficacy than haloperidol in reducing aggressive behavior.
26 erized malignant neoplasms with particularly aggressive behavior.
27 ons by higher proliferative indices and more aggressive behavior.
28 l meningiomas (WHO grade II) with clinically aggressive behavior.
29 trition may help reduce later antisocial and aggressive behavior.
30 ave been correlated with heightened maternal aggressive behavior.
31 n the VNO and a specific defect in male-male aggressive behavior.
32 a quantitative trait locus (QTL) sting-2 for aggressive behavior.
33 be sufficient to selectively alter maternal aggressive behavior.
34 x and interconnected areas display impulsive aggressive behavior.
35 ital/medial prefrontal circuit and impulsive aggressive behavior.
36 ishment, but capital punishment is itself an aggressive behavior.
37 role of nitric oxide (NO) in male impulsive aggressive behavior.
38 powerful tool for analyzing the evolution of aggressive behavior.
39 erved in human prostate tumors and linked to aggressive behavior.
40 ce of interactions among these molecules and aggressive behavior.
41 be present in individuals with pathological aggressive behavior.
42 viduals respond to the eliciting of imagined aggressive behavior.
43 several biogenic amines and neuropeptides on aggressive behavior.
44 rders who exhibit relatively milder forms of aggressive behavior.
45 ian split on a six-item history of adulthood aggressive behavior.
46 s involving emotionally neutral behavior and aggressive behavior.
47 he orbitofrontal cortex in the expression of aggressive behavior.
48 f the frontal lobes often lead to abnormally aggressive behavior.
49 means of preventing and managing physically aggressive behavior.
50 aggressive tension during the imagination of aggressive behavior.
51 te their consequences for the development of aggressive behavior.
52 re crucially involved in the pathogenesis of aggressive behavior.
53 s consisting of autistic, hyperactive and/or aggressive behavior.
54 Exogenous T on its own did not modulate aggressive behavior.
55 which probably accounts for their clinically aggressive behavior.
56 are vascular tumor which has an intermediate aggressive behavior.
57 strate mesenchymal properties and coincident aggressive behavior.
58 duals with recurrent, problematic, impulsive aggressive behavior.
59 ing on female mate choice, pair-bonding, and aggressive behavior.
60 which ultimately could restart with similar aggressive behavior.
61 xia inducible factor-1alpha (HIF-1alpha) and aggressive behavior.
62 layed higher rates of proliferation and more aggressive behavior.
63 school performance, prosocial behavior, and aggressive behavior.
64 nsporter, during P22-41 also increases adult aggressive behavior.
65 ting that it could contribute to synoviocyte aggressive behavior.
66 get for the prevention of alcohol-heightened aggressive behavior.
67 CL2 or BCL6 translocations conferring a very aggressive behavior.
68 specifics as well as simultaneously decrease aggressive behaviors.
69 onkeys) displaying affiliative, neutral, and aggressive behaviors.
70 in the dorsal raphe nucleus (DRN) escalated aggressive behaviors.
71 food, and demonstrated fewer species-typical aggressive behaviors.
72 ty, which in turn, is proposed to disinhibit aggressive behaviors.
73 dult behaviors develop, including sexual and aggressive behaviors.
74 pared with WT males in the rare instances of aggressive behaviors.
75 ogeneity resulting from a selection for more aggressive behaviors.
76 t alcohol's effects on mating, locomotor, or aggressive behaviors.
77 ns to appetitive and consummatory sexual and aggressive behaviors.
78 features of this malignancy account for such aggressive behavior?
79 (0.75 times as high; 95% CI: 0.57, 0.99) and Aggressive Behavior (0.82 times as high; 95% CI: 0.70, 0
80 t-intruder test they exhibited: 1) increased aggressive behavior; 2) potentiated corticosterone and t
82 adolescent expression of 5-HT1BRs influences aggressive behavior, a distinct set of 5-HT1B receptors
84 In contrast, GABA agonists did not escalate aggressive behaviors after microinjection into the media
85 uate the efficacy of divalproex for reducing aggressive behavior among children 6 to 13 years old wit
87 cinoma (CC) characteristics that have a more aggressive behavior and a poorer prognosis than classic
88 g adolescent development directly stimulates aggressive behavior and alters LAH 5HT and AVP developme
89 Administration During Adolescence Stimulates Aggressive Behavior and Alters Serotonin and Vasopressin
91 reeding stage, they display reproductive and aggressive behavior and have elevated circulating testos
93 ut the influence of religious affiliation on aggressive behavior and how moral objections can reduce
94 stories of recurrent, problematic, impulsive aggressive behavior and in nonaggressive comparator subj
97 r regulator of endocytosis, is predictive of aggressive behavior and metastatic ability in human brea
98 ssion was significantly associated with more aggressive behavior and more cancer deaths and supported
99 ent pattern and from passive to increasingly aggressive behavior and negative self-representation.
