On the role of set when reading aloud: A dissociation between prelexical and lexical processing

Two experiments investigated the role that mental set plays in reading aloud using the task choice procedure developed by Besner and Care [Besner, D., & Care, S. (2003). A paradigm for exploring what the mind does while deciding what it should do. Canadian Journal of Experimental Psychology, 57, 311–320]. Subjects were presented with a word, and asked to either read it aloud or decide whether it appeared in upper/lower case. Task information, in the form of a brief auditory cue, appeared 750 ms before the word, or at the same time as the word. Experiment 1 yielded evidence consistent with the claim that at least some pre-lexical processing can be carried out in parallel with decoding the task cue (the 0 SOA condition yielded a smaller contrast effect than the long SOA condition). Experiment 2 provided evidence that such processing is restricted to pre-lexical levels (the word frequency effect was equivalent at the 0 SOA and the long SOA). These data suggest that a task set is a necessary preliminary to lexical processing when reading aloud.     

Prelimbic cortex bdnf knock-down reduces instrumental responding in extinction

Anatomically selective medial prefrontal cortical projections regulate the extinction of stimulus–reinforcement associations, but the mechanisms underlying extinction of an instrumental response for reward are less well-defined and may involve structures that regulate goal-directed action. We show brain-derived neurotrophic factor (bdnf) knock-down in the prelimbic, but not orbitofrontal, cortex accelerates the initial extinction of instrumental responding for food and reduces striatal BDNF protein. When knock-down mice were provided with alternative response options to readily obtain reinforcement, extinction of the previously reinforced response was unaffected, consistent with the hypothesis that the prelimbic cortex promotes instrumental action, particularly when reinforcement is uncertain or unavailable.The rodent medial prefrontal cortex contains cytoarchitectonically distinct subregions that can be differentiated based on efferent and afferent projection patterns, with dorsal regions—including the dorsal prelimbic cortex (PLc)—sharing similar functions that differ from those of the ventromedial prefrontal cortex, which includes the medial orbitofrontal cortex (mOFC) and infralimbic cortex. These dorsal/ventral networks are considered “go” and “stop” systems, respectively, that coincidentally guide behavior (Heidbreder and Groenewegen 2003). For example, the PLc is essential for maintaining instrumental responding for food when reinforcement is uncertain (Corbit and Balleine 2003; Gourley et al. 2008a). By contrast, ventromedial structures are associated with response inhibition, particularly in the context of stimulus–reinforcement associations (Heidbreder and Groenewegen 2003).We explore the hypothesis that the PLc may also promote goal-directed responding in the absence of reinforcement, thereby slowing the extinction of a previously reinforced instrumental response. If this is the case, diminution of the biological factors essential for activity-dependent neuroplasticity and cytoskeletal structure within the PLc might be expected to shift the balance between a dorsal “go” network and ventral “stop” network. The consequence would be a rapid decline in instrumental responding during extinction training. Indeed, we report that such a manipulation—virally knocking down BDNF, which promotes long-term potentiation (Kang and Schuman 1995; Korte et al. 1995, 1996; Patterson et al. 1996) and neuronal outgrowth (McAllister et al. 1995, 1996; Xu et al. 2000a,b; Gorski et al. 2003)—within the PLc facilitates the extinction of instrumental action.In the first experiment, group-housed ≥10 wk-old male mice bred in-house and homozygous for a floxed bdnf gene (Rios et al. 2001) were anaesthetized with 1:1 2-methyl-2-butanol and tribromoethanol (Sigma Aldrich) diluted 40-fold with saline. Mice were infused into the PLc (+2.0AP, −2.8DV, ±0.1ML) with an adeno-associated virus (AAV) expressing enhanced green fluorescent protein (EGFP) ± Cre. With needles (Hamilton Co.) centered at bregma, stereotaxic coordinates were located using Kopf''s digital coordinate system with 1/100-mm resolution (David Kopf Instruments). Viral constructs were infused over 5 min with 0.5 μL/hemisphere; needles were left in place for an additional 4 min. Mice