Rewarding feedback promotes motor skill consolidation via striatal activity.

Knowledge of performance can activate the striatum, a key region of the reward system and highly relevant for motivated behavior. Using functional magnetic resonance imaging, striatal activity linked to knowledge of performance was measured during the training of a repetitive arc-tracking task. Knowledge of performance was given after a random selection of trials or after good performance. The third group received knowledge of performance after good performance plus a monetary reward. Skill learning was measured from pre- to post- (acquisition) and from post- to 24h posttraining (consolidation). Our results demonstrate an influence of feedback on motor skill learning. Adding a monetary reward after good performance leads to better consolidation and higher ventral striatal activation than knowledge of performance alone. In turn, rewarding strategies that increase ventral striatal response during training of a motor skill may be utilized to improve skill consolidation.

Prevalence and severity of foot pad alterations in German turkey poults during the early rearing phase.

In the previously performed field study from 2007 to 2009, it became evident that foot pad alterations were already commonly found in turkeys at the age of 6 wk. At this early age, 45% of the clinically examined birds were diagnosed with epithelial necrosis. Therefore, it became important to specifically analyze the situation during the early rearing phase. The present study reflects the prevalence and severity of foot pad alterations of turkey poults up to the age of 35 d (5 wk), starting as early as the age of 3 d. From 24 turkey farms throughout Germany, in general 5,531 turkeys [3,131 male and 2,400 female] of the British United Turkeys 6 strain from 46 flocks, were examined to that effect. Prevalence and severity increased within the duration of stay in the stable, and the prevalence was higher (P < 0.001) during the second visit between d 22 to 35 (factor: 0.94). Therefore, 27.3% (d 3 to 5; male/female: 39.1/25.0%) and 63.3% (d 22 to 35: 61.3/65.7%) of the examined poults had alterations of the foot pads, such as hyperkeratosis (d 3 to 5: 20.4/14.2%; d 22 to 35: 17.6/17.1%), high-grade hyperkeratosis with adhesive dirt (d 3 to 5: 8.7/10.7%; d 22 to 35: 29.2/39.3%), and epithelial necrosis (d 3 to 5: 0.1/0.1%; d 22 to 35: 14.6/9.3%). Female poults showed a higher risk (P < 0.001) of developing food pad alterations (factor: 0.76) than male poults. Male poults developed a higher percentage of epithelial necrosis than hens shortly before relocation. A higher stocking density during the very early rearing phase (d 3 to 5) led to a worse foot pad health status (P < 0.001). Because even mild alterations in the foot pad condition can be indicators for suboptimal design of the rearing environment and are to be seen as a pre-state for severe cases of foot pad dermatitis, it is important to set the main focus on the early rearing phase.

[Disease management. Current trend or potential solution?]. / Disease Management. Modeerscheinung oder Lösungsansatz?

Main deficit in the present health care system is the inadequate integration of service providers into therapy procedures. Disease Management opposes (objects) this. It is a method to systematically improve quality- and economic-standards. Disease management programs include the following five elements: 1. Information standardisation and information technology, 2. improvement of therapy guidelines, 3. motivational programs for service providers and patients and 4. the patient in the centre of all activities. These four elements directly influence patient therapy. With the fifth element, Outcomes Research, treatment results can be evaluated and, if necessary, additional measures taken. With this, a line of rules is established. Looking at the results of Disease Management it becomes evident that it is an interesting starting-point which offers solutions to help eradicate deficits in the present healthcare system.

Asymmetry of brain aromatase activity: region- and sex-specific developmental patterns.

Developmental patterns of aromatase activity (AA) were characterized in individual forebrain regions of the rat at gestational day (GD) 22 and postnatal days (PN) 6 and 15. Aromatase activity was measured separately in homogenates of left and right preoptic area, anterior amygdaloid area, medial amygdaloid nucleus, anterior hypothalamic area and posterior hypothalamic area, by the tritiated water method with [1 beta-3H]-androstenedione as a substrate. Region- and sex-dependent asymmetries of AA with either left-to-right or right-to-left gradients were found. They change between GD22 and PN6 and PN15 according to region-specific patterns. Thus, AA of the male medial amygdaloid nucleus of the left side is higher at GD22, lower at PN6 and equal to the right side at PN15; in females, AA of the left side is lower than AA of the right side at GD22 and higher at PN6 and PN15. In preoptic area, a side difference (left side higher) was only detected in males. Asymmetries may result from differences in the expression of the enzyme by individual cell groups, or from differences in the number of cells per area expressing the enzyme. In either case, the stage-dependent patterns of asymmetry in AA would be expected to influence sex steroid-dependent differentiation processes in individual forebrain areas.

Prenatal nicotine exposure selectively affects perinatal forebrain aromatase activity and fetal adrenal function in male rats.

Previous studies have revealed effects of prenatal nicotine treatment on fetal plasma testosterone and perinatal sexual brain differentiation in the rat. In an attempt to further elucidate the processes underlying this action of nicotine, we studied the effect of the drug on brain steroid aromatase which converts androgens to estrogens and is known to be important in sexual brain differentiation. Aromatase activity (AA) was measured by the conversion of [1 beta-3H]-androstenedione to estrone in a brain region comprising preoptic, hypothalamic and amygdaloid areas. In untreated animals, the development of AA between gestational day (GD) 18 and postnatal day (PN) 15 was similar in both sexes, except for a significant drop of AA in female brain at PN6, i.e., during the later part of the critical period for sexual brain differentiation. When time-pregnant rats were treated with nicotine delivered by an osmotic minipump for either one week (2 mg/kg/d or 6 mg/kg/d from GD12) or two weeks (6 mg/kg/d from GD8), their male offspring showed a decrease of AA to female levels at PN6, the sex difference existing at this stage thus being abolished. AA of offspring from dams bearing tartaric acid-containing minipumps or sham-operated at GD8 or GD12 was identical to that of untreated controls. No drug effect was seen in female fetuses and offspring. Sex differences in the developmental effect of nicotine may thus involve brain aromatase. An additional sex-dependent effect of nicotine was observed in the male fetal adrenal axis at GD18. Whether the drug effects on the two steroid hormone systems are interrelated, remains to be elucidated.