101 CC may provide a partial explanation for the aggressive behavior and poor prognosis of these tumors i
103 xpression of SHH, breast cancer cells showed aggressive behavior and rapid xenograft growth character
104 melanoma (CMM), already known for its highly aggressive behavior and resistance to conventional thera
105 eu gene in breast cancers is associated with aggressive behavior and resistance to therapeutic regime
107 serotonin activity in setting thresholds for aggressive behavior and support a direct association bet
108 signaling may play a significant role in the aggressive behavior and treatment resistance of hypoxic
111 irst evidence that phytoestrogens can affect aggressive behavior and, concurrently, alter hormonal st
112 y for adolescents experiencing problems with aggressive behavior and/or impulse control associated wi
113 weaned at young ages show more abnormal and aggressive behaviors and cognitive deficits compared to
114 detect male-specific pheromones that elicit aggressive behaviors and dictate the choice of sexual pa
116 sleep, school performance, and prosocial and aggressive behaviors and that these effects are mediated
117 , but not P2-21 or P182-201, increases adult aggressive behavior, and 5-HTT blockade from P22-P41 red
118 n therapy, greater genomic instability, more aggressive behavior, and a poor clinical prognosis.
119 ent video games, leading to desensitization, aggressive behavior, and gender inequity in opportunitie
121 rates of depressive symptoms, substance use, aggressive behavior, and internalizing problems but fast
123 age regression, hyperactivity, impulsive and aggressive behavior, and mental retardation developed in
124 of patients with dementia exhibit physically aggressive behavior, and this aggression is strongly lin
125 gous null mice showed deficits in mating and aggressive behaviors, and the deficiencies in Sk3(-/-) m
127 ed functional impairment, alcohol misuse, or aggressive behavior as comorbid factors occurring with P
128 enes that have been previously implicated in aggressive behavior as well as many novel loci, includin
129 ant determinant of tumor differentiation and aggressive behavior, as well as a potential therapeutic
131 d not appear to require the overt display of aggressive behavior because it was present in both the d
132 group sizes that they preferred and in their aggressive behavior; both of these behaviors influenced
133 ow concentration of CSF 5-HIAA is related to aggressive behavior but does not show the same relations
135 in have been implicated in the regulation of aggressive behavior, but it has remained challenging to
137 T can rapidly (within 60 minutes) potentiate aggressive behavior, but only among men with dominant or
138 he alpha7 nAChR as an important regulator of aggressive behavior, but the underlying neurobiological
139 and cortisol have been proposed to influence aggressive behavior by altering the neural processing of
140 nt feedback loop, whereby it promotes a more aggressive behavior by human prostate cancer cells.
141 he present report, a detailed examination of aggressive behavior by using mutant strains and other te
142 The molecular mechanisms accounting for the aggressive behavior caused by the lack of neuronally der
144 ociation remained significant after previous aggressive behavior, childhood neglect, family income, n
146 siRNA in CSLCs resulted in the inhibition of aggressive behavior, consistent with the inhibition of E
147 baseline levels of testosterone (T) promote aggressive behavior, decades of research have produced f
149 data suggest that the specific type of overt aggressive behavior demonstrated by these models may be
151 dels, indicate that the distinctive types of aggressive behaviors displayed by these two murine model
162 edly that B cell depletion induced transient aggressive behavior in BDC2.5 diabetogenic T cells and r
163 t hypersensitivity and thus reduce anger and aggressive behavior in borderline personality disorder o
167 ent in the evolution of different degrees of aggressive behavior in honey bees involved changes in re
168 d the oncogene Neu, which is associated with aggressive behavior in human breast cancers, in MCF-7 ce
170 plays a key role in shaping competitive and aggressive behavior in humans, possibly by modulating th
177 the genetic architecture that predisposes to aggressive behavior in people is challenging because of
178 validated decision-making game that measures aggressive behavior in response to social provocation.
180 lopride showed dose-dependent suppression of aggressive behavior in the absence of changes in mobilit
184 l in its natural habitat and that we can use aggressive behavior in this species as an index of cross
188 PD, a region associated with both sexual and aggressive behaviors in rats, hamsters, and mice, showed
189 cute sleep deprivation profoundly suppresses aggressive behaviors in the fruit fly, while other socia
194 blast-like synoviocytes (FLS) display unique aggressive behavior, invading the articular cartilage an
200 Our results support the view that TP-induced aggressive behavior is the result of a TP-mediated neuro
201 n effect of violent video game play on later aggressive behavior, little is known about the psycholog
203 a mirror, in which case, despite expressing aggressive behavior, males did not experience either a v
204 sets of patients have short attention spans, aggressive behaviors, mood disorders, or schizophrenia.
205 ent development to brain areas implicated in aggressive behavior, most notably the latero-anterior hy
206 aging implicate altered reward processing in aggressive behaviors, no previous studies have documente
209 ine/paracrine factor that contributes to the aggressive behavior of aRMS cells, perhaps through a pos
210 nase-2 (COX-2) expression contributes to the aggressive behavior of breast and other malignancies.