were allowed to recover for at least 2 wk, allowing for viral-mediated gene knock-down (Berton et al. 2006; Graham et al. 2007; Unger et al. 2007). All procedures were Yale University Animal Care and Use Committee approved.Mice were then food-restricted (90-min access/day) and trained to perform an instrumental response (nose poke) for food reinforcement using Med-Associates operant conditioning chambers controlled by Med-Associates software. These 25-min training sessions were conducted daily, and one, two, or three responses on one of three apertures were reinforced with a 20-mg grain-based food pellet (variable ratio 2 schedule of reinforcement; Bioserv). Two-factor (knock-down × session) analysis of variance (ANOVA) with repeated measures (RM) indicated bdnf knock-down did not affect the acquisition of instrumental responding (main effect of infusion and infusion × session interaction Fs < 1) (Fig. 1A).Open in a separate windowFigure 1.PLc bdnf knock-down decreases instrumental responding in extinction. (A) Viral-mediated PLc bdnf knock-down had no effects on the acquisition of an instrumental response for food. Responses made on the active aperture are shown (left). Responding in extinction was, however, diminished during the first extinction session (right). The break in the extinction curve represents the passage of 1 d. (B) A second group of mice was trained to respond for food before viral construct infusion. Responding during reacquisition reminder sessions after recovery was unaffected, but extinction was again immediately facilitated, as indicated by fewer responses made during sessions 1 and 2. Representative EGFP spread is inset. (C) As a control measure, this experiment was replicated in mice initially trained to perform the task, then given a mOFC, rather than PLc, bdnf knock-down. Although reinforced responding during reacquisition was diminished, responding during extinction was unchanged. Representative EGFP spread is inset. (D) In a reversal task, PLc bdnf knock-down mice did not differ in their ability to “reverse” their responding on an aperture on the opposite side of the chamber; response inhibition—extinction of responding on the previously active aperture—under these circumstances was also unchanged. (E) An enlarged EGFP image is shown (taken from inside the white box in C). EGFP radiates laterally from the infusion site, and the medial wall of the PFC can be seen at left. Symbols represent means (+ SEM) per group (*P < 0.05; ^†P = 0.07). Arrows indicate the time of knock-down, relative to testing sessions.Response extinction was then tested with 10 15-min nonreinforced sessions (five sessions/day). Here, responses made on the previously active aperture declined as expected (F_(9,72) = 6.7, P < 0.001). An interaction between group and session for responses on the active aperture was also identified (F_(9,72) = 2.3, P = 0.03). Tukey''s post-hoc tests indicated responses made during session 1 were reduced in knock-down mice (P = 0.002) (Fig. 1A). Responses made during session 2 were reduced at a trend level of significance (P = 0.07), but responding during other sessions did not differ (all Ps > 0.3), suggesting PLc bdnf knock-down facilitated initial response suppression, but not necessarily the consolidation or expression of extinction learning (Rescorla and Heth 1975).Because knock-down could conceivably regulate extinction processes via effects on initial instrumental conditioning, we trained another group of mice to perform the response prior to knock-down. Mice were then matched based on responses made during training, and surgery proceeded. After recovery, mice were given three “reacquisition” sessions identical to training sessions, during which no differences were found for responses made on the reinforced aperture (main effect of group and interaction Fs < 1) (Fig. 1B). When reinforcement was withheld, however, bdnf knock-down mice again made fewer responses relative to control mice during sessions 1 and 2 (interaction F_(9,135) = 2.3, P = 0.02; post-hoc Ps < 0.01) but not later sessions (Fig. 1B). These data further support our conclusion that PLc bdnf knock-down decreases instrumental responding during the early phases of extinction, but do not indicate whether this effect is behaviorally or anatomically specific. In this group, post-mortem EGFP distribution indicated two mice had only unilateral bdnf knock-down; these animals were excluded.To address anatomical specificity, we replicated this experiment with bdnf knocked down in the ventrally situated mOFC. This site was chosen over the infralimbic cortex because we had greater confidence we could achieve anatomically selective knock-down in this larger region. Viral constructs were infused over 3 min with 0.25 μL/hemisphere and needles aimed AP +2.3, DV −3.0, ML ±0.1 and left in place for an additional 4 min. During reacquisition, a main effect of group on responses made on the active aperture indicated mOFC bdnf knock-down, unlike PLc bdnf knock-down, decreased reinforced responding (F_(1,9) = 7.9, P = 0.02; interaction F < 1) (Fig. 1C). No effects of knock-down were, however, detected for responses made during extinction testing (group and interaction Fs < 1) (Fig. 1C). This profile is distinct from PLc bdnf knock-down mice, in which nonreinforced, but not reinforced, responding was affected. In this group, one animal with unilateral bdnf knock-down was excluded.To address behavioral specificity, mice from Figure 1B were retrained until responding for food on the active aperture was reinstated. Then, the location of the active aperture was “reversed,” such that the previously nonreinforced aperture on the opposite side of the chamber wall was reinforced. In other words, mice trained to respond on the right-side aperture were now reinforced for responding on the left-side aperture and vice versa. This “reversal” procedure allowed us to test whether PLc bdnf knock-down facilitates extinction when reinforcement is available upon the acquisition of an alternative response. We used a highly reinforcing variable ratio 2 schedule, and test sessions lasted 45 min.Under these conditions, bdnf knock-down and control mice did not differ, responding on both the previously reinforced and the newly reinforced apertures to the same degree as control mice (main effect of genotype on nonreinforced responding F_(1,14) = 1.9, P = 0.2; reinforced responding F < 1; group × session interaction F < 1) (Fig. 1D). In other words, PLc bdnf knock-down mice showed exaggerated response inhibition in the absence of reinforcement, but not when a competing response to obtain food reinforcement was available. Main effects of session on responses made on the active and inactive apertures indicated mice acquired the “reversal” (F_(3,45) = 15.2, P < 0.001; F_(3,45) = 5.7, P = 0.002, respectively).In a final behavioral experiment, male group-housed C57BL/6J mice (Charles River Laboratories, Kingston, New York), also ≥10 wk of age at the start of the experiment, were trained and infused with BDNF to evaluate whether acute PLc BDNF infusion produced the opposite effects of gene knock-down: slowed extinction. Human recombinant BDNF (Chemicon) dissolved in sterile saline in a concentration of 0.4 μg/μL (Gourley et al. 2008b) was used, with 0.2 μL/site at AP +2.0, DV −2.5, ML ±0.1 (Gourley et al. 2008a) infused over 2 min with needles left in place for 2 min after infusion.Several studies indicate BDNF has behavioral effects for several days after infusion into the striatum (Horger et al. 1999), ventral tegmental area (Lu et al. 2004), hippocampus (Shirayama et al. 2002; Gourley et al. 2008b), and prefrontal cortex (Berglind et al. 2007, 2009). Therefore, we utilized a single-infusion protocol: Food restriction resumed on day 5 after surgery, at which point mice appeared active. Testing resumed on day 7, at which point mice were subjected to three nonreinforced test sessions. bdnf knock-down mice were affected during the first and second sessions only, so this protocol would be expected to capture the window during which BDNF had effects, if any. These mice showed the typical reduction of responding across sessions (F_(2,14) = 8.6, P = 0.004) (Fig. 2). It is worth noting that responding in control mice was lower than in previous experiments; this is likely due to the more limited recovery and food restriction time after surgery. Nonetheless, we found no effect of BDNF on responding (F < 1; infusion × session interaction F_(2,14) = 1.4, P = 0.3).Open in a separate windowFigure 2.Effects of PLc BDNF microinfusion. Mice were initially trained to perform the nose poke response for food. Responses on the active aperture during training are shown at left. Mice were then infused with BDNF; subsequent instrumental responding during extinction was unaffected. (Inset) Adrenal glands were extracted and weighed after the last extinction session as a measure expected to be sensitive to PLc manipulations. Here, BDNF decreased gland weights (represented as the weight of both glands normalized to total body weight). Symbols represent means (+ SEM) per group, *P < 0.05.To verify a physiological response to PLc BDNF infusions (despite a lack of behavioral effect), we rapidly euthanized mice after the last session and extracted and weighed the adrenal glands, which secrete the hormone, corticosterone. Corticosterone secretion is sensitive to medial prefrontal cortex lesions (Diorio et al. 1993; Rangel et al. 2003) and noradrenergic depletion (Radley et al. 2008), and adrenal weights correlate with PLc BDNF expression levels (Gourley et al. 2008a). As expected, BDNF-infused mice had lighter adrenal glands (t₍₁₀₎ = 4.2, P = 0.002) (Fig. 2), indicating effects of BDNF infusion were detectable on this measure, though not on response diminution per se.Local bdnf knock-down could conceivably act in part by retarding anterograde BDNF transport to, or BDNF synthesis in, major PLc projections sites (Sobreviela et al. 1996; Altar et al. 1997; Conner et al. 1997; Kokaia et al. 1998). BDNF in those projection regions—the dorsal and ventral striatum and multiple hypothalamic subregions (Öngür and Price 2000)—as well as in the PLc itself, was therefore quantified by enzyme-linked immunosorbent assay (ELISA; Promega) in knock-down, control, and BDNF-infused mice.Brains were rapidly harvested from extinguished mice in Figures 1A and ​and2,2, and frozen and sliced into 1-mm-thick coronal sections. Brain regions were dissected bilaterally or with a single midline extraction by tissue punch (1.2-mm diameter). Tissue was then sonicated in lysis buffer (200 μL: 137 mM NaCl, 20 mM tris-Hcl [pH 8], 1% igepal, 10% glycerol, 1:100 Phosphatase Inhibitor Cocktails 1 and 2; Sigma) and stored at −80°C. ELISAs were conducted using 65 μL/sample/well and in accordance with manufacturer''s instructions. BDNF concentrations were normalized to each sample''s total protein concentration, as determined by Bradford colorimetric protein assay (Pierce). BDNF was analyzed by ANOVA or ANOVA-on-Ranks for non-normally distributed PLc values.In the PLc, BDNF was diminished in bdnf knock-down mice as expected (H_(2,18) = 0.2, P = 0.006, post-hoc Ps < 0.05), but BDNF expression in BDNF-infused mice did not differ from the control group (P > 0.05) (Fig. 3A). BDNF in the hypothalamus (F_(2,19) = 2.6, P = 0.1) and nucleus accumbens (F < 1) was not affected. By contrast, dorsal (primarily dorsomedial) striatal BDNF expression differed between groups (F_(2,20) = 5.4, P = 0.01), with knock-down mice expressing less BDNF than the BDNF-infused group (P = 0.01). BDNF in knock-down mice did not, however, significantly differ from control mice (P = 0.09).Open in a separate windowFigure 3.Quantification of BDNF in the PLc, dentate gyrus, and downstream projection sites. (A) BDNF was quantified in the PLc and major projection sites after viral-mediated gene knock-down or acute microinfusion. BDNF was diminished in the PLc of knock-down mice as expected. BDNF was also reduced in the dorsal striatum (dstri) of these animals, while other regions were unaffected by this manipulation. NAC refers to the nucleus accumbens. (B) To confirm the effects of acute BDNF infusion could be detected under some circumstances, tissue from mice infused with BDNF into the dentate gyrus (dentate) was also analyzed. Under these circumstances, elevated BDNF was detected in the hypothalamus. *P < 0.05 relative to control and BDNF-infused groups; ^§P < 0.05 relative to BDNF-infused mice; and P = 0.09 relative to control mice.For additional analyses, we conducted ELISAs on tissue from drug-naïve mice that had had a BDNF infusion of the same volume and concentration in the dorsal hippocampus, rather than PLc. As here, these animals had been subsequently tested in an instrumental conditioning task and were sacrificed 7 d after infusion (for behavioral reports, see Fig. 4 in Gourley et al. 2008b). Like the PLc, the hippocampus projects to the striatum and hypothalamus (Groenewegen et al. 1987; Kishi et al. 2000). In this instance of acute hippocampal infusion, BDNF expression was increased in hypothalamic samples (infusion × brain region interaction F_(3,27) = 3.5, P = 0.03, post-hoc P = 0.009), consistent with previous findings (Sobreviela et al. 1996). Other regions were not affected (Ps > 0.6) (Fig. 3B).Taken together, these data indicate long-term distal effects of acute BDNF infusion are detectable when BDNF is infused into the dorsal hippocampus, though not necessarily PLc. Our data do not preclude the possibility, however, that acute PLc BDNF infusion has long-term consequences for BDNF-regulated intracellular signaling cascades in these downstream sites. For example, extracellular-signal regulated kinase 1/2 phosphorylation in the nucleus accumbens is enhanced by single BDNF infusions aimed at the anterior cingulate/PLc border (Berglind et al. 2007).To summarize, we provide evidence for decreased responding in instrumentally trained mice with PLc-selective bdnf knock-down tested in extinction. Recall of extinction learning did not appear to be affected, as group differences were restricted to test sessions 1 and 2. Time of instrumental training was not a factor, as mice trained to respond for food both before and after knock-down showed a characteristically rapid decline in responding when reinforcement was withheld.Testing mice in a spatial “reversal” task, in which mice learn simultaneously to inhibit responding on one operant and respond instead on a previously nonreinforced operant, eliminated differences in nonreinforced responding between groups. In other words, in the presence of positive reinforcement, knock-down mice did not show exaggerated response inhibition. This behavioral pattern is consistent with the PLc''s role in maintaining goal-directed action particularly under low-reinforcement conditions (Corbit and Balleine 2003; Gourley et al. 2008a). If PLc bdnf played a more general role in extinction learning, one would expect PLc bdnf knock-down mice to show rapid response diminution regardless of whether reinforcement was readily available or not, but our reversal experiment clearly illustrated this was not the case.BDNF ELISA indicated the gene knock-down protocol utilized here results in an ∼48% reduction in BDNF within the PLc and a modest reduction in the downstream dorsal striatum, providing direct evidence for effects of bdnf knock-down on PLc projection neurons (though local interneurons would also be expected to have been infected). Such effects on striatal BDNF expression may be selective to chronic manipulations, as our acute infusion protocol had no consequences for expression in downstream regions, despite actions on a peripheral measure (adrenal gland weight) and evidence of downstream effects after hippocampal infusion.While we report bdnf knock-down rapidly decreased responding early in extinction, we found that acute BDNF infusion had no effects. How might we reconcile these findings? First, it is possible that prefrontal BDNF overexpression must be chronic to have behavioral effects in this task. Second, supraphysiological BDNF-induced structural destabilization and neuronal remodeling (Horch et al. 1999; Horch and Katz 2002) or activation of cortical interneurons (Rutherford et al. 1998) may have counteracted any effects on extinction. Cortical interneuron activation in particular—a process thought to stabilize cortical activity to maintain homeostasis in local circuits—could conceivably negate any effects of BDNF infusion on prefrontal projection neurons (cf., Turrigiano and Nelson 2004; see also Berglind et al. 2007). Last, while single prefrontal BDNF infusions have been reported to suppress cue-induced drug-seeking behavior (Berglind et al. 2007, 2009), such effects may be more acute and/or selectively mediated by Pavlovian, rather than instrumental, processes.Traditionally, extinction research has focused on Pavlovian fear extinction, in which the infralimbic cortex, and not PLc, is considered the major regulatory site (Quirk and Mueller 2008). Our findings suggest the PLc may, however, be indirectly involved in instrumental extinction, as bdnf knock-down facilitated rapid response diminution in the absence of reinforcement, but not when a competing response was reinforced. These findings are consistent with the idea that under normal circumstances, the PLc invigorates responding by maintaining sensitivity to reinforcement previously available upon completion of a particular instrumental action (Corbit and Balleine 2003) or previously associated with a Pavlovian cue (Vidal-Gonzalez et al. 2006). Future studies will address whether PLc BDNF is indeed critical to the maintenance of action–outcome behavior, since the mechanisms of goal-directedness are not well-characterized. This is despite the possibility that their identification may aid in therapeutically facilitating goal-directed action when response extinction is an unproductive behavioral choice.     

Developmental differences in the use of visual information during a continuous bimanual coordination task

The authors examined the influence of different amounts of visual information when children 4 (CH4), 6 (CH6), and 8 (CH8) years of age, and adults (n = 12 in each group) performed a steady-state bimanual circle-drawing coordination task at self-selected speeds. All participants maintained in-phase coordination, but different strategies for maintaining the pattern emerged. A predictable relationship between variability and age was not observed, in that the CH8 group was not necessarily more consistent than the CH6 and CH4 groups. The authors conclude that children are transitioning from dependence on kinesthetic feedback to reliance on visual feedback around age 8, as suggested by L. Hay, C. Bard, M. Fleury, and N. Teasdale (1991; L. Hay, M. Fleury, C. Bard, & N. Teasdale, 1994; L. Hay & C. Redon, 1997), and that future studies are needed to further explore visual and kinesthetic feedback as potential control parameters during coordination tasks in developing children.     

Perceived discrimination as worldview threat or worldview confirmation: implications for self-esteem

In 3 studies, the authors tested the hypothesis that discrimination targets' worldview moderates the impact of perceived discrimination on self-esteem among devalued groups. In Study 1, perceiving discrimination against the ingroup was negatively associated with self-esteem among Latino Americans who endorsed a meritocracy worldview (e.g., believed that individuals of any group can get ahead in America and that success stems from hard work) but was positively associated with self-esteem among those who rejected this worldview. Study 2 showed that exposure to discrimination against their ingroup (vs. a non-self-relevant group) led to lower self-esteem, greater feelings of personal vulnerability, and ingroup blame among Latino Americans who endorsed a meritocracy worldview but to higher self-esteem and decreased ingroup blame among Latino Americans who rejected it. Study 3 showed that compared with women informed that prejudice against their ingroup is pervasive, women informed that prejudice against their ingroup is rare had higher self-esteem if they endorsed a meritocracy worldview but lower self-esteem if they rejected this worldview. Findings support the idea that perceiving discrimination against one's ingroup threatens the worldview of individuals who believe that status in society is earned but confirms the worldview of individuals who do not.     

Beyond pleasure: emotion activity affects the relationship between attitudes and behavior

The research examined an additional proposed moderator of the attitude-behavior relationship: the activity level of emotions associated with an attitude object. In Experiment 1, participants who self-generated active rather than passive emotions as being associated with gay men displayed greater attitude-behavior consistency in hiring recommendations for a gay job applicant, as did participants who rated active rather than passive experimenter-provided emotions as being associated with gay men. In Experiment 2, participants who were instructed to associate active rather than passive emotions with gay men subsequently displayed greater attitude-behavior consistency in similar hiring recommendations. It is suggested that future research on the affective component of attitudes might benefit from going beyond consideration of whether the associated emotions entail displeasure or pleasure.     

Reformulating infant and toddler social competence with peers

Efforts to identify children at risk for social and academic difficulties at an early age have begun to apply conceptualizations of social competence with peers from childhood to infancy and toddlerhood. These attempts have had limited success, in part because social behaviors studied in later childhood such as negative or aggressive acts may not capture relevant dimensions of social competence with peers during the infant and toddler years. The present study conducted an exploratory factor analysis to begin developing a conceptualization of social competence with peers that is appropriate for use with infants and toddlers, and that captures individual differences capable of predicting later social functioning. Results indicate three dimensions of infant and toddler social competence with peers: peer sociability, active peer refusal, and passive peer avoidance. Negative and aggressive behaviors loaded on each of the three factors rather than emerging as a unique dimension of social competence. Each factor demonstrated both convergent and predictive validity, indicating that early identification of social skills remains a reasonable goal for practitioners and researchers alike. Finally, antecedents within children, families, and out-of-home child care environments helped to explain individual variability in each of these three factors of social competence with peers.     

Varying cautionary instructions, monetary incentives, and comorbid diagnostic training in malingered psychopathology research

In this article, we combine two analogue experiments in which we empirically examined three malingering methodological issues in individuals trained and instructed to simulate posttraumatic stress disorder (PTSD) on the Trauma Symptom Inventory (TSI; Briere, 1995). In Experiment 1, we examined TSI scale effects of the following manipulations using a 2 x 2 design with 330 college students: (a) inclusion or exclusion of cautionary instructions regarding believability of participants' simulation and (b) different financial incentive levels. In Experiment 2, we examined comorbid psychiatric diagnostic training with 180 college students who were either trained to simulate PTSD and comorbid major depressive disorder or trained to simulate only PTSD. Caution main effects were significant for all but two TSI Clinical Scales, incentive main effects and interactions were only significant for one Clinical scale each, and the comorbidity manipulation did not yield any scale differences. We discuss malingering research design implications regarding the use of cautionary instructions, financial incentive levels, and comorbid training.     

Licensure of Internationally Educated Nurses Seeking Professional Careers in the Province of Alberta in Canada

While the regulation of nursing practice through licensure ensures that nurses meet minimum standards for safe competent and ethical care, it also inhibits integration of immigrant internationally educated nurses (IENs) into the Canadian professional labour market. With projections of significant nurse workforce shortages by 2010, there is impetus to enhance the numbers of licensed professional nurses through multiple strategies. The licensure processes and accompanying tensions in the Canadian context are described. As professional nurse licensure in Canada is a provincial responsibility, the situation in the Province of Alberta is used as an example. Suggestions for policy development and research include needs for better data and for gender-based analysis to address barriers to IEN licensure. The ability to practice in one’s chosen profession can be a major factor in integration of immigrants into Canadian society and thus a powerful factor in attraction and retention of highly skilled immigrants.     

New Concepts in the 2014 ACA Code of Ethics

The 2014 revision of the ACA Code of Ethics (American Counseling Association [ACA], 2014 ) substantially raises the bar for the ethical practice of professional counselors. This article provides interviews with members of the ACA Ethics Revision Task Force that explore and clarify new imperatives in the areas of ethical decision making, professional values, managing and maintaining boundaries, technology (including social media), the nonimposition of counselor personal values, counselor education, legal issues, sliding scales, and fee splitting.     

Gist-based memory for prices and “better buys” in younger and older adults

Ageing typically leads to various memory deficits which results in older adults’ tendency to remember more general information and rely on gist memory. The current study examined if younger and older adults could remember which of two comparable grocery items (e.g., two similar but different jams) was paired with a lower price (the “better buy”). Participants studied lists of grocery items and their prices, in which the two items in each category were presented consecutively (Experiment 1), or separated by intervening items (Experiment 2). At test, participants were asked to identify the “better buy” and recall the price of both items. There were negligible age-related differences for the “better buy” in Experiment 1, but age-related differences were present in Experiment 2 when there were greater memory demands involved in comparing the two items. Together, these findings suggest that when price information of two items can be evaluated and compared within a short period of time, older adults can form stable gist-based memory for prices, but that this is impaired with longer delays. We relate the findings to age-related changes in the use of gist and verbatim memory when remembering prices, as well as the associative deficit account of cognitive ageing.