214 ed as promoting invasion and correlates with aggressive behavior of human cancers and thus agents tha
215 he molecular pathways that contribute to the aggressive behavior of human cancers is a critical resea
216 identify metabolic features that support the aggressive behavior of human neuroendocrine (NE) cancers
217 plications of other CAs points to a uniquely aggressive behavior of hypo-13 CA (present in 16% of pat
219 carcinomas and suggest an intrinsically more aggressive behavior of IBD-associated colon carcinomas c
220 )-c-Src signaling module may account for the aggressive behavior of integrin alpha(v)beta(3)-expressi
225 lish that EGFR-MET signaling is critical for aggressive behavior of NSCLCs and rationalize its contin
226 e of the genetic and molecular bases for the aggressive behavior of pancreatic cancer have been uncov
227 ling the molecular mechanisms underlying the aggressive behavior of pancreatic cancer is a necessary
229 The mechanisms underlying the potential for aggressive behavior of prostate cancer (PCa) remain elus
230 ion is an important mechanism underlying the aggressive behavior of prostate cancer cells and their r
232 t that MUC1 dysregulation is associated with aggressive behavior of PTC and may serve as a prognostic
234 ee of Aurora A expression may play a role in aggressive behavior of RTs and that targeting expression
236 stions on the neuromodulators that influence aggressive behavior of the fruit fly Drosophila melanoga
238 However, our understanding of the potential aggressive behavior of these cancers has been largely ba
241 ion of Prox1 was sufficient to induce a more aggressive behavior of tumors growing in syngenic mice,
244 losses at chromosome 2q are associated with aggressive behavior of various forms of human neoplasia.
245 eviously unanticipated role in mediating the aggressive behavior of vascular neoplasms such as KS.
246 ion paradox is solved to the extent that the aggressive behavior of which victims were accused was fr
248 increased alpha-tubulin acetylation and the aggressive behaviors of basal-like breast cancers, with
249 agulation, coagulation factor FVIIa enhances aggressive behaviors of breast cancer cells, but the und
251 umor progression, but the dependence of this aggressive behavior on tumor-stromal interaction is poor
252 g, we were able to experimentally evoke this aggressive behavior only when an auditory cue (advertise
253 easures were also separately associated with aggressive behavior (OR = 1.09, 95% CI: 1.04-1.14 and OR
255 bute to their effects on specific sexual and aggressive behaviors pose significant challenges for mou
256 ent of developmentally limited impulsive and aggressive behaviors rather than psychotic symptoms.
257 hA5 receptor may be involved in mediation of aggressive behavior regulated, in part, by hypothalamic
260 measure was the proportion of children whose aggressive behavior remitted, defined by post-trial rati
261 spectrum (n = 82; 30.1%), and disruptive or aggressive behavior spectrum (n = 60; 22.1%) disorders.
262 lap during calling bouts consistently evoked aggressive behavior; stimuli lacking bimodal temporal ov
263 The most intense positivity correlated with aggressive behavior such as intraocular tissue invasion
265 terone selectively increases status-relevant aggressive behaviors, such as responses to provocation,
266 nergic turnover were coincident with altered aggressive behavior, suggesting a relationship between t
267 on of CD-1 mice demonstrate "addiction-like" aggressive behavior, suggesting an evolutionary origin f
268 ns important in the regulation of sexual and aggressive behavior suggests that local estrogen synthes
269 5% confidence interval (CI): 1.13, 2.32] and Aggressive Behavior syndromes (1.29 times greater; 95% C
272 ough the PE group exhibited higher levels of aggressive behavior, there were no statistically signifi
273 ely, while injection of SCH-23390 suppressed aggressive behavior, these reductions were met with alte
274 displayed heightened avoidant, anxious, and aggressive behaviors, those with hippocampal lesions als
275 ssion leads to a proliferative advantage and aggressive behavior through largely unknown mechanisms.
278 outbred lines of rats selected for tame and aggressive behavior toward humans for >64 generations.
279 dicate that the serotonergic system inhibits aggressive behavior toward same-sex conspecifics, while
280 Melanoma exhibits increased incidence and aggressive behavior under transplant-related immunosuppr
281 e knock-out mice that exhibit alterations in aggressive behavior, very little progress has been made
283 ne levels and the expression of intraspecies aggressive behavior was evaluated in two murine models.
285 dorants to females to increase resident male aggressive behavior, we find that female mice undergo re
287 l scenario, the imagined scenarios involving aggressive behavior were associated with significant emo
290 lon should have a positive relationship with aggressive behavior, whereas AVT-ir neuronal features in
291 ltaNp63 expression characterized tumors with aggressive behavior, whereas tumors with high TAp63 expr
292 n understanding the etiology of disorders of aggressive behavior, whether genetic or environmental in
294 lzheimer's disease and psychosis or agitated/aggressive behavior who were randomly assigned to receiv
295 s cell carcinoma (HNSCC) is characterized by aggressive behavior with a propensity for metastasis and
296 e genome contributes to the manifestation of aggressive behavior with widespread epistatic interactio
298 ceptible to predators and will also modulate aggressive behavior within a territory of limited or dep
299 the imaginal evoking of scenarios involving aggressive behavior would be associated with a modulatio
300 assessed the extent to which T's effects on aggressive behavior would depend on variability in trait